PhytoKeys 162: 45-69 (2020) A peer-reviewe: d open-access journal 1] 

& 
doi: 10.3897/phytokeys. | 62.55550 46Ph y toKe y 

http:/ / Pp hyto keys -pen soft.net Launched to accelerate biodiversity research 

Festuca drakensbergensis (Poaceae): A common 
new species in the F. caprina complex from the 
Drakensberg Mountain Centre of Floristic Endemism, 
southern Africa, with key and notes on taxa in the 
complex including the overlooked F. exaristata 

Steven P. Sylvester', Robert J. Soreng’, Mitsy D.P.V. Sylvester', 
Vincent Ralph Clark? 

| College of Biology and the Environment, Nanjing Forestry University, Long Pan Road No. 159, Nanjing, 
210037, China 2 Department of Botany, National Museum of Natural History, Smithsonian Institution, 
Washington DC 20013-7012, USA 3 Afromontane Research Unit and Department of Geography, University 
of the Free State, Qwaqwa Campus, Phuthaditjhaba, 9866, South Africa 

Corresponding author: Steven P. Sylvester (steven_sylvester@hotmail.com) 

Academic editor: Maria Vorontsova | Received 19 June 2020 | Accepted 4 August 2020 | Published 7 October 2020 

Citation: Sylvester SP Soreng RJ, Sylvester MDPV, Clark VR (2020) Festuca drakensbergensis (Poaceae): A common 
new species in the F caprina complex from the Drakensberg Mountain Centre of Floristic Endemism, southern Africa, 
with key and notes on taxa in the complex including the overlooked F exaristata. PhytoKeys 162: 45-69. https://doi. 
org/10.3897/phytokeys. 162.55550 

Abstract 

We present taxonomic notes on the Festuca caprina complex from southern Africa that includes descrip- 
tion and illustration of the new species E drakensbergensis from the Drakensberg Mountain Centre of 
Floristic Endemism of South Africa and Lesotho. Festuca drakensbergensis can be differentiated from F 
caprina s.l. by forming lax short tufts with extravaginally-branching tillers and lateral-tending cataphyl- 
lous shoots or rhizomes present, basal foliage reaching < 2 the length of the culms, with generally shorter 
leaves and shorter anthers, 0.8-1.6(-1.8) mm long. The species also differs from the overlooked species 
E exaristata — currently known from two collections from Lesotho - by its fibrous basal sheaths, usu- 
ally sharp, keel-like leaf blade midrib, drooping panicle with lightly to densely scabrous pendent panicle 
branches, longer lemmas, 4.5-5.8 mm long, with awns usually present, 0.5—3 mm long, ovary apices 
sparsely to densely hairy and anthers 0.8-1.6(-1.8) mm long. Taxonomic notes on the different taxa of the 
E caprina complex in southern Africa are also provided, including images, key, and lectotypification of F 
caprina vax. curvula. This research adds a further two endemic species (F drakensbergensis and EF exaristata) 
and two endemic varieties (F caprina var. irrasa and FE caprina var. macra) to the Drakensberg Mountain 
Centre of Floristic Endemism. 

Copyright Steven P. Sylvester et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC 
BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 


46 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

Keywords 
alpine grassland, Gramineae, Festuca caprina, Flora of Southern Africa, Lesotho, Maloti-Drakensberg, 
South Africa 

Introduction 

Carbutt’s (2019) Drakensberg Mountain Centre of Floristic Diversity and Endemism 
(DMC) includes the only alpine region in mainland Africa south of Mount Kiliman- 
jaro (Killick 1978), with a 2900 km disjunction. The DMC, covering some 40,000 
km’, comprises a montane sub-centre, dominated by C, grass species and an alpine 
sub-centre [the former Drakensberg Alpine Centre of van Wyk and Smith (2001) 
and Carbutt and Edwards (2004, 2006)] dominated by C, grass species (Brand et al. 
2019). The DMC is renowned for its high levels of plant diversity and endemism, 
hosting 227 endemic angiosperm species that account for ca. 9% of the angiosperm 
flora; the DMC hosts 267 grass species in 86 genera (Carbutt and Edwards 2004), 
of which eight species and one genus are endemic (Carbutt 2019). Despite being the 
dominant ecosystem-forming component of these high elevation grasslands, grasses of 
the DMC are still relatively poorly studied, with only a few genera receiving attention, 
for example, Anthoxanthum L. (Mashau 2016); Catabrosa P. Beauv. (Soreng and Fish 
2011); Poa L. (Soreng et al. in prep.); Trisetopsis Roser & A. Wolk (e.g. Mashau et al. 
2010); Pentameris P. Beauv. (Linder and Ellis 1990). 

The genus Festuca L. s.l. is a monophyletic lineage with ca. 650 perennials and ca. 
30 annuals (beyond those in Lolium L.), totalling ca. 680 species (Plants of the World 
Online 2020 accepted species belonging to the lineage). The genus s.l. is divided into 
two major clades (Minaya et al. 2017): the Narrow Leaf Clade (NLC) of Festuca s.s., 
ca. 600 species (syn. [following Soreng et al. 2017 including the annuals] Czenopsis De 
Not., Loliolum V.1. Krecz. & Bobrov, Micropyrum (Gaudin) Link, Narduroides Rouy, 
Vulpia C.C.Gmel. and Wangenheimia Moench), and the Broad Leaf Clade (BLC), ca. 
82 species (perennials, and some annuals in Lolium), including Drymochloa Holub, 
Leucopoa Griseb., Lojaconoa Gand., Lolium (syn. Micropyropsis Romero Zarco & Ca- 
bezudo, Schedonorus P. Beauv.), Patzkea G.H. Loos, Pseudobromus K. Schum. and Xan- 
thochloa (Krivot.) Tzvelev. 

Fish and Moeaha (2015) accepted nine species of Festuca s.l. (but excluding Vulpia 
and Lolium in the narrow traditional sense) as present in the Flora of Southern Africa 
(FSA) region (comprising Botswana, Lesotho, Namibia, South Africa and Eswatini 
a.k.a. Swaziland). Generic limits of Festuca s.l. are still being resolved, particularly in 
the BLC (Soreng et al. 2017). Of the FSA species with DNA examined (Minaya et al. 
2017), F caprina Nees and F vulpioides Steud. belong to the NLC, whereas F arundi- 
nacea Schreb. (= Lolium arundinaceum (Schreb.) Darbysh.), F africana (Hack.) Clay- 
ton (= Pseudobromus silvaticus K. Schum.), F costata Nees, F killickii Kenn.-O’Byrne, 
E longipes Stapf and F scabra Vahl belong to the BLC. Although it generally holds true, 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 47 

not all NLC and BLC taxa have narrow and broad leaves, respectively, for example, 
E vulpioides being placed in the NLC (Minaya et al. 2017; identity of voucher speci- 
men not verified by us). Festuca dracomontana H.P. Linder (predicted to be BLC), F 
exaristata E.B. Alexeev (not accounted for by Fish and Moeaha 2015, predicted to be 
NLC) and our new species (predicted to be NLC) have not been tested. 

Festuca s.\. is one of the prominent genera present in the montane-alpine ecotone 
(ca. 2500-2800 m alt.) and alpine sub-centre (> 2800 m alt.) of the DMC (Irwin and 
Irwin 1992) and often dominates, especially in less disturbed areas (Sylvester et al. 
unpubl. data). One species, F killickii, is currently considered to be endemic to the 
DMC (Carbutt 2019: table 2), although the poorly-known F dracomontana and F 
vulpioides may also be DMC endemics (Fish and Moeaha 2015). Of the species of Fes- 
tuca recorded by Fish and Moeaha (2015), F caprina is perhaps the most widespread 
in the Afro-montane/Afro-alpine region of White (1981), stretching from the coastal 
Southern Cape of South Africa to Tanzania (Fish and Moeaha 2015). Festuca caprina 
s.l. has had three varieties described from the FSA region (var. curvula Nees, var. ir- 
rasa Stapf, var. macra Stapf) and was considered to be a complex of species by Alexeev 
(1986), who recognised two new species for the complex in sub-Saharan Africa, F 
claytonii E.B. Alexeev from Kenya and EF exaristata E.B. Alexeev from the DMC, and 
raised E caprina var. macra to species rank. Fish and Moeaha (2015: 349) stated that 
the different varieties of E caprina accepted in previous treatments were not upheld 
in their treatment because of “the variability in the species and leaf anatomy, which 
are constant throughout”. Although Alexeev’s (1986) taxonomy and new species were 
accepted by agrostologists at Kew (Phillips 1995a, b; Clayton et al. 2006 onwards), 
there is no mention of it in Fish and Moeaha (2015) or the older treatment of Festuca 
for the FSA region (Gibbs Russell et al. 1990) and the checklist of Lesotho grasses 
(Kobisi and Kose 2003), with this error also being replicated in floristic surveys of the 
DMC (Carbutt and Edwards 2004, 2006; Carbutt 2019). 

