African Invertebrates 61 (2): 93-106 (2020) Avrican
doi: 10.3897/Afrinvertebr.6 | .54004
Invertebrates

http://africaninvertebrates.pensoft.net

Description of a new genus and three new species of the
family Palpimanidae (Arachnida, Araneae) from Kenya

Ambata D. Oketch'?, Sergei Zonstein**, Esther N. Kioko’, Shuqiang Li!”

I Lnstitute of Zoology, Chinese Academy of Sciences, Beijing 100101, China 2 National Museums of Kenya,
Museum Hill, PO. Box 40658-00100, Nairobi, Kenya 3 University of Chinese Academy of Sciences, Beijing
100049, China 4 Tel Aviv University, Steinhardt Museum of Natural History, Tel Aviv 69978, Israel 5 De-
partment of Zoology and Centre for Invasion Biology, University of Venda, Thohoyandou, 0950, South Africa

Corresponding author: Shugqiang Li (lisq@ioz.ac.cn)

Academic editor: Galina N. Azarkina | Received 7 May 2020 | Accepted 6 July 2020 | Published 28 July 2020
http://zoobank. org/E63F61 C8-1E75-48C7-ABDB-242F CIBOAOC4

Citation: Oketch AD, Zonstein S, Kioko EN, Li S (2020) Description of a new genus and three new species of the
family Palpimanidae (Arachnida, Araneae) from Kenya. African Invertebrates 61(2): 93-106. https://doi.org/10.3897/
AfrInvertebr.61.54004

Abstract

A new genus and three new species of the spider family Palpimanidae Thorell, 1870 from Kenya are de-
scribed. Sceliscelis Oketch & Li, gen. nov. is close to Sarascelis Simon, 1887 and Scelidocteus Simon, 1907
but differs in the structure of the male palp. The new species reported are Sceliscelis marshi Oketch & Li,
sp. nov., Scelidocteus taitave Oketch & Li, sp. nov., and Hybosida machondogo Oketch & Li, sp. nov.
Sceliscelis marshi sp. nov. is described from males and females collected from Tsavo in south Kenya. Sce-
lidocteus taitave sp. nov. can be distinguished from other congeners, as well as from the morphologically
similar Scelidomachus socotranus Pocock, 1899, by the shape of the palpal “conductor”. Hybosida machon-
dogo sp. nov. differs from other six-eyed Hybosida spp. by possessing rudimentary posterior median eyes.

Keywords

Afrotropical, Chediminae, genus, species, taxonomy

Copyright Ambata D. Oketch 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.

94 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

Introduction

Palpimanidae Thorell, 1870 is a small family of araneophagous spiders recognized by
the coriaceous carapace, haplogyne genitalia, two spinnerets and especially by the first
pair of legs with dorsally enlarged femora and well-developed prolateral scopula on
the tibia, metatarsus and tarsus. A total of 152 species in 18 genera are distributed in
tropical and subtropical zones worldwide, absent only in the Nearctic and Australia
(Li 2020). Within Africa, the family is known to include 56 species belonging to 12
genera (WSC 2020), although some of these species are certainly misplaced in the fam-
ily (Zonstein and Marusik 2013; Zonstein et al. 2018).

More than 800 spider species and subspecies belonging to 55 families are known
from Kenya (WSC 2020). However, Palpimanidae have not been thoroughly studied.
Up to now, only three species have been described: Scelidocteus incisus Tullgren, 1910,
Hybosida lesserti Berland, 1920 and H. scabra Simon & Fage, 1922. In this paper, one
new genus and three new species of palpimanid spiders found during the examination
of spiders collected in various protected sites in Kenya are described.

Materials and methods

All spiders were preserved in 95% alcohol. Specimens were examined and measured
using a LEICA M205C stereomicroscope. Images were captured using an Olympus
C7070 wide zoom digital camera mounted on an Olympus SZX12 dissecting micro-
scope or on an Olympus BX51 compound microscope. Male and female copulatory
organs were dissected, and the specimens were then photographed on glass slides fitted
with cotton wool to ensure a white, uniform background. Digital images were pre-
pared using Helicon Focus version 6.0 image stacking software and then edited using
Adobe Photoshop CS4 version 11.0.0.

