13. H. gracilis V.Poelln., Feddes Repert.Spec.Nov. 27:133(1929). idem. 41:201(1937). idem., Des.Pl.Life 9:90(1937). idem., Feddes Repert.Spec.Nov. H. translucens sensu Bayer :162(1976). Bayer ::56(1982). non Scott :69(1985). Type: Graaff-Reinet, Amalienstein, Willowmore, Stellenbosch. Not preserved. Neotype (designated here): CAPE-3326 (Grahamstown): Hellspoort (-BA), Britten (PRE).
gracilis: graceful.
Rosette stemless. to 6cm φ, proliferous. Leaves 30-40, lanceolate acuminate, incurved with slender short marginal spines, pale greyish-green, upper surface translucent between lines. Inflorescence simple to 200mm. Flowers white.
1982 – Reflection on the first edition of the Handbook showed that there were two main areas of uncertainty. The first of these was the relation of the blue‑green species, i.e. H. semiviva, H. bolusii, H. blackbeardiana and H. cooperi. The second was H. translucens. In the introduction it is stated that H. bolusii, H. cooperi, H. cymbiformis, H. habdomadis and H. decipiens diffuse into the mountains between Uniondale and Port Elizabeth. To these can still be added H. zantneriana, H. xyphiophylla and perhaps even H. arachnoidea, so that forms of each of these species may contribute to this concept of H. translucens. To the present day the composition of H. translucens is thus still very unclear. There are a considerable number of unlikely elements which can only be thrown together until more understanding of this complex problem can be gained. The ssp. tenera occurs in the middle Fish River valley east of Grahamstown. In Von Poellnitz’s type locality, Plutos Vale, both glabrous and haired forms occur in populations within 75 metres of one another. H. cymbiformis var. incurvula is only a little further away. H. gracilis was collected north‑east of Grahamstown at Hellskloof and here the leaves of the plants are longer, more erect, and glabrous. The flower is essentially the same. However, the home of H. translucens is really the Gamtoos Valley and in the first edition it was pointed out how difficult it was to reconcile such a disjunct population. Although not providing an entirely satisfactory explanation, the discovery of the small forms of H. bolusii in the Jansenville area do suggest how this occurs. Small translucent and fairly hairy forms occur in the conglomerates west of Uitenhage. Darker more opaque and less hairy forms occur at Dead Man’s Gulch and Coega to the east. Dr W.R. Branch has collected very large forms from the lower Krom River near Humansdorp. Many different collections are recorded from Loerie in the lower Gamtoos valley to as far west as Uniondale. H. cymbiformis is also distributed across the area and the var. transiens is found at Prince Alfred’s Pass in the extreme west of the distribution range. The similarity of some collections of this species (e.g. at Andrieskraal) to H. cymbiformis var. incurvula are further evidence of some relationship between the Gamtoos and the Fish River species.
1999 – Here some attempt is made to cast a little more light on a confused situation and it has to be admitted that this solution may be inadequate. In the first place it is apparent that the name ‘translucens’ as typified by the illustration in Curtis’ Bot. Mag., is applicable to Haworthia herbacea and not available for this species. In the second place the small dark more opaque forms referred to above are now regarded in this work as the missing H. aristata of Haworth. The name H. gracilis as used here now, is to refer to a wide range of populations extending from Grahamstown westwards to at least Uniondale. Considerable local knowledge will be required to properly evaluate the species as presented here. The recognition of varieties will hopefully present a realistic view of the variables involved and hopefully facilitate communication about these plants. The fact that the var. minima appears to re-occur around Uitenhage is curious. The var. picturata, which has been collected in the Baakens River Valley together with H. cymbiformis, is also odd. Its relationship with H. cymbiformis var. transiens needs to be explored. The var. viridis is also a poorly known entity with an improbable distribution. It is inextricably linked with H. decipiens var. minor. The distributions for the varieties are not very convincing at all, and as is the case elsewhere, they provide only the skeleton of an hypothesis which should be examined in the field. It seems that there is some interaction with both H. cymbiformis and H. cooperi, if not also with H. bolusii var. blackbeardiana. There is strong interaction with H. decipiens. It appears that there is often a transformation H. gracilis var. viridis to H. decipiens var. minor from steep, perhaps shady south-facing cliff to lower lying more horizontal and exposed sites. It will also be obvious from the specimens cited that in two case there is co-occurrence with H. decipiens. There are three major river valleys which need to be better explored. These are the Gamtoos, Swartkops and Sundays. The intervening mountain ranges are a formidable challenge and this is one species in which the varieties are not closely tied to geographical distribution.
a. var. gracilis. This variety is mostly known from northwest of Grahamstown and it is not certain how widely it may occur or with which species it may interact. There are a number of collections from the Eastern Cape which have the same narrow elongate and relatively blunt leaf-tip and the Gladhurst (Adelaide) citation is very close geographically to H. cymbiformis var. obtusa, and to H. cooperi. In the Hankey/Patensie area these are usually somewhat bluish-green and associated therefore with H. cooperi var. gordoniana. It is a difficult distinction to make as the latter may then be an ecotype associated with low-lying level areas where the plants tend to be single, are less proliferous and are withdrawn into the soil. Gerhard Marx collected a larger form from northeast of Grahamstown which is very similar to H. cooperi var. leightonii. At Jeffrey’s Bay it is difficult to decide if the small element there represents H. cooperi var. gordoniana or H. gracilis. Similarly towards Middleton there is a population which contains two elements, one is H. cooperi and the other could be either H. bolusii var. blackbeardiana or H. gracilis. This is an interesting comparison because it raises the possibility that the latter two are continuous.
Distribution: 3226 (Fort Beaufort): Gladhurst, Adelaide (-AC), Krynauw in NBG272/43 (NBG), Venter & Bayer (NBG). 3324(Steytlerville): Paul Sauer Dam (-DA), Swart (NBG); Mistkraal (-DA), Smith 7062 (NBG); Ferndale (-DB), Smith 3672, 3675, 3677, 3678, 6204, 7185 (NBG); 2km E. Hankey (-DD), Bayer 4476 (NBG); Hankey (-DD), Paterson 24 (BOL), Fourcade 3329 (BOL); Gamtoos Heights (-DD), King 90 (BOL); Longmore (-DD), Bayer & Bruyns 6855 (NBG). 3325(Port Elizabeth): Loerie (-CC), Britten (BOL). 3326(Grahamstown): Hellspoort (-AB), Dyer 4 (BOL), Long (BOL), Blackburn in BOL71332, Britten in PRE 34922, in PRE 34929, Smith in NBG326/34, Bayer in KG336/70 (NBG); 5km N. Grahamstown (-AB), Smith in NBG332/34; Howiesonspoort (-AC), James 549 (BOL); 7km NE. Grahamstown (-BA), Bayer & Venter 6603 (NBG); Brakkloof (-BA), Acocks 12046 (PRE); Fish River (-BA), Dyer 580 (PRE).
Inadequately located: Albany, Dyer in NBG1804/30.
b. var. isabellae (V.Poelln.) Bayer comb.nov. H. isabellae V.Poelln., Feddes Repert.Spec.Nov. 44:226(1938). non Scott :76(1985). Type: Cape, near Port Elizabeth, Mrs I King. Not preserved. Neotype (designated here): CAPE‑3325 (Port Elizabeth): Humansdorp, Gamtoos bridge (‑CC), H. Hall in NBG 68799.
isabellae: for Mrs Isabella King.
This variety is recognised as the more traditional form of the species in which the outer leaves are spreading and the inner leaves more erect. It is very proliferous. The leaves are not as bluish-green, nor as swollen towards the tip as in H. cooperi variants which have often been assigned to this species. The marginal spines are quite dense and relatively long for the narrow-leaves, as compared to H. cooperi var gordoniana which also occurs in the Gamtoos Valley.
Distribution: 3324 (Steytlerville): Dam se Drif (-CA), Rossouw 483 (NBG); Moordenaarskloof (-CD), Stayner (NBG); Ferndale (-DB), Smith 3674 (NBG); Gamtoos (-DD), Stayner in KG367/62 (NBG); Hankey to Humansdorp (-DD), Smith 7267 (NBG); Gamtoos River (-DD), Smith 7439 (NBG); NE. Hankey (-DD), Bayer 4475 (NBG), Stayner (NBG). 3325 (Port Elizabeth): Loerie (-CC), Britten in PRE 34924; Gamtoos Ferry (-CC), Stayner in KG341/62; Vanstaadens to Loerie (-CC), Smith 3112 (NBG); Gamtoos bridge (‑CC), King 92 (BOL), H. Hall in NBG 68799, Smith 7266 (NBG); Longmore Forest (-CC), Bayer & Bruyns 6555 (NBG). 3424 (Humansdorp): Woodlands (-BA), Marais in NBG8/66, Krom River Estuary, Rippon (-BB), Branch 1 (NBG).
c. var. tenera (V.Pielln.) M.B.Bayer. H. tenera V.Repert. Spec. Nov. 31: 86(1932). Scott: 76 (1985). H. translucens ssp. tenera (V.Poelln.) Bayer :161(1976). Bayer :56 (1982). Type: Cape, Plutosvale, Grahamstown, Miss Blackbeard 15. Not preserved. Neotype (B&M): Glenelg, Smith 5416 (NBG). H. minima Baker, J. Linn. Soc. 18: 215 (1880). Nom. illeg. ype: Cape, imported by Tuck, in hort Kew. Not preserved. Lectotype (designated here): icon (K).
tenera: tender or delicate.
This variety passed without comment in the early editions and Scott is justified in regarding it as discrete against the ill-defined view of the species then presented. It is well-represented in the area northeast and east of Grahamstown and is quite variable. Entirely glabrous forms occur and Smith’s collection from north of the type locality is also markedly less greyish green, and also less prominently spined. Breuer and Metzing have unfortunately chosen this specimen as the type for H. tenera when many specimens from Plutosvale were available.
An additional and important consideration in including this distinct element with H. gracilis, is a range of collections from the Uitenhage area (Groendal in particular) where very similar growth forms occur. These differs from the typical variety in respect of the more compact incurved rosettes and off course, spination. There are forms of var. isabellae which are practically identical. To complicate the issue, it should be noted that H. gracilis var. gracilis also occurs near to Plutosvale, and its relation there with H. cymbiformia var. incurvula is not clear.
Distribution: 3323 (Willowmore): Spreeugat (-DB), Bruyns 1650 (NBG). 3324(Steytlerville): Wilgekloof (-CA), Branch 36 (NBG); Groot Kommando Kloof (-CB), van Jaarsveld 7704 (NBG); Ziewefontein (-CB), Fourcade 5471 (BOL); Kouga (-CB), Esterhuysen 7119 (BOL); Scholtzberg (-CB), van Jaarsveld 7792a (NBG); Ashoek (-DA), Smith 3679, 3680 (NBG); Kaan (-DD), Smith 3686 (NBG); 3325 (Port Elizabeth): Groendal wilderness, Nounek (-CA), Scharf 1061 (PRE); Groendal Dam (-CB), Bayer 1404a, Bruyns 1822 (NBG). 3326 (Grahamstown): Plutosvale (-BA), Britten in PRE 34942, Britten 12 (BOL), Smith 9, 5419 (NBG), Bayer in KG47/72, in KG47/72a (NBG), Dyer in NBG 802/30 (BOL), Dyer 2173 (PRE), Erens 435 (PRE), Hutchinson 1577 (BOL); Top Plutosvale (-BA), Smith 5417; Glenelg (-BA), Smith 5416 (NBG); Near Fletchers Farm (-BA), Smith 5418, 5420 (NBG); S. Hunts Drift (-BB), Smith 5679 (NBG); S. Committees (-BB), Smith 6509 (NBG).
Inadequately located: Uitenhage, Long in NBG1456/35, Britten in NBG741/31, Cook (BOL); Albany, Luyt in NBG305/45; Hankey, Coates in NBG369/39, NBG355/39; Patensie, Smith 3025 (NBG); Port Elizabeth, Arnold (BOL).
d. var. picturata var.nov. Type: 3325(Port Elizabeth): Enon (-BC), Thode 21507 (NBG, Holo.).
picturata: variegated.
Differs from the type in having glabrous, bright green leaves, in which the translucent areas of the leaves contrast strongly with the dark green opaque reticulation. (A var. gracilis foliis glabris et bene notatis differt).
This variety has generally been overlooked as intermediate between typical H. cymbiformis and the var. transiens. However, there are localities where this variant reportedly grows together with H. cymbiformis, and it appears to be derived primarily from the gracilis element in the greater Baviaanskloof. The leaf-tips are either normally pointed, and thus very similar to the var. isabellae, or may be blunt and incurved. The main distinction is the distinct translucent reticulation contrasting with the opaque lower leaf surfaces.
Distribution: 3323 (Willowmore): 9km E. Haarlem (-CB), Smith 3669 (NBG). 3324 (Steytlerville): Geelhoutboskloof (-CA), Viviers 879 (NBG); Diepriver (-CD), Van Jaarsveld 15342 (NBG); N. Andrieskraal (-DA), Fourcade 176 ((NBG); Kleinwaterkloof (-DA), Smith 7102 (NBG); Grootwaterkloof (-DA), Smith 7103 (NBG); 3.5km W. Hankey (-DD), Stayner (NBG); Kleinrivier road (-DD), Smith 2931 (NBG). 3325(Port Elizabeth): Enon (-BC), Thode A2774 (PRE), Thode 21507, 26090 (NBG); Longmore Forest (-CC), Branch 369 (NBG).
e. var. viridis M.B.Bayer var.nov. Type: CAPE-3325 (Port Elizabeth): Perdepoort (-AC), Smith 6867 (NBG, Holo.).
viridis: green.
Differs from the type in the brighter green coloration and in its more northwesterly geographic distribution. (A var. gracilis foliiis viridibus vividuis et distributione geographica septentionali-occidentali differt).
Occurs to the northwest in the Winterhoek mountains and may have the form typical of the species, with longish, erect and glabrous incurving leaves, or be somewhat squatter with broader incurving leaves. One record from east of Hankey is attributed to this variety, and there are two records from the Steytlerville area where the small form of H. decipiens is also recorded. Field observations show a transition directly to H. decipiens var. minor and also to H. decipiens var. pringlei. As stated earlier, it is very difficult to detect any geographical patterns in the variation of the species and it is probably over-ridden by ecotypic variation in a topographically diverse region.
Distribution: 3324 (Steytlerville): Oulande, Steytlerville (-AA), Schoeman in KG22/84 (NBG); Campherpoort (-AA), Smith 3594, 3646 (NBG), Bruyns 1629 (NBG), Bayer 2074 (NBG); Die Poort (-AD), Branch 353 (NBG); Dorschfontein (-BC), Bayer 3375 (NBG), Bayer & Bruyns 6589 (NBG); Diepnekkloof (-CA), Branch 35 (NBG); Kouga Dam (-DA), Stayner in KG343/62 (NBG); Witrivier (-DA), Bayliss in KG376/75 (NBG); Ouplaas (-DB), Bruyns 7040b (BOL); Hankey to Patensie (-DD), Bosch in KG73/70 (NBG). 3325 (Port Elizabeth): Brakfontein (-AC), Bayer 4198 (NBG); Perdepoort (-AC), Smith 6867 (NBG), Branch 10 (NBG), Schoeman (NBG); E. Perdepoort (-AC), Smith 7337 (NBG), Bayer & Venter 6600 (NBG); Sapkamma (-AC), Bayer & Venter 6620 (NBG); Perdepoort Mt.(-CA), Swart in Bayer 970 (NBG).
Inadequately located: Baviaanskloof, Bayliss in KG379/76 (NBG).
I will be disappointed if anyone had concluded I had any fixed ideas on the classification of these three species and their relationship. It has a problem which has long been on my mind. What happened recently (Nov.1998) is that I was offered the use of a time-share apartment at Jeffrey’s Bay, near the mouth of the Gamtoos River. I used this opportunity to spend six days in the field testing my hypothesis concerning the species Haworthia cymbiformis, Haworthia cooperi and Haworthia gracilis, and this is what I would like to record. Subsequent to that trip (Mar.1999) I planned and executed an excursion through the Baviaanskloof to Grahamstown and Stutterheim in March 1999, and repeated the exploration in Sept. and Oct, 1999.
First I must point out again that there is a problem with plant names in that they do not necessarily reflect a set of objects which can be seen and easily recognised. The naming and typification process is partly to blame. Typification is simply the process of ensuring that a name is based on some substantial recognisable item, preferably a specimen rather than an illustration or photograph. (A specimen is preferred because it lends itself to some other analysis e.g. a tissue sample). The type is used to secure and permanently attach a name to for reference purposes. A type specimen and hence a name need not be, and often is not, typical of the taxon which the specimen represents. This does create difficulties particularly when varieties are at issue. In Haworthia there are an inordinate number of populations of uncertain pedigree. This is not because of some obscure evolutionary process, and nor is it just because there is an absence of characters by which to characterise and circumscribe each population. It is what we should expect. Everything is in a state of change and Haworthia is simply following the same unsteady path. I have shown that in Oxalis, in which there are an embarrassment of riches where characters are concerned, that these are of surprising little help in circumscribing the species. I was interested to read this sentence in a book about chameleons, “Without collecting data many chameleons are difficult to identify.” One would expect chameleons to be less difficult to identify than plants. Darwin stated that geographic distribution is the doorway to understanding species, and this is all we have in Haworthia which I can see to make sense.
We simply use ordinary visual observation and sensibility to make judgements about similarities. The less objects we have to examine, the easier it is to assess similarities among them. The problems that then arise are no different from those that develop even with complicated and convoluted discussions and explanations that arise from sophisticated techniques and analysis of characters. In my experience it is very often the direct visual judgement which is used to test the worth of technology rather than the converse. These comments are made because readers seem to think that plant names are as centrally defined as their own unexpressed concept they have of species being groups of things with well-defined limits and readily compartmentalised. Thus they imagine that there is a solution and it is just a question of how it is found. These comments are made because several times in the literature, wild statements have been made about the use of some character or technique or other throwing great light in the darkness. It just does not happen that easily and simply. The more sophisticated the technique, the smaller the sample and the less ‘peer’ review and replication. In statistics it is also pointed out that you do not undertake sophisticated statistical analyses when the figures already show the obvious. Yet how many times do analysts not persevere with test after test until a result does appear significant – itself a matter of probability. Technique may become and end in itself and the purpose for which it is devised lost to view.
There is a nomenclatural code for plant names which regulates about everything except what the binomial stands for. What should be pointed out with some vigour, is that there is a tendency to think that species can be described from single specimens in the paradigm (this is a most useful word because it suggests a pattern, a habit and a model of a time period) of Salm Dyck, Von Poellnitz, G.G. Smith and company. The single plant (and its description) and specimen that is used to typify a name, does not constitute a circumscription of the species. These people described specimens – NOT species. Their work was thus in some measure comparable with stamp collecting. It has little to do with present time description, organisation and understanding of the living variable and changing systems which species are. The different elements in Haworthia named as ‘species’ have been determined by early writers on the basis of vegetative characters such as colour, rosette shape, leaf number and shape, translucence and spination. Nothing much has changed except the scope and extent of the problem. A difficulty with characters is stated in Vavilov’s Law of Homology which states that a set of characters in a taxon will also be present in related taxa. Thus if one finds awned and obtuse rounded leaf tips in the genus, it is possible and indeed probable, that this character set will also occur in lesser ranks. If a set of characters is present in one species, they will possibly and probably occur in related species. This article is to demonstrate the difficulty of classifying plants on this simple basis and in an era when so much more material is there to classify.
It is necessary to discard the name translucens as I have used it in my earlier books. Originally the name really is associated with what is obviously H. herbacea, and I only used it to follow a tradition of misuse. The misfortune of this is that the name gracilis then occupies the nomenclatural hierarchy, but not the same geographic position in my understanding of the species. The consequence is that an outlying variant (Hellspoort, Grahamstown) will become the species name (i.e. gracilis) and a name has to be unearthed for the core of the species in the Gamtoos valley viz. H. gracilis var. isabellae. This in my new book replaces H. translucens var. translucens. Similarly H. cooperi var. cooperi is not central to the plot as is the var. pilifera, and I unearthed the latter name in my 1999 revision for this reason, as also the name gordoniana. I opted in 1985 to use the rank ‘subspecies’ under H. translucens for reasons which should be obvious – a weaker geographical relationship of the known variants of the species associated with a broader distributional phenomenon.
This following discussion is done in terms of Darwin’s statement about the importance of geographic distribution, and the evidence I have in my mind for a wide range of species. The essential problem with the species considered in this article is that we have a set of plant populations from Grahamstown, replicated to a degree by a set of populations in the Humansdorp area. In neither area is the relationship in the set well understood, and this does not imply that they can be so understood either. I set out to deal only with recent limited observations in the Humansdorp area but like a stone thrown into a pond, the ripples soon spread.