Taxa in the F caprina complex differ from other Festuca s.]. taxa in the FSA region 
by having: basal sheaths entire or splitting into narrow parallel threads (vs. coarsely 
fibrous in F costata), glabrous or scabrous (vs. basal ones velvety in F scabra); ligules 
< 1 mm long (vs. > 1 mm long in most, apart from F dracomontana and E vulpioides); 
collars non-auriculate (vs. auriculate in F arundinacea, K dracomontana and E vul- 
pioides); blades narrow, 0.2-1.5 mm wide in diameter, involute (vs. flat or relatively 
broad, [2—]3—15 mm wide in diameter, rarely narrower in F scabra); panicles loose or 
contracted (vs. very open, candelabrum-shaped, in F longipes, open in F africana, E 
arundinacea and F. dracomontana); spikelets 2 to several flowered (vs. 1-flowered in F 
africana), awns 0-5.5 mm long (vs. 10-20 mm long in F africana). 

During extensive field collecting and ecological research by the authors in the 
DMC area (222 2 m x 2 m plots studied for all vascular plants, of which 145 plots 
contained Festuca species, with 50 collections of Festuca made), followed by herbarium 
research at PRE, clear differences were noted between specimens that were treated 
under FE caprina by Fish and Moeaha (2015). These differences included branching 

patterns in tillers, presence of cataphylls, abaxial leaf blade indumentum and anther 


48 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

size, which are known to be taxonomically informative for distinguishing Festuca taxa 
in other parts of the World (e.g. Stancik and Peterson 2007; Ospina et al. 2015). These 
clear differences allowed us to distinguish the new species, F drakensbergensis, and to 
recognise the varieties E caprina var. irrasa and F caprina var. macra. This new species, 
coupled with the overlooked species, F exaristata and distinct varieties, E caprina var. 
irrasa and var. macra, add a further two endemic species and two endemic varieties to 
Carbutt’s (2019) checklist of DMC endemics. 
The aim of this paper is therefore to: 

(i) Describe and illustrate the new DMC endemic, F drakensbergensis. 

(ii) Provide taxonomic notes on the distinct varieties of F caprina present in the DMC 
and the overlooked species, F exaristata. 

(iii) Provide a revised key for the F caprina complex in the FSA region. 

Materials and methods 

Extensive field collecting was conducted by SPS, RJS and MDPVS in the DMC be- 
tween 1 Feb and 9 Mar 2020, with 42 specimens belonging to the F caprina complex 
collected, which are deposited in the PRE, NU and US (pending export permits) her- 
baria [Herbarium acronyms follow Thiers (2020, continuously updated) ]. Herbarium 
study was also conducted at PRE between 13 and 20 Mar 2020. While focus was 
placed on the 42 new field collections of Festuca and notes on variations present in 
our 142 plots containing taxa belonging to the F caprina complex, many other older 
PRE herbarium specimens were studied than mentioned in the ‘Selected specimens 
examined’ sections herein, but, due to unforeseen obstructions caused by the COV- 
ID-19 pandemic, information regarding these specimens was not adequately recorded. 
Type images on JSTOR Global Plants (https://plants.jstor.org) were also assessed. We 
delimit taxa based on distinct discontinuities in morphological characteristics which 
are deemed to be phylogenetically conserved and taxonomically informative based on 
previous research (e.g. Stancik and Peterson 2007; Ospina et al. 2015), as well as dis- 
tinct discontinuities in ecological and morphological characteristics of taxa observed 
during extensive fieldwork in the DMC area. Distinctive characteristics of habit, col- 
ouration and ecological preferences, notable between individual plants within and 
amongst populations in the field, are often difficult to sort out when dealing only 
with herbarium specimens. In this treatment, glabrous means without pubescence (in 
the sense of slender, relatively soft hairs, unless otherwise stated). Smooth indicates 
no prickle-hairs with broad bases and/or hooked or pointed apices (i.e. pubescence 
can occur on a smooth surface and a rough or scabrous surface can be glabrous). Leaf- 
blade anatomical characteristics were observed in cross-sections from the middle area 
of selected tiller blades. We collected many silica-dried leaf samples of Festuca s.l. for 
future DNA examinations. 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 49 

Taxonomic treatment 

Key to species of the Festuca caprina complex in southern Africa 

Key characters separating species of the F caprina complex in southern Africa are also 

found in Table 1. 

1 Tillers intravaginal (cataphylls absent, elongated prophylls present at juncture 
of lateral shoots), lateral tending rhizomes absent; densely tufted and usually 
forming large tussocks with basal foliage reaching (10-)20—80+ cm tall and of- 
ten > 2 the length of the culms; sheaths of tillers and basal culm (3—) 12-24 cm 
long; leaf blades of tillers and basal culm (4-)12-66.5+ cm long; lowermost 
lemmas (4.5-)5-7(-9) mm long; fertile anthers (1.8-)2-4 mm long (as short 
as 1.6 mm in var. macra, according to Alexeev 1986) (F caprina s.l.).........4. 2 

so Tillers extravaginal (rarely some intravaginal shoots also present), lateral-tend- 
ing or ascending cataphyllous shoots or lateral-tending rhizomes present; plants 
forming lax short tufts with basal foliage reaching (2-)4-20(-27) cm tall and < 
Y, the length of the culms; sheaths of tillers and basal culm (0.5—)2—7(—10) cm 
long; leaf blades of tillers and basal culm (2—)5—15(—26) cm long; lowermost 
lemmas 4-5.8 mm long; fertile anthers 0.8-1.8 mm long... eee 4 

2 Sheaths of old leaves falling apart (shredded) into parallel thin threads; basal 
foliage ca. 14-30 cm tall, often < /% the length of the culms; panicle branches 
and pedicels short-hispid or long-scabrous with hair-like prickles; lemmas, 
paleas and rachillas short-hispid or long-scabrous with hair-like prickles; lem- 
ma apices usually notably bifid, with awn emerging from between the lobes... 

Saeedlyoi act ei se oe bc eS oc Sin ae Sl E caprina vat. irrasa Stapf 

— Sheaths of old leaves entire, not or rarely only very slightly disintegrating into 
fibres; basal foliage (10-)30—80+ cm tall, generally (> 42) > %4 to surpassing 
the length of the culms; panicle branches and pedicels short scabrous; lemmas, 
paleas and rachillas glabrous, scabrous, but prickles hooked, short hooked, 
slender or stout, not hair-like, rarely smooth; lemma apices not usually notably 
bifid, commonly merging into the awn. incicocnevendeke ote dncveetdnnsbputeeerediccveedncs 3 

3 Leaf blade abaxial surface antrorsely scabrous throughout... eeeeeeeeeeees 

SRE AR LP lo erat RS ribet at kOe E. caprina vat. macra Stapf 

— Leaf blade abaxial surface smooth or rarely antrorsely scaberulous towards the 
2) EL: CoO EWE AE bi ED Ne AUER RIE Ta Lome ES AVE AN at EF. caprina vat. caprina Nees 

4 Sheaths of old leaves falling apart (shredded) into parallel thin threads; leaf 
blade midrib (middle vein) usually sharp, keel-like, sometimes blunt and 
rounded; panicles drooping; panicle branches usually pendant, lightly to 
densely scabrous; lowermost lemma (not including awn) 4.5-5.8 mm long; 
awn usually present, very rarely muticous, awn 0.5—3 mm long; ovary apex 
sparsely to densely hairy; fertile anthers 0.8-1.6(-1.8) mm long; basal foliage 


50 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

fPeachingy(Q=)4=2O(H27 crit tall 0. ces ah cupcssote emote niasen sas. thapeserasseViceag esteos eit 

Mi pstetabandecrate EF. drakensbergensis Sylvester, Soreng & M.D.P.V. Sylvester 

= Sheaths of old leaves entire, not disintegrating into fibres, lustrous; leaf blade 
midrib (middle vein) blunt, rounded; panicles erect; panicle branches smooth; 
lowermost lemma (not including awn) 4-4.2 mm long; awn absent; ovary apex 
glabrous; fertile anthers 1.5-1.8 mm long; basal foliage reaching to 12 cm tall... 

RIOR AAR to Bn Mex pep cen hel AN RAAT ye RO a ee E. exaristata E.B. Alexeev 

Festuca drakensbergensis Sylvester, Soreng & M.D.P.V. Sylvester, sp. nov. 
urn:lsid:ipni.org:names:77211930-1 
Figs 1, 2, Table 1 

Type. Lesotuo. AfriSki Ski Resort, in valley just west of the resort centre with an east- 
southeast aspect, 28.824908S, 28.723208E, 3065 m alt., heavily grazed damp Afro- 
alpine grassland, 28 Feb 2020, S.P. Sylvester, R.J, Soreng & M.D.P-V. Sylvester 3660 
(holotype: PRE!; isotypes: NU!, US!). 