Leg lengths and palp segments are given in the following sequence: total (femur,
patella, tibia, metatarsus, tarsus). Internal structures of the genitalia were illustrated
after being cleared in lactic acid, then placed in alcohol for a few minutes. Measure-
ments are given in millimeters. Holotypes and paratypes are deposited in the National
Museums of Kenya (NMK), Nairobi, Kenya.

Abbreviations. AER — anterior eye row, ALE — anterior lateral eyes, am — ac-
companying membrane, AME - anterior median eyes, co — “conductor”, ch — re-
ceptive chamber, cy — cymbium, ds — dorsal portion of scutum, em — embolus, Ft
— fine threads, Gr — grape-shaped glands, hle — hook-like extension, MOQ — me-
dian ocular quadrangle, pe — palm-like embolic extension, PER — posterior eye row,
PLE — posterior lateral eyes, PME — posterior median eyes, Re — rigid extensions
of posterior wall of epigastric fold, rt — retrolateral thorn, sco — scopula, Sr — sac-
like receptacle.

Palpimanidae from Kenya 95

Taxonomy

Family Palpimanidae Thorell, 1870
Subfamily Chediminae Simon, 1893

Sceliscelis Oketch & Li, gen. nov.
http://zoobank.org/9F855192-68DE-4B2C-8324-804D599234C4

Type species. Sceliscelis marshi sp. nov.

Etymology. This genus possesses some characteristics that are also found in
Sarascelis Simon, 1887 and Scelidocteus Simon, 1887, such as the dentate segments of
leg I (which include at least the dorsal surface of the coxa and basal part of the femur)
and the spiral embolus. The name is a combination of “Sceli” from Scelidocteus and
“Scelis” from Sarascelis. The gender is feminine.

Diagnosis. The new genus closely resembles Sarascelis in general appearance by
having much larger AMEs (Fig. 1A; also see Jézéquel 1964, fig. 5a—c, Zonstein and
Marusik 2013; figs 5, 6). It can, however, be distinguished from Sarascelis, Scelidocteus
and the close ally Steriphopus Simon, 1887 by (1) having a greatly extended bulb (vs.
the more or less bulky palpal structures of Sarascelis and Steriphopus) (2) the large
AMEs (Steriphopus has considerably smaller AMEs) (3) the shape of the thoracic fovea,
which is an elongated Q-shape in Sceliscelis (vs. a longitudinal slit or anchor-like in
Sarascelis and Scelidocteus) (4) the presence of a hook-like extension at the distal end of
a sword-like “conductor” (vs. extension absent in other members of the family) (5) the
poorly developed scopula on metatarsus and tarsus I (6) the rugose carapace in Scelis-
celis gen. n. (vs. smooth or finely rugose in Sarascelis, Scelidocteus and Steriphopus) (see
Zonstein and Marusik 2013). Females of Sce/iscelis can be distinguished from those of
Sarascelis and Scelidocteus by the wavy, rigid extension of the genital area and by a pair
of divergent sac-like receptacles.

Description. Medium-sized. Carapace dome shaped, coarsely granulated and
hairless, medially elevated, fovea longitudinal, open posteriorly (elongated Q-shape).
Eight eyes, MOQ trapezoidal; AME largest, about 3 times as large as PME; ALE, PLE
and PME subequal to each other. AER straight. Labium triangular, notched, longer
than wide but broader at base. Chelicerae directed ventrally, 2 times longer than cl-
ypeus, granulate. Endites trapezoidal, about 1.5 times longer than wide. Abdomen
clay yellow, oval and covered with short, gray setae in both sexes. Femur of male palp
slender, longer than wide, patella shorter than “conductor”. Cymbium with setae,
pointed at tip and indented (prolateral view). Embolus spiral, with accompanying
membrane and a silvery, palm-like embolic extension. “Conductor” sword-shaped,
longer than wide, slightly longer than embolus. Endogyne wavy anteriorly, forming a
rigid epigastric wall.

Composition. This genus currently includes only the type species.