The link between the Grahamstown and Humansdorp areas is a curious one. It can be seen in the vegetation types of Acocks, which is a broad view of species associations. Valley Bushveld occurs discontinuously from Natal through to Swellendam. Alexandra Thickets are coastal, east of Port Elizabeth. Knysna forest, west of Humansdorp. Dry fynbos dominates the immediate Humansdorp area. Karoid vegetation dominates north of the Groot Winterhoek Mountains. It is at species level that really interesting facts emerge that impact on our analysis of Haworthia. What happens in the genera Aloe, Gasteria, Astroloba etc.? I leave this as a largely unanswered question because unless the reader can respond, he or she is unlikely to appreciate that it may have implications for understanding Haworthia. Astroloba does not occur in the Humansdorp area. There is instead the curious Haworthiapungens. The Baviaanskloof is home to several endemic Gasterias as well as to Aloe pictifolia. Haworthiaviscosa is ubiquitous. H. nigra with an otherwise fairly similar distribution is not. The distribution of the genus Encephalartos (cycads) is particularly interesting because of its known antiquity and the similarity of present day species to evidence in the fossil record. Aloe must also have an ancient history as evidenced by presence of species of this genus on Madagascar – a continental drift pre-history. It would in fact be instructive for would-be authors to read what R.A. Dyer wrote about the classification of cycads, before trotting out any banal aphorism about ‘active evolution’. There is an interesting break (interval) between the cycad species, east of the Sundays and Bushmans River valleys which separate Grahamstown and Humansdorp. This break can be observed in the distributions of other genera and species and evaluated both for compliance and non-compliance. Haworthia has both conditions e.g. cymbiformis and pilifera happily cross the interval. Angustifolia and coarctata only just do so. Marumiana, and nigra do so in the inland areas. Attenuata does so. Viscosa is almost ubiquitous. Fasciata does not and neither do sordida, longiana nor xyphiophylla. No species jump the Knysna forest interval and the genus as a whole jumps the Transkei interval northward only via limifolia and koelmanniorum (+mcmurtryi). These east-west breaks are interesting because they thus indicate speciation pressures. They may be helpful in deducing possible or probable relationships in a two-directional way i.e. distribution and variation in one set of plant variants provides a tool for the examination of other sets. In the case of H. gracilis, one can argue simply that it complies with the interval, in which case the var. tenera east of Grahamstown is discrete from the Uitenhage, Baviaanskloof look-alikes. Alternatively one can hypothesise non-compliance and that continuity will be found between Grahamstown and Uitenhage. Hellspoort (the site of the var. gracilis) is somewhat supportive of this view, but their is still a wide gap. Perhaps this is only in the known distribution record.
Known collections and observations were the basis of my 1985 classification hypothesis. Many of these were either dry herbarium specimens perhaps supported by photographs of single plants grown in cultivation. This hypothesis for the species in question here was arrived at from specimens from the immediate Grahamstown area and from the lower and eastern Baviaanskloof (Humansdorp) area. For the 1999 revision I have broadened the range of varieties, and relevant to this discussion are:
Haworthia cooperi
var. cooperi
var. leightonii
var. pilifera
var. gordoniana
and included Scott’s two new species as varieties:-
H. joeyii (= var. dielsiana)
H. venusta (var. venusta)
Haworthia gracilis
var. gracilis
var. tenera
var. isabellae
Haworthia cymbiformis
var. cymbiformis
var. incurvula
var. transiens
In this discussion I will largely avoid the issue of both H. bolusii var. blackbeardiana, H. cooperi var. cooperi and H. decipiens although they are closely involved. I will deal primarily with the Humansdorp (Hankey-Patensie); and to lesser degree with the immediate Grahamstown (Plutosvale) area.
I will use the term look-alikes because it is frequently used in the fynbos vegetation to refer to plant species from different genera, which are superficially so similar that close examination and full flowering material is often needed to establish their real identities. In Haworthia this detail is simply not available and thus there are specimens from different species which are geographically and thus probably genetically aeons apart, but which are visually identical.
Grahamstown (Albany) H. cymbiformis – is well represented and discrete. Yellow-green plants with spreading broader, flatter, ovate leaves. Clump forming plants on steep rocky faces. The var. incurvula – is known from many collections but only one locality (Plutosvale). It has look-alikes in the Patensie area particularly. Its relationship as a variety of cymbiformis really follows G.G. Smith who made the combination on the basis of a continuity which he claims to have seen. I recall (!) that its flowers are more reminiscent of tenera and this article may expose this as a possibility. Pale semi-opaque green, small clump-forming, with ovate, obtuse incurved leaves.
H. cooperi – is well represented by the var. pilifera. Blue-green plants tending to purplish, with incurved thicker, shorter ovate leaves, often spined. Solitary plants withdrawn into the soil. (The var. cooperi is not discussed in this appraisal although the concept presents a substantial problem on which I am preparing a manuscript).
H. gracilis – is known only from Hellspoort north-east of Grahamstown, with a second population of larger more cooperi-like plants from nearer Plutosvale (MBB6603-99, Glen Craig – a Gerhard Marx collection). Gracilis does have look-alikes in the Kirkwood area (Paardepoort, and a greater Humansdorp area). Paler grey-green plants tending to clump, with more leaves. The leaves are incurved narrow attentuate, and with or without spines. My opinion, based on my most recent collection from Hellspoort is that the var. tenera is actually the element concerned and is thus a superfluous name for gracilis. This var. tenera – is very well known from several populations north-east and east of Grahamstown and these include a glabrous population. It has look-alikes in the Uitenhage and Hankey areas of Humansdorp. Grey-green, small solitary or clump-forming, with many narrow, spined incurved leaves.
(Note:- the original description of gracilis seems to be of a moderately spined species, and von Poellnitz concept was apparently drawn from several disparate collections. The conception of the species from an illustration in Desert Plant Life, and indeed my own collection from Hellspoort in early 1970s, is of a moderately spineless plant. The recent collection of mine has forms which are relatively spineless as opposed to forms which are indeed similar to the smaller, densely spined, tenera. Thus we again have the problem where a name is neither central to the geographic element nor typical. The name tenera could be dispensed with and replaced with var. gracilis – this is evident from my discussion).
Humansdorp H. cymbiformis – represented by the typical variety in the small Baakens River valley and discrete. It may occur north-east of the Baakens River in the Rocklands area of Port Elizabeth. There is also the population at Hell’s Gate north-west of Uitenhage which I am regarding now as the var. transiens (It needs to be re-examined – hastening to add ‘by someone competent to do so’). This var. transiens – is only recently known to be very well represented in the upper Longkloof and in the Baviaanskloof. Its relationship with cymbiformis may not be as close as varietal rank, and the linking population at Hellsgate east of Uitenhage may be misunderstood. Leaves are incurved, pale-green and less opaque than in cymbiformis. Some of the variants resemble plants of the var. incurvula from Plutosvale.
H. cooperi as the var. pilifera – well represented and largely discrete. However, the typical variety with the necrosing-end area seems to have a western limit just outside Port Elizabeth and also near Uitenhage (the furthest west being at Perseverance, JDV90/40). It is then replaced by a variant which is often smaller, having the same blue-green colour darkening to purplish, but the leaf tips remain slender acuminate even in light conditions. This is what I have regarded as the var. gordoniana which in its typical form is not well represented.
H. gracilis as the var. isabellae – is well represented but apparently variable. The leaves tend to be spreading, pale greyish-green and spined. Some plants resemble gracilis from either Hellspoort (less-spined) or from Plutosvale (densely spined – tenera).
General It is known to me that in the area from Kirkwood, westward to the Little Karoo (north of the Baviaanskloof), there is an interaction between gracilis and decipiens. H. cooperi (not designating any variety) also occurs in that area. There is a problem in the Addo area, where another element (aristata – a separate weak hypothesis) may intrude. It has also been suggested, and this has always been in my own mind, that unicolor (mucronata) from the western Little Karoo may be continuous with either cymbiformis, bolusii or cooperi. It is continuous with arachnoidea, lockwoodii and with decipiens, and I am treating it as a separate issue because there are also other reasons for its exclusion here. The discussion could descend to the point where one says simply that there are not many species in the sub-genus Haworthia.
Results
Grahamstown I first looked at Hellspoort early in 1970 to collect and form an impression of H. gracilis. This was of a largish plant with leaves exceeding 3cm long, fairly spineless and weakly clustering. I also saw tenera in Plutosvale and at Hunts Drift. The former, small, densely spined and strongly clustering. At a later occasion I collected tenera again in Plutosvale as the conventional spiny element, and close by as a glabrous element of the same size. On that occasion I neither looked for nor saw incurvula or cymbiformis in the area. I revisited Hellspoort with J.D. Venter and G.D. Marx in 1996 and Venter made a re-collection again in 1998 (JDV89/42-117). My 1996 collection (MBB6614-118) reminded me forcefully of Plutosvale tenera, the plants were smaller than my previous collection and also spinier. Venter’s 1998 collection (all slightly different points within Hellspoort) was of the conventional gracilis that I visualise from the Von Poellnitz illustration, and from my early collection. These were quite large plants. During my visit of March 1999, I observed and recorded systematically from the bottom of Plutosvale, to the top (Roff’s Rock). On the north side of the kloof from the Cotswold farmhouse to the middle of the kloof which is Plutosvale, there was tenera both large clusters and relatively solitary plants. I could not locate or identify the site where I had collected the glabrous form before. The area has been degraded by the grazing of goats and it is possible the plants are now gone. From there we explored the south side of Plutosvale as the road climbed out of the kloof. Roffs Rock is very accessible and this no doubt accounts for the large number of herbarium records for incurvula. We found if from virtually the top of Plutosvale, to the lower and eastern point across from where we had observed tenera at our western-most search point. It is possible that the collection G.D. Marx in JDV93/73-93 was from further to the south-west than our starting point at Roffs Rock, at the upper point of Plutosvale. Nevertheless we found the same very pointed leaved plants of that collection, tending to be clump-forming. As we moved eastward, so the plants tended have leaves which were less pointed and more incurved. The colour was yellowish-green rather than the greyer or bluer-green of the Baviaanskloof incurvula look-alikes. The leaves seemed to lack the more swollen upper and end margins that may characterise cymbiformis.
My impression from this repeat visit to the Grahamstown area, is that the elements gracilis and tenera may be better considered as the same taxon. This may lay the basis for a better understanding, or be more compatible, with the range of look-alikes in the west around Humansdorp and Uitenhage.
The incurvula problem is now largely resolved and although it may still be necessary to find other links between incurvula and cymbiformis which Smith claimed and which is not supported by herbarium evidence. To the contrary, the collections of the gracilis-gordoniana plants from Glen Craig and Roffs Rock (viz. -99, -89, -93)), as well as the interplay of species in question in the Baviaanskloof, suggest that incurvula may equally be interpreted as a variant of H. gracilis or even H. cooperi. There is a further possibility based on new observations in respect of H. bolusii var. blackbeardiana. It may be possible to restructure the classification to relate the var. bolusii with H. semiviva; and to consider the element blackbeardiana as a variety of cooperi, (as nomenclaturally correct but geographically weak) as the species, with pilifera and gordoniana as principle variants. Nomenclatural considerations in ‘the strict terms of the code’, might confuse the issue, but I see no reason why reasoned and logical argument could not be used to dismiss names which are confusing because of their geographical connotation.
Humansdorp I looked at populations at Jeffrey’s Bay, Zuurbron between Humansdorp and Hankey, two at Draaihoek to the south-west of Patensie, three near Andrieskraal, one further west in the Groot River Poort, and three still further west in the Baviaanskloof, one at Patensie, one at Houtkloof in the Elandriver valley, one at Hankey, one north of Hankey, two south-west of Hankey, and one at the Gamtoos Bridge. Some of these populations were known to me before, and many of them are already represented in the Herbarium. I will also refer to other collections (mostly multiple plants) in my discussion which I have either not seen in the field at all, or in the more distant past. These are collections by credible field botanists and naturalists such as P.V. Bruyns, G.D. Marx, E.J. van Jaarsveld, T. Dold and D. Clarke. This thus reviews some 60 populations, but does exclude some significant ones in the Kleinwinterhoek mountains, where other considerations apply.
MBB6792-20 Jeffrey’s Bay. Fynbos. Very short vegetation on level sandstone outcrop. Early bud stage. Small single plants to 20mm diam. Leaves incurved at tips, no marginal spines and bluish-green, darkening to purplish hue (3) – gordoniana-picturata.
MBB6933-21 E. Humansdorp. Grassy fynbos. Rocky sandstone knoll. Small single plants, bluish-green with coarser spination than MBB6793 (2) – gordoniana.
MBB6553-22 and MBB6793-22 Zuurbron. Valley Bushveld. Scrub vegetation on level alluvial stream bank with loose sandstone rocks. Flowering and seeding. Small single plants to 30mm diam. Leaves thicker, leaves incurved at tips, many small closely spaced marginal spines, bluish- green (2) – gordoniana (possibly close to type locality).
MBB6784-23 SW Patensie. Valley bushveld, west sloping conglomerate. Seeding. Small single plants to 30mm diam. Leaves incurved at tips, forms with and without marginal spines, and blue-green (1). Smaller plants of this order were collected by Tony Dold at Drinkwaterskloof in the Baviaanskloof near Geelhoutboskloof – gordoniana.
MBB6786-24 SW Patensie. Valley bushveld, steeper south facing conglomerate. Flowering and seeding. Small single plants to 25mm diam. Leaves incurved at tips, mostly plants with marginal spines, blue-green (2) – gordoniana-isabellae.
MBB6827-27 Rooihoek. East of Geelhoutboskloof. Steep east facing slope. Plants single, greenish, very small – picturata-transiens.
EvJ14680-28 Vetmaakvlakte, S Rooihoek – isabellae (as for a clone of -41, resembling H. aristata).
MBB6789-29 Groot River Poort (Komdomo). Valley bushveld, very steep west-facing shale cliff. Flowering. Small clustering plants to 30mm diam. Leaves with spreading tips, slightly obtuse, no marginal spines, pale-green (5) – transiens-picturata.
MBB6830-30 E Komdomo. Riverine margins. Large clustering plants on steep soil-covered rock- gracilis.
J.N.Reddi in JDV93/86-31 2km NW Andrieskraal, is a collection which may be the same as -30 – gracilis.
EvJ15927-32.1 N. Groot River Poort. Steep south-facing cliffs. Clustering or single. Fairly similar to -29 – transiens-isabellae, the clone 32.2 to decipiens var. minor?
MBB6790-33 Andrieskraal. Valley bushveld, very steep south-facing conglomerate. Flowering and seeding. Small clustering plants to 30mm diam. Leaf tips moderately incurved, slightly obtuse, no marginal spines, pale yellow green (4+Y) – picturata.
MBB6791-34 Andrieskraal. Valley bushveld, steep east-facing conglomerate. Flowering and seeding. Small single plants to 25mm diam. Leaf tips incurved, slightly obtuse, no marginal spines. Pale yellow green (4+y) – picturata.
MBB6930-35.1 E. Andrieskraal, Nuwelande. Steep south facing conglomerate. Small plants down to 16mm diam. As above (4+y). – picturata. JDV90/55-35.2 from nearby westward, is also small plant with very pronounced windows.
MBB6928-36 Nuwelande. Upper steep conglomerate cliff. Plants nearly spineless and the leaves more slender and terete. Greenish (4). These are similar to JDV94/115-37 from the Paul Sauer Dam wall and also from the site for Gasteria glomerata where it was collected by E.van Jaarsveld (EvJ11076 in JDV90/118-38.1&2). A plant from that collection (-38.3) also resembles the Ripon plants (MBB6932-39) which have broader more deltoid, and more spinose leaves – isabellae.
J.G. Marx298 in JDV94/30-40, also Paul Sauer Dam, include both spined and spineless plants which also appear to be (4) – isabellae.
MBB6799-41.1 also (-9&-10) NW Patensie. Valley bushveld. South facing conglomerate slope. Seeding. More robust single plants to 45mm diam. Leaf tips incurved, with and without marginal spines. Pale green and blue-green (1-3) – gracilis-isabellae. One clone in this quite variable collection, strongly resembled a large specimen of H. aristata (-125,-142,-143).
MBB6801-42 SW Hankey. Early flowering. Valley bushveld. Vertical conglomerate. Small clustering plants to 20mm diam. Leaf tips incurved, with marginal spines. Pale blue-green (2-3) – isabellae.
MBB6802-43 SW Hankey. Valley bushveld. Steep east facing conglomerate. Early flowering. Plants mostly single to 30mm diam. Leaf tips tending to spread, with marginal spines. Pale blue-green (2-3) – isabellae.
PVB7128-44 Holriver, far S Patensie. Steep north-facing cliffs. Similar to above – isabellae.
D.Clark1050-45 Kouenek, Geelhoutboskloof. No detail, similar to above. – isabellae.
MBB6773-46 N Kareedouw. Fynbos. Conglomerate. South facing. Flowering late Dec. Plants single small, leaves incurved, very spiny and spines on leaf surfaces too. Blue-green (2) – isabellae.
MBB6771-47 Moordenaarskloof (N. Kareedouw). Steep south facing slope. Plants in small clusters or single. Relatively spineless. Leaves incurving. Green (4) – picturata.
MBB6805-48 NE Hankey. Valley bushveld. Gradual west facing slope. Seeding. Plants single to 50mm diam., leaf tips incurved, with and without marginal spines. Blue-green and pale-green and (1-4) – gracilis-isabellae.
MBB6804-49 N Hankey. Valley bushveld. Dense vegetation on alluvial stream bank. Seeding. Plants single to 50mm diam., leaf tips incurved, without marginal spines. Pale-green and blue-green (1-4) – gracilis-isabellae.
JDV97/3-50 E Hankey. Valley Bushveld. Plants similar to above – (1-2) – gracilis-isabellae.
MBB6808-51.1 Gamtoos Bridge. Valley bushveld. Steep west facing conglomerate. Seeding. Clustering plants to 50mm diam. Leaf tips spreading, with marginal spines. Blue-green (2) – isabellae. There are very similar plants at Longmore, east of Loerie (MBB6555-51.2).
MBB6798-52 Houtkloof (Upper Elandsriver valley). Fynbos. Rocky valley in sandstones. Neither flower nor seed (flowered in cultivation in Jan.). Plants single to 35mm diam. Leaf tips incurved, very spiny. Blue-green (2) – isabellae.
C. Marais in JDV96/95-53 Forest Glade and JDV92/136-54 Oaklands, both Elandsriver, are similar but more coarsely spined and paler green (4) – isabellae.
MBB1404a in JDV86/13-55 is an old collection of a tenera-like plant from the lower Elandriver valley (Groendal Dam) – cf. tenera.
D.M. Cumming6831 is from nearby and is more typically isabellae-like).
PVB7040 in JDV97/8-57 and PVB7944 in JDV97/7-58 Ouplaas (E. Cockscomb) are very similar to the above from the Elandsriver, but the plants are more robust, with much wider and more obtuse leaves. Particularly interesting because similar plants also occur in the Kleinwinterhoek eg JDV93/41-59 N Campherpoort, JDV87/180-60 S Campherpoort, JDV91/136-61 N Wolvefontein, JDV92/140-62.1 and JDV94/45-62.2 both Wolven (all decipiens var. minor). There is also the collection from the northern Groot River Poort (EvJ15927 – 32.2) linking these, and perhaps also the Cockscomb and Elandsriver plants (ie. isabellae) with transiens.
JDV97/6-63 W Braamrivier. Dry Fynbos. Steep W. facing cliff. Clump-forming, short obtuse incurving leaves. Pale green (5) – transiens. EvJ15342-64 Dieprivier, NE Kareedouw; EvJ17548-65 Horee, Saptou, SE Uniondale; PVB7077 in JDV97/5-66.1 Oshoek, E of Uniondale; MBB6729-66.2 S Uniondale, and Reddi in JDV93/54-67 Kabeljouwsriver, near Jeffrey’s Bay (a doubtful collection), are also this element – transiens.
The latter is similar to -29 Groot River Poort (transiens-picturata), ie. small clustering plants to 30mm diam. Leaves with spreading tips, obtuse, no or very few marginal spines, pale-green. I could not locate this population and it would prove that gracilis, transiens and cooperi co-exist. E. Aslander1247-68 made a collection from the place reported by Reddi, and these plants are unquestionably gordoniana-like.
PVB7093 in JDV97/1-69 Skrikrivier, north of -63 is similar to that collection, but leaves more elongate acuminate and some lightly spined. Flowered late Jan. Very reminiscent of gracilis var. gracilis and particularly a brighter green variant from Paardepoort (MBB6600-70, var. viridis in the new revision) in the Kleinwinterhoek mountains to the north-east. PVB5402 in JDV97/20-71.1 Palmietrivier and MBB6589-71.2 Dorschfontein, both E. Steytlerville, are similar to this latter collection but better related to decipiens var. minor. A problem arises here in trying to limit the scope of the paper because there are similar collections from north of Glenconnor (JDV91/17-72.1), and south of Lake Mentz (JDV91/116-72.2, which grows with gordoniana JDV91/115-73).