Diagnosis. Differs from Festuca caprina s.1. by forming lax short tufts with ex- 
travaginally branching tillers and lateral-tending or ascending cataphyllous shoots or 
lateral-tending rhizomes present, basal foliage reaching < 2 the length of the culms, 
sheaths of tillers and basal culm (0.5—)2—7(—10) cm long, leaf blades of tillers and 
basal culm (2—)5—15(—26) cm long, and anthers 0.8-1.6(-1.8) mm long. Differs from 
Festuca exaristata by its basal sheaths fibrous, leaf blade midrib usually sharp, keel-like, 
sometimes blunt and rounded, panicle branches pendent, lightly to densely scabrous, 
lowermost lemma (not including awn) 4.5-5.8 mm long, awn usually present, 0.5— 
3 mm long, ovary apex sparsely to densely hairy and anthers 0.8-1.6(-1.8) mm long. 

Description. Perennial herbs, generally forming lax, short, isolated tufts, with 
lateral-tending or ascending cataphyllous shoots or lateral-tending rhizomes present, 
basal foliage (2-)4-20(-27) cm tall and generally < % the length of the culms, with 
inflorescences largely exerted. Tillers extravaginal, with cataphylls present, intravagi- 
nal tillers rarely also present (i.e. Sylvester et al. 3637). Culms (12.5—)20-46(-65) cm 
tall, 0.3-0.5(-1) mm diam., erect, delicate, cylindrical to slightly compressed, longi- 
tudinally striated, glabrous, smooth, with (0) 1 or 2 visible nodes, uppermost node at 
(1.3— )3—10(—16) cm from the base, ca. (1/10—)1/8—1/3(—2) culm height, distance 
between uppermost node and panicle (3—)14—33(—40) cm long, distance between up- 
permost node and second node down (0.9—)2.3—6.5(—9.5) cm long, nodes at the base 
covered by imbricate leaf sheaths. Leaves mostly basal, with 1 or 2 (3) cauline leaves, 
culm leaves similar to those of the base and tillers; sheaths of tillers and basal culm 
(0.5—)2—7(—10) cm long, proximally fused ca. ¥2 their length, implicate above, usually 
slightly obliquely truncated at the apex, herbaceous, persistent, becoming sparingly fine 
fibrous — decaying into longitudinal fibres — in the lower portion with age, brownish 
or yellowish, glabrous, usually smooth, rarely retrorsely scabrous, with 5—7 veins; flag- 
leaf sheaths 3.4—9.5(—12.5) cm long, fused ca. ¥% their length; auricles 0.01—0.2 mm 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 51 

a anil 

10 cm 

Figure |. Festuca drakensbergensis, habit and inflorescence characteristics. A, B Whole plant C spikelet, 
lateral view D [from left to right] palea ventral view showing ovary, lemma dorsal view, upper glume dorsal 
view, lower glume lateral view E ovary apex, ventral view F caryopsis, dorsal view, with parts of torn palea 
and lemma at base. A, C, D, F of isotype S.P. Sylvester et al. 3660 (US) B of S.P. Sylvester et al. 3578 (US) 
E of S.P. Sylvester et al. 3687a (PRE). 

long, inconspicuous, obtuse; /igules 0.1-0.5 mm long, membranous, moderately to 
strongly decurrent with the sheath margins, truncate, briefly ciliolate; flag-leaf ligules 
0.2—0.5 mm long; leaf blades of tillers and basal culm (2—)5—15(—26) cm long, 0.3- 
0.8(—1) mm wide as rolled or folded, setaceous, erect-curved to recurved, firm to + 
rigid, conduplicate, convolute or involute, rarely flat in upper leaves, elliptical or obo- 


52 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

0.1mm 

Figure 2. Festuca drakensbergensis, leaf morphological and anatomical characteristics. A Junction of tiller 
sheath and blade, lateral view B ligule of tiller, ventral view C abaxial tiller blade surface, showing keel 
D adaxial tiller blade surface E, F tiller blade cross sections, showing position of the sclerenchyma block 
(scl), vascular bundles (vb) and scabers (sca) on the adaxial surface. A, B, C, E of isotype S.P. Sylvester et 
al. 3660 (US) D of S.P. Sylvester et al. 3689 (PRE) F of isotype S.P. Sylvester et al. 3660 (US) drawn by 
M.D.P.V. Sylvester. 

vate to carinate outline in cross-section, midrib (middle vein) usually sharp, keel-like, 
sometimes blunt and rounded, abaxial surface glabrous, usually smooth throughout 
or lightly antrorse-scabridulous towards the apex, adaxial surface scabrous on veins 
or prickles elongating to become hair-like and appearing shortly hairy, light- to dark- 
green, apex obtuse (to acute); upper culm leaf-blades similar to those of lower culm and 
tillers, but shorter and sometimes expanded; flag-leaf blades (0.2—)1.5-4(-12.5) cm 
long, (2—)15—40(—50)% the length of their flag-leaf sheaths, rarely longer. Panicles 
2.5-9(—13) cm long, open to moderately congested, drooping, with (7—)8—20(—50) 
spikelets often held unilaterally on lower side of axis; central panicle axis smooth to 
lightly antrorsely scabrid, with 4-10 nodes, usually 1 branch (rarely 2 branches) per 
node, lowest internode (0.8—)2—4.5(—5.5) cm long, ca. 20-70% length of whole pani- 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 53 

cle, lowest internode and sometimes upper internodes and panicle branches often sinu- 
ous-wavy; panicle branches capillaceous, generally pendent and drooping, lowermost 
patent to pendent, upper + appressed to central axis, glabrous, antrorsely scabrous to 
scaberulous on angles or rarely smooth; lowermost primary panicle branch (1—)1.5— 
6 cm long, with (1-)3-10(-17) spikelets; pedicels 0.5-3(—6) mm long, shorter than 
their spikelets, slightly thickened at their apices, glabrous, antrorsely scabrous to sca- 
berulous on angles or rarely smooth. Spikelets (not including awns) (5.5—)6—9(-11.5) 
mm long, laterally compressed, elliptic, green or usually purplish; florets 2 to 5(6) fer- 
tile and usually 1 apical and + rudimentary, sterile, lowermost fertile floret largest, with 
upper fertile florets gradually reducing in size; glumes unequal, lower ca. ¥2—3/4(—5/6) 
length and ca. 1/3—/2 width of upper glume, narrowly scarious on the margins, usu- 
ally darker purple compared to the lemmas, glabrous, keels distally scaberulous for 
Y4—1/2 their length or smooth throughout, surfaces smooth throughout or sometimes 
sparsely scaberulous towards apex, margins usually with scattered hooks on edges in 
distal Y2(—3/4), (acute or) acuminate; lower glumes 2.1—3(-3.8) mm long, 0.3—0.4 
mm wide at base in cross section, reaching to 50-70% length of proximal lemma, 
linear-lanceolate, 1-veined; upper glumes 3.2—4(-4.9) mm long, 0.5—0.8 mm wide at 
base in cross section, reaching to 70-95% length of proximal lemma, ovate-lanceolate, 
3-veined; rachillas up to ca. 0.8—-1.6 mm long, slightly dorsally compressed, glabrous, 
smooth, lightly scabrous towards apex or densely scabrous throughout; calluses some- 
what thick, annulated, angled downward, rugose or smooth, sometimes lightly sca- 
brous; lemmas (lowermost lemma not including awn) 4.5—5.8 mm long, 0.7—1.2 mm 
wide at broadest point in cross section, ovate-lanceolate, herbaceous with narrowly 
scarious margins, glabrous, proximally smooth or sparsely to densely scabrous, espe- 
cially towards the margins, distally sparsely to densely scabrous, especially towards the 
apex and margins, moderately to densely granulose with clear bead-like raised silica 
cells appearing like ‘granules’ throughout or these absent towards apex and margins, 
margins scabrous throughout or in the distal 1/2—3/4, green or usually greenish-purple 
at the margins and towards the apex, 5-veined, apices acute and tapering into a short 
awn, sometimes slightly bilobate with awn emerging from between the minute lobes 
or very rarely muticous, awn 0.5—3 mm long, straight, scabrous; paleas (lowermost) 
4,5—-5.8 mm long, subequalling to usually equalling the lemma or slightly surpassing 
the lemma apex by up to 0.4 mm, herbaceous with scarious margins, slightly to deeply 
bidentate, keels scabrous in distal (1/4—)¥%2—5/6 or rarely throughout, between keels 
smooth, moderately to densely granulose with clear bead-like raised silica cells ap- 
pearing like ‘granules’, margins scabrous in distal 4-1/2. Flowers proximally perfect 
with uppermost usually sterile; anthers 3 in number, 0.8-1.6(-1.8) mm long, linear, 
dull yellow; ovaries ca. 0.5-1 mm long, apex sparsely to densely pubescent; lodicules 
0.7—0.85 mm long, bilobed with lobes ca. 2-4 mm long, both lobes +/- same size or 
lateral lobes to 0.2 mm shorter, glabrous, margins entire and smooth or sometimes 
fimbriate, acute. Caryopses ca. 2.6-3.5 mm long, ca. 1-1.6 mm shorter than lemma 
and palea, adhering to palea and lemma, narrowly elliptic to slightly narrow-obovate, 
deeply sulcate, hilum linear, 75-93% length of caryopsis, endosperm hard. 


