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Zookeys 934: 81—91 (2020)

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A new genus of spider beetle (Coleoptera, Ptinidae)
from western Peru

T. Keith Philips', Kyle A. Whorrall', Olivia M. Gearner', Jean-Bernard Huchet’

I Systematics and Evolution Laboratory, Department of Biology, Western Kentucky University, 1906 College
Heights Blud., Bowling Green, KY 42101-3576, USA 2. Muséum National d’Histoire Naturelle, UMR 7205
ISYEB, Institut de Systématique, Evolution et Biodiversité, 45, rue Buffon, F-75005 Paris, France

Corresponding author: T. Keith Philips (Keith. Philips@wku.edu)

Academic editor: Michael Ivie | Received 31 July 2019 | Accepted 31 March 2020 | Published 19 May 2020
Attp://zoobank. ore!8E894A50-7578-4CEA-BA6C-C995776A2DE9

Citation: Philips TK, Whorrall KA, Gearner OM, Huchet J-B (2020) A new genus of spider beetle (Coleoptera,
Ptinidae) from western Peru. ZooKeys 934: 81-91. https://doi.org/10.3897/zookeys.934.38670

Abstract

A new genus of flightless spider beetle from Peru with two new species is described. It is characterized by
unique heart-shaped fused elytra and a broad pronotum with five basal depressions. ‘The characters of this
new genus and species are illustrated and discussed and the possible phylogenetic placement of this taxon

is also included.

Keywords

Atacama Desert, Bostrichoidea, diversity

Introduction

The spider beetle fauna of South America currently includes ca. 100 described species
placed in 11 genera. Little recent work has been done on the group with the excep-
tion of publications by Bellés on Prinus Linnaeus (1984, 1986), Bellesus Ozdikmen (as
Arachnomimus Bellés 1985 and see Ozdikmen 2010), Prosternoptinus Bellés (1985), and
Tropicoptinus Bellés (1998), by Borowski on Trigonogenius Solier (2000, 2006) and ear-
lier studies on the myrmecophilous fauna (Gnostus Westwood and Fabrasia Martinez &
Viana) by Lawrence and Reichardt (1966). All other descriptive work occurred before

Copyright T. Keith Philips 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.

82 T. Keith Philips et al. / ZooKeys 934: 81-91 (2020)

1939 and mainly by Maurice Pic on Ptinus (e.g., Pic 1900, 1936, 1939). The fauna
is still largely undocumented and possibly most morphologically diverse in the more
xeric regions of this continent, a habitat that often leads to highly modified external
morphologies and flightlessness (Philips 2000). In particular, additional hidden diver-
sity exemplified by this new genus may be discovered in the drier areas of the west from
southern Ecuador through Peru to Chile and east into Argentina. Part of this region in
the southern coastal portion is the hyper-arid Atacama Desert.

The two new species that make up this new genus are known only from Peru.
Surprisingly one of the new species discovered was in material from the Ditsong Mu-
seum located in Pretoria, South Africa. The second species was collected by one of the
authors (JBH) during archaeoentomological investigations on the emblematic site of
Huaca de la Luna in 2009. Documenting this genus and concomitant new species in-
creases the known morphological range within spider beetles and will make the name
available for unpublished phylogenetic studies.

Taxonomy

Cordielytrum Philips, gen. nov.
http://zoobank.org/2F6CB8B5-F409-4C16-9FB0-BD958A68CB5F
Figures 1-4

Type species. Cordielytrum peruvianum Whorrall & Philips.

Diagnosis. This genus can be recognized by the heart-shaped pair of fused elytra
and the dense appressed setal scale covering (Figs 1, 2). There are also very elongate
erect setae on the lateral edge of the pronotum and humeral area of the elytra that
extend laterally and curve slightly posteriorly apically. Near the pronotal base are five
depressions; one large median and two smaller ones positioned more laterally on each
side. There is also a distinct and relatively large pocket on the head positioned below
the eye and extending to the lateral edge of the clypeus. Currently the two species in
this genus are known only from Peru.

Description. Body: small, length approximately 2 to 2.5 mm, ovoid, convex but
slightly flattened dorso-ventrally, dorsally body surface completely obscured with ap-
pressed or recumbent setae, scale-like especially on head and elytra.

Head (Fig 4A): Eyes not visible dorsally, small, ovoid, slightly rounded ommatidial
surface facing slightly upwards; vertex very slightly convex, antennal fossae generally
indistinct, smoothly rounded edges, but more distinct dorsally and laterally absent; a
large distinct pocket extending laterally from fossa through to gena between eye and
lateral edge of clypeus; antennae short in length, no longer than the maximum width
of the pronotum, 11 antennomeres, 4—10 relatively stout, only slightly longer than
wide, second antennomere inserted off center of scape near lateral edge; interantennal
space between antennal insertions wide, width approximately the same as length of
scape, flat with no carina between antennal fossae; clypeus triangular, maximal width

Cordielytrum a new spider beetle genus from Peru 83

Figure |. Cordielytrum peruvianum sp. nov. A Dorsal habitus B ventral habitus C lateral view D frontal
view. Scale bars: 1.0 mm (A, B), 0.5 mm (D).

= 4/5 width of head measured adjacent to pronotum, labrum (Fig. 4B) ca. 1/3 width
of clypeus, anterior edge very slightly emarginated in middle; mandible apex acutely
pointed, medial tooth present (Fig. 4C); maxillary and labial palps with four and three
palpomeres respectively (Fig. 4D, E); mentum triangular, with small triangular cavity
at middle (Fig. 4F).

Pronotum (Fig. 3B): Strongly transverse with five depressions adjacent to the pos-
terior margin, one large median and two smaller laterally on each side (Figs 1A, 2A);
elongate erect setae on lateral edge extending laterally.

Elytra (Fig. 3A): Heart-shaped, convex, fused along suture; longitudinal carinae
at least at base and sometimes visible the entire length of each elytron, short suberect
setae on carinae; relatively elongate setae on humeral area that extend laterally and
curve posteriorly near their apex; 2—3 irregular fine puncture rows between each carina.

84 T. Keith Philips et al. / ZooKeys 934: 81-91 (2020)

Figure 2. Cordielytrum pulchrum sp. nov. A Dorsal habitus B ventral habitus C lateral view D frontal
view. Scale bars: 1.0 mm (A, B), 0.5 mm (D).

Thorax (Fig. 3D): Broader than long; prosternal process narrow anteriorly, widening
posteriorly, teardrop- shaped, extending posteriorly to same distance as procoxae do pos-
teriorly, extending slightly into mesoventrite