MBB6810-74 (also -11&-12) Joubertina. Fynbos. South facing, rocky sandstone slope. Neither flower nor seed. Plants single to 50mm diam. Leaf tips incurved, without marginal spines. Blue-green (1) – gordoniana.
MBB6811 & JDV90/80-75 (also -13) Uniondale Pass. Renosterveld. Rocky defile, steep sandstone. Early bud stage. Plants single to 25mm diam. Leaf tips incurving, with and without marginal spines. Blue-green (1) – gordoniana. PVB7079-76 Saptou, (Upper Longkloof), PVB7062-77 Redcliffe (NE Willowmore), JDV91/80-78 Engelandsekloof (Baviaanskloof), JDV94/95-79 Nuwekloof (W. Baviaanskloof), are all in this class. A collection G. Marx194 in JDV91/81-80 from Apieskloof (Baviaanskloof) is unusually pale green but otherwise also seems to compare with these gordoniana-like plants).
In completing this review of collections I would like to mention five which seem to touch on this issue, but which are even more relevant to the H. cooperi var. cooperi and H. bolusii var. blackbeardiana issue. These are G. Marx in JDV91/14-145 De Plaat (NW Kirkwood), PVB5002 in JDV92/33-147 Kaboega Gorge (Suurberg), JDV96/89-116 Gladhurst (S Adelaide), J.G. Marx in JDV96/4-98 and MBB6603-99 NE Grahamstown (Glen Craig), and JDV93/73-93 upper Plutosvale. These are all plants with elongate acuminate leaves about as wide as thick, and almost or completely without spines. They could be confused with H. cooperi var. leightonii, or with clones of H. bolusii var. blackbeardiana – and of course with H. gracilis var. gracilis.
Discussion In trying to circumscribe each collection I have been aware of my deficient descriptive skills. Can one rationalise such similar things one observes in writing in a way and which can lead others to identifications? I have elsewhere pointed out major weaknesses in the capacity of persons to compare what is written with what is seen, and also to compare plants and illustrations. Apart from the problem of variation in the populations, there is a problem of different habitat conditions (light, soil, temperature and moisture) which will cause phenotypic differences. It should be possible to define these if the plants could all be grown under the same conditions. However, local variation and sample size also becomes a problem. Colour must be critical. There are four main classes in this set of species under discussion – the opaque yellow-green of cymbiformis, the darker blue-green of cooperi which can develop reddish veins and a purplish colour under stress, the mid pale (or light) grey-green of translucens and the subdued pale green of transiens. Under stress the latter becomes very pale. In the descriptions above I have categorised colour on a scale of 1-5 from blue-green through to pale green, and added Y to indicate a more opaque yellow colour. In my book I recognise a variety (i.e. MBB6791-34 picturata from Andrieskraal) in which the transition from opacity to translucence is abrupt. This collecting trip does not strongly support such a geographic entity although their may be populations in that area which do. Certainly in the var. transiens, some plants are also very conspicuously patterned. Flowering time in early summer for all these collections appears to be very much the same. Curiously the Jeffrey’s Bay collection was still at bud stage when most of the other collections were seeding already. When I visited this population six weeks earlier in the previous year, the plants were already in flower.
The off-setting, clustering character is also worth commenting on. As in the case of H. turgida and H. retusa (remembering also an expressed contention of mine that the latter can be regarded as a variant of the former), clustering is usually associated with very steep rocky situations as opposed to plants on level sites being solitary. In this particular study the slopes varied from level through moderate to vertical. Clustering was most pronounced on vertical sites and at Andrieskraal where vertical and sloping sites were nearly adjacent, the plants were clustering on the vertical and solitary on the sloping. Clustering may be accompanied by the capacity of the plant stems to elongate. It is significant that populations around Hankey and Patensie which seemed to be var. gracilis, were invariably on moderate sloping or level ground (NOTE. I have previously always identified these collections as gordoniana), and using the name gracilis now is derived from the product of the papers in the compendium. My later papers suggest that transferring these elements to H. cooperi is worth consideration).
The above collections confirm my observation that Haworthia in the Baviaanskloof are very difficult to classify and circumscribe. It does seem on the basis of collections by Bruyns, Van Jaarsveld, and Venter that transiens is a very substantial element to the west, which may not have a strong connection with cymbiformis. Gordoniana is apparently a much stronger element than I had previously supposed and I am comfortable with the decision to now recognise it as a valid variety of cooperi. The above collections in the Longkloof, and some other recorded collections, seem to show convincingly that it effectively co-occurs with transiens. In the area just west of Patensie, three collections described above seem to indicate that gordoniana intergrades directly with transiens and this transition gives rise to plants which resemble incurvula and which I identify as H. gracilis var. picturata. Similarly south-west of Patensie gordoniana (-24) seems to alter to isabellae. South west of Hankey this latter variety (-42) resembles tenera. The resemblance to tenera is also apparent in the Groendal area of Uitenhage. The Elandsriver collection (-52), and a similar one by Clifton Marais in the same valley (-53), appear to be intermediate in appearance between tenera and isabellae. Isabellae as a separate entity is also represented by the Gamtoos Bridge collection (-51), and an old collection by W.R. Branch from the Krom River estuary at Ripon (-39).
A major difficulty is the Jeffrey’s Bay population (-20). These small solitary plants seem, by virtue of their growth habit and the near co-occurrence with isabellae (perhaps transiens too, if Reddi’s collection -31, was confirmed), to be the local equivalent of cooperi var. pilifera. However, if they had been observed at Grahamstown, they would be taken to be gracilis. In cultivation they have come to bear a stronger resemblance to the -47 which is closer to picturata than to gordoniana. The Zuurbron population (-22) passes for the equivalent of pilifera with some difficulty, and this does transpose to isabellae via Draaihoek, SW of Patensie (-24). The gracilis-like plants around Hankey (-48,-49,-50) and Patensie (-41) too, often present an isabellae facies. Thus we are faced with the possibility of a strange inversion. The upper Longkloof has cooperi as the var. gordoniana, but in the lower Longkloof similar plants may be derived from gracilis. A similar problem is presented by the similarity of gordoniana-like plants to H. bolusii var. blackbeardiana at several different places in the wider Eastern Cape.
The collection -46 is particularly interesting (I am indebted to Ernst van Jaarsveld for its discovery). This is a very small isabellae which has the same colour and (spininess) hairiness of the leaf surfaces as has Scott’s venusta. This may be very significant in providing supporting for an hypothesis that prior to inundation of the continental shelf (12-18000yrs ago) there was less of a vegetation interval east and west of the Sundays and Bushmans Rivers. I have suggested that this is reflected in the relationship and distribution of H. coarctata and H. reinwardtii, and will suggest elsewhere that H. fasciata may also be evidence of such a situation. However, this is very speculative. The surface spination is also evident in some collections from north and south-west of Jansenville (-129,-130,-131,-132 and -133 which I have identified with either decipiens vars. minor or pringlei), although the spination is sparse.
Conclusions These specific observations suggest that my classification hypothesis (the classification as presented in my two handbooks and in my recent revision) is a sound communication medium for the two areas in question, without implying thereby that it cannot be improved. What is problematic is that in the greater Baviaanskloof area, the three elements never seem to occur together. I repeat what I have written in respect of H. cooperi and H. bolusii var. blackbeardiana, and in my handbooks and revision. It is also stated indirectly in the preamble to this paper. “The essence of my classification is that of co-occurrence and to examine its merit it can be tested on that basis. Botanists would probably prefer the use of the terms sympatric and allopatric, but I think technical language does often just strain good will.” In this particular article, the key question would have been:-
“Do three elements we can identify as separate living systems representing the species cooperi, cymbiformis and gracilis grow in the same close geographic proximity?”
Evidence available to me and in the herbarium record, is that they do not. There are a few known instances where two of these species are in such proximity – but not all three. What is curious is that it is rare for any two species of the subgenus Haworthia to be in immediate proximity to the extent that they share any specific habitat.
Observations seem to confirm my opinion that there is a connection between the three species in their occurrence east and west of the Sundays and Bushmans Rivers. What does concern me is the relation between cymbiformis and transiens, and the implications these observations have for incurvula, gracilis and cymbiformis around Grahamstown. The set of plants around Grahamstown favours cooperi, cymbiformis and tenera, while the mirror set of the Humansdorp area, favours gordoniana, transiens and isabellae. The relationship of incurvula needs to be explored. In the eventual integration of all these collections, sight should not be lost of the complex situation around Fort Beaufort, where the same set of species and variants seems to be present. Nor should it be forgotten that in the Kleinwinterhoek mountains H. decipiens becomes involved. The situation north of the Groot River is complex and there are substantial records from the Perdepoort and from Willowmore and Steytlerville which indicate a close interaction between decipiens and gracilis as well as gordoniana.
There are a good many other collections from the upper Baviaanskloof, but mostly these are represented only by herbarium records and I would like to see this material in its living state.
A final thrust of this article is to emphasise that Haworthia is not going to be understood by botanists or enthusiasts sitting on some other continent. This is particularly if they depend on the convolutions of the Code of Nomenclature, literature and limited collections for their information and the opinions they feel compelled to express. Less so if they do not and cannot, read and write the English language sufficiently well to communicate properly. Still less so if they have no knowledge and feel of South African geography and vegetation, and are operating in an outdated paradigm where specimens represent entire species. Explanations which only account for a few plants in cultivation are not going to be very satisfactory. The fact must be faced that classification is difficult and more information makes it more difficult. This is not a problem peculiar to Haworthia. It only seems so because the genus has received so much attention. The question now is:
“How is this information recorded and presented in a way that can be accessed, understood and appreciated?”
My conclusion is that we now need to resort to computerisation and digital imagery, recognising that dealing with single plants is not the same as dealing with populations. It is not easy to assess populations objectively as the sample sizes become unmanageable. We should progressively assess and re-assess populations and build up good herbarium documentation. In this way a proper revisionary process is set in motion, which limits Micky Mouse decisions about hypotheses, classification and nomenclature. ♦
1 a. MBB6792 H. cooperi var. gordoniana to H. gracilis var. picturata, Jeffrey’s Bay.1 b. MBB6792 H. cooperi var. gordoniana to H. gracilis var. picturata, Jeffrey’s Bay.2 a. MBB6933 H. cooperi var. gordoniana, east of Humansdorp.2 b. MBB6933 H. cooperi var. gordoniana, east of Humansdorp.2 c. MBB6933 H. cooperi var. gordoniana, east of Humansdorp.3 a. MBB6553 & MBB6793 H. cooperi var. gordoniana, type locality, Zuurbron.3 b. MBB6553 & MBB6793 H. cooperi var. gordoniana, type locality, Zuurbron.3 c. MBB6553 & MBB6793 H. cooperi var. gordoniana, type locality, Zuurbron.3 d. MBB6553 & MBB6793 H. cooperi var. gordoniana, type locality, Zuurbron.4 a. MBB6784 H. cooperi var. gordoniana, southwest of Patensie.4 b. MBB6784 H. cooperi var. gordoniana, southwest of Patensie.5 a. MBB6786 H. cooperi var. gordoniana to H. gracilis var. isabellae, southwest of Patensie.5 b. MBB6786 H. cooperi var. gordoniana to H. gracilis var. isabellae, southwest of Patensie.6 a. MBB6826 H. gracilis var. isabellae, a tiny form, Rooikloof, mid-Baviaanskloof.6 b. MBB6826 H. gracilis var. isabellae, a tiny form, Rooikloof, mid-Baviaanskloof.7. MBB6825 H. cymbiformis var. transiens to H. gracilis var. picturata, lower Geelhoutboskloof.8. MBB6827 H. gracilis var. picturata to H. cymbiformis var. transiens, east of Geelhoutboskloof.9. EvJ14680 H. gracilis var. isabellae, Vetmaakvlakte, south of Rooihoek.10 a. MBB6789 H. cymbiformis var. transiens to H. gracilis var. picturata, Groot River Poort (Komdomo).10 b. MBB6789 H. cymbiformis var. transiens to H. gracilis var. picturata, Groot River Poort (Komdomo).10 c. MBB6789 H. cymbiformis var. transiens to H. gracilis var. picturata, Groot River Poort (Komdomo).10 d. MBB6789 H. cymbiformis var. transiens to H. gracilis var. picturata, Groot River Poort (Komdomo).10 e. MBB6789 H. cymbiformis var. transiens to H. gracilis var. picturata, Groot River Poort (Komdomo).10 f. MBB6789 H. cymbiformis var. transiens to H. gracilis var. picturata, Groot River Poort (Komdomo).11 a. MBB6830 H. gracilis var. gracilis, east of Komdomo.11 b. MBB6830 H. gracilis var. gracilis, east of Komdomo.11 c. MBB6830 H. gracilis var. gracilis, east of Komdomo.12. JDV93/86 H. gracilis var. gracilis, 2km northwest of Andrieskraal.13 a. EvJ15927 H. cymbiformis var. transiens to H. gracilis var. isabellae, northern Groot River Poort.13 b. EvJ15927 H. cymbiformis var. transiens to H. gracilis var. isabellae, northern Groot River Poort.13 c. EvJ15927 H. cymbiformis var. transiens to H. gracilis var. isabellae, northern Groot River Poort.13 d. EvJ15927 H. cymbiformis var. transiens to H. gracilis var. isabellae, northern Groot River Poort.13 e. EvJ15927 H. cymbiformis var. transiens to H. gracilis var. isabellae, northern Groot River Poort.13 f. EvJ15927 H. cymbiformis var. transiens to H. gracilis var. isabellae, northern Groot River Poort.14 a. MBB6790 H. gracilis var. picturata, Andreskraal.14 b. MBB6790 H. gracilis var. picturata, Andreskraal.14 c. MBB6790 H. gracilis var. picturata, Andreskraal.15 a. MBB6791 H. gracilis var. picturata, Andrieskraal.15 b. MBB6791 H. gracilis var. picturata, Andrieskraal.15 c. MBB6791 H. gracilis var. picturata, Andrieskraal.15 d. MBB6791 H. gracilis var. picturata, Andrieskraal.15 e. MBB6791 H. gracilis var. picturata, Andrieskraal.16. 1 a. MBB6930 H. gracilis var. picturata, east of Andrieskraal.16. 1 b. MBB6930 H. gracilis var. picturata, east of Andrieskraal.16. 1 c. MBB6930 H. gracilis var. picturata, east of Andrieskraal.16. 1 d. MBB6930 H. gracilis var. picturata, east of Andrieskraal.16. 2 JDV90/55 H. gracilis var. picturata, also east of Andrieskraal.17 a. MBB6928 H. gracilis var. isabellae, Nuwelande, east of Andrieskraal.17 b. MBB6928 H. gracilis var. isabellae, Nuwelande, east of Andrieskraal.17 c. MBB6928 H. gracilis var. isabellae, Nuwelande, east of Andrieskraal.18. JDV94/115 H. gracilis var. isabellae, Paul Sauer Dam Wall.19.1. EvJ13809 H. gracilis var. isabellae, upper Paul Sauer Dam.19.2. EvJ11076 in JDV90/118 H. gracilis var. isabellae (smooth), upper Paul Sauer Dam.19.3. EvJ11076 in JDV90/118 H. gracilis var. isabellae (= MBB6932, Ripon), upper Paul Sauer Dam.20. MBB6932 H. gracilis var. isabellae, Ripon, Krom River.21 a. J.G.Marx298 in JDV94/30 H. gracilis var. isabellae, Paul Sauer Dam.21 b. J.G.Marx298 in JDV94/30 H. gracilis var. isabellae, Paul Sauer Dam.22. 1 a. MBB6799 H. gracilis var. isabellae, northwest of Patensie.21 b. J.G.Marx298 in JDV94/30 H. gracilis var. isabellae, Paul Sauer Dam.22. 1 c. MBB6799 H. gracilis var. isabellae, northwest of Patensie.22.2. MBB6799 H. gracilis var. gracilis to H. gracilis var. isabellae, northwest of Patensie – a clone resembling H. aristata.23 a. MBB6801 H. gracilis var. isabellae, southwest of Hankey.23 b. MBB6801 H. gracilis var. isabellae, southwest of Hankey.24 a. MBB6802 h. gracilis var. isabellae, southwest of Hankey.24 b. MBB6802 h. gracilis var. isabellae, southwest of Hankey.25 a. PVB7128 H. gracilis var. isabellae, Holrivier, far south of Patensie.25 b. PVB7128 H. gracilis var. isabellae, Holrivier, far south of Patensie.26. D.Clark1050 H. gracilis var. isabellae, Kouenek, Geelhoutboskloof.27 a. MBB6773 H. gracilis var. isabellae, north of Kareedouw.27 b. MBB6773 H. gracilis var. isabellae, north of Kareedouw.28 a. MBB6771 H. gracilis var. picturata, Moordenaarskloof, north of Kareedouw.28 b. MBB6771 H. gracilis var. picturata, Moordenaarskloof, north of Kareedouw.28 c. MBB6771 H. gracilis var. picturata, Moordenaarskloof, north of Kareedouw.28 d. MBB6771 H. gracilis var. picturata, Moordenaarskloof, north of Kareedouw.29 a. MBB6805 H. gacilis var. gracilis to H. gracilis var. isabellae, northeast of Hankey.29 b. MBB6805 H. gacilis var. gracilis to H. gracilis var. isabellae, northeast of Hankey.29 c. MBB6805 H. gacilis var. gracilis to H. gracilis var. isabellae, northeast of Hankey.30 a. MBB6804 H. gracilis var. gracilis to H. gracilis var isabellae, north of Hankey.30 b. MBB6804 H. gracilis var. gracilis to H. gracilis var isabellae, north of Hankey.30 c. MBB6804 H. gracilis var. gracilis to H. gracilis var isabellae, north of Hankey.31 a. JDV97/3 H. gracilis var. gracilis to H. gracilis var. isabellae, east of Hankey.31 b. JDV97/3 H. gracilis var. gracilis to H. gracilis var. isabellae, east of Hankey.32.1 a. MBB6808 H. gracilis var. isabellae, Gamtoos Bridge.32.1 b. MBB6808 H. gracilis var. isabellae, Gamtoos Bridge.32.2 a. W.R.Branch in MBB6555 H. gracilis var. isabellae, Longmore Forest, east of Loerie.32.2 b. W.R.Branch in MBB6555 H. gracilis var. isabellae, Longmore Forest, east of Loerie.33 a. MBB6798 H. gracilis var. isabellae, Houtkloof, Upper Elandsriver valley.33 b. MBB6798 H. gracilis var. isabellae, Houtkloof, Upper Elandsriver valley.34 a. JDV96/95 H. gracilis var. isabellae, Forest Glade, Elandsriver.34 b. JDV96/95 H. gracilis var. isabellae, Forest Glade, Elandsriver.35 a. JDV92/136 H. gracilis var. isabellae, Oaklands, Elandsriver.35 b. JDV92/136 H. gracilis var. isabellae, Oaklands, Elandsriver.35 c. JDV92/136 H. gracilis var. isabellae, Oaklands, Elandsriver.36 a. MBB1404a in JDV86/13 H. gracilis var. tenera, Groendal Dam, west of Uitenhage.36 b. MBB1404a in JDV86/13 H. gracilis var. tenera, Groendal Dam, west of Uitenhage.37. D.M.Cumming6831 H. gracilils var. isabellae, south of Groendal Dam.38 a. PVB7040 in JDV97/8 H. gracilis var. isabellae, Ouplaas, east of Cockscomb.38 b. PVB7040 in JDV97/8 H. gracilis var. isabellae, Ouplaas, east of Cockscomb.38 c. PVB7040 in JDV97/8 H. gracilis var. isabellae, Ouplaas, east of Cockscomb.39. PVB7043 in JDV97/7 H. gracilis var. isabellae, Ouplaas, east of Cockscomb.40 a. JDV93/41 H. decipiens var. minor, north of Campherpoort.40 b. JDV93/41 H. decipiens var. minor, north of Campherpoort.41. JDV87/180 H. decipiens var. minor, south of Campherpoort.42 a. JDV91/136 H. decipiens var. minor, north of Wolvefontein.42 b. JDV91/136 H. decipiens var. minor, north of Wolvefontein.43.1. JDV92/140 H. decipiens var. minor, Wolven near Wolvefontein.43.2. JDV94/45 H. decipiens var. minor, Wolven near Wolvefontein.44 a. JDV97/6 H. cymbiformis var. transiens, west of Braamrivier.44 b. JDV97/6 H. cymbiformis var. transiens, west of Braamrivier.44 c. JDV97/6 H. cymbiformis var. transiens, west of Braamrivier.45 a. EvJ5342 H. cymbiformis var. transiens, Dieprivier, northeast of Kareedouw.45 b. EvJ5342 H. cymbiformis var. transiens, Dieprivier, northeast of Kareedouw.45 c. EvJ5342 H. cymbiformis var. transiens, Dieprivier, northeast of Kareedouw.46. EvJ15748 H. cymbiformis var. transiens, Horee southeast of Uniondale.47.1 a. PVB7077 in JDV97/5 H. cymbiformis var. transiens, Oshoek, east of Uniondale.47.1 b. PVB7077 in JDV97/5 H. cymbiformis var. transiens, Oshoek, east of Uniondale.47.1 c. PVB7077 in JDV97/5 H. cymbiformis var. transiens, Oshoek, east of Uniondale.47.1 d. PVB7077 in JDV97/5 H. cymbiformis var. transiens, Oshoek, east of Uniondale.47.1 e. PVB7077 in JDV97/5 H. cymbiformis var. transiens, Oshoek, east of Uniondale.47.2. MBB6729 H. cymbiformis var. transiens, De Vlugt, Prince Alfred’s Pass, south of Uniondale.48. J.N.Reddi in JDV93/54 H. cymbiformis var. transiens, Kabeljouwsriver near Jeffrey’s Bay.49. E.Aslander1247 H. cooperi var. gordoniana, Kabeljouwsriver near Jeffrey’s Bay.49. E.Aslander1247 H. cooperi var. gordoniana, Kabeljouwsriver near Jeffrey’s Bay.50 b. PVB7093 in JDV97/1 H. cymbiformis var. transiens to H. gracilis var. viridis, Skrikrivier, north of JDV97/6 [44 a-c].50 c. PVB7093 in JDV97/1 H. cymbiformis var. transiens to H. gracilis var. viridis, Skrikrivier, north of JDV97/6 [44 a-c].51 a. MBB6600 H. gracilis var. viridis, Paardepoort, Kleinwinterhoek mountains.51 b. MBB6600 H. gracilis var. viridis, Paardepoort, Kleinwinterhoek mountains.51 c. MBB6600 H. gracilis var. viridis, Paardepoort, Kleinwinterhoek mountains.52.1 a. PVB5402 in JDV97/20 H. decipiens var. minor, Palmietrivier, east of Steytlerville.52.1 b. PVB5402 in JDV97/20 H. decipiens var. minor, Palmietrivier, east of Steytlerville.52.2 a. MBB6589 H. dicipiens var. minor, Dorschfontein, east of Steytlerville.52.2 b. MBB6589 H. dicipiens var. minor, Dorschfontein, east of Steytlerville.52.2 c. MBB6589 H. dicipiens var. minor, Dorschfontein, east of Steytlerville.53.1. JDV91/17 H. gracilis var. viridis, north of Glen Connor.53.2. JDV91/116 H. graciis var. viridis, south of Lake Mentz.54 a. JDV91/115 H. aristata to H. cooperi var. gordoniana, Sundays River Poort.54 b. JDV91/115 H. aristata to H. cooperi var. gordoniana, Sundays River Poort.55 a. MBB6810 H. cooperi var. gordoniana, Joubertina.55 b. MBB6810 H. cooperi var. gordoniana, Joubertina.56 a. MBB6811 & JDV90/80 H. cooperi var. gordoniana, Uniondale Pass.56 b. MBB6811 & JDV90/80 H. cooperi var. gordoniana, Uniondale Pass.57. PVB7079 H. cooperi var. gordoniana, Saptou upper Longkloof.58. PVB7062 H. cooperi var. gordoniana, Redcliffe northeast of Willowmore.59. JDV91/80 H. cooperi var. gordoniana, Engelandkop, Baviaanskloof.60 a. JDV94/95 H. cooperi var. gordoniana, Nuwekloof, western Baviaanskloof.60 b. JDV94/95 H. cooperi var. gordoniana, Nuwekloof, western Baviaanskloof.61 a. J.G.Marx194 in JDV91/81 H. cooperi var. gordoniana, Apieskloof, east of Geelhoutboskloof, Baviaanskloof.61 b. J.G.Marx194 in JDV91/81 H. cooperi var. gordoniana, Apieskloof, east of Geelhoutboskloof, Baviaanskloof.