54 

Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

Table |. Differences in key morphological characters between the species of the Festuca caprina complex 

in southern Africa. 

Character F. caprina var. FE. caprina vat. E. caprinavar. | EF. exaristata | F. drakensbergensis 
caprina irrasa macra 
Tillers intravaginal Extravaginal, rarely also intravaginal 
Culm height (cm) 35-100 ca. 30-65 (28—)60-110(— ca. 19-35 (12.5—)20—46(-65) 
120+) 
Height of basal (20-)30-60+ ca. 14—30 cm (10-)30-80+ cm | ca. 12-25 cm| (2-)4-20(-27) cm 
foliage cm tall, generally tall, often<% | tall, generally > % | tall, generally | tall, generally < % 
(> %) > % to the length of the | the length of the < % the the length of the 
surpassing the culms culms length of the culms 
length of the culms 
culms 
Sheaths of old Not falling apart falling apart —_| Not falling apart into parallel thin Falling apart 
leaves into parallel thin | (shredded) into threads (shredded) into 
threads parallel thin parallel thin threads 
threads 
Sheaths of tillers ca. 6—16(—24) ca. 2-10 (3—) 12-244 ca. 1-4(-10?)|  (0.5—)2—7(-10) 
and basal culm 
length (cm) 
Basal culm and (8.5—) 12-60 ca. 1.8-20 (4-)13-66.5+ pa 205 (2—)5—15(—26) 
tiller leaf blade 
length (cm) 
Leaf blade in Sharp, keel-like Blunt, Usually sharp, keel- 
middle vein rounded like, sometimes 
(midrib) blunt, rounded 
Abaxial leaf Smooth or rarely | Smooth or rarely Scabrous Smooth Smooth or only 
surface scaberulous scaberulous throughout scaberulous at apex 
towards apices towards apices 
Panicle branches Scabrous Usually long- Scabrous Smooth Scabrous or rarely 
scabrous, prickles smooth 
hair-like 
Lowermost (4.5-)6-7(-9) ca. (5.2-)5.5-6.5 | (4.5-)5-7.2(-9?) 4-4,2 4.5-5.8 
lemma length 
(mm) 
Spikelet glabrous Usually hispid on glabrous 
pubescence lemmas, paleas 
and rachillas 
Awn length (mm) (O-)1-4.5 ca. 1.5-2.8 (0-)1.5-5.5 0 (0-)0.5-3 
Anthers length (2.1-)2.4-4 ca. 2.6-2.8 (1.6 mm?; 1.5-1.8 0.8-1.6(-1.8) 
(mm) Alexeev 1986) 
(1.8-)2-3.5(-4) 
Ovary apex Hairy, hairs sparse (sometimes just 1 or 2) or dense Glabrous Hairy, hairs sparse 
or dense 

Anatomy—Outline elliptical or obovate to carinate with angled arms, ca. 5 vascular 
bundles all positioned in the centre of the blade and at the same level, ca. 4 grooves, 
ca. 5 ribs; the central rib is located in the central area of the blade. Abaxial surface 
with straight edges forming angles associated with the vascular bundles, ribs angular, 
composed of sclerenchyma block and found opposite all vascular bundles, smooth, 
macro-hairs absent, margins composed of sclerenchyma block. Adaxial surface mark- 
edly irregular, with rounded ribs situated opposite all vascular bundles, lacking scleren- 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 55 

chyma block, prickles present and densely covering the entire surface, sometimes more 
prevalent on the ribs, usually extending and appearing hispid (Fig. 2E, F). 

Distribution and habitat. Endemic to the high-elevation DMC of South Africa 
and Lesotho (Carbutt 2019). In South Africa, the species is known from the Eastern 
Cape and KwaZulu-Natal Provinces, with it also possibly occurring in the Free State 
Province, although no specimens have as yet been verified. Festuca drakensbergensis 
is a common constituent of both moderately grazed and little disturbed Afro-alpine 
vegetation (viz. Carbutt’s 2015 ‘austro-alpine region’), and less often in Afro-montane 
vegetation, of the DMC, ca. 2150—-3270+ m alt. The species is found in grassland, 
wetland and short Afro-alpine shrubland dominated by species in the genera Chryso- 
coma L., Erica Tourn. ex L., Eumorphia DC. and Helichrysum Mill. These habitats cor- 
respondent with Mucina and Rutherford’s (2006) uKhahlamba Basalt Grassland (Gd 
7), Lesotho Highland Basalt Grassland (Gd 8), Drakensberg Afro-alpine Heathland 
(Gd 10) and Lesotho Mires (AZf 5). Festuca drakensbergensis is rarely dominant and 
generally occurs in low abundance amongst the larger F. caprina vat. macra or amongst 
other forbs or low shrubs. Of the 222 2 m x 2 m plots studied for all vascular plants 
across the Afro-alpine DMC (Sylvester et al. unpubl. data), F drakensbergensis was en- 
countered in usually low abundance (0.5—8[-70]% of overall plot cover) in 35 plots, 
highlighting its high frequency and ubiquity in these landscapes. 

Preliminary conservation status. The overall extent of occurrence of F drak- 
ensbergensis is relatively large compared to many DMC endemics, perhaps 30% (or 
13,000 km? i.e. above 2150 m) of the total DMC area of ca. 40,000 km’. Given that 
it is acommon species without any specific habitat niche, the total population is likely 
well above 10,000 mature individuals. However, given the tremendous pressure that 
the DMC is under from communal rangeland activities — especially in Lesotho (Global 
Mechanism of the UNCCD 2018, 2019) — it is possibly at medium- to long-term 
risk from land degradation through overgrazing. Initial observations suggest that the 
species does have resilience, being recorded in areas disturbed by grazing and burning 
as well as in areas of limited disturbance. There might, however, be competition from 
shrubland following overgrazing (e.g. Chrysocoma ciliata L., Selago melliodora Hilliard, 
Eumorphia spp. and Helichrysum spp.). Future projections of global climate change are 
also of concern for high-elevation species in southern Africa (Bentley et al. 2019). Ac- 
cordingly, we propose the IUCN conservation status of Near Threatened (NT) until 
further population studies can be undertaken. 

Etymology. The species epithet refers to the Drakensberg Mountain Centre 
(DMC) of South Africa and Lesotho (Carbutt 2019), where this species forms a com- 
mon component of the Afro-alpine vegetation. 

Notes. ‘The character of extravaginal branching is not always easy to distinguish 
and certain specimens of F caprina s.l. found growing in moss may have what appear 
to be rhizomes although these are, in fact, pseudostolons. However, F caprina vat. cap- 
rina and var. macra plants are usually much larger, with culms (28-)35-120+ cm tall, 
basal foliage (10-)30—80+ cm tall, generally (> 1%) > 34 to surpassing the length of the 
culms, with leaf-blades of tillers and basal culm (4—)12—66.5+ cm long, often > 26 cm 


56 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

long, basal sheaths entire, erect panicles with greenish or purplish spikelets on ascend- 
ing branches, lower lemma often larger, (4.5-)5-7(-9) mm long, and anthers > 2 mm 
long (vs. culms (12.5—)20—46(—65) cm tall, basal foliage (2-)4-20(-27) cm tall, leaf- 
blades of tillers and basal culm (2—)5—15(—26) cm long, basal sheaths fibrous, drooping 
panicles with purplish spikelets on pendent branches, lower lemma 4.5—5.8, anthers 
0.8-1.6(-1.8) mm long in F drakensbergensis) (Table 1). Festuca caprina var. irrasa 
specimens can sometimes superficially resemble F drakensbergensis by having shorter 
basal foliage reaching < % length of the culms, with smooth blades and fibrous basal 
sheaths (Table 1). However, in these cases, F caprina var. irrasa can be distinguished by 
its intravaginally branched tillers which lack cataphylls, erect panicles with ascending 
branches, short-hispid or long-scabrous lemmas and paleas that often measure > 6 mm 
long, and anthers > 2 mm long (vs. extravaginally branched tillers with cataphylls pre- 
sent, drooping panicles with pendent branches, lemmas and paleas glabrous, scabrous, 
4,5-5.8 mm long, and anthers < 1.8 mm long in F drakensbergensis). 