96 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

Sceliscelis marshi Oketch & Li, sp. nov.
http://zoobank.org/01D83454-CC28-45A1-91B5-87D1424A3C6A
Figs I 2

Type material. Holotype 3, Kenya, Taita Taveta County, near Mtito Andei, Tsavo
West National Park, Rhino Sanctuary, 38°19.96'E, 03°1.230'S, 730 m, 28.VII.2016,
sifting leaf litter, Grace Kioko leg. Paratype 19, same data as holotype.

Etymology. ‘This species is named after Mr. Brian Marsh OBE, the founder of
the Marsh Christian Trust Awards for Ecologists in Africa, which the third author was
awarded in 2019; noun (name) in genitive case.

Diagnosis. See diagnosis of the genus.

Description. Male. Habitus as in Fig. 1A—C. Total body length 3.83. Color in
alcohol: carapace, sternum, chelicerae, labium, leg I coxa and epigastric scutum uni-
formly reddish orange to reddish brown, entire palp and most of leg I slightly pal-
er reddish orange, legs II-IV with yellowish femur and patella and darkened distal
segments. Carapace 2.13 long, 1.75 wide. Fovea longitudinal, open posteriorly. Eye
sizes and interdistances: AME 0.13, PME 0.05, PLE 0.06, ALE 0.06, AME-AME
0.09, PME-PME 0.19, AME-PME 0.09, AME-ALE 0.06, PME-PLE 0.13, ALE-PLE
< 0.01. AER almost straight. Labium triangular 0.25 long, 2 times the length of la-
bium notch, clypeus 2 times shorter than length of chelicerae. Sternum 1.00 long,
0.78 wide, granulate. Endites trapezoidal, pale yellow anteriorly. Abdomen as in genus
description. Palp: Patella sub-globular, as long as 1/3 length of tibia. Tibia 0.35 long,
0.31 wide. Cymbium about 2 times longer than wide.

Female. Cephalothorax in dorsal and ventral aspects as in Fig. 2A, B, respectively.
Color in alcohol: carapace, sternum, chelicerae, labium, leg I coxa and epigastric scu-
tum and abdomen same as in male. Body length 5.1. Carapace 3.1 long, 2.2 wide,
fairly granulate. Eye sizes and interdistances: AME 0.15, PME 0.08, PLE 0.06, ALE
0.06, AME-AME 0.09, PME-PME 0.19, AME-ALE 0.06, PME-PLE 0.13, ALE-PLE
< 0.01. Notch is approximately ¥2 the length of labium which is 0.24 long. Clypeus/
chelicera length ratio 1:1. Epigastric scutum sclerotized, book lung operculum visible,
lateral sclerites present, posterior edge strongly undulate. Vulva not visible through in-
tegument, distant from epigastric fold, with stalked grape-shaped glands. Receptacles
oval, mounted on a pair of irregular receptive chambers, separated (Fig. 2C, D). Leg
and palp measurements in Table 1.

Distribution. This species is currently known only from the type locality.

Table |. Type male (female) leg and palp measurements.

Femur Patella Tibia Metatarsus Tarsus Total
Palp 0.91 (0.85) 0.15 (0.13) 0.35 (0.37) — 0.50 (0.42) 1.91 (1.77)
I 0.85 (0.94) 0.94 (0.80) 0.70 (0.75) 0.30 (0.25) 0.31 (0.22) 3.10 (2.96)
II 1.00 (0.69) 0.50 (0.50) 0.65 (0.63) 0.50 (0.38) 0.32 (0.31) 2.97 (2.51)
III 0.63 (0.52) 0.50 (0.41) 0.50 (0.50) 0.35 (0.47) 0.24 (0.22) 2.22 (2.51)

IV 1.25 (0.78) 0.30 (0.50) 0.88 (0.81) 0.75 (0.56) 0.25 (0.25) 3.31 (2.90)

Palpimanidae from Kenya vi

v

: 7 Fe WY a a
ak Pe ha 4

Figure |. Sceliscelis marshi sp. nov., male holotype A=-C habitus in dorsal, ventral and lateral aspects
D-F palp: D prolateral E ventral and F retrolateral aspects. Abbreviations: am—accompanying membrane,
co — “conductor,” cy — cymbium, ds — dorsal portion of scutum, em — embolus, hle — hook-like extension,
pe — palm-like embolic extension. Scale bars: 1 mm (A=C), 0.1 mm (D-F).