One of the greatest difficulties in Haworthia is that of trying to recognise discrete species. This translates into confusion which can be attributed to writers. The initial source of confusion is without doubt the nature of the plants themselves, and this is not a problem confined to Haworthia. The species are often not easily recognisable and discrete entities. I abhor the statement that the genus is in a state of active evolution, but this does at least seem to convey a message that readers understand, even if it is somewhat hackneyed. My observations on Haworthia are based on a definition of species as a system of living organisms which are continuous in time and space. In my New Haworthia Handbook, I suggested that a primary problem lay in separating H. bolusii and H. cooperi, and for the purposes of that work I largely discounted the secondary problems. My first concern was to identify core areas and names as working postulates. This did not mean I was unaware of lesser problems contained within the recognition of those two species. The purpose of this paper is to present my current understanding of the problem.
In my opinion the publication of Scott’s book and whatever merit it had, broke the foundation for understanding. As Bruyns said (Kew Magazine, 1986), it set taxonomy in Haworthia back by 40-50 years. This is because Scott did not attempt to examine what I had done, and was doing, in any objective and cognitive way. Thus there was no progression from a common hypothesis, or from a common concept of ‘species’. In my opinion his work was written in the paradigm of Reynold’s work on Aloe, or of Von Poellnitz and G.G. Smith, and was thus anachronistic. My work was in the intellectual climate of the day, was influenced by researchers of the time and was based on a definition of ‘species’. Scott’s thoughts and actions were both understandable and excusable. His classification reflects the same problems, but differently to mine. Where I recognised H. bolusii he recognised H. bolusii. Where I recognised the var. blackbeardiana he recognised H. cooperi and H. batteniae. Where I recognised cooperi he recognised H. pilifera and H. altilinea. Except for his contention that these latter are separate species, there is really concordance. We recognised different markers along the same continuum.
Essentially I considered that there were two species with two major facies, thus:-
1. H. bolusii – var. bolusii the smaller very densely spined typical variety which seems to diffuse into the species H. semiviva in the west of its distribution range.
– var. blackbeardiana a larger less densely spined element to the south and east which seems to diffuse into H. cooperi. Scott used the name cooperi for this element. There is merit in this, but he had to describe another species, batteniae, because of the inherent tension in the solution (I must point out here that Scott’s problem may have been the inadequate herbarium record that he used for his work, plus the fact that he made few specimens. Thus there is no way of assessing his decisions. Had he had to physically file specimens as I have done, he might have had great difficulty with batteniae and his cooperi, and also in separating his altilinea and pilifera). I regarded bolusii as a more spinose species than cooperi, with thinner and wider leaves. Cooperi then generally less spinose, squatter and with thicker leaves.
2. H. cooperi – var. cooperi itself, with relatively erect slender leaves, and including all the forms with more truncated abrupt leaves.
– var. leightonii – the coastal form with even more attenuate leaves than the typical form, and also very proliferous.
The solutions offered by either myself (1982) in respect of my cooperi and blackbeardiana, or in the case of Scott (1985), altilinea and pilifera, cooperi and batteniae, do have problems. These arise from the nature of the terrain in the area between Graaff Reinet to Queenstown and down to Fort Beaufort. Rugged broken terrain difficult to explore. Like the Baviaanskloof it offers many different classes of habitat, and thus potential ecotypes. The relationship between the varieties is complex and compounded by continuities with other species e.g. gracilis, cymbiformis, and decipiens. It should also always be remembered that any decision is a product of the collecting record and must emphasise that this is the context in which this article is written. Initially I did think that the typical variety of H. cooperi may possibly prove to be well-defined geographically. It has not proved indisputably so, but my classification nevertheless does allow good expression of the continuities which occur. I used the name to cover forms with erect slender leaves as well as forms with relatively blunt truncated leaves. Such plants do occur within the same populations and this is evident in the J.G. Marx collection from Fort Brown. The corresponding Scott names were altilinea and pilifera. To make my system more workable, in my new book (1999) I recognised H. bolusii and its var. blackbeardiana as before, but in H. cooperi, several more varieties, thus:-
– var. dielsiana – a more truncated version of pilifera, the leaves often without end-awns. (Scott’s “joeyii” is synonymous).
– var. truncata – a eastern lighter coloured, proliferous and smaller version of dielsiana.
– var. leightonii – the pinkish, proliferous, slender leaved form growing on granites at Kaisers Beach (Scott maintained this as a separate species).
– var. gordoniana – the erect, slender leaved form in the Hankey and Patensie area, which is very like the typical variety cooperi. In truth var. gordoniana from the type locality is a small very compact plant with short incurved and finely spined leaves.
– var. venusta – a very localised hairy variant from the coast near Alexandria.
I hoped this would explain the variations and resolve the tensions in the solution in an economical way. There is no doubt that Scott’s argument of cooperi sensu Bayer, and blackbeardiana sensu Bayer being the same (and he used only the name cooperi in this context), is correct in the nomenclatural sense. The Thomas River specimen he cites in his book as representative (although Scott does cite the Kew specimen as type, which I have not seen), would have been attributed by Bayer (myself, using the Saunder’s Refugium illustration as type) to my concept of H. cooperi, as also the doubtful gracilis-like elements for the Adelaide and Kingwilliamstown citations. I would have named the Cradock specimen H. bolusii var. blackbeardiana. To bridge the difficulties inherent in his solution, Scott had to later recognise three species viz. batteniae, pringlei and joeyii, with the potential for many more. I have said elsewhere, that a classification which grows with the description of new species, is indicative of a weak system. As in the case of bolusii, the Scott solution is not as economical as mine. His concept of an altilinea and pilifera is essentially the image of my problem in recognising a cooperi/blackbeardiana interface. It would have helped had I initially recognised pilifera as a variety. However, Scott’s interpretation in the sense of the geographical relationships of his various species is problematic throughout his revision, where specimens are not cited and full use has not also been made of the available herbarium record.
I was predicting that an element, namely H. cooperi var. cooperi occurred which could be defined in a geographic context. The essence of my classification is that of co-occurrence and to examine its merit it can be tested on that basis. Botanists would probably prefer the use of the terms sympatric and allopatric, but I think technical language does often just strain goodwill. This article thus is written to expand on the problem and indicate where the difficulties lie. These are not difficulties that I was oblivious of, or tried to obfuscate. I have many times said that we can find solutions which work in one area, but they may not work in another. This will again be evident in this paper.
In my revision (Haworthia Revisited, 1999) I made the combination H. decipiens var. pringlei and resurrect the old species name H. aristata. These two elements, and an explanation for the tensions which these two names create and try to address, will be touched on here but will follow in more detail in a later article. As in this immediate case, new material has been seen and collected since the revision was drafted, and a better explanation can now be made.
For this particular issue, the key questions to the hypotheses of Bayer and Scott are difficult to formulate because they are confounded by the different use of names. Therefore I frame the questions in terms of my own classification like this:-
Does an element we can identify as cooperi grow in the same close geographic context as blackbeardiana? (Bearing in mind the assumption that the hypothesis regarding continuity between bolusii and blackbeardiana in fact is valid. Also noting that to maintain the classification hypothesis that there is a difference at the rank of species, the answer must be ‘yes’).
Does the element we can identify as cooperi grow in the same close geographic context as pilifera? (Bearing in mind that to maintain the classification hypothesis of a difference only at the rank of variety, the answer must be ‘no’).
Results The answer to question 1:- has never been a strong point of my classification because I saw cooperi in a broader sense to include pilifera (and altilinea of Scott). The recognition of varieties now strengthens the classification in one respect but weakens it in another. It strengthens the classification in respect of recognising the extent of the variability within my concept of H. cooperi. It weakens it in suggesting both a strong geographical separation of the varieties and a weaker relation with H. bolusii var. blackbeardiana. In Nov.1996, I went with Peter Bruyns to the Eastern Cape and we spent some time in the greater Somerset East area. In Dec.1996 I travelled with Kobus Venter. In Dec.1997, Dec.1998, in Sept. (with Tony Dold, Dez Weekes and Steven Hammer) and again in Oct.1999, I travelled with my wife to these areas. We made many significant collections.
The first of these concerns Scott’s species, H. joeyii and H. pringlei. In the case of joeyii my contention that it is continuous with pilifera barely needs discussion, and I do not think the presence or absence of an end-awn is necessarily diagnostic for such an element – hence synonymy with var. dielsiana. We found three discrete populations within a small radius around Eastpoort (MBB6558-102, 6559 and 6560-103) which support this observation. I do not think there are strong grounds for separating it from pilifera, although I have now done so. At Bedford (there are plants with the similar abrupt leaf-tip as well as plants without. I currently have four batches of seedlings which I want to examine for variation. One from Slagtersnek, south-east of Somerset East (MBB6778-104) is particularly variable. I even have a collection of H. cymbiformis (MBB6847-100,-105) which has the same truncated, awnless leaftips as Scott’s joeyii. Regarding Scott’s pringlei, my conclusion that it is related to decipiens is possibly geographically and otherwise incorrect. (It should be noted that no specimen of pringlei has to date been deposited in the Pretoria herbarium. My understanding of the species is from the description, from two plants sent to J.D. Venter by J.N. Reddi (JDV93/46-106) who collected the plants for Scott, and from two plants given to G. Marx (JDV93/52-107) also by Dr Reddi). It is a problem of ‘look-alikes’ and I will deal with that a little later as a separate issue.
Further south and east of Eastpoort, at Patryshoogte (MBB6561-108 also -4), we found a different population not to my knowledge co-occurrent with a cooperi variety, which must be comparable with Scott’s species i.e. pringlei. It has narrower and more elongate leaves than blackbeardiana generally has, and the keel may be more pronounced. Nevertheless I am sure it has a connection with H. bolusii var. blackbeardiana. In terms of a much wider knowledge of other populations, I decided to link pringlei to decipiens, to emphasise the evident and probable continuity between that species and H. bolusii. This is particularly so in the area north and east of Jansenville.
To the south-west at Somerset East (MBB6776-109, Glen Avon), we found a population of bluer green plants with rather more attenuate leaves than in the vars pilifera and dielsiana. These plants are very like an Adelaide (Koonap Bridge, MBB6563-110) collection, these both satisfy my concept of the var. cooperi. It was not much further to the south (-104), and also not far south of Eastpoort, where we found forms of the vars pilifera and dielsiana in the same population. Thus it seemed that a hypothesis maintaining the species cooperi and H. bolusii var. blackbeardiana, was well supported, but not so the contention that pilifera and dielsiana were good varieties.
The most significant discovery up to Dec.’97 was of two different elements growing together towards the south, near Ripon Station. By together, I mean as populations occupying different niches in the same close proximity – not growing as a common medley of individuals. One population was clearly the typical blunt-leaved pilifera (MBB6557-111) which included dielsiana, but the other (MBB6556-112) was with more slender and erect leaves viz pringlei, and possibly the leaves being broad and spinose enough to even represent blackbeardiana. Thus the added complexity is that it is not possible to separate those two elements. After two years in cultivation as field collected clones and as seedlings, the difference from pilifera (as -111) is maintained. The collected clones grown in Kobus Venter’s collection convincingly demonstrate that the one population is identifiable with pringlei/alias blackbeardiana and the other with cooperi var. pilifera. Thus the answer to the first key question is “Yes, they do grow together in the same geographical context, because there is that obvious connection of blackbeardiana with pringlei. It seems probable that both these elements could, and perhaps should, be interpreted as varieties of H. cooperi. It is a complex problem which cannot be separated from consideration of other elements such as H. gracilis and H. aristata, and these are the issues I am addressing in these papers.
There is not much further evidence that cooperi var. cooperi is a strong, discrete and valid element. There is a collection by J.G. Marx of plants in the Hogsback area (in JDV91/82-113, Woburn) which may be identified as this variety, as can the two collections already mentioned viz. -109 Glen Avon, and -110 Koonap Bridge (originally a Marx collection). However, there are collections generally (one is D.M. Cumming8489-114 of plants south of the Waterdown Dam, Upper Chilton), where the plants can be confused with H cooperi var. gordoniana (in the context of the problem in the Baviaanskloof), whereas geographically they should be blackbeardiana. I also made a collection at Waterdown Dam itself (MBB6569-115), of a plant which is very like a spineless smooth gracilis. These plants tend to be much more blue in colour than the southern look-alikes. There is also JDV96/89-116 Gladhurst, Adelaide; and JDV96/4-98 and MBB6603-99 from Glen Craig, north-east Grahamstown, which pose a similar conundrum. These are gracilis-like and while exploring that problem, the issue became very much more prominent, and is even expressed in the discussion regarding H. cymbiformis var. incurvula. Kobus Venter and I had both re-collected H. gracilis var. gracilis at Hellspoort (JDV89/42-117, MBB6614-118), although we had not concerned ourselves with a search over the whole of the valley. What is now becoming more evident is that there is an archetype which is gracilis-like. Thus Hellspoort needs to be examined as closely as Pluto’s vale.
A later collection of mine (Oct.’99, MBB6927-119, W Ripon) influences the picture dramatically and may further prove a statement of mine true. This is that there instances where there are no real boundaries between species. My collection is further west of -111 (pilifera/dielsiana) and -112 (pringlei/blackbeardiana). Here in -119, the plants include individuals which could be either identified as the vars cooperi or pilifera, with the former collection equally well representing pringlei/blackbeardiana.
The answer to question 2:- has not really been a problem. What we found was what we expected to find and more. South of Adelaide one finds populations of plants which satisfy the tendency towards slender leaves ie. var. cooperi (-109 Glen Avon or -110 Paardefontein, Koonap Bridge); and populations which satisfy the tendency to short obtuse leaves ie. var. pilifera eg. MBB6564-120 Chancery Hall or MBB6591-121 The Tower, S. Fort Beaufort. The same applies just east of Somerset East where in the broader geographical context we can identify var. cooperi (-109, Glen Avon), var. dielsiana (when mostly or wholly without end-awn, MBB6565-122, W. Somerset East, -111 W. Ripon Statio, and vars dielsiana and pilifera as geographically complementary and even in admixture (-104, Slagtersnek). Thus “No, the varieties cooperi and pilifera do not grow together in the same close geographical context as discrete entities.” In fact they are often represented as forms in the same collections as in -119 (far west of Ripon) where both varieties are present as single plants as well as a longer leaved form representing blackbeardiana as decipiens var. pringlei.
The answers given to these two questions thus do still not solve the problem as there remain populations which can not confidently be ascribed to either of the names here used. There are populations which may thus be assigned to cooperi or to blackbeardiana or pringlei. An example is the Marx collection from north-east of Grahamstown (W Fort Brown, in JDV91/85-123) which is ascribable to pilifera although some of the clones are inseparable from blackbeardiana. JDV98/39-124 from Brakkloof, northwest of Grahamstown poses a similar problem with the leaves of the plants tending to lengthen in cultivation. The ultimate difference then between cooperi and blackbeardiana becomes a very subtle one of degree of spination and leaf bulk. The issue is further complicated by the fact that four other elements are involved in the total geographical context, namely H. cymbiformis, H. gracilis, H. decipiens, H. aristata and H. arachnoidea var. xiphiophylla.
My most recent field work, was in following up information and collections concerning H. gracilis. Tony Dold of Rhodes University gave specimens of an Haworthia from the Annsvilla area to Gerhard Marx (MBB6851-125). He thought they may have some bearing on the existence and reality of my interpretation of H. aristata, and this is indeed the case. The plants are small, the darkish blue-green of the cooperi/blackbeardiana elements, and with more, smaller, and quite spinose leaves. Annsvilla is close to three localities for that species cited in my revision viz. Verdun, Stonefountain (re-collected in MBB6852-126 also -4) and Kommadagga. Following Dold’s find, recollection in the vicinity of each of those sites, produced plants which can be interpreted and identified in the light of the Ripon collections. While they equate in some way to H. bolusii var. blackbeardiana, they also do to H. cooperi and to H. decipiens var. pringlei. An (unfortunately doubtful) Kommadagga collection (EvJ sn.-127) is very similar to the long-spined gordoniana-like plants from the eastern Joubertina -74, Uniondale -75, Longkloof -76 and Baviaanskloof (Geelhoutboskloof -78, Nuwekloof -79). The leaves of the plants are rather flatter and broader, and so closer to blackbeardiana. In Sept.’99 Dold and Hammer found a small plant with shorter and squatter leaves than my concept of aristata, south-east of Kommadagga (in MBB6897-128). We also saw plants from the area east of Jansenville which seem to link the greater H. bolusii (i.e. var. blackbeardiana) complex with either H. decipiens or H. arachnoidea var. xiphiophylla. Included in that broad statement is an explanation for the specimens which I have cited as H. decipiens var. pringlei in my revision. These include recent collections from north of Jansenville (MBB6580-129), north-west (MBB6581-130), and south-east of Mt Stewart (MBB6582-131 also -6, 6583-132, also -7). When I first saw a specimen of pringlei my first reaction was recall of plants I had collected at Mt Stewart, and of plants said to have been from Jansenville. Thus I created H. decipiens var. pringlei, expecting to find this east-west continuity between blackbeardiana and decipiens. I did not think that the connection between Middleton (pringlei) and Jansenville would be found to be as evident and as strong as it is. There was already some evidence that there is south to north-east connection between Jansenville and, say, Cradock. This is of a connection between H. decipiens and H. bolusii.