Festuca exaristata also bears extravaginally branched cataphyllous tillers or lateral- 
tending rhizomes, with plants forming short isolated tufts. The holotype of F exaristata 
is very short, with basal foliage not reaching past 12 cm tall, and bears superficial re- 
semblance to certain shorter specimens of F drakensbergensis, for example, Sylvester et 
al. 3637. The protologue of F exaristata mentions culms to 35 cm tall and leaf blades 
to 25 cm long, which must refer to the one paratype, du Toit 2713 (K), which has not 
been seen by us, showing that the species would also superficially match larger versions 
of FE drakensbergensis. However, F exaristata differs by its entire, lustrous basal sheaths, 
blunt, rounded leaf-blade midribs, erect sub-spike-like panicles, smooth panicle branch- 
es, shorter lemmas 4-4.2 mm long which lack awns, glabrous ovary apex and anthers 
1.5-1.8 mm long (vs. basal sheaths smooth or rarely retrorsely scabrous, fibrous, leaf 
blade midrib usually sharp, keel-like, sometimes blunt and rounded, panicles drooping, 
panicle branches lightly to densely scabrous, lowermost lemma (not including awn) 
4.6-6 mm long, awn rarely absent, usually 0.5-3 mm long, ovary apex sparsely to 
densely hairy, anthers 0.8-1.6(-1.8) mm long in F drakensbergensis). Although rarely 
some characters overlap between F drakensbergensis and F. exaristata, the combination 
of characters found in F exaristata is never found in specimens of FE drakensbergensis. 

Some specimens (e.g. Sylvester et al. 3442) growing in wetlands with limited graz- 
ing were substantially larger than normal, with culms to 65 cm tall and inflorescences 
to 13 cm long. 

Selected specimens examined. LesoTHo. Bokong Nature Reserve, ca. 350 m 
north from the information centre, 29.067203S, 28.421496E, 2972 m alt., Afro- 
alpine grassland dominated by Lachnagrostis barbuligera var. barbuligera with mod- 
erately controlled grazing and burning, 2 Mar 2020, S.P. Sylvester et al. 3687a (US); 
Bokong Nature Reserve, ca. 400 m north from the information centre, 29.065893S, 
28.420137E, 2979 m alt., rocky Afro-alpine grassland dominated by Lachnagrostis 
barbuligera var. barbuligera with moderately-controlled grazing and burning, 2 Mar 
2020, S.P. Sylvester et al. 3689 (PRE, US); Matebeng Pass, below highest summit 
close to the pass, 29.870708S, 28.976534E, 3094 m alt., “Lesotho Highland Basalt 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 57 

Grassland” with clear elements of “Drakensberg Afro-alpine Heathland” with Erica 
and Helichrysum shrubs dominating the landscape, 22 Feb 2020, S.P. Sylvester et al. 
3578 (PRE, US); Menoaneng Pass, on road between Rafolatsane and Thaba-Tseka, 
29.427423S, 28.951273E, 3040 m alt., Afro-alpine grassland, windy ridge, grazed 
down to low turf, 24 Feb 2020, S.P. Sylvester et al. 3595 (NU, PRE, US); Menoaneng 
Pass, on road between Rafolatsane and Thaba-Tseka, 29.427403S, 28.951124E, 3039 
m alt., Afro-alpine grassland, windy ridge, grazed down to low turf, 24 Feb 2020, S.P. 
Sylvester et al. 3605 (PRE, US); Sani Pass area, close to the top of the Pass northwest 
of Sani Mountain Lodge, 29.521251S, 29.200602E, 3242 m alt., short Afro-alpine 
grassland, close to a pool of water, frequently to heavily grazed, 26 Feb 2020, S.P. Syl- 
vester et al. 3636 (PRE, US); Sehlabathebe National Park, lower end of the Park on the 
border, 29.860061S, 29.095497E, 2719 m alt., damp Afro-alpine tussock grassland, 
soil damp, under dripping crag, heavily grazed, close to livestock paths, 19 Feb 2020, 
S.P. Sylvester et al. 3531 (NU, PRE, US). Sourn Africa. Eastern Cape: Bastervoetpad 
Pass area, ca. 12 km east of Mountain Shadow Hotel on Barclay Pass, 31.176139S, 
27.964197E, 2176 m alt., Afro-montane transitioning to Afro-alpine grassland, 14 
Feb 2020, S.P. Sylvester et al. 3505 (NU, PRE, US); Eastern Cape: between Carlisle- 
shoekspruit Pass and Tiffindell Ski Area, 30.677202S, 27.956643E, 2526 m alt., ripar- 
ian wetland, 10 Feb 2020, S.P. Sylvester et al. 3442 (NU, PRE, US); Eastern Cape: 
Tiffindell Ski Area, Ben Macdhui summit, 30.647683S, 27.934042E, 2995 m alt., 
Afro-alpine grassland, 11 Feb 2020, S.P. Sylvester et al. 3459 (NU, PRE, US); KwaZu- 
lu-Natal: Drakensberg, top of Sani Pass, grassy slopes on bank of gully, steep east facing 
slope, between rocks in brown clayey soil, 9400 ft [2865 m alt.], 24 Mar 1975, PC.V. 
du Toit 698 (PRE0240733); KwaZulu-Natal: Sentinel Trail, ca. 1.2 km from the chain 
ladders, 28.740834S, 28.886806E, 2867 m alt., Afro-montane grassland grading into 
Afro-alpine grassland, damp soil, infrequently grazed, 6 Mar 2020, S.P. Sylvester et al. 
3714 (NU, PRE, US); KwaZulu-Natal: Sani Pass area, below southwest facing cliffs 
to the southeast of Sani Mountain Lodge, 29.585365S, 29.290839E, 2866 m alt., 
short Afro-alpine grassland, frequently to heavily grazed, 26 Feb 2020, S.P. Sylvester 
et al. 3637 (PRE, US); [KwaZulu-Natal?:] Probably from Mont-aux-Sources [Sentinel 
Peak?], E.A.C.L.E. Schelpe 1394A (PRE0024522). 

Taxonomic notes on other taxa in the Festuca caprina complex of southern Africa 

Festuca caprina vat. caprina Nees, Fl. Afr. Austral. Ill. 443. 1841. Festuca nu- 
bigena subsp. caprina (Nees) St.-Yves, Rev. Bretonne Bot. Pure Appl. 2: 79. 1927. 
Fig:.3, Table: 1 

Type. Sout Arrica. [Eastern Cape:] Table mountain, Queenstown Dev., Los-Tafel- 
berg, 5000-6000 ft [1524-1829 m alt.], [1840], [lowering in December], D.E. Drége 
s.n. (lectotype, designated by Alexeev 1986: 1115: K (K000345257 [image!]; isolec- 
totypes: K (K000345258 [image!]), LE (LE00009757 [image!]); syntypes: Sour AE- 


58 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

ricA. Plantes du Cap, Los Tafelberg, 5000-6000 ft [1524-1829 m alt.], 7 Dec 1832, 

D.E Drége 8.¢.3920 (P (P00434763 [image!])); [SourH Arrica] Afr. Austr. D.F. 

Drége s.n. (L (L1262355 [image!])); Sour Arrica. Los Tafelberg, Dec 1826-1834, 

D.E Drége s.n. (HAL (HAL0106999 [image!))). 

= Festuca caprina vat. curvula Nees, Fl. Afr. Austral. Ill. 1: 443. 1841. Type: Souru 
Arrica. [Eastern Cape:] [Monte] Los Tafelberg, an steinigen Oetern, 5000-6000 ft 
[1524-1829 m alt.], [flowering in December], D.F. Drége s.n. (lectotype, desig- 
nated here: S (S-G-6704 right-hand plant annotated with ‘b’ [image!]); syntype: 
SouTH Arica. Plantes du Cap, D.F. Drége 8.¢.3920? (P (P00434764 [image!])). 

= Festuca costata var. longiseta Nees, Fl. Afr. Austral. Ill. 1: 447. 1841. Type: Souru 
Arrica. [Eastern Cape:] Stockenstrom Division, Katberg, [4000-5000 ft; 
1219-1524 m alt.], 1840, D.FE Drége s.n. (lectotype, designated by Alexeev 1986: 
1115: K (K000345256 [image!]); isolectotype: K (K000345255 [image!])). 

Notes. Alexeev (1986) separated F caprina from FE macra (=F caprina vat. macra) 
based, in part, on the basal sheaths being fibrous. However, all type or original material 
of F caprina, including the lectotype of F caprina var. caprina designated by Alexeev 
(1986), had entire, often lustrous, basal sheaths apart from var. irrasa, which were 
obviously fibrous. The protologue mentions basal sheaths to be fibrous and, as such, 
Alexeev (1986) may have made an error in his choice of lectotype. Nevertheless, as 
only the type material of var. irrasa, which was designated by Stapf (1900), has fibrous 
basal sheaths, this also raises questions over the accuracy of the description in the 
protologue for var. caprina. If we treat F caprina var. caprina based on the K lectotype 
and isolectotype designated by Alexeev (1986) then var. caprina should be considered 
as having entire basal sheaths that do not split into fibres. Oddly, the inflorescences 
of all var. caprina specimens studied had a distinct butter-like smell upon the open- 
ing of specimen press papers, which then quickly dissipated. This odour was barely to 
sometimes slightly susceptible in specimens of F caprina var. macra or vat. irrasa or E 
drakensbergensis. It remains to be seen whether this character is diagnostic and what 
phytochemical compounds are involved. 