98 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

ee

7 .
ae RE... nis = ( .
gale Fate -
fi 7 a ’
ae —
. ‘s = ria se &
i} or pe
s

Ct wey A

Figure 2. Sceliscelis marshi sp. nov., female paratype. Cephalothorax A dorsal and B ventral aspects
C, D endogyne, ventral and dorsal aspects, respectively. Abbreviations: Bl — book lung operculum,
ch — receptive chamber, ds — dorsal portion of scutum, Gr — grape-shaped glands, Ls — lateral sclerite,
Re — rigid extension of posterior wall of epigastric fold, sco — scopula, Sr — sac like receptacle. Scale

bars: 1 mm (A, B), 0.2 mm (C, D).

Palpimanidae from Kenya 99

Genus Scelidocteus Simon, 1907

Type species. Scelidocteus pachypus Simon, 1907, by subsequent designation.

Notes. All seven described species of this genus are endemic to Africa, the majority
of them in West and Central African countries. Scelidocteus taitave sp. nov. is the first
species to be recorded from Kenya and East Africa (WSC 2020). Scelidocteus resembles
Scelidomachus and Chedima Simon, 1873 in general appearance, especially in having
an anteriorly blunt (not rounded) carapace with pronounced, obtuse anterolateral cor-
ners, but can be distinguished from Chedima by the uniformly colored abdomen (vs.
spotted) with short gray setae and the eye shape and arrangement (MOQ in Chedima
is longer than wide, whereas it is subquadrate in Scelidocteus).

Scelidocteus taitave Oketch & Li, sp. nov.
http://zoobank.org/DE20171E-AD59-4DFF-901B-9B139F91DC5F
Figs 3, 4

Type material. Holotype 3, Kenya, Taita Taveta County, Taita Hills, Mbololo Forest,
30°26.85'E, 03°20.36'S, 1631 m, 2.VIH.2018, Ambata Oketch leg. Paratypes 1 35,
2 9, same data as holotype.

Etymology. The specific name is a combination of Taita and Taveta, the county
from which the specimens were collected; noun in apposition.

Diagnosis. Males of this species differ from those of other members of Scelidocteus
by the uniquely spiral-shaped embolus (Fig. 3C—E cf. Pocock 1903, fig. 3; de Lessert
1930, fig. 4; Jézéquel 1964, figs 2A, B, 4a, b). Females of S. taitave sp. nov. differ from
those of other species by the structure of the endogyne; the orientation of sac-like re-
ceptacles (touching medially, with a space below them) mounted on oval, membranous
receptive chambers and the outline of a rigid extension of the posterior wall of the
epigastric fold (Fig. 4C, D; Jézéquel 1964, figs 1, 3).

Description. Male. Fig. 3A, B. Total body length 3.90. Color in alcohol: cara-
pace and chelicerae orange-red, legs I, endites, sternum and labium orange, legs II-IV
lighter, yellowish. Carapace 1.88 long, 1.50 wide at leg II, oval in dorsal view, finely
granulate, cephalic part slightly elevated behind eye area. ‘Thoracic fovea a longitudinal,
deep slit, approximately 0.10 long. Eye sizes and interdistances: AME 0.13, ALE 0.06,
PLE 0.06, PME 0.06, AME-AME 0.05, AME-ALE 0.08, PME-PME 0.09, AME-
PLE 0.04, ALE-PLE <0.01, PLE-PME 0.24. AER slightly procurved, almost straight,
PER strongly recurved. Chelicerae flattened anteriorly towards the fangs, 1.60 long,
cheliceral furrow with several peg-like teeth. Stridulatory mound absent. Clypeus ap-
proximately 2 times shorter than length of chelicerae. Sternum 1.09 long, 0.86 wide
at leg II; shield shaped, rebordered, finely granulate. Endites almost D-shaped, labium
notch 0.13 long, about a quarter of labium length. Leg I: coxa, patella and tibia pos-

100 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

Figure 3. Scelidocteus taitave sp. nov., male holotype A, B dorsal and ventral habitus respectively
C-E palp: C prolateral D ventral E retrolateral aspects. Abbreviations: am — accompanying membrane,
cl — claw like extension, co — “conductor”, em — embolus, cy — cymbium rt — retrolateral thorns, sco

scopula. Scale bars: 1mm (A, B), 0.2mm (C-E).