A complicating issue is that MBB6587-133 (further SE Mt Stewart than -132) is a population which is H decipiens var. minor. A small plant with a tendency for incurving leaves but with the widely spaced large spines I associate with the more classical view of H. decipiens. The next collection was MBB6589-71.2 (a little south-east of -133) and it throws us into the H. gracilis context of smaller plants, clustering on cool south-facing rock faces. There are many collections which continue this trend to gracilis, and in fact I suspect to xiphiophylla too, and that will be dealt with as a separate issue. The field-work also revealed populations (J.G. Marx in MBB6845-134, east of Alicedale, and MBB6847-105, also Alicedale) which link cooperi to cymbiformis. This also can be dealt with together with two collections from near Kagasmond (MBB6562-135, south of Adelaide and JDV96/89-116, Gladhurst) as a slightly different issue.
Regarding H. aristata, I resurrected this name for several collections from the Eastern Cape, and somewhat justified by the Dold collection at Annsvilla (-125). However, it seems quite certain that the issue is clouded. Re-collections at the Soutkloof (JDV96/90-136, Addo, Dead Man’s Gulch) were more like pilifera, but there is evidence of deviation. Here D.M. Cumming (DMC3870-137 collected pilifera-like plants, whereas Venter, Marais and Bayer (-136) collected a variant – there was a more typical bluish-green pilifera and a plant tending to the opaque yellow-green of xiphiophylla. I returned there in Oct.1999 because I still had not seen anything like the plants I had seen there on an earlier visit, or like W.R. Branch’s original (WRB459 in JDV87/53-138), and the other cited collections. On this occasion I did find a small population (MBB6920-139) of this kind, and these confirm a relation to the more northern collections mentioned above. At the nearby village of Addo itself, there is the fairly normal pilifera (JDV86/117-140). The Annsvilla collection (Dold and Marx -125) and the recent collection of my own from Stonefountain (-126 also -5) seem also to be in the context of the Ripon collection (-112) of pringlei. These are, however, collections of much smaller plants than from Ripon. Thus it confirms for me that the Haworth names aristata and denticulata could easily have had their origins in plants from this area between Ripon and the Zuurberg, or further south to Soutkloof. My collections MBB6916-141, MBB6917-142 and MBB6901-143, from Kaboega and Hopewell are of the same order.
Discussion and conclusions There is still a very large area unexplored. There are several like collections from the greater area Kirkwood to Uniondale which I have generally ascribed to H. cooperi var. gordoniana. None of these are the short-leaved pilifera type. The teasing probability is that it is in fact blackbeardiana, pringlei, gracilis or aristata (as variants of H. cooperi) which are the main role players. They differentiate (clearly?) in the east to pilifera or cymbiformis and in the west into decipiens. In the south they pass to xiphiophylla, cymbiformis and varieties of gracilis. North-westwards it is to bolusii. My opinion now is that we have an archetype which is in the mould of H. gracilis and this is the root of all the elements I have named here. Curiously Tony Dold has recently sent me specimens from Chalumna (T.Dold3961 in MBB6921-144) which suggest that an aristata-like element is also associated with H. cooperi var. leightonii. Other Chalumna collections (MBB1621 and G.G.Smith 514) bear a very close resemblance to plants (-99, -116) which I have said are gracilis-like.
The above statements all have to be seen in the overall statement about continuity. It barely seems practical (nor legally possible) to sample and analyze plants on the scale that will be necessary, using whatever technique, to get a more definitive answer. The best answer will be continual exploration of the simple kind reported here, which explains occurrences on a smaller and smaller scale. There are herbarium records which need to be corroborated in the field but these do not suggest to me a better solution. Ultimately each recorded population will have to be assigned unequivocally to a taxon (or taxa!) and this is the next necessary step in Haworthia classification. Another revision based on less exacting field observations and a lesser record, will simply exacerbate the regression in time which Scott’s work precipitated, and the consequences which we now suffer. My recent collections are only preserved as living collections and photographically. Specimens need to be made.
I am very conscious of other tensions in my classification and I think it is imperative that we stay with one nomenclatural arrangement and hypothesis to resolve these. The confusion which arises from nomenclatural changes which are nothing but pretentious and cosmetic, is not worth any price. Any difficulties in respect of nomenclature can be resolved by a process of explanation and conservation without formal name change. These changes can be made when it is expeditious to do so and when changes can really offer a better explanation of the genus and hence better communication.
What this discussion should demonstrate is the problem of really observing and discussing variability in Haworthia. There are many possible arrangements of names which can be presented as conclusions in themselves – but done like this they simply cloud and destroy any hope of a broader understanding and good communication. Haworthia is now so much in the public domain, that I would suggest to editors that they move in the direction of encouraging authors to adopt a conserved nomenclature. I regret to be so straightforward and blunt. I see nothing but further confusion if persons feels that they can contribute to an understanding of the situation in the field without:
Consensus on the issue of species definition.
Consensus on the issue of a set of names.
Familiarity with herbarium records and what these represent in terms of fact and fixed reference points.
Familiarity with the written record.
Familiarity with South African geography and the ability to interpret populations in that context.
♦
102 a. MBB6558 H. cooperi var. dielsiana, north of Eastport.102 b. MBB6558 H. cooperi var. dielsiana, north of Eastport.103 a. MBB6560 H. cooperi var. dielsiana, south of Eastport.103 b. MBB6560 H. cooperi var. dielsiana, south of Eastport.103 c. MBB6560 H. cooperi var. dielsiana, south of Eastport.103 d. MBB6560 H. cooperi var. dielsiana, south of Eastport.104 a. MBB6778 H. cooperi var. pilifera, Slagtersnek, southeast of Somerset East.104 b. MBB6778 H. cooperi var. pilifera, Slagtersnek, southeast of Somerset East.104 c. MBB6778 H. cooperi var. pilifera, Slagtersnek, southeast of Somerset East.104 d. MBB6778 H. cooperi var. pilifera, Slagtersnek, southeast of Somerset East.104 e. MBB6778 H. cooperi var. pilifera, Slagtersnek, southeast of Somerset East.105 a. MBB6847 H. cymbiformis var. obtusa, southwest of Alicedale.105 b. MBB6847 H. cymbiformis var. obtusa, southwest of Alicedale.105 c. MBB6847 H. cymbiformis var. obtusa, southwest of Alicedale.105 d. MBB6847 H. cymbiformis var. obtusa, southwest of Alicedale.105 e. MBB6847 H. cymbiformis var. obtusa, southwest of Alicedale.105 f. MBB6847 H. cymbiformis var. obtusa, southwest of Alicedale.106 a. J.N. Reddi in JDV93/46 H. decipiens var. pringlei, northeast of Middleton.106 b. J.N. Reddi in JDV93/46 H. decipiens var. pringlei, northeast of Middleton.107 a. G. Marx in JDV93/52 H. decipiens var. pringlei, northeast of Middleton.107 b. G. Marx in JDV93/52 H. decipiens var. pringlei, northeast of Middleton.108 a. MBB6561 H. decipiens var. pringlei, Patryshoogte, E. Somerset East.108 b. MBB6561 H. decipiens var. pringlei, Patryshoogte, E. Somerset East.108 c. MBB6561 H. decipiens var. pringlei, Patryshoogte, E. Somerset East.109 a. MBB6776 H. cooperi var. cooperi, Glen Avon, southwest of Somerset East.109 b. MBB6776 H. cooperi var. cooperi, Glen Avon, southwest of Somerset East.109 c. MBB6776 H. cooperi var. cooperi, Glen Avon, southwest of Somerset East.109 d. MBB6776 H. cooperi var. cooperi, Glen Avon, southwest of Somerset East.109 e. MBB6776 H. cooperi var. cooperi, Glen Avon, southwest of Somerset East.110 a. MBB6563 H. cooperi var. cooperi, Koonap Bridge, Adelade.110 b. MBB6563 H. cooperi var. cooperi, Koonap Bridge, Adelade.111 a. MBB6557 H. cooperi var. pilifera, west of Ripon station.111 b. MBB6557 H. cooperi var. pilifera, west of Ripon station.111 c. MBB6557 H. cooperi var. pilifera, west of Ripon station.112 a. MBB656 H. decipiens var. pringlei, west of Ripon station.112 b. MBB656 H. decipiens var. pringlei, west of Ripon station.112 c. MBB6556 H. decipiens var. pringlei, west of Ripon station.112 d. MBB6556 H. decipiens var. pringlei, west of Ripon station.113 a. J. G. Marx in JDV91/82 H. cooperi var. cooperi, Woburn, Hogsback.113 b. J. G. Marx in JDV91/82 H. cooperi var. cooperi, Woburn, Hogsback.114 a. D.M.Cummings H. bolusii var. blackbeardiana, south of Waterdown Dam, Upper Chilton.114 b. D.M.Cummings H. bolusii var. blackbeardiana, south of Waterdown Dam, Upper Chilton.115. MBB659 H. bolusii var. blackbeardiana, Waterdown Dam.116 a. JDV96/89 H. gracilis var. gracilis, Gladhurst, Adelaide.116 b. JDV96/89 H. gracilis var. gracilis, Gladhurst, Adelaide.116 c. JDV96/89 H. gracilis var. gracilis, Gladhurst, Adelaide.116 d. JDV96/89 H. gracilis var. gracilis, Gladhurst, Adelaide.116 e. JDV96/89 H. gracilis var. gracilis, Gladhurst, Adelaide.117 a. JDV89/42 H. gracilis var. gracilis, Helspoort.117 b. JDV89/42 H. gracilis var. gracilis, Helspoort.117 c. JDV89/42 H. gracilis var. gracilis, Helspoort.118 a. MBB6614 H. gracilis var. gracilis, Helspoort.118 b. MBB6614 H. gracilis var. gracilis, Helspoort.119 a. MBB6927 H. cooperi var. cooperi, west of [112 a-d], Ripon.119 b. MBB6927 H. cooperi var. cooperi, west of [112 a-d], Ripon.119 c. MBB6927 H. cooperi var. cooperi, west of [112 a-d], Ripon.120. MBB6564 H. cooperi var. pilifera, Chancey Hall, south of Adelaide.121 a. MBB6591 H. cooperi var. pilifera, The Tower, south of Fort Beaufort.121 b. MBB6591 H. cooperi var. pilifera, The Tower, south of Fort Beaufort.122 a. MBB6565 H. cooperi var. pilifera, west of Somerset East.122 b. MBB6565 H. cooperi var. pilifera, west of Somerset East.122 c. MBB6565 H. cooperi var. pilifera, west of Somerset East.123 a. J.G.Marx in JDV91/85 H. cooperi var. pilifera, west of Fort Brown.123 b. J.G.Marx in JDV91/85 H. cooperi var. pilifera, west of Fort Brown.124 a. JDV94/39 H. cooperi var. pilifera, Brakkloof, northwest of Grahamstown.124 b. JDV94/39 H. cooperi var. pilifera, Brakkloof, northwest of Grahamstown.125 a. T. Dold in MBB6851 H. aristata, Modderfontein, west of Commadagga.125 b. T. Dold in MBB6851 H. aristata, Modderfontein, west of Commadagga.126 a. MBB6852 H. aristata, Stonefontain, s. Somerset East.126 b. MBB6852 H. aristata, Stonefontain, s. Somerset East.126 c. MBB6852 H. aristata, Stonefontain, s. Somerset East.126 d. MBB6852 H. aristata, Stonefontain, s. Somerset East.127. EvJ H. aristata, Aalwynspoort, east of Commadagga.128 a. MBB 6897 H. aristata, southeast of Commadagga.128 b. MBB 6897 H. aristata, southeast of Commadagga.129 a. MBB6580 H. decipiens var. pringlei, north of Jansenville.129 b. MBB6580 H. decipiens var. pringlei, north of Jansenville.129 c. MBB6580 H. decipiens var. pringlei, north of Jansenville.129 d. MBB6580 H. decipiens var. pringlei, north of Jansenville.130 a. MBB6581 H. decipiens var. pringlei, northwest of Janesville.130 b. MBB6581 H. decipiens var. pringlei, northwest of Janesville.130 c. MBB6581 H. decipiens var. pringlei, northwest of Janesville.130 d. MBB6581 H. decipiens var. pringlei, northwest of Janesville.131 a. MBB6582 H. decipiens var. pringlei, southeast of Mt. Stewart.131 b. MBB6582 H. decipiens var. pringlei, southeast of Mt. Stewart.132 a. MBB6583 H. decipiens var. pringlei, waaipoort, southeast of Mt. Stewart.132 b. MBB6583 H. decipiens var. pringlei, waaipoort, southeast of Mt. Stewart.133 a. MBB6587 H. decipiens var. minor, Die Bordjie, south of Baroe.133 b. MBB6587 H. decipiens var. minor, Die Bordjie, south of Baroe.134 a. J.G.Marx in MBB6845 H. gracilis var. gracilis?, east of Alicedale.134 b. J.G.Marx in MBB6845 H. gracilis var. gracilis?, east of Alicedale.134 c. J.G.Marx in MBB6845 H. gracilis var. gracilis?, east of Alicedale.135 a. MBB6562 H. cymbiformis var. obtusa Kagasmond, south of Alicedale.135 b. MBB6562 H. cymbiformis var. obtusa Kagasmond, south of Alicedale.135 c. MBB6562 H. cymbiformis var. obtusa Kagasmond, south of Alicedale.135 d. MBB6562 H. cymbiformis var. obtusa Kagasmond, south of Alicedale.136 a. JDV96/90 H. cf. aristata, soutkloof, Addo.136 b. JDV96/90 H. cf. aristata, soutkloof, Addo.136 c. JDV96/90 H. cf. aristata, soutkloof, Addo.137. D.M.Cumming3870 H. cf. pilifera, Soutkloof, Addo.138 a. W.R.Branch459 in JDV87/53 H. aristata, Soutkloof, Addo.138 b. W.R.Branch459 in JDV87/53 H. aristata, Soutkloof, Addo.139 a. MBB6920 H. aristata, Soutkloof, Addo.139 b. MBB6920 H. aristata, Soutkloof, Addo.140. JDV86/117 H. cooperi var. pilifera, Addo.
Introduction Kaboega (also spelt Kabouga) is now an assemblage of farms (De Plaat, Wilgerfontein, Vygeboomfontein, Klipfontein) nestled against the north slopes of the Zuurberg mountains, north of Kirkwood. It is only about 15km away from Kirkwood as the crow flies, but 150km away by road. Oudekraal is about 20km east and it is the source of Haworthia angustifolia var. baylissii and Gasteria baylissiana. There are several records of Haworthia for the Kirkwood area, and von Poellnitz named H. stiemiei (Regarded as insufficiently known and not recognised by Col. C.L. Scott or myself) from there. He also identified plants from Kaboega and Uyepoort, both described as “at Kirkwood”) as H. altilinea var. denticulata (Haw.) v. Poelln. These plants are all in the melange that I attribute to H. cooperi var. gordoniana (the subject of another long essay). The Kaboega farm lies on the Kaboega river which drains an area of about 1m ha and then flows through the long Kaboegapoort into the Sundays River just north-west of Kirkwood. The terrain is very broken with the sandstone Zuurbergs themselves dominating the southern boundary at about 850 to 950m above sea level. The lowest point on the farm is at about 300m and the northern lesser shale or dolerite peaks reach 550 to 650m. The vegetation on the sandstones is Dry Mountain Fynbos. North of this is Karoo Valley Bushveld. Thus Kaboega is at an ecotone of the karoid veld, Eastern Cape grassland and the Noorsveld (Euphorbia thicket) of the Jansenville area.
The name Kaboega means ‘the Big Hole’, referring to the deep gorge which the Kaboega River cuts through the Zuurberg. This river joins the Sundays River where it skirts the eastern end of the Kleinwinterhoek Mountains. Thus Kaboega Gorge is about 20km east of the Sundays River Gorge and 20km west of Oudekraal where the Witrivier also cuts through the Zuurberg flowing southwards.
The only known Haworthia collections from Kaboega prior to this report are two collection by Gerhard Marx (JDV91/14-145, JDV91/15-146) from the easterly part of the farm (DePlaat, north and south aspects), and a similar collection by Peter Bruyns (PVB5002 in JDV92/33-147) from Kaboegapoort itself. Discounting the strange (expected) internal variation in the latter, these three collections are fairly similar. Plants with the brighter yellow-green of H. cymbiformis, but with more terete and slender sub-erect leaves. The plants are quite robust and in cultivation reach about 80mm diam. with leaves up to 90mm long. Look-alikes are found in the gracilis, cooperi and cymbiformis var. transiens complex of the Baviaanspoort, and I have generally referred these all to H. cooperi var. gordoniana. However, that variety is actually quite a distinctive one from the Hankey Pass, north of Humansdorp and perhaps I should never have adopted it for general use in the way I have. Thus in my discussion about H. cooperi and H. bolusii var. blackbeardiana, I speculate that gracilis is an archetypal form which may lie at the root of the Eastern Cape species here being discussed.
The species H. aristata poses similar problem, and so does H. decipiens var. pringlei (Scott) Bayer as well as two collections which I and Bruyns made at Ripon station which is north-east of Kaboega. One of these latter collections is H. cooperi var. pilifera (-111) and the other is H. decipiens var. pringlei (-112). Largely because of that collection, I felt pressured into believing that the latter would best be coupled with H. bolusii var. blackbeardiana rather than with H. decipiens, and I was contemplating a major change of this kind. This would also have involved subsuming that element in an enlarged H. cooperi var. cooperi. There are, however, some other collections from the greater Darlington Dam (Lake Mentz) area to the west, which are relevant to this problem. These include older ones which suggested the link of pringlei with decipiens which I was thus also predicting, and new ones which confirm that this does in fact happen.
Because of the extent and complexity of the problem, this report deals specifically with the Kaboega area. In conjunction with it, a manuscript regarding H. cymbiformis var. incurvula, was written to give another indication of the nature and scope of the problem of classification of Haworthia. However, the chief reason for the visit to Kaboega was somewhat fortuitous. I was intending visiting Pluto’s Vale again, also the farm Thornkloof where Col. R. Bayliss had collected; the place Aalwynpoort to check on an Ernst van Jaarsveld collection and also hoping to cast light on a collection from the Bosberg at Somerset East. Peter Bruyns was hoping I would recollect a Stapelia aff. kougabergensis which he had seen on the Zuurberg, and there are also some other Haworthia records in that general area which need verification. What also materialised was a visit by Steven Hammer to South Africa, and contact with Tony Dold of the Schonland Herbarium at Grahamstown. The best of all was contact by my wife Daphne, with the gracious managers of the Kaboega farming enterprise, Sandy and Ian Ritchie. Through their kindness and hospitality we came to spend four days on the farm and briefly explored what it has to offer. One day there was spent with Steven Hammer, and with Tony Dold and Dez Weekes of Grahamstown. My wife and I returned for a second visit in Sept. ’99, when we also went to Oudekraal via a direct farm road from Kaboega to the east.
Results On our first visit we first explored the western side of the farm known as Wilgefontein. Tony and Dez went up the slopes of the Spekboomberg on the north side of the valley, and the remainder of the party climbed to near the top of the Zuurberg. We climbed straight to the grassveld where the grass was very long and thick. We soon found a solitary-growing greyish-green plant in flower (MBB6904-148), and then higher and on vertical rocks, a less translucent clump-forming plant with a velvety texture – also in flower (MBB6905-149). The plants looked rather different and we were quite excited about it being something apparently out of the ordinary. It is possible in the context of later collections, that these two collections are ecotypes. Looking at similar rocks about 200m to the south-east, we found what at first was obviously H. coarctata var. adelaidensis (MBB6907). This turned out to be a big population of plants which can, as such, be collectively regarded as intermediate between H. glauca and H. coarctata. This is a very significant collection because of the occurrence of glauca in its typical form at Zuurberg Pass, and nearer at Oudekraal, both to the east. Var. coarctata itself is not known nearer than at Patterson 70km eastwards and var. adelaidensis from east of Riebeek East which is still further away. (see also ‘Haworthia Revisited’ p179). What we did hope to see was H. angustifolia known at its western limit from Oudekraal. It must be on Kaboega and we just have not seen it yet.