Festuca caprina vat. caprina is more common at lower elevations in the Drakens- 
berg Mountain Centre (Carbutt 2019) and surrounding mountainous habitats of 
southern Africa and extends from southern Africa to Tanzania. The species appears to 
prefer more mesic Afro-alpine and Afro-montane grasslands and is outcompeted by F 
caprina vat. macra in the drier summit area of the high escarpment in the DMC. Of 
the 222 2 m x 2 m plots studied for all vascular plants across the Afro-alpine DMC 
(Sylvester et al. unpubl. data), F caprina var. caprina was rarely encountered, being 
found in only 13 plots from the Eastern Cape and Free State. The species was usually 
encountered in lower elevation Afro-montane transitioning to Afro-alpine grasslands 
at ca. 2500-2700 m alt. or exceptionally at higher elevations to 2981 m alt. in damper 
shaded sites, highlighting its very low frequency and commonality in the high-eleva- 
tion xeric Afro-alpine zone of the DMC. 

Festuca caprina vat. curvula is also herein lectotypified. In the protologue, Nees von 
Esenbeck (1841: 443) only cited a single Drége s.n. collection from monte Los-Tafel- 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg a) 

1mm 
_ 

Figure 3. Festuca caprina vat. caprina. A Whole plant B abaxial leaf blade surface of tiller C, D spikelet, 
lateral view. A, B, D of S.P. Sylvester et al. 3492 (US) C of S.P. Sylvester et al. 3492 (PRE). 

berg, 6000 ft (1829 m alt.), which is assumed to be the same type locality as var. caprina 
that was found in Los-Tafelberg of the Eastern Cape Province, near Queenstown. Nees 
von Esenbeck (1841: 443) labelled var. caprina and var. curvula ‘a and ‘b’, respectively, 
with the S-G-6704 right hand plant chosen as lectotype based on this matching the 
protologue information and being the only specimen sheet amongst the original mate- 
rial to be annotated with an ‘a’ and ‘b’ in Nees von Esenbeck’s cursive handwriting. The 
right-hand plant annotated with ‘b’ fitted the protologue description of var. curvula, 
with Nees differentiating the variety based on its shorter height, curved blades and sub- 
secund panicle branches with few purplish spikelets. One specimen amongst the origi- 
nal material, D.E Drége 8.e.3920? (P00434764), also had ‘Curvula’ written on the la- 
bel but limited locality information aside from ‘Plantes du Cap’ and is here considered 
a syntype of var. curvula as it also fits the description given in the protologue. While the 
differentiating characters of F caprina var. curvula are also found in F drakensbergensis, 
we deduce that var. curvula is a slight variation from the norm in F caprina as neither 
the type specimens designated herein, nor any of the other original material from the 
type locality, can be attributed to F drakensbergensis based on their lacking extravaginal 
branching and cataphyllous shoots as well as having entire lustrous basal sheaths. 
Selected specimens examined. SouTH AFrica. Eastern Cape: Naudes Nek pass, 
near Rhodes, 30.764792S, 28.105164E, 2588 m alt., Afro-alpine tussock grassland, 
low rock outcrop, 13 Feb 2020, S.P. Sylvester et al. 3492 (NU, PRE, US); Free State: 
Witsieshoek, at beginning of Sentinel trail by parking lot, path-side, 28.733181S, 
28.893296E, 2607 m alt., 5 Feb 2020, S.P. Sylvester et al. 3418 (US); Free State: 
Witsieshoek, Sentinel trail, along beginning of trail that leads to the chain ladders that 


60 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

take you up to Amphitheatre, path-side, 28.7362075S, 28.894084E, 2693 m alt., 5 Feb 
2020, S.P. Sylvester et al. 3416 (US); Free State: Golden Gate National Park, summit 
of Wodehouse Peak, 14 Jan 1975, R.P. Ellis 2383 (PRE0464133); KwaZulu-Natal: 
Amphitheatre, slopes near the Tugela waterfall, Afro-alpine grassland, 28.750810S, 
28.888942E, 2981 m alt., 5 Feb 2020, S.P. Sylvester et al. 3409a (US); KwaZulu-Na- 
tal: Sentinel Trail, off the main trail at the top of an east facing gully ca. 1 km from the 
chain ladders, 28.743162S, 28.888205E, 2953 m alt., shaded Afro-montane grassland 
grading into Afro-alpine grassland, damp soil, rarely grazed, 6 Mar 2020, S.P. Sylvester 
et al. 3713 (NU, PRE, US). 

Festuca caprina vat. irrasa Stapf, Fl. Cap. 7:720. 1900. 
Fig. 4, Table 1 

Type. Sour Arrica. [Eastern Cape: Grahamstown], Howison Poort, Nov 1894, 
H.G. Flanagan s.n. (lectotype, designated by Alexeev 1986: 1115: K (K000345259 
[image!]); syntype: SourH Arrica. East Province of Cape Colony [Eastern Cape]: 
Amatole Mountains, Mar 1883, J. Buchanan 37 (K (K000345260 [image!])). 

Notes. Festuca caprina vat. irrasa may indeed be distinct and warrant elevating to 
species level. It differs from the other intravaginally branched taxa in the complex (F 
caprina var. caprina and FE caprina var. macra) by the obviously fibrous basal sheaths 
and usually short-hispid or long-scabrous (prickles hair-like) lemmas, paleas and ra- 
chillas. The character of lemma, palea and rachilla pubescence sometimes varies with 
hispid hairs sometimes only found at the apex of some lemmas in the inflorescence. 
The panicle branches and pedicels are also usually densely short-hispid or long-sca- 
brous with hooks elongating to become almost hair-like, a character not seen in the 
other members of the F caprina complex, although this character also appears to vary. 
The variation may be due to introgressive hybridisation or lateral gene transfer between 
taxa, which possibly occur frequently in grasses (Kellogg 2015; Hibdige et al. 2020; 
Tkach et al. 2020). This could be exemplified by how one specimen (Sylvester et al. 
3547) that was collected close to both var. macra (Sylvester et al. 3538) and var. irrasa 
(Sylvester et al. 3542) had inflorescence characteristics of var. irrasa, but antrorsely 
scabrous abaxial leaf-blade surfaces like var. macra. Further work is needed to clarify 
the circumscription and taxonomic position of var. irrasa. Festuca drakensbergensis, de- 
scribed herein, also usually has fibrous basal sheaths and, although not as conspicuous 
as F. caprina vat. irrasa, can be readily distinguished based on its extravaginal tiller 
branching, presence of rhizomes and smaller anther size, amongst other characters. 

Festuca caprina vat. irrasa is endemic to the DMC of southern Africa, being found 
in Lesotho and the South African Eastern Cape and KwaZulu-Natal Provinces and pos- 
sibly the Free State Province (although no specimens have been verified by us). The spe- 
cies appears to be more common in the KwaZulu-Natal Province. During our ecological 
plot-based study across the Afro-alpine DMC (Sylvester et al. unpubl. data), F caprina 
var. irrasa was only encountered as locally abundant ([0.5—]5—35% of 2 m x 2 m plot 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 61 

1mm 

leaf blade surface of tiller D leaf blade apex of tiller E close-up of inflorescence, showing spikelets, lateral 
view. A, B, E of S.P. Sylvester et al. 3512 (US) C, D of S.P. Sylvester et al. 3542 (US). 

cover) populations in the damper southern sites of the DMC, i.e. Sehlabathebe National 
Park (Lesotho) and Barclays Pass (Eastern Cape, South Africa). The species was found in 
only 11 plots ranging from the lower elevation Afro-montane to Afro-alpine grassland 
transition at ca. 2250 m alt. to wet Afro-alpine tussock grasslands at ca. 2750 m alt. 
Alexeev (1986: 1115) cites “(P. Linder in Fl. South Africa. manusc.): Cape Province, 
Grahamstown, Howisons Poort, no. 94, H.G. Flaganan (K!)” for lectotype selection. 
However, upon inspection of the K lectotype, the ‘94’ refers to the year of collection. 
Selected specimens examined. LesoTHo. Sehlabathebe National Park, lower end 
of the Park on the border, 29.877593S, 29.086461E, 2606 m alt., wet Afro-alpine 
tussock grassland, soil damp, not grazed recently, 20 Feb 2020, S.P. Sylvester et al. 
3542 (PRE, US); Sehlabathebe National Park, lower end of the Park on the border, 
29.876061S, 29.086150E, 2645 m alt., gravelly slopes below basalt rock escarpment 
with grasses intermixed with forbs, soil damp, burned and grazed recently, 20 Feb 
2020, S.P. Sylvester et al. 3547 (PRE, US). Sour Arrica. Eastern Cape: Bastervoet- 
pad Pass area, ca. 12 km east of Mountain Shadow Hotel on Barclay Pass, 31.172568S, 
27.964747E, 2259 m alt., Afro-montane transitioning to Afro-alpine grassland under 
moderately-heavy grazing, 14 Feb 2020, S.P. Sylvester et al. 3512 (US); KwaZulu-Natal: 
Giants Castle, 10,000 ft [3048 m alt.], 8 Jan 1915, R.E. Symons 352 (PRE0023182); 


62 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

KwaZulu-Natal: Weenen county, top of Griffins Hill, ca. 5000 ft [1524 m alt.], sedgy 
banks of streamlet in highland sourveld, fairly frequent, 29 Oct 1944, J.PH. Acocks 
10740 (PRE0023178). 