Palpimanidae from Kenya 101

} ‘
ay
: . wy
ee 9) : ae r fi} \
Tue! OT Ee ds eae - ’

E

Figure 4. Scelidocteus taitave sp. nov., female paratype A, B habitus C endogyne ventral D same, ventral
E same, enlarged F leg I. Abbreviations: ch — receptive chamber, Ft — fine threads, Gr — grape-shaped glands,
Re — rigid extensions of posterior wall of epigastric fold, Sr — sac like receptacle. Scale bars: 1mm (A, B).

102 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

Table 2. Type male (female) palp and leg measurements.

Femur Patella Tibia Metatarsus Tarsus Total
Palp 0.66 (0.61) 0.24 (0.21) 0.38 (0.37) — 0.35 (0.39) 1.63 (1.58)
I 1.38 (1.41) 0.65 (0.81) 1.00 (1.09) 0.38 (0.38) 0.40 (0.38) 3.81 (4.07)
II 0.88 (0.85) 0.69 (0.70) 0.80 (0.80) 0.50 (0.41) 0.40 (0.28) 3.27 (3.04)
II 0.90 (1.00) 0.60 (0.75) 0.60 (0.69) 0.60 (0.74) 0.40 (0.44) 3.10 (3.62)
IV 0.90 (1.38) 0.80 (0.80) 0.90 (1.00) 0.84 (1.00) 0.40 (0.50) 3.84 (4.68)

sess dark, thorn-like outgrowths and well developed prolateral scopula on tibia and
metatarsus. Tarsus I with weakly developed scopula. Leg and palp measurements as in
Table 2. Abdomen oval with short, grey setae, dorsal portion of epigastric scutum very
small, pedicel short, spinnerets short and unsegmented. Palp (Fig. 3C—E): tibia, as long
as wide, approximately 2.5 times wider than femur. Cymbium long and thin, taper-
ing distally. “Conductor” bifurcate; embolus long and spiral, obscuring some parts of
tegulum. Embolus ends with a bleached, claw-like structure at apex.

Female. General appearance as in Fig. 4A, B. Coloration as in male. Total length
4.88. Carapace 2.19 long, 1.72 wide. Eye sizes and interdistances: AME 0.13, ALE
0.06, PLE 0.06, PME 0.06, AME-AME 0.05, ALE-AME 0.08, ALE-PLE < 0.01,
PLE-PME 0.20, PME-PME 0.7. Sternum 1.25 long, 1.00 wide, labium 0.5 long,
0.44 wide at the base, labium notch 1/3 length of labium. Vulva with fine, thread-like
structures and 3 pairs of stalked, grape-shaped glands attached to a pair of relatively
ovate and membranous receptive chambers.

Distribution. This species is currently known only from the type locality.

Genus Hybosida Simon, 1898

Type species. Hybosida lucida Simon, 1898, by monotypy.

Diagnosis. All four described species of this genus have six eyes, PMEs are absent (Si-
mon 1898, Platnick 1979, Saaristo 2010). H. dauban Platnick, 1979 and H. lucida Simon,
1898 are endemic to Seychelles and H. scabra and H. lesserti are known from East Africa.

Hybosida machondogo Oketch & Li, sp. nov.
http://zoobank.org/D4F9BC3A-3196-498E-89F0-F0750B28A377
Figs 5, 6

Type material. Holotype 3, Kenya, Nyeri County, Naro Moru Town, Mount Ken-
ya National Park, Naro Moru Gate, Forest Valley, 37°10.16'E, 00°10.61'S, 2488 m,
25.VII.2017, Grace Kioko leg.