Across the valley Dez Weekes had collected three specimens from a south facing steep cliff (MBB6903-150). These had long stems with bright green terminal rosettes and I have identified these as H. cymbiformis (with reservations! as I think this could again be a local ecotypic adaptation) without seeing the plants in habitat myself. This species is also not known from nearer than Hell’s Gate 50km to the south, but – it almost certainly has affinities with the plants collected by Marx and Bruyns. Steven, Tony and Dez had to leave after the first day, but Daphne and I continued the exploration the second day with a long climb up the hill east of DePlaat. We soon found Gerhard Marx’ (MBB6909-151) plants at the base of the mountain and continued eastwards and upwards. We came across a very extensive and dense mass of H. glauca (MBB6908). The plants were variously tubercled and lacked the distinctive grey colouration of the species. Any affinity with “coarcata” was less obvious than at Wilgefontein. Another interesting plant there was a dwarf form of Aloe tenuior. We crossed over to the steep north slopes and on the way down came across three plants (MBB6910-152) of what appeared to be similar to the velvety plant of the previous day (-149). It was in the same rocky situation. We looked further for it, but failed to find it again probably only for lack of concerted effort. The terrain was very difficult and we were getting a little hot and tired. We came across the Marx plants again. These were further down the hill and looking rather bleached in the sun.
149 a. MBB6905 H. gracilis var. isabellae, on rock face, Wilgefontein, westof Kaboega.149 b. MBB6905 H. gracilis var. isabellae, on rock face, Wilgefontein, westof Kaboega.149 c. MBB6905 H. gracilis var. isabellae, on rock face, Wilgefontein, westof Kaboega.149 d. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.149 e. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.149 f. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.149 g. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.150. MBB6903 H. cymbiformis var. cymbiformis. south-facing rocks, Wilgefontein.151. MBB6909 H. cooperi var. cooperi, southwest fo De Plaat farmhouse.152 a. MBB6910 H. gracilis var. isabellae to H. cooperi var. cooperi, east of De Plaat farmhouse.152 b. MBB6910 H. gracilis var. isabellae to H. cooperi var. cooperi, east of De Plaat farmhouse.
On the way home we were travelling across some very stony ground covered with scattered bush and a low-growing Felicia, probably filifolia. Underneath these, in algae and moss, and with Euphorbia stellata and Tylecodon reticulatus were single plants of a cryptic small blue-green species (MBB6917-142). This I relate to collections from Stonefountain and Verdun cited in my revision under H. aristata, again collected as MBB6852-126 and Dold in MBB6851-125 (Modderfontein).
142 a. MBB6917 H. aristata, Kaboega.142 b. MBB6917 H. aristata, Kaboega.142 c. MBB6917 H. aristata, Kaboega.
The following day, accompanied by Sandy Ritchie, we ventured into the Kaboegapoort itself. We walked to the boundary with the Addo National Park. On the way we had seen inaccessible clumps of an Haworthia on a very steep cliff and we tried to reach these on the way back. We were lucky to be able to sample four clumps on the first of the rock faces where some plants had established themselves off the face (MBB6911-153). On the other cliff we could not reach anything. The plants were not cymbiformis but relate rather to the Marx plants except that they were clump-forming and bleached. A better comparison is with (-148). They were also in flower.
148 a. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 b. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 c. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 d. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 e. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.153. MBB6911 H. gracilis var isabellae to H. cooperi var. cooperi, rock faces in Kaboegapoort.
Peter Bruyns collection (-147) is of six clones from this poort and each of these plants is different. However, one clone (-147.1) resembles gracilis var. viridis from Perdepoort (-70) and also resembles a collection of Bruyns of cymbiformis var. transiens (-69) from the Langkloof. (This latter collection is involved in the issue of that species or gracilis var. picturata). Kobus Venter also has a collection of similar plants from south of Lake Mentz (-72.2). A second clone (-147.2) was an aberrant plant with very terete, abruptly mucronate leaves which were also unusually translucent. Another clone (-147.3) was of a plant identical to the big gracilis var. isabellae of the Krom River Estuary (Ripon, WRB1, recollected by myself -39), and comparable with a collection (MBB6855-154) from Waterford, east of Jansenville. That collection could be identifiable as H. arachnoidea var. xiphiophylla and perhaps hinting at a link of that element with H. decipiens var. minor. Two clones (147.4, 147,5) are the same as the DePlaat collections (-145, -146), resembling the Gladhurst (-116) and Glen Craig (-98,-99) forms of gracilis. Thus representing my view of an archetype.
147 a. PVB5002 in JDV92/33 H. cooperi var. cooperi, Kaboegapoort cf [51 a-c].147 b. PVB5002 in JDV92/33 H. cooperi var. cooperi, Kaboegapoort cf [51 a-c].147 c. PVB5002 in JDV92/33 aberrant.147 d. PVB5002 in JDV92/33 cf [20, 154 a-c].147 e. PVB5002 in JDV92/33 cf.095 [96 a, b, 116a-e].147 f. PVB5002 in JDV92/33 cf.095 [96 a, b, 116a-e].154 a. MBB6855 H. arachnoidea var. xiphiophylla to H. decpiens var. minor, Waterford, east of Janesville.154 b. MBB6855 H. arachnoidea var. xiphiophylla to H. decpiens var. minor, Waterford, east of Janesville.154 c. MBB6855 H. arachnoidea var. xiphiophylla to H. decpiens var. minor, Waterford, east of Janesville.
On our last day, Ian Ritchie kindly took us on a drive to territory which had looked quite visitor friendly from the top of the Zuurberg. On closer contact they are anything but so. On the Spitzkop, which is on the northern boundary of the farm, we found aristata (-141) growing on bluish shale in a situation favoured by H. cooperi var. cooperi. It was a little bigger than our previous collection, but smaller than plants we subsequently collected northwards on the road between Riebeek East and Jansenville (Paddafontain, MBB6899-155), which I refer to pringlei). Driving to the east of Spekboomberg we saw plants (MBB6914-156) similar to the Marx plants of DePlaat (-145) in profusion, some of them without the softer translucence of the Marx collection. The leaves were occasionally much flatter and ovate and distinctly reminiscent of cymbiformis. Daphne and I walked down the hill from that point seeing the plants for most of the descent. Ian in the meantime drove back and further to the south-east and then found very similar plants on a steep slope also facing south-east (MBB6915-157). These plants can also occur in large clusters.
141 a. MBB6916 H. aristata, Spitzko[, Kaboega.141 b. MBB6916 H. aristata, Spitzko[, Kaboega.141 c. MBB6916 H. aristata, Spitzko[, Kaboega.145 a. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.145 b. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.145 a. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.145 d. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.155. MBB6899 H. aristata / H. decipiens var. pringlei, Paddafontein, north of Kaboega.156 a. MBB6914 H. cooperi var. cooperi / H. cymbiformis, east of Spekboomberg, northwest of Kaboega.156 b. MBB6914 H. cooperi var. cooperi / H. cymbiformis, east of Spekboomberg, northwest of Kaboega.156 c. MBB6914 H. cooperi var. cooperi / H. cymbiformis, east of Spekboomberg, northwest of Kaboega.157 a. MBB6915 H. cooperi var. cooperi / H. cymbiformis, Kok-se-dam, Kaboega.157 b. MBB6915 H. cooperi var. cooperi / H. cymbiformis, Kok-se-dam, Kaboega.
Daphne and I drove to Somerset East to reconnoitre the Bosberg and on the way back saw aristata again about 10km north-east of Kaboega (-143). We had looked at the Paddafontein (-155) plants on the way out and they quite obviously can be linked to aristata too. Unlike the other collections of aristata, however, the Paddafontein plants have a large robust inflorescence with many flowers open (usual in decipiens) as opposed to say the Commadagga (-128), aristata, but with fewer and stumpier leaves) dwarfs with only 8-10 flowers per stalk and one open at a time (thus more pilifera-like).
128 a. MBB 6897 H. aristata, southeast of Commadagga.128 b. MBB 6897 H. aristata, southeast of Commadagga.143 a. MBB6901 H. aristata, Hopewell.143 b. MBB6901 H. aristata, Hopewell.155. MBB6899 H. aristata / H. decipiens var. pringlei, Paddafontein, north of Kaboega.
During our second visit, we again went to the top of the mountain at Wilgefontein, after Ian had shown us H. glauca in the Kaboegapoort itself. This population was not typical of the species and also more like the De Plaat plants. We revisited the site of -148 and -149. Both were in flower and on this occasion we found the grassy ecotype within about 75m of the stone-face plants. The latter had flowered but seed-set was very poor, as opposed to the grass element which had well-formed capsules. From there we went to the Dez Weekes’ slopes via a different route and collected (MBB6925-158) plants ranging from the same greenish cymbiformis-like plants of -156 to specimens which could be nothing else but typical of true cymbiformis. We saw the same plants again at the dam to the north-west of the homestead, and again on the south slopes (-159) behind the previous De Plaat collection (-151). We completed the stay with a visit to Soutkloof where we saw again the true aristata (-139), and also to the office of the Addo National Park on top of the Zuurberg. Here we saw specimens of H. cooperi var. pilifera from that vicinity, and similar to a collection by Ernst Van Jaarsveld from Oudekraal (I had seen these plants when I collected H. angustifolia var. baylissii there many years ago). On our visit to Oudekraal we stopped to the west of my previous visit and probably also west of where Ernst had collected. We found the cooperi-like plants (MBB6922-160) again growing among rocks in dense grassland. The plants had very pronounced reddish-lines in the leaves and this was evident in all the Kaboega collections.
158 a. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 b. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 c. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 d. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 e. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.159 a. MBB6935 H. cooperi var. cooperi / H. cymbiformis, south of De Plaat farmhouse.159 b. MBB6935 H. cooperi var. cooperi / H. cymbiformis, south of De Plaat farmhouse.160 a. MBB6922 H. cooperi var. cooperi. Oudekraal, Zuurberg.160 b. MBB6922 H. cooperi var. cooperi. Oudekraal, Zuurberg.160 c. MBB6922 H. cooperi var. cooperi. Oudekraal, Zuurberg.
Curiously a post-graduate botany student busy with a study of succulent endemism brought in a number of plants for identification. This is P. Desmett, and among his collections, two are relevant. One is PD2310-161 from Boplaas. This is north-east of Kirkwood where the Kaboega meets the Sundays River. The plant is a small spinose specimen which could relate to the arachnoidea-like (as von Poellnitz compared it) stiemiei. It could alternatively, and because of its colour and translucent patterning of the leaves, be more probably compared with H. decipiens var. minor represented by several MBB collections from Sapkamma (MBB6618-162, MBB6619-163, MBB6620-164) to the west. The other is PD2309-165 from the southern end of Kaboegapoort. It is the apparently puberulous-like element resembling -148, and also -153. Kobus Venter also collected and aristata-like plant from the Sundays River Poort (-73) which I think compares very favourably indeed with a large number of collections from afar afield as Redcliffe (north-east of Willowmore), the Baviaanskloof, Uniondale, down the Longkloof to Humansdorp and Hankey/Patensie. These are all collections which I have identified as H. cooperi var. gordoniana, and considered in the context of another paper.
161. PVB2310 H. decipiens var. major, Boplas, northeast of Kirkwood.162 a. MBB6618 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma, south of Perdepoort.162 b. MBB6618 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma, south of Perdepoort.163 a. MBB6619 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.163 b. MBB6619 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 a. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 b. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 c. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 d. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.165. PD2309 H. gracilis var. isabellae to H. cooperi var. cooperi, southern end of Kaboegapoort.
Discussion It is apparent to me that there are can be only two elements (species) of the sub-genus Haworthia present on Kaboega. These are from either of the geographical elements cymbiformis, aristata, gracilis and cooperi, and they are directly continuous. In cultivation it is apparent and obvious to me, that aristata from Spitzkop (-141) is mirrored by the gracilis-like -152, which is continuous with the more gracilis-like -151. This latter element leads through several collections to the cymbiformis-like plants in -150, -158 and -159. Similarly a very cooperi-like element in -148 is the apparent ecotype of the very gracilis-like -149. But -148 (and -165) must also be compared with -152 and to -153, which take us back to the gracilis-like archetypes. More significantly these seem to be the elements which best relate to the collections from Oudekraal, and with what occurs still further east at Zuurberg. These collections are considered to be H. cooperi var. pilifera.
There is no doubt that the Spitzkop aristata (-141) must be compared with -155 at Paddafontein and thus connecting aristata to the greater Jansenville area, and to the western elements of H. decipiens var. pringlei. There is the Waterford collection north of Lake Mentz (MBB6855-154) which is problematic as it does not have the opacity nor darker blue-green colouration of pringlei. It is better compared with xiphiophylla (or perhaps this is H. decipiens var. minor) in 72.2 south of Lake Mentz. It also bears a remarkable likeness to the Krom River collection of gracilis var. isabelllae (-39) as indicated above.
Conclusions I conclude that at Kaboega we have a situation where cooperi is excluded by the fact that the archetypal gracilis is represented by an advanced version of gracilis from which aristata and cymbiformis are extended. This pattern of identifications and classification true for one area, are not true for another. Already fully aware of the complex interaction between species like H. bolusii, H. cooperi and H. decipiens, and fast becoming even more aware of the extension of this complexity to H. gracilis, H. cymbiformis, H. arachnoidea var. xiphiophylla and even H. marumiana, I have to express conclusions very guardedly. Any classification of Haworthia will undoubtedly have tensions within it. It has been long apparent to me that sophisticated technology is unlikely to prove of much value in dealing with the nuance of variation between populations. If it is, it has going to have to first take into account the kind of variation one sees at the scale covered by this article. My belief was, and is now confirmed, that this is indeed the scale at which observation is now required. It can still be a lot closer. We did not spend sufficient time at Kaboega to explore the area thoroughly, and neither have we yet made any permanent record of our observations other than this report and accompanying illustrations. The point may now have been passed at which casual generalisation from a memory bank of images is possible. Extensive photographic and herbarium records are going to be essential to create a physical record which can be studied and manipulated. There is a series of eight mountain ranges from near the coast, with the Zuurbergs being the last of these in the north-east. If I calculate how long it would take to explore that area on the scale of our limited survey of Kaboega, I reckon on at least three years of continual search.
At this point I realise that the expectations of “Haworthia Revisited” are not going to be met. There are already snivels and meuls because there is no “data” in my revision. My experience tells me that this is not because the average reader would in fact take any cognisance of such data – but it is part of the illogical and faulty paradigm of modern “science” (“materialism”, the Theosophist would say). My conviction is that I have in my revision presented there a very comprehensive picture of the genus. This can definitely meet the time-worn wishful thought of the platitudinous foreword that “this book will stimulate/encourage/direct/guide further research”. Classification of Haworthia is not simply sorting a few single specimens as they are represented in collections or on herbarium sheets. It is trying to understand a complex system of closely interrelated and similar looking elements, as populations, which do not fit a classic and static image of a genus and so-many discrete species. My contention is that this is not only the case for Haworthia, but for many other genera too. ♦
141 a. MBB6916 H. aristata, Spitzko[, Kaboega.141 b. MBB6916 H. aristata, Spitzko[, Kaboega.141 c. MBB6916 H. aristata, Spitzko[, Kaboega.142 a. MBB6917 H. aristata, Kaboega.142 b. MBB6917 H. aristata, Kaboega.142 c. MBB6917 H. aristata, Kaboega.
143 a. MBB6901 H. aristata, Hopewell.143 b. MBB6901 H. aristata, Hopewell.144 a. T.Dold3961 in MBB6921 H. cooperi var. leightonii to H. arista, Chalumna. (H. cooperi var. doldii – ed.)144 b. T.Dold3961 in MBB6921 H. cooperi var. leightonii to H. aristata, Chalumna. (now H. cooperi var. doldii – ed.)145 a. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.145 b. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.145 a. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.145 d. J.G.Marx in JDV91/14 H. cooperi var. cooperi, De Plaat, north aspect, Zuurberg.146. J.G.Marx in JDV91/15 H. cooperi var. cooperi, De Plaat, south aspect, Zuurberg.147 a. PVB5002 in JDV92/33 H. cooperi var. cooperi, Kaboegapoort cf [51 a-c].147 b. PVB5002 in JDV92/33 H. cooperi var. cooperi, Kaboegapoort cf [51 a-c].147 c. PVB5002 in JDV92/33 aberrant.147 d. PVB5002 in JDV92/33 cf [20, 154 a-c].147 e. PVB5002 in JDV92/33 cf.095 [96 a, b, 116a-e].147 f. PVB5002 in JDV92/33 cf.095 [96 a, b, 116a-e].148 a. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 b. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 c. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 d. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.148 e. MBB6904 H. cooperi var. cooperi, in amongst grass, Wilgefontein, west of Kaboega.149 a. MBB6905 H. gracilis var. isabellae, on rock face, Wilgefontein, westof Kaboega.149 b. MBB6905 H. gracilis var. isabellae, on rock face, Wilgefontein, westof Kaboega.149 c. MBB6905 H. gracilis var. isabellae, on rock face, Wilgefontein, westof Kaboega.149 d. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.149 e. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.149 f. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.149 g. MBB6905 H. gracilis var. isabellae, Wilgefontein, west of Kaboega.150. MBB6903 H. cymbiformis var. cymbiformis. south-facing rocks, Wilgefontein.151. MBB6909 H. cooperi var. cooperi, southwest fo De Plaat farmhouse.152 a. MBB6910 H. gracilis var. isabellae to H. cooperi var. cooperi, east of De Plaat farmhouse.152 b. MBB6910 H. gracilis var. isabellae to H. cooperi var. cooperi, east of De Plaat farmhouse.153. MBB6911 H. gracilis var isabellae to H. cooperi var. cooperi, rock faces in Kaboegapoort.154 a. MBB6855 H. arachnoidea var. xiphiophylla to H. decpiens var. minor, Waterford, east of Janesville.154 b. MBB6855 H. arachnoidea var. xiphiophylla to H. decpiens var. minor, Waterford, east of Janesville.154 c. MBB6855 H. arachnoidea var. xiphiophylla to H. decpiens var. minor, Waterford, east of Janesville.155. MBB6899 H. aristata / H. decipiens var. pringlei, Paddafontein, north of Kaboega.156 a. MBB6914 H. cooperi var. cooperi / H. cymbiformis, east of Spekboomberg, northwest of Kaboega.156 b. MBB6914 H. cooperi var. cooperi / H. cymbiformis, east of Spekboomberg, northwest of Kaboega.156 c. MBB6914 H. cooperi var. cooperi / H. cymbiformis, east of Spekboomberg, northwest of Kaboega.157 a. MBB6915 H. cooperi var. cooperi / H. cymbiformis, Kok-se-dam, Kaboega.157 b. MBB6915 H. cooperi var. cooperi / H. cymbiformis, Kok-se-dam, Kaboega.158 a. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 b. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 c. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 d. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.158 e. MBB6925 H. cymbiformis var. cymbiformis, Kok-se-pad.159 a. MBB6935 H. cooperi var. cooperi / H. cymbiformis, south of De Plaat farmhouse.159 b. MBB6935 H. cooperi var. cooperi / H. cymbiformis, south of De Plaat farmhouse.160 a. MBB6922 H. cooperi var. cooperi. Oudekraal, Zuurberg.160 b. MBB6922 H. cooperi var. cooperi. Oudekraal, Zuurberg.160 c. MBB6922 H. cooperi var. cooperi. Oudekraal, Zuurberg.161. PVB2310 H. decipiens var. major, Boplas, northeast of Kirkwood.162 a. MBB6618 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma, south of Perdepoort.162 b. MBB6618 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma, south of Perdepoort.163 a. MBB6619 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.163 b. MBB6619 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 a. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 b. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 c. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.164 d. MBB6620 H. decipiens var. minor / H. arachnoidea var. xiphiophylla, Sapkamma.165. PD2309 H. gracilis var. isabellae to H. cooperi var. cooperi, southern end of Kaboegapoort.
M. B. Bayer, Cape Town. Ian Ritchie, Somerset East. ♦
With Tony Dold, Selmar Schonland Herbarium, Grahamstown. This essay was published in Aloe 40:10, 2003. Minor additions are made here.
Introduction
By way of introduction it is fitting to repeat Dyer’s (1937) note on the Karroid Scrub of the Albany Division … “Pluto’s Vale and Hell’s Poort, names suggesting places of an unenviable reputation, are on the roads from Grahamstown through the Fish River valley to Kingwilliamstown and Bedford respectively. Certainly very hot passes during the summer, they are nevertheless the homes of many botanical treasures, particularly succulents. Several species of Haworthia are present (in the Albany division) but the soft leaved ones are usually found under the protection of rock ledges or scrub. Pluto’s Vale is the home of two rarities, H. incurvula and H. tenera, both described recently by von Poellnitz”.
The genus Haworthia is fairly difficult to classify, but Dyer’s words reflect the uncritical way in which any new species or variety is accepted into the literature. Bayer (Aloe 36:34, 1999) discusses the two ‘species’ noted by Dyer and the complexity of their relation in Pluto’s Vale. Bayer did not deal with the geological factors which might underlie their relationship, but this is implicit in the various books and papers he has authored and the reliance he has placed on geographic considerations. In a new publication (see chapter 7) Bayer has also explored the relationship of Haworthia species on the northern slopes of the Zuurberg in the Kaboega area. Here it is evident that geology and habitat are key factors in determining relationship between similar elements to H. incurvula (H. cymbiformis var. incurvula) and H. tenera (H. gracilis var. tenera). In both cases the same key species viz. H. cooperi (to include H. gracilis) and H. cymbiformis, are involved. As in the case of Pluto’s Vale, the species, H. gracilis comes into question too. This latter species has a questionable taxonomic history, but it was at the last considered to have originated in Helspoort (Afrikaans) to the north-west of Grahamstown. While mentioning here, based also on recent publication of a possible type illustration (Breuer, 2000), that it may not have come from Helspoort at all, and may in fact be synonymous with what Bayer (1999) has taken to be H. aristata. As discussed in Haworthia Update, there is a problem with the recognition of the Helspoort “species” in the face of the broad range of variant populations which constitute H. cymbiformis, H. cooperi, H. bolusii, H. gracilis and H. aristata and all the varieties associated with them. A recent excursion was made to Helspoort to establish if the variation of the Zuurberg, Pluto’s Vale and the Baviaanskloof Haworthias was also evident.
We speculate that the difficulty in dealing with genera like Haworthia, is that such small succulents favour skeletal sites where inter-plant competition is low because of shallow soils and surface rock. It has been noted several times that a species may change facies depending on site and this has been reported for H. mucronata var. mucronata as it occurs on shales, and H. mucronata var. habdomadis as an ecotype of the same species occurring in sandstones (Bayer, 1999). A similar situation has been reported for H. cooperi var. pilifera on Ripon Sandstone, as opposed to H. bolusii var. blackbeardiana on shale near Ripon Station (Bayer, in ms.). Broad indications are that elements as different as H. cooperi var. pilifera and H. cymbiformis var. cymbiformis may be ecotypic, because the former is essentially a flat level grassland, and the latter a riverine-cliff element.
Apropos to Dyer’s note, it is only the two Haworthia species and H. attenuata var. britteniana that lend any particular significance to Pluto’s Vale, however diverse and extraordinary the vegetation there may be. There is no single plant species that lends any particular significance to Helspoort. The same in fact can probably be said for the whole Kaboega area of the Zuurberg, where four biomes are said to meet (Bruton and Gess, 1988). Recently there was a report on Faucaria nemorosa (Aloe 38:37, 2001) from Swartwaterspoort. My immediate response is to ask … “What is peculiar about Swartwaterspoort and how does this relate to Haworthia?” A “species” in a landscape as “ordinary” as Swartwaterspoort should not be expected to harbour something uniquely discrete. The answer is that Haworthia cymbiformis does occur there and its variants are notable (Fig.8), but barely outside of the context of the variability of the genus itself. Thus the broader question of vegetation can and should be examined when establishing the classification of Haworthia, or in fact any other genus. The object thus of this paper is to report findings at Helspoort and discuss, together with the already reported observations at Pluto’s Vale and Kaboega (Zuurberg Mountains), the taxonomic implications relative to vegetation and geology.
Observations The details of the Haworthia populations observed for Pluto’s Vale and Kaboega are given in Haworthia Update. It was only possible to spend one morning at the Helspoort site and four collections of H. gracilis were made. These are:
MBB7051, on an upper south-west facing slope on the edge of Bush thicket, west of the road
MBB7052 (Figs.3, 4, 5), in a low lying level area at the base of the valley, under Pteronia incana.
MBB7053 (Figs 1, 2), on a rocky north facing slope also low down in the valley, with Euphorbia polygona.
MBB7054 (ex T. Dold), in rocks above the valley on the north-eastern side.
The plants are all very similar, unlike the Pluto’s Vale populations and certainly not as diverse as the Kaboega ones. None were as spinose as the unpublished Berlin illustration (Fig. 6), but they do accord with the Desert Plant Life illustration (Fig.7) which has otherwise been taken to represent the species (unfortunately more significance is attached to, and more is written about, frivolous aspects of nomenclature rather than the use and application of names). The plants are pale green in colour and moderately to almost non-spinose. In the population MBB7052 under Pteronia incana, the plants were more blue-green in colour with slightly more obtuse and thicker leaves suggesting closer similarity to H. cooperi var. pilifera. This element is quite common in the area and occurs in more typical form both to the east at Piggots Bridge, nearer to Grahamstown at Table Farm and also at Vaalkrans, Thornkloof and Brakkloof farms. H. cymbiformis is not known closer than Swartwaterspoort west of Riebeek East (Fig.8), at Alicedale, at the farms Thornkloof in the south, and The Fort to the east. There are no recent confirmed collections of a gracilis-like element in the Grahamstown area, other than as mentioned in Bayer (1999). The closest affinities are a glabrous element from Gladhurst and a similar element from Elandskop, both south of Adelaide. These are similar to the cooperi-like elements described for the Zuurberg (Fig.9). H. aristata is nearest at Kommadagga, west of Riebeek East. This is certainly a product of under-exploration and unconfirmed collections from the Brakkloof ridge running east and west of Helspoort, as well as from the Fish River Rand heights north of the Fish River all need to be explored.
Geology The basic geology and topography is illustrated in Figs 10-14 – as accurately as the original maps permit. The geological formations at each area are essentially the same, particularly for Pluto’s Vale and Helspoort.
These are Dwyka, Ecca and Witteberg groups, which are characterised as follows:
Dwyka – tillite, consisting of dark blueish‑grey, very poorly sorted, massive diamictite of glacial origin.
Ecca – shale, carbonaceous shale & tuff, Fort Brown shale formation, Ripon sandstone & shale formation.
Witteberg – quartzite of the Witpoort formation and Witteberg shale, quartzite, sandstone & diamictite of the Lake Mentz subgroup.
Soils The underlying geology ultimately determines the soil type although climatic factors in the weathering process would have considerable effects on the result. Because the underlying geology of all three study sites is very broken and incised, the soils are directly influenced by geology than in the case of more mature formations that are less incised or topographically less rugged and broken. Thus some of the habitats are practically skeletal and parent rock, and what soil there is overlies rock or partially weathered rock (Hartmann 1988). Pluto’s Vale (Figs.11,13,16,17) is characterized by weakly developed lime-rich soils, while Helspoort (Figs.10,12, is similarly characterized by weakly developed soils of rocky veld with a strong sandstone contribution. The western Haworthia locality in Helspoort is on Witteberg Quartzite, where the soil is thus sandy, nutrient poor and well‑drained. The central locality is on shale while the eastern locality is on Dwyka tillite that both result in a clay rich soil with more nutrient and greater water holding capacity. The plants from Pluto’s Vale are also on Dwyka tillite and on Ecca shale, sandstone is absent. The Kaboega area (Figs 14,15) is at another scale and almost any aspect and soil type concordant with the geological formation and broken topography can be encountered. In addition, at Kaboega there is a declining rainfall gradient from east to west, as well as rain-shadow effects.
The subdivisions and variants of the parent geology make it extremely difficult to generalise about the soil and the scale of the geological maps also make it be quite inappropriate for comment on soil. Furthermore there is the question of aspect too. South slopes are cooler and moister than north slopes and soils tend to be deeper. Deep rocky ravines result in sites which are shaded and cooler for different periods of the day. On the scale of Kaboega, altitude is also critical and a rainfall gradient is pronounced as opposed to Helspoort and Pluto’s Vale localities where site moisture is very locally determined.
Rainfall Rainfall can be related to distribution of Haworthia species, but we do not think it is significant except in respect of the scale at which we are dealing. The study sites fall in a zone of approximately equal summer and winter rainfall, often with good late summer rain in March, which have a carrying over effect well into the winter period. However, the higher ridges and hills receive a greater rainfall than the lower valley levels, which also have higher temperatures. Rain coming from the coast is generally intercepted by Botha’s Ridge at Grahamstown and thereafter rainfall decreases greatly decreases towards Committees Drift and Fort Brown (Dyer 1937). The average annual rainfall at Pluto’s Vale is 500mm while that of Helspoort 482mm. The average annual rainfall at Kaboega is significantly lower at 289mm (Dent, Lynch & Schultze 1987).
Plants on the higher mountain slopes with a south or south-eastern aspect will also benefit greatly from condensation from mists from the sea, mostly during summer months. The Haworthia population at the higher western‑most locality at Helspoort would certainly be affected by these incoming mists whereas those on the central and eastern localities, being on the leeward side of the catchment, would not. Moreover the latter would experience higher temperatures than the former. At Kaboega, the entire Zuurberg range intercepts rain and mist from the south-east, and there is a rainfall gradient declining from east to west.
Vegetation Haworthia and many smaller plants are elements of the broader vegetation and usually constitute that element which deviates from the characteristics of any recognised phytochorion. This is probably because they cannot compete against the larger plants, grass, trees and shrubs which constitute ‘vegetation’ as seen by the vegetation ecologist. They occupy habitats which are hostile to larger and deeper rooted plants.
The flora of the Albany district reflects a meeting point of various phytochoria (Cape, Tongoland/Pondoland, Karoo/Namib) and a great diversity of vegetation types can be found within a radius of 150km of Grahamstown (Lubke et al 1988). The vegetation type of Pluto’s Vale is clearly Valley Bushveld (Acocks veld type no. A23) but that of Helspoort comprises Valley Bushveld on the steep slopes of the poort with False Fynbos (Acocks veld type no. 70, Grassy Fynbos of Low & Rebelo 1996) on the flat summits and karoo influences (False Karroid Broken Veld, Acocks veld type no. 37) on flat, low lying areas.
The vegetation as described by Low & Rebelo (1996) for the Zuurberg is Grassy Fynbos (Acocks veld type No. 65). This is endemic to the Eastern Cape from the Kouga Mnts to Port Elizabeth, and on the Grootrivierberge from Steytlerville to Grahamstown and Bushmans River Mouth, mainly on the mountain tops. Grassy Fynbos replaces Mountain Fynbos in areas where the component of summer rainfall increases; the Restios are replaced by grasses and the Proteoid elements replaced by small-leaved shrubs and succulents (e.g. Aloe). Due to the increase in grass‑fuel, fires are more frequent in Grassy Fynbos than Mountain Fynbos.
Factors influencing Haworthia populations The western locality of Helspoort is on the margin of False Fynbos, which coincides with the well-drained, nutrient-poor, quartz‑derived soils, incoming coastal mists and cooler temperatures. The central locality is on shale that is richer in nutrient and has a higher moisture holding capacity. The vegetation is False Karoid Broken Veld that does not receive additional moisture from coastal mist and has higher temperatures. This locality is locally dominated by Pteronia incana, a pioneer shrub that indicates poor veld management and disturbance, particularly in this veld type. It is unlikely that this is a factor in the occurrence of the Haworthia in MBB7052. What is evident in nearly all Haworthia populations anywhere is that the habitats are disturbance resistant – either from fire or from physical animal trampling and grazing. In the absence of any management at all, however, rocky sites and ravine, cliff and valley margins, do become severely degraded with a negative impact on Haworthia on such sites.
The eastern locality at Helspoort is on Dwyka tillite that has a high moisture holding capacity. The vegetation is consequently Valley Bushveld and does not receive the coastal mists or cooling winds which results in drier, hotter conditions similar to the central lower locality. However, the vegetation is less disturbed and the plants are more protected by surrounding vegetation and protruding rocks.
The rainfall difference between Pluto’s Vale and Helspoort is insignificant. The plants at Pluto’s Vale, south of the road, grow in weakly developed, shallow, lime-rich soils overlying Dwyka tillite in dense Valley Bushveld. The plants are also on the southern aspects. North of the road and all the way to the eastern exit from the valley, are the steeper solid rack faces of Ripon sandstone. The only significant difference is probably that of parent material and scale of exposed rock. Where there is a single population of H. cymbiformis var. incurvula, it is on fragmenting blue Ecca shale. The very nearby population of the H. gracilis var. tenera intermediate is in an area with tumbled rock and a product of a disturbance event of some kind. The north-western cooperi-graciloid element is again on a Dwyka formation.
At Kaboega, it is clear that the cymbiformis and cooperi-graciloid elements are predominantly on Dwyka Tillite and on the southern slopes. The cooperi-piliferoid elements are in the higher lying margins between Fynbos and either Valley Bushveld or remnant forest. The aristata elements are evident in the dryer, either low-lying, or relatively high north-facing dry sites. However, it is quite evident that substrate is only contributory and the clinal nature of the variation between populations dramatically portrays the spatial arrangement. Within this spatial arrangement it is also evident that polytopic similarities occur. The cooperi-piliferoid element is here at its westernmost, but the cymbiformoid element is polytopically a distinct element at the very western-most population indicated on the map.
Similarly there are two widely separated, almost teneroid, populations of plants which are highly site specific on vertical ferruginous quartzite in one case, and white purer quartz in the other. At the western most of these two sites, two populations occur within 25 meters of each other. They flower and seed simultaneously and the most probable relationship is that of ecotype as deduced from the general continuity between all the Kaboega populations of this ilk. One population is the teneroid (or graciloid or isabelloid) element) and the other is piliferoid/aristatoid. The latter is in dense grass over boulder-like terrain and the other (Fig.9 – ‘puberula’ in the preceding chapter) is on several small outcrops of vertical shaly-quartzite – also the home of Euphorbia polygona. The other population consists of plants that are smaller, fairly proliferous and very spinose with tiny spines too.
A few very similar plants to the last mentioned, were found to the east where they seemed to grade locally westward to a cooperoid element, but eastward to a small population on whiter quartzite, where the plants are unusual in having surface spination as well. Usually such spination is on leaf margins and keels. This surface spination does occur in a single population of H. cooperi (i.e. var. venusta from near Alexandria) and also in a single (known) populations of H. gracilis var. isabellae from the Longkloof. However, sparse surface spination is fairly common in H. decipiens, in H. nortieri and to a small degree in H. arachnoidea.
The species H. cymbiformis, which is what the western-most of several populations clearly resembles, is only known again at Enon, east of Kirkwood and south of the Zuurberg. The particular site of this “look-alike” is a much bolder rockface than any of the other south-facing Dwyka slopes.
The populations on Kaboega (apart from H. glauca) are not widely distributed and populations can be highly site-specific. It should be noted that H. angustifolia var. baylissi, occurring a few miles east of Kaboega, does not appear in the study area. There is no indication of the speculated connection of this species to more western counterparts viz. H. zantneriana and H. monticola. H. glauca var. glauca (in a form suggesting intergradation with H. coarctata at the western-most of the populations observed) occurs very abundantly on the rocky ridges on the upper north slopes of the Zuurberg, and also on the west facing slopes of the ridge south of Klipfontein farm. H. sordida occurs (as known) at a single site under Elytropappus rhinocerotis (renosterbos), and H. nigra is also present at a single, similarly highly localised site on ancient boulder debris under largely Pentzia incana. H. viscosa is absent. Curiously, Astroloba foliolosa is also represented by one known population on what must be the remnant of ancient river terrace near to, but several meters above, the present course of the Kaboega river. There are many other such species singularites on Kaboega which could be described in terms of geology, aspect and altitude but information which would be extremely difficult to synthesis in any particular way. For example, Euphorbia tetragona is present in highly localised places and the plants are all very tall and old with no evidence of recruitment. Euphorbia stellaspina, E. polygona, E. silenifolia, Faucaria felina, Aloe microstigma, A. pluridens, A. speciosa, A. tenuior, A. ferox, A. striata, Piaranthus disparilis, Duvalia caespitosa, Tridentea (Stapelia) longii, Quaqua pillansii, Huernia brevirostris, H. guttata, and H. campanulata are all present and largely as site-specific populations independent of the Haworthia populations. Cyrtanthus angustifolius, Haemanthus humilis and Dioscorea elephantipes are also present and localised. So while these elements may all have specific habitat requirements, it will be an awesome task to explain all the minutae which may account for their disparate occurrences.
Conclusions Haworthia species are invariably found where there is exposed rock and where the vegetative cover is low and sparse. Rainfall, soil and vegetation are of general significance but we consider that it is geology which may play the predominant role in explaining variability and hence ecotypification. We explain this as follows:-
a. Plutos Vale – evidence is that Dwyka seems to support H. cymbiformis var. incurvula. On the more quartzitic Dwyka series it transforms to a more cooperoid-graciloid element, while to the Ripon sandstones it becomes teneroid.
b. Helspoort – on the heavier low-lying soils the graciloid element becomes more cooperi-piliferoid.
c. Kaboega – the cooperoid and graciloid elements are in the quartzitic formations, the cymbiformoid in the Dwyka tillite, and the aristatoid in the Ecca and Ripon shales.
The cooperi-graciloid elements of Pluto’s Vale and Kaboega are morphologically continuous with the cymbiformoid, and are indistinguishable from many of the graciloid, and cymbiformoid (H. cymbiformis var. transiens) elements of the Baviaanskloof.
We repeat what Bayer wrote in 1999, that the basis of classification of Haworthia must be the geographical component. We add that the tendency in both the professional and academic ranks to recognise “species” on the flimsiest of morphological pretences, and to rank nomenclature wholly disproportionately to the function of identification, will never help to resolve a problem which seems to exist uniquely in Haworthia, itself a complete misconception. Classification in Haworthia has simply been dumbed-down by a wide community of writers who seem to have no empathy with the literature of the subject. The classification should be of such a nature as to have some significance for others who may seek to know something about the driving forces and products of change relating to plants. The converse should also be true. In this case, it is apparent that the Haworthia species and their variability on Kaboega, must have some relation to the broad statement … “where four biomes are said to meet”.
References
Dent, M.C., Lynch, S.D. & Schulze, R.E. 1987. Mapping mean annual and other rainfall statistics over southern Africa. Agricultural Catchments Research Unit Report No. 27. Department of Agricultural Engineering, University of Natal, Pietermaritzburg.
Dyer, R.A. 1937. The vegetation of the divisions of Albany and Bathurst. Botanical Survey of South Africa Memoir 17. Government Printer, Pretoria.
Hartmann, M.O. 1988. In Lubke, R.A., Bruton, M.N. & Gess, F.W. (eds). Towards and Environmental Plan for the Eastern Cape. Rhodes University, Grahamstown.
Lubke, R.A., Tinley, K.L. & Cowling, R.M. 1988. In Lubke, R.A., Bruton, M.N. & Gess, F.W. (eds). Towards and Environmental Plan for the Eastern Cape. Rhodes University, Grahamstownn
Bayer, M.B. The Haworthias of Kaboega. In Haworthia Update. Umdaus in ms.
Bayer, M.B. The Case of Haworthia incurvula. Aloe 36:34, 199
Dolt, T & Hammer, S. (2001). Notes on the Faucaria from the Forest: Faucaria nemorosa L.Bolus ex L.E.Groen. Aloe, 38:37-38.
Low, A.B. & Rebelo, A.G. (eds.). (1996). Vegetation of South Africa, Lesotho and Swaziland. In M.N. Bruton & Gess (eds.) Towards an Environmental Plan for the eastern Cape. Rhodes Univ., Grahamstown.
This essay was published in Haworthiad 16:62, 2002.
Introduction
Subsequent to my revision Haworthia Revisited (1999), I have done much more fieldwork, particularly in the Eastern Cape. This has revealed even more striking evidence of the intense inter‑relatedness of the so‑called species in Haworthia. Classification and revisionary classification is a sampling process. As this progresses and more material is collected, so the classification firms up. A extensive discussion explaining the following combinations and two new varieties is provided in Haworthia Update Vol.1 and an insight into the taxonomic problems to be solved is provided by the illustrations with another article, “Small Hairy Things”.
My classification had some problem areas that were anticipated to a degree in Haworthia Revisited. The following sentence appears in the discussion of H. cymbiformis var. transiens: “Thus H. mucronata can be allied with equal facility to either H. cymbiformis or H. cooperi, when in fact in the field it is more intimately related to H. decipiens. The location of this note is a powerful reminder that distinctions between species are highly blurred and that alternative solutions are possible.” I also make repeated references to the nature of the relationship of species and variants. Many of those are specific to, or apply to, or are predictive of the following changes. The basis of the following combinations is thus laid in Haworthia Revisited.
Although collections are cited, these are not always now represented by herbarium specimens. The reason for this is simply one of resources: herbarium space, the impracticality of trying to represent all the variants in such herbarium state, and the effort required to manage living collections and their preservation as specimens. A photographic record is being maintained in lieu of dried specimens in herbaria, where the record extant is deemed to be otherwise inadequate.
The following new names and combinations are published below:
1. Re‑arrangement of Haworthia pringlei and H. xiphiophylla within H. bolusii and H. decipiens H. bolusii var. pringlei (C.L.Scott) M.B.Bayer comb. nov. H. decipiens var. xiphiophylla (Baker) M.B.Bayer comb. nov. H. decipiens var. virella M.B.Bayer var. nov.