Festuca caprina var. macra Stapf, Fl. Cap. 7: 720. 1900. Festuca macra (Stapf) 
E.B. Alexeev, Bot. Zhurn. (Moscow & Leningrad) 71(8): 1116. 1986. 
Fig. 5, Table 1 

Type. Sourn Arrica. [Kalahari Region: Orange Free State:] Wittebergen, near Har- 
rismith, Comm. O. MacOwan, Feb 1877, Buchanan 262 (holotype: K (K000345247 
[image!]); isotype: PRE! fragm. ex K). 

Notes. Alexeev (1986) raised var, macra to species level and differentiated it from 
E caprina based on: a) sheaths of old leaves not falling apart into parallel thin threads 
(vs. falling apart (shredded) into parallel thin threads in F caprina, although this is now 
considered erroneous; see comments under F caprina above); b) leaf blades more or less 
glaucous (vs. green in F caprina); c) abaxial leaf-blade surfaces scabrous (vs. smooth or 
scaberulous in F caprina); d) adaxial leaf-blade surfaces shortly hairy (vs. scabrous or 
shortly hairy in F caprina); e) lemmas 4.5-5 mm long (vs. 5-7[9] mm long in F caprina); 
f) awns 1.5-3.5 mm long (vs. [0.5]1-4 m long in F caprina); g) anthers 1.6-2.2 mm 
long (vs. [2-]2.5-4 mm long in F caprina); h) spikelets straw-coloured-violet (vs. violet- 
green, rarely green in F caprina). However, only the holotype of F caprina var. macra 
was seen by Alexeev, as well as original material (from which a lectotype was selected) 
and a limited number of other specimens of F caprina var. caprina at the K herbarium. 

Upon study of numerous specimens that belong to F caprina vat. caprina and var. 
macra during extensive fieldwork in the DMC and herbarium study at PRE, it became 
apparent that the above-mentioned differentiating characters overlap. Both F caprina 
var. caprina and FE caprina vat. macra share most characteristics, such as intravaginal 
tillers forming dense, often large, tussocks, with entire, often lustrous, basal sheaths, 
narrow involute blades and similar inflorescence and spikelet morphology, with an- 
thers usually > 2 mm long. The F caprina var. macra holotype is on the shorter side 
with regards most inflorescence characters when compared with F caprina vat. caprina, 
with shorter spikelets, lemmas, awns and anthers according to the protologue. Never- 
theless, most of these characters have also been found in specimens of F caprina var. 
caprina, with variability in lengths of the spikelet parts possibly being related to eco- 
logical conditions, including seasonal variations in rainfall (C. Mashau, pers. comm.). 
The anther length of 1.6 mm, mentioned in the protologue for F macra (Alexeev 1986: 
table 2), is shorter than any specimen of F caprina var. macra studied by us, with it 
being plausible that the var. macra holotype could be somewhat intermediate between 
E drakensbergensis and FE. caprina vat. macra in its broader sense, with similar plausible 
hybrids with a mixture of characters sometimes found in the DMC (see below). In- 
dumentum of the adaxial leaf-blade surface was also found to vary between scabrous, 
long-scabrous with prickles becoming elongated and hair-like and shortly hispid in all 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 63 

Figure 5. Festuca caprina var. macra. A Whole plant B abaxial leaf blade surface of tiller C spikelet, 
lateral view. Images of S.P. Sylvester et al. 3480 (US). 

the taxa of the F caprina complex from southern Africa, with this character seen to 
have no diagnostic value. 

Festuca caprina vat. macra was not included in the treatment of southern African 
grasses by Fish and Moeaha (2015), who chose not to uphold any of the varieties of F 
caprina stating that the species was too variable. Nevertheless, we consider F caprina 
var. macra to be distinct from var. caprina based on the character of notably antrorsely 
scabrous abaxial leaf-blade surfaces that is not known outside of the DMC, with all 
other F caprina specimens across their range being smooth or exceptionally scaberu- 
lous towards their apices. Specimens with notably scabrous leaf blades were also found 
to be geographically and ecologically distinct during fieldwork in the DMC, these 
being predominantly found in drier alpine areas of the DMC, while var. caprina was 
found in more mesic environments often at lower elevations in the montane belt. 

Plants of the World Online (2020), Plantlist (2020), the World Checklist of Select- 
ed Plant Families (2020) and GrassBase (Clayton et al. 2006 onwards) currently accept 
E macra as a distinct species. While we currently disagree with this assessment, more 
exhaustive research may result in var. macra being raised to subspecies level, with certain 
characters still needing to be assessed such as lemma micromorphology, which has been 
proven to be taxonomically informative in Festuca (Ortifiez and Cano-Ruiz 2013). 

Festuca caprina vat. macra is often dominant in less-disturbed Afro-alpine grass- 
lands of the DMC (Carbutt 2019), being found in Lesotho and the Eastern Cape, Free 
State, KwaZulu-Natal Provinces of South Africa. Of the 222 2 m x 2 m plots stud- 


64 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

ied throughout the DMC, 99 were occupied and often dominated ([0.5—]20—92% of 
overall plot cover) by F caprina var. macra (Sylvester et al. unpubl. data), with a total 
of 42 collections of the species being made. It is more palatable than Merxmuellera 
Conert species and so is less common in grazed areas (Sylvester and Soreng, pers. obs.). 

Festuca obturbans St.-Yves and its allies F gilbertiana Alexeev ex S.M. Phillipps and 
E macrophylla A. Rich., described from Afro-alpine vegetation of Kenya or Ethiopia, 
also bear superficial similarity to F caprina var. macra in their intravaginally branched 
large tussocks with entire basal sheaths and fine, involute and usually scabrid leaf 
blades (Alexeev 1986; Phillips 1995a,b). These also share similar inflorescence char- 
acteristics with F caprina var. macra, such as relatively-narrow panicles with spikelets 
loosely arranged on short ascending branches, and spikelets with similar glume, lemma 
and anther sizes (Alexeev 1986; Phillips 1995a,b). These can be differentiated by their 
leaf blade cross sections showing sclerenchyma girders bridging both sides of the vas- 
cular bundles or, at least, the larger ones (vs. sclerenchyma only present on the abaxial 
blade ribs in F caprina var. macra). Festuca gilbertiana can be further differentiated by 
its smooth leaf blades, culms 30-35 cm tall, and sparse racemose inflorescence (vs. 
leaf blades scabrous, culms (28—)60—110(—120+) cm tall, inflorescence usually a large 
loosely-contracted panicle in F caprina var. macra). Festuca obturbans can be further 
differentiated by having sheaths open to almost their base and ovary apices glabrous 
(vs. sheaths closed for ca. % their length, ovary apices sparsely to densely pubescent in 
E caprina vat. macra). 

Two specimens found near the Tiffindell Ski Resort of the Eastern Cape, South 
Africa (Sylvester et al. 3428B) and Bokong Nature Reserve, Lesotho (Sylvester et al. 
3687B), bore characteristics of E caprina var. macra, which was collected alongside 
them (Sylvester et al. 3428A, 3687C), such as tussock-forming habit with intravaginal 
branching and entire basal sheaths not splitting into fibres. However, they differed by 
their smooth abaxial leaf blade surfaces, placing them closer to F caprina var. caprina, 
unawned lemmas, which is unusual for both var. caprina and var. macra, and short 
spikelets with lowermost lemmas 4.5-5.8 mm long anthers measuring ca. 1.6-1.8 mm 
long, placing them closer to FE drakensbergensis. As FE. drakensbergensis was also collected 
at the same localities (e.g. Sylvester et al. 3459, 3687B), it is plausible that these could 
be hybrids between F caprina var. macra and F. drakensbergensis. More study, including 
further collections, is required to ascertain the identity of these specimens. 

Selected specimens examined. Lesoruo. AfriSki area, in valley adjoining and 
northwest of the valley of the AfriSki resort, on the north side of the Al high- 
way, 28.808394S, 28.708658E, 3104 m alt., dry upper slopes above valley, 27 Feb 
2020, S.P. Sylvester et al. 3652 (NU, PRE, US); AfriSki resort, in valley just west 
of the resort centre, 28.822906S, 28.724602E, 3046 m alt., relatively undisturbed 
damp Afro-alpine grassland, 28 Feb 2020, S.P. Sylvester et al. 3663 (PRE, US); 
Bokong Nature Reserve, ca. 350 m north from the information centre, 29.067203S, 
28.421496E, 2972 m alt., Afro-alpine grassland dominated by Lachnagrostis barbu- 
ligera var. barbuligera with moderately-controlled grazing and burning, 2 Mar 2020, 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 65 

S.P. Sylvester et al. 3687b (US); S.P. Sylvester et al. 3687c (US); Matebeng Pass, 
below highest summit close to the pass, 29.870708S, 28.976534E, 3094 m alt., 
“Lesotho Highland Basalt Grassland” with clear elements of “Drakensberg Afro- 
alpine Heathland” with Erica and Helichrysum shrubs dominating the landscape, 
22 Feb 2020, S.P. Sylvester et al. 3576 (US); Matebeng Pass, below highest sum- 
mit close to the pass, 29.868524S, 28.976439E, 3125 m alt., Afro-alpine vegeta- 
tion with Ericaceous shrubs dominating the landscape, heavy grazing, 22 Feb 2020, 
S.P. Sylvester et al. 3580 (US); Matebeng Pass, below highest summit close to the 
pass, 29.873765S, 28.976929E, 2947 m alt., Afro-alpine vegetation with Ericaceous 
shrubs dominating the landscape, heavy grazing, 22 Feb 2020, S.P. Sylvester et al. 
3588 (PRE, US); Menoaneng Pass, on road between Rafolatsane and Thaba-Tseka, 
29.427317S, 28.950617E, 3039 m alt., Afro-alpine grassland, windy ridge, grazed, 
24 Feb 2020, S.P. Sylvester et al. 3601 (US); Sani Pass area, ca. 800 m east of Sani 
Mountain Lodge, 29.585198S, 29.292011E, 2896 m alt., short Afro-alpine grass- 
land, frequently to heavily grazed, 25 Feb 2020, S.P. Sylvester et al. 3619 (PRE, 
US); S.P. Sylvester et al. 3620 (US); Sehlabathebe National Park, lower end of the 
Park on the border, 29.859882S, 29.095598E, 2779 m alt., wet Afro-alpine tus- 
sock grassland, soil damp, under dripping crag, heavily grazed, close to livestock 
paths, 19 Feb 2020, S.P. Sylvester et al. 3523 (NU, PRE, US); Sehlabathebe National 
Park, lower end of the Park on the border, 29.860180S, 29.095586E, 2733 m alt., 
wet Afro-alpine tussock grassland, soil damp, under dripping crag, heavily grazed, 
close to livestock paths, 19 Feb 2020, S.P. Sylvester et al. 3538 (PRE, US). Souru 
Arrica. Eastern Cape: between Carlisleshoekspruit Pass and Tiffindell Ski Area, 
30.6852485S, 27.963802E, 2565 m alt., Afro-alpine grassland, 10 Feb 2020, S.P. 
Sylvester et al. 3428a (PRE, US); Eastern Cape: between Carlisleshoekspruit Pass 
and Tiffindell Ski Area, 30.6852485S, 27.963802E, 2565 m alt., Afro-alpine grass- 
land, 10 Feb 2020, S.P. Sylvester et al. 3428b (NU, PRE, US); Eastern Cape: Tiffin- 
dell Ski Area, 30.649239S, 27.928720E, 2845 m alt., Afro-alpine grassland, 10 Feb 
2020, S.P. Sylvester et al. 3446 (NU, PRE, US); Eastern Cape: Tiffindell Ski Area, 
30.676006S, 27.958567E, 2527 m alt., Afro-alpine tussock grassland, 12 Feb 2020, 
S.P. Sylvester et al. 3480 (NU, PRE, US); Eastern Cape: Tiffindell Ski Area, Ben 
Macdhui summit, 30.648172S, 27.935507E, 2998 m alt., Afro-alpine grassland, 11 
Feb 2020, S.P. Sylvester et al. 3462b (NU, PRE, US); Eastern Cape: Tiffindell Ski 
Area, next to ski lift, 30.651034S, 27.925149E, 2778 m alt., Afro-alpine grassland, 
annually burnt, appears to be seeded with exotic species, 11 Feb 2020, S.P. Sylvester 
et al. 3463 (NU, PRE, US); KwaZulu-Natal: Amphitheatre, slopes near the Tugela 
waterfall, 28.754008S, 28.893853E, 2983 m alt., Afro-alpine grassland, 5 Feb 2020, 
S.P. Sylvester et al. 3403 (NU, PRE, US); KwaZulu-Natal: Amphitheatre, slopes near 
the Tugela waterfall, 28.753989S, 28.893563E, 2979 m alt., Afro-alpine grassland, 5 
Feb 2020, S.P. Sylvester et al. 3406 (US); KwaZulu-Natal: Amphitheatre, slopes near 
the Tugela waterfall, 28.750810S, 28.888942E, 2981 m alt., Afro-alpine grassland, 
5 Feb 2020, S.P. Sylvester et al. 3409b (US). 


66 Steven P Sylvester et al. / PhytoKeys 162: 45-69 (2020) 

Festuca exaristata E.B. Alexeev, Bot. Zhurn. (Moscow & Leningrad) 71(8): 1116. 
1986. 
Fig. 6, Table 1 

Type. [LEsotHo] Basutoland. Above the Sani Pass, among stones, 9800 ft [2987 m 
alt.], 3 Feb 1959, M. McCallum Webster 483b (holotype: K (K000345250 [image!])). 

Notes. ‘This species was not included in the treatments to southern African grasses 
(Gibbs Russell et al. 1990; Fish and Moeaha 2015), nor in the checklist to Lesotho 
grasses (Kobisi and Kose 2003), but is accepted in Plants of the World Online (2020), 
Plantlist (2020), the World Checklist of Selected Plant Families (2020), GrassBase 
(Clayton et al. 2006 onwards) and Tropicos (2020). It is known from just two collec- 
tions; the type from Sani Pass, bordering Lesotho and the KwaZulu-Natal Province 
of South Africa, and a paratype from Letsing La Letsie of the Matatiele Province of 
Lesotho. Exploration by the authors in the Sani Pass area failed to discover further 
specimens although, at the time of visiting, the authors were not searching in particu- 
lar for F exaristata and did not cover all the habitats present. The holotype label states 
‘Above the Sani Pass’ probably referring to the mountain slopes and ridge immediately 
above the Sani Pass, which were not explored by us. Our exploration largely focused 
on the valley bottom, which experienced very heavy grazing, with it being possible 
that the species may have been grazed out in these areas. As the species exhibits certain 
characters of both F caprina s.l. and F drakensbergensis, as well as other characters not 
found on any of these (e.g. glabrous ovaries, shorter unawned lemmas), there is also 
the possibility that the species is a hybrid which failed to survive into subsequent gen- 

5mm 
eae eT 

Figure 6. Festuca exaristata. A Whole plant B basal part of plant showing lustrous basal sheaths and ex- 
travaginally-branched tillers with cataphylls (ca) C close-up of inflorescence. Digitised images of holotype 
M. McCallum Webster 483b (K000345250), courtesy of JSTOR Global Plants (https://plants.jstor.org). 


Festuca drakensbergensis sp. nov. and the F caprina complex of the Drakensberg 67 

erations. However, the paratype, which was not seen by us, but was collected in 1977, 
18 years after and ca. 130 km southwest of the type collection, raises doubt over this. 
Alexeev (1986) distinguished this species from E macra (= F caprina vat. macra) 
and F caprina in part by: a) leaf blade mid-vein blunt and rounded; b) panicle branches 
smooth; c) lemmas 4-4.2 mm long; d) lemmas unawned; e) ovary apex glabrous; f) an- 
thers 1.5-1.8 mm long. It can be further differentiated from F caprina var. irrasa by the 
basal sheaths being entire, and from F caprina var. macra by the leaf blade abaxial surfaces 
being smooth. Furthermore, although not mentioned by Alexeev (1986), the type mate- 
rial appears to have extravaginal branching, with cataphyllous laterally-tending shoots 
present, differentiating this from the intravaginally branched F caprina s.l. The species 
does bear some resemblance to F drakensbergensis (see notes under F drakensbergensis). 

Acknowledgements 

We wish to gratefully thank Nanjing Forestry University (China) and the University of the 
Free State: Afromontane Research Unit (South Africa) for financial and logistical support; 
Konstantin Romaschenko for providing crucial Russian translations; Caroline Mashau, 
Lyn Fish and PRE staff for access to the PRE herbarium, discussions of taxa and supply- 
ing collecting paper; Anthony Mapaura for assistance as a co-collector during fieldwork 
in the Eastern Cape region; Nicky and Mark McLeod and AfriSki for logistical assistance 
in Lesotho; Ralph and Nadine Clark for providing an operations base in South Africa 
(including during lockdown); and Carmen Acedo and Mary Namaganda for suggestions 
which improved the manuscript. We also wish to extend grateful thanks to the permit- 
ting authorities and landowners for the relevant permits and permissions to undertake the 
fieldwork: Ezemvelo KZN Wildlife (Ukhahlamba-Drakensberg Park & UNESCO World 
Heritage Site), Eastern Cape Parks & Tourism Authority, Eastern Cape Department of 
Economic Development, Environmental Affairs & Tourism, the Kingdom of Lesotho De- 
partment of Environment and Witsieshoek Mountain Lodge/Batlokwa Tribal Authority. 

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