Other material examined. 2 ¢ subadults, Kenya, Uasin Gishu County, Endebbes
Town, Mount Elgon National Park, Mutamaiyo Camp Site, 34°43.07'E, 01°4.02'N,
2824 m, 7.VII.2017, Grace Kioko leg.

Palpimanidae from Kenya 103

Figure 5. Hybosida machondogo sp. nov. male holotype A-C habitus: A dorsal B ventral and C prolateral
aspects) D-F palp: D prolateral E ventral F retrolateral. Scale bars: 1 mm (A=C), 0.2 mm (D=F). Abbre-

viations: cy — cymbium, ds — dorsal portion of scutum, em — embolus, pa — patella, Ta — tegula apophysis.

Etymology. ‘The specific name is a combination of two Swahili words “macho”,
meaning eyes, and “ndogo”, meaning small, referring to the indiscernible posterior
median eyes of this species.

104 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

+ ¢ @ \
om: 4 >
0.5mm
" ee ¢
‘
| é
0.5mm

C

ie) | }
\ |
Z Ley. f
PET
3 : 1 v ed
« _— a
X r :
ae
SS rc ;
e
iy
!
7
0.5mm
a)
0.5mm

D

Figure 6. Hybosida machondogo sp. nov., subadult male, habitus A dorsal view B ventral C male holo-
type, ocular area, anterodorsal D thoracic fovea, dorsal. Scale bars: 0.5 mm (A=D).

Diagnosis. Like other members of Chediminae, Hybosida machondogo sp. nov.
possess contiguous lateral eyes and accessory structures of the male palp (see Zonstein
and Marusik 2013, figs 1-9; Zonstein et al. 2018). It closely resembles H. lesserti by
having (1) a more compact carapace with the cephalic part narrowed (2) an elevated
carapace with a steep posterior slope (3) a strongly convex carapace in lateral view and

Palpimanidae from Kenya 105

(4) poorly developed scopula on both the metatarsi and tarsi of legs I (see Berland
1920, figs 128, 131). However, H. machondogo sp. nov. differs from H. lesserti and
other members of this genus by having (1) 8 eyes instead of 6, (2) a bulb with relatively
long, sharp and less curved apophysis (vs. strongly curved in H. /esserti).

Description. Male. Fig. 5A—C. Total body length 2.05. Carapace, pedicel and
sternum reddish orange, 1.11 long, 0.83 wide at leg II, carapace dome-shaped and
covered with white setae at the edges, finely rugose. Thoracic region higher than ce-
phalic region, steeply sloping towards pedicel (Fig. 5C). Fovea crescent-like, bipartite
(Figs 5A, 6D), wide distally (sulci diverging). Sternum with long, gray setae. Eyes: AER
strongly recurved, PER slightly procurved (Fig. 6C). Eye sizes and interdistances: AME
0.09, PME < 0.01, PLE=ALE=0.04, AME-AME 0.05, AME-ALE 0.08, AME-PLE
0.06, PME-PME 0.09. Clypeus about 2 times higher than diameter of AME. Labium
deeply notched (smoothly recurved in all described palpimanids). Endites colored
as sternum, depressed proximally, covered with gray setae. Legs: yellowish without
spines. Femur I enlarged and longer than patella; scopula on tibia, metatarsus and
tarsus weakly developed (compared to Scelidocteus). Femur II somewhat longer than
femora [I-IV (Fig. 5C), tarsal claws long and unidentate. Metatarsi II-IV with distal
preening comb. Generally, leg integument appears rough. Leg and palp measurements
as in Table 3. Abdomen: unsclerotized, uniformly yellowish, oval, narrow towards the
pedicel and wide at the middle. Pedicel considerably exposed, lateral and postgastric
scutum extensions absent, dorsal portion of scutum present but short. Spinnerets short
yellowish and unsegmented.

Palp yellowish, femur longer than tibia, patella about 2 times shorter than femur.
Tibia enlarged, almost conical in prolateral view, 1.86 times wider than patella, about
2 times wider than femur. Cymbium about 1.5 times longer than tibia, slightly shorter
than apophysis. Tegular region is membranous, apophysis pointed, extends anteriorly.
Embolus short, blunt and directed laterally (Fig. 5D-—F).