2. Goodbye to Haworthia gracilis H. cooperi var. gracilis (v.Poelln.) M.B.Bayer comb. nov. H. cooperi var. isabellae (v.Poelln.) M.B.Bayer comb. nov. H. cooperi var. tenera (v.Poelln.) M.B.Bayer comb. nov. H. cooperi var. picturata (M.B.Bayer) M.B.Bayer comb. nov. H. cooperi var. viridis (M.B.Bayer) M.B.Bayer comb. nov. H. cooperi var. doldii M.B.Bayer var. nov.
3. A familiar new species, Haworthia transiens H. transiens (v.Poelln.) M.B.Bayer stat. nov.
4. Where does Haworthia helmiae belong? H. helmiae transferred to H. arachnoidea var. nigricans in synonymy .
1. Re‑arrangement of Haworthia pringlei and H. xiphiophyllawithinH.bolusii and H. decipiens
H. bolusii var. pringlei (C.L.Scott) M.B.Bayer comb. nov.
H. pringlei C.L.Scott, Bradleya 12: 103 (1994). H. decipiens var. pringlei (C.L.Scott) M.B.Bayer, Haworthia Revisited: 67 (1999) in respect of the type only. Type: CAPE‑3224 (Graaff Reinet): Adelaide district (‑DD), Scott in PRE8970 (holotype).
Collections:
3224 (Graaff Reinet): Adelaide district (‑DD), Scott in PRE8970.
All the other specimens and collections cited in Haworthia Revisited under H. decipiens var. pringlei are transferred to a new variety, H. decipiens var. virella.
My collection from east of Somerset East (Baviaanskranz) MBB6561 supported by the two Ripon collections above, and by several other collections pertaining to H. aristata, indicates that H. pringlei C.L. Scott is in fact better related to H. bolusii var. blackbeardiana. This is suggested by its interactions with H. cooperi var. dielsiana at Ripon, and complicated both by interaction with H. aristata south of that and extending to the new variety H. decipiens var. virella. This new combination is explained further in the discussion following var. virella.
H. decipiens var. xiphiophylla (Baker) M.B.Bayer comb. nov.
Haworthia xiphiophylla Baker, Fl.Cap. 6: 354 (1896). H. arachnoidea var. xiphiophylla (Baker) M.B.Bayer, Haworthia Revisited: 36 (1999). Type: Cape-3325 (Port Elizabeth); near Uitenhage, Howlett s.n. cult. Kew (holotype): icon (B). Epitype: CAPE‑3325 (Port Elizabeth): N. Coega Station (‑DA), Mrs E.B. King (NBG).
My earlier transfer of the element xiphiophylla (Figs.1, MBB6604 2a, b & c MBB6616) to H. arachnoidea in Haworthia Revisited was done with some reluctance and based on two main collections by Venter (Fig.3 JDV91/122 and JDV91/117, both vicinity of Mentz Dam). (Note: I do not regard an earlier transfer by J.J. Halda to H. arachniodea as valid. Halda put forward many nomenclatural changes which are so ridiculous that I do not accept their publication as serious botanical work – Halda’s folly is summarised in Haworthiad 14:35, 2000. How decisions are made can be questionable at the best of times and mine are made from a deep instinctive response arising from wide experience. Mistakes are excusable in view of the inherent difficulty of making decisions in Haworthia, but not excusable if made in total ignorance).
This change now follows my own fieldwork and particularly the collection MBB7028 (Figs 4a & b). from Darlington Dam (Lake Mentz. Other recent collections by principally Philip Desmet of University of Cape Town, and by me, show that xiphiophylla must point in the direction of H. decipiens as H. arachnoidea is present as a very distinctive dark green entity with minimum translucence, in the Steytlerville area. On the other hand there are many collections from the Groot Winterberg linking the Uitenhage/Coega xiphiophylla with H. decipiens variants in the Jansenville and Steytlerville areas. This also impacts on the question/problem of the relationship of H. gracilis var. viridis (transferred to H. cooperi in this paper) and H. cooperi to H. decipiens. To facilitate communication and discussion, I thought at first that it would be advisable to widen the application of the name xiphiophylla to incorporate a wide range of collections from the vicinity of Pearston, extending to north‑west of Jansenville and southwards to Willowmore and back to Kirkwood. These are decipiens‑like plants. Instead, I have reluctantly described these as the new variety H. decipiens var. virella, with the var. xiphiophylla transferred from H. arachnoidea to H. decipiens.
From var. decipiens, it differs with broader flatter leaves, incurved resembling H. arachnoidea and with inter‑veinal translucence. Includes populations transitional to H. decipiens var. minor M.B.Bayer and to H. cooperi var. viridis M.B.Bayer. (A var. decipiens differt foliis latioribus, planioribus, incurvis similis H. arachanoidea et interveniis translucidis. Includet populi transitionum ad H. decipiens var. minor M.B.Bayer et H. cooperi var. viridis M.B.Bayer.)
Collections:
3223 (Rietbron): S. Aberdeen (‑DC), Perry 659 (NBG).
3325 (Port Elizabeth): Lake Mentz (‑AA), Bayer 7028 (Figs.4a & b)
I have included Bayer & Bruyns 6580 from Meerlust, previously cited under H. decipiens var. decipiens and MBB6583 from Waaipoort, previously cited under H. decipiens var. minor. These changes may seem flippant and frivolous, but they should be seen as evidence of complex continuities that may not ever be resolved.
These plants have longer more attenuate leaves than H. decipiens, but with the brighter green of the typical var. xiphiophylla. The spination is generally coarser and firmer than H. bolusii var. blackbeardiana. These are the plants I had in mind when I decided to absorb Scott’s H. pringlei in H. decipiens. I wish to stress that doing so was not as mindless as may be suggested, because there is still a greater inherent problem in this new arrangement. There are populations, particularly south of Cradock, of H. bolusii var. blackbeardiana, which cannot be distinguished from populations of H. decipiens var. virella. Ironically, such latter populations near Pearston, grow with and discrete from H. bolusii var. bolusii (Figs.11 a & b). I also include illustrations of three collections from E. Steytlerville (Figs.13 JDV5-68, 14 JDV91-118 & 15 JDV93-40).
I do recognise that H. decipiens is a species that I do not know well enough; despite all the material I have seen. It perhaps occupies a geographical pivotal role in the interpretation of particularly H. cooperi, as I have now constituted that species. Pivotal in that it occupies the geographic centre stage between the south‑western Cape, the Karoo and the Eastern Cape; and is to some degree continuous with “species” in those areas. I have not seen any evidence to suggest that H. mucronata is actually directly involved with either H. cymbiformis or H. cooperi. There is no doubt that there is visual similarity, but I expect and regard the geographic association to be via H. decipiens.
2. Goodbye to Haworthia gracilis
It is difficult to reconcile recent field observations with my Haworthia Revisited concepts of H. cooperi and H. gracilis. However, there is a solution that can be offered for the classification problems, as discussed in depth in Haworthia Update (in press). If the concept of H. cooperi is enlarged to incorporate H. gracilis (a relatively recent von Poellnitz name), a more practical solution is presented.
This new concept of H. cooperi as a super‑species only excludes H. cymbiformis and H. bolusii var. blackbeardiana with some difficulty. These are important issues, but which I think are largely addressed by the changes made in this paper. It should be recognised implicitly that H. bolusii var. pringlei and H. decipiens var. virella, in terms of their history and present treatment, point directly at a connection between H. cooperi, H. bolusii and H. decipiens, as well as at wider associations.
H. cooperi var. gracilis (v.Poelln.) M.B.Bayer comb. nov.
H. gracilis v.Poelln., Feddes Repert.Spec.Nov. 27: 133 (1929). Idem 41: 201 (1937). Non C.L.Scott, The Genus Haworthia: 69 (1985). M.B.Bayer, Haworthia Revisited: 75 (1999). Type: Graaff‑Reinet, Amalienstein, Willowmore, Stellenbosch. Not preserved. Lectotype (Breuer, World of Haworthias 1:150 (1998): unpublished photographic icon :H. gracilis v.P. in (B). Epitype: CAPE‑3326 (Grahamstown): Hellspoort (‑BA), Britten (PRE).
H. cooperi var. isabellae (v.Poelln.) M.B.Bayer comb. nov.
H. isabellae v.Poelln., Feddes Repert.Spec.Nov. 44: 226 (1938). Non C.L.Scott: 76 (1985). H. gracilis var. isabellae (v.Poelln.) M.B.Bayer, Haworthia Revisited: 77 (1999). Type: Cape, near Port Elizabeth, Mrs I. King. Not preserved. Neotype: CAPE‑3325 (Port Elizabeth): Humansdorp, Gamtoos Bridge (‑CC), H. Hall in NBG 68799.
H. cooperi var. tenera (v.Poelln.) M.B.Bayer comb. nov.
H. tenera v.Poelln., Feddes Repert.Spec.Nov. 31: 86 (1933). C.L.Scott: 76 (1985). H. gracilis var. tenera (v.Poelln.) M.B.Bayer, Haworthia Revisited: 77 (1999). Type: Cape, Pluto’s Vale, Grahamstown, Miss Blackbeard 15. Not preserved. Neotype (Breuer & Metzing, Taxon 46(1):3 (1997): CAPE‑3326 (Grahamstown): Glenelg (BA), G.G.Smith 5416 (NBG).
H. cooperi var. picturata (M.B.Bayer) M.B.Bayer comb. nov.
H. gracilis var. picturata M.B.Bayer, Haworthia Revisited: 78 (1999). Type: CAPE‑3325 (Port Elizabeth): Enon (‑BC), Thode 21507 (NBG, Holo.).
H. cooperi var. viridis (M.B.Bayer) M.B.Bayer comb. nov.
H. gracilis var. viridis M.B.Bayer, Haworthia Revisited: 79 (1999). Type: CAPE‑3325 (Port Elizabeth): Perdepoort (‑AC), G.G.Smith 6867 (NBG, holotype).
Rosettes small to 30mm diameter with 25‑30 slender, attenuate leaves to 50mm long, erect spreading, dark purplish green and with firm white marginal spines 2‑3mm long. (Rosulae parvae 30mm diametro, foliis 25‑30 gracilibus, attenuatis, 50mm longis, erecto‑expansis, atropurpureo‑virdibus et spinis marginalibus firmis albis 2‑3mm longis.)
Collections: Only known from type locality.
This new, small form of H. cooperi is in the geographical orbit of the var. leightonii at Kaiser’s Beach and the more graciloid forms of the latter at Payne’s Hill, also nearby. It is named for Tony Dold of the Schonland Herbarium, Rhodes University, Grahamstown, who first collected it. I am recognising it as a distinct variety because of its geographic separation from other isabellae‑like plants and because it also has coarser spination and a darker purplish‑colour than the other small varieties of H. cooperi.
3. A familiar new species, Haworthia transiens
H. transiens (v.Poelln.) M.B.Bayer stat. nov.
H. planifolia var. transiens v.Poelln., Feddes Repert.Spec.Nov. 45: 163 (1938). H. cymbiformis var. transiens (v.Poelln.) M.B.Bayer, Haworthia Handbook: 162 (1976). M.B.Bayer, New Haworthia Handbook: 36 (1982). Type: Cape, Prince Alfred’s Pass, Archibald 327. Not preserved. Lectotype (Breuer & Metzing, Taxon 46(1):3 (1997): icon 5479 “H. planifolia var. transiens v.P.Typ.” (B). H. cymbiformis var. translucens Triebner et v.Poelln. idem 45:166 (1938). C.L.Scott: 94 (1985). Type: Cape, Prince Alfred’s Pass, Lategan in Triebner 1137. Not preserved. Neotype: CAPE‑3323 (Willowmore): Prince Alfred’s Pass, G.G.Smith 5709 (NBG).
Additional collections: (private photographic record, and living plants, not necessarily herbarium specimens):
The collection 3324 (Steytlerville): N Komdomo (‑DA), MBB 6789 includes plants which are this element, and the population intergrades to H. cooperi var. picturata and H. cooperi var. gordoniana. Similarly 3324 (Steytlerville): Grootriverpoort (‑DA), EvJ15927 is approximately transitional to H. cooperi var. isabellae. This intergradation is not only according to physical similarity but also geographic and ecotypic.
In raising this element to specific status, I am now suggesting that specimens cited in Haworthia Revisited as H. cymbiformis vars. brevifolia Triebner et v.Poelln. and multifolia Triebner from Uitenhage (Hellsgate) do indeed belong in H. cymbiformis.
All the variants of H. transiens that I am aware of, link this species with variants of H. cooperi as now constituted. That is where the continuity is. Thus I am recognising the fact that H. transiens is more directly connected to a broad concept of H. cooperi and less to any such one for H. cymbiformis. H. transiens is most closely continuous with H. cooperi var. picturata, which can be shown to be also continuous with the vars. gordoniana and isabellae. This is said within the context of my report on the variation of Haworthia at Kaboega in Haworthia Update (in press), where H. cooperi and H. cymbiformis are also said to be continuous. The difference from the case of those ex‑gracilis varieties, is in the distribution and number of populations in the Baviaanskloof which can be reasonably identified as H. transiens.
4. Where does Haworthia helmiae belong?
In M.B. Bayer, Haworthia Revisited: 117 (1999), both H. helmiae and H. integra were cited under H. mucronata, although the word ‘integra’ was erroneously omitted, and thus also omitted from the index. In a manuscript with Aloe (in press), I correct my citation of H. mucronata and let H. integra revert to the status of excluded names, because it was so poorly known and confused for so many years. I did however, leave the citation of H. helmiae under H. mucronata, which is a mistake ‑ especially as I cite the specimen and discuss the population as H. arachnoidea var. nigricans. My interpretation is still based on Scott’s statement that Mrs. Helm had collected this at a specific site in Schoemanspoort, near Oudtshoorn, where I subsequently collected. Had it not been for Scott, H. helmiae would also have been assigned to the ranks of the excluded and insufficiently known. The correct citation for H. helmiae v.Poelln. sensu Bayer is:
H. arachnoidea var. nigricans (Haw.) M.B.Bayer
Syn. Haworthia helmiae v.Poelln., Feddes Repert. Spec. Nov. 41: 201 (1937). C.L.Scott: 99 (1985). Type: Cape, Heidelberg, Smithers in Triebner 891, Great Brak River, Mrs Helm in Triebner 901. Not preserved. Lectotype: icon “H. helmiae v.P.”, Great Brak, Triebner 898 (B). Epitype: CAPE‑3322 (Oudtshoorn): Schoemanspoort (‑AC), M.B.Bayer 171 (NBG).
I have to point out that formal nomenclature is not my forte and that I have little enthusiasm for it. One of the reasons is that, in my opinion, it spawns authors and spurious authority recklessly and needlessly. Breuer, World of Haworthias 2: xiii (2000), states that I do not demonstrate ambiguity when I have cited epitypes where lectotypes had been selected. The fact is that in Haworthia just about any type is self‑evidently ambiguous and it seems hardly worth repeating the entire literature to prove this obvious point.
In the case of H. helmiae, von Poellnitz cites four Triebner numbers for four different collections. These were cited as from Heidelberg, Great Brak, George and Brandwacht (Brandwacht could also be said to be Great Brak ‑ Mrs. Helm lived actually nearer Little Brak at Brandwacht). I said in Haworthia Handbook: 60 (1982), that there is one photograph for Triebner 898 (Great Brak!) that could be taken to agree with plants from Schoemanspoort. Breuer (Idem: 512) repeated this as lectotypification. The fact is that it could be taken for anything. Breuer (Idem: 511, Haworthiad 15(3): 84 (2001) and private communication) now suggests (apparently on the basis of a photograph of Fourcade 5407 and one by Brown in Cact. Succ. J. (US) 18: 39 (1946)) that my H. outeniquensis is in fact this species. This is not convincing evidence in the paradigm of the Haworthia literature, nor in the face of the Fourcade photographs. My contention is that it is misleading to attempt to rewrite literature and interpret types without an adequate understanding of biological diversity and the problems of variation and species delimitation.
Where next for Haworthia description?
It must again be stressed that these new combinations and varieties will facilitate discussion, but will not eliminate the intrinsic problem of continuity. Although H. cooperi here seems to become a huge unwieldy entity, this better expresses the field situation, while still falling short. The recognition of species often requires the extension of a concept, which is the nomenclatural one derived from a single plant or from limited sampling. This may or may not be really representative of anything. It is very destructive and confusing if this nomenclatural aspect overrides the functional way in which names come to be used and are meant to be used.
There are real problems in attempting to classify Haworthia. In Haworthia Revisited, I stated that I tried “to practically identify nodes in a complex interlinked web”. The definition of “node” in physics is “a point of minimum displacement in a standing wave” ‑ and this is the meaning I transfer to Haworthia. The species should be seen as a series of standing waves superimposed over one another and they generally do not separate. My names are intended to be used to identify the principal groups of plants and populations that may be meaningful for identification. These names also relate those plants to geographic factors and to other plant species and vegetation.
The element H. transiens has always been problematic for me, as it does merge into H. cooperi var. picturata. There is a similar mergence of H. cooperi var. gracilis to H. cymbiformis var. incurvula at Pluto’s Vale, but which is localised. At Kaboega, the mergence of H. cooperi with H. cymbiformis is similarly complex, but it is here where there is real benefit from incorporating H. gracilis into the former. Thus the brighter green forms of the continuum are thus equated with H. cooperi var. viridis, the smaller spined forms with H. cooperi var. isabellae, and others either with H. cooperi var. gordoniana or H. cooperi var. cooperi. The difficulty is at the departure from the tight geographical boundaries of those variants, as well as from the implied or actual concomitant genetic variation. It is impossible to find consistent degrees of difference. There is a difficulty in explaining the relationship of all the Baviaanskloof elements and particularly the way H. cooperi var. gordoniana relates to H. decipiens from the Zuurberg in the east, to Uniondale in the west.
It is also not possible to find a classification solution that satisfactorily explains the extension of the relationships of H. cooperi and H. cymbiformis to H. decipiens and H. aristata. To do so would mean incorporating them within either species, and this would only lead to still further combinations and problems. I must personally resist any further proposals to combine the species that I regard as discrete. In the opposite direction, adding names for all the existing variants of already recognised elements will result in an unmanageable plethora, with the prospect of new names for further variants still to be found and this also cannot be supported.
In such a horticulturally popular group as Haworthia, there is an unfortunate pressure for classification which may have nothing to do with botanical realities. Often this has been done early in a learning process, rather than as a consequence of accumulated knowledge. Thus different opinions may be expressed with insufficient experience and sampled material. I think that it will be foolish in the extreme for anyone to make pronouncements or attempt to alter what has now been done without extensive additional field data and a greater understanding than my own.
I hope this discussion will drive other authors towards a more considered attitude to classification and the application of names.
Acknowledgements Many people have contributed in one way or another to the above. Among them, I would like to express appreciation to J.D. Venter for ongoing support; to Mr. and Mrs. G. Hobson of Ebenezer for their kindness and hospitality; P.V. Bruyns and Gerhard Marx for locations; to Tony Dold for the Chalumna find and for other assistance and support. Also, to Alan Butler, Gretchen Loucka and Derek Tribble for assistance with this text. ♦
Fig. 01. MBB6604 decipiens var xiphiophylla. CoegaFig. 02a. MBB6616 H. decipiens var xiphiophylla. Bauerskraal, UItenhage.Fig. 02b. MBB6616 H. decipiens var xiphiophylla. Bauerskraal, Uitenhage.Fig. 02c. MBB6616 H. decipiens var xiphiophylla. Bauerskraal, Uitenhage.Fig. 03. JDV91-122 H. decipiens var virella. S Darlington Dam.Fig. 04a. MBB7028 H. decipiens var virella. S Darlington Dam.Fig. 04b. MBB7028 H. decipiens var virella. S Darlington Dam.Fig. 05. JDV87-81 H. decipiens var virella. Ebenezer, Pearston.Fig. 06a. MBB7023 H. decipiens var virella. Ebenezer, PearstonFig. 06b. MBB7023 H. decipiens var virella. Ebenezer, Pearston.Fig. 07. MBB6581 H. decipiens var virella. Welgelegen, NW Jansenville.Fig. 08a. MBB7043 H. decipiens var virella. Llangollen, NE Jansenville.Fig. 08b. MB7043 H. decipiens var virella. Llangollen, NE Jansenville.Fig. 09. MBB7047 H. decipiens var virella. DeRust, E Jansenville.Fig. 10. MBB7041 H. decipiens var virella. Palmietfontein, Jansenville.Fig. 11a. MBB7022 H. decipiens var virella. SE Pearston.Fig. 11b. MBB7022 H. decipiens var virella. SE Pearston.Fig. 12. MBB7582 H. decipiens var virella. SE Mt Steward.Fig. 13. JDV85-68 H. decipiens var virella. E Steytlerville.Fig. 14. JDV91-118 H. decipiens var virella. Sandpoort, Steytlerville.Fig. 15. JDV93-40 H. decipiens var virella. Baroe, E Steytlerville.Fig. 16a. T.Dold3961 H. cooperi var doldii. Chalumna.Fig. 16b. T.Dold3961 H. cooperi var doldii. Chalumna.