Female. Unknown.

Distribution. This species is currently known only from the type locality.

Notes. ‘This species is peculiar because it is at odds with the initial description of
the type species of the genus Hybosida, which states that the number of eyes is 6. It
does, however, resemble Hydosida in the shape of the carapace, the fovea and the gen-
eral structure of the male palp. It is therefore treated as belonging to this genus.

Table 3. Male palp and leg measurements.

Femur Patella Tibia Metatarsus Tarsus Total
Palp 0.60 0.24 0.38 — 0.29 1.51
I 0.80 0.55 0.45 0.25 0.30 2.35
II 0.60 0.30 0.45 0.35 0.35 2.05
III 0.55 0.30 0.45 0.40 0.30 2.00

IV 0.60 0.30 0.65 0.50 0.35 2.40

106 Ambata D. Oketch et al. / African Invertebrates 61(2): 93-106 (2020)

Acknowledgements

The manuscript benefited greatly from comments by Galina N. Azarkina, Yuri Marusik
and Yanfeng Tong. The English was kindly checked by Sarah Crews (USA). The field-
work was facilitated by Kenya Wildlife Service (KWS), Kenya Forest Service (KFS),
National Environment Management Authority (NEMA) and the National Commis-
sion for Science, Technology and Innovation (NACOSTI). The study was financial-
ly supported by the National Natural Science Foundation of China to Shugiang Li
(NSFC-31530067).

References

Berland L (1920) Araneae (2e partie). Voyage de Ch. Alluaud et R. Jeannel en Afrique Orien-
tale (1911-1912): Résultats scientifiques: Arachnida. Paris 4, 95-180.

Jézéquel JF (1964) Araignées de la savane de Singrobo (Céte d'Ivoire). II. Palpimanidae et
Zodariidae. Bulletin du Muséum National d’Histoire Naturelle 36: 326-338.

Lessert R de (1930) Araignées du Congo recueillies au cours de l’expédition organisée par
PAmerican Museum (1909-1915). Quatriéme et derniére partie. Revue Suisse de Zoologie
37: 613-672. https://doi.org/10.5962/bhl. part. 117639

Li S (2020) Spider taxonomy for an advanced China. Zoological Systematics 45(2): 73-77.
https://doi.org/10.11865/zs.202011

Platnick NI (1979) Contributions a l’étude de la faune terrestre des iles granitiques de l’archipel
des Séchelles (Mission P.L.G. Benoit — J.J. Van Mol 1972). Araneae: Palpimanidae. Revue
Zoologique Africaine 93: 461-466.

Pocock RI (1903) Arachnida. In: Forbes HO (Ed.) The Natural History of Sokotra and Abd-
el-Kuri. Special Bulletin of the Liverpool Museum, 175-208.

Saaristo MI (2010) Araneae. In: Gerlach J, Marusik YM (Eds) Arachnida and Myriapoda of the
Seychelles Islands. Siri Scientific Press, Manchester, 8-306.

Simon E (1898) Etudes arachnologiques. 29e Mémoire. XLVI. Arachnides recueillis en 1895
par M. le Dr A. Brauer (de l'Université de Marburg) aux iles Séchelles. Annales de la So-
ciété Entomologique de France 66: 370-388.

WSC (2020) World Spider Catalog. Version 21.0. Natural History Museum Bern. https://doi.
org/10.24436/2 [accessed on 27.03.2020]

Zonstein SL, Marusik YM (2013) On Levymanus, a remarkable new spider genus from Israel,
with notes on the Chediminae (Araneae, Palpimanidae). ZooKeys 326: 27-45. https://doi.
org/10.3897/zookeys.326.5344

Zonstein SL, Marusik YM, Omelko MM (2018) Redescription of the monotypic genus Sce-
lidomachus Pocock, 1899 (Aranei: Palpimanidae) and its type specie. Arthropoda Selecta
27(1): 53-56. https://doi-org/10.15298/arthsel.27.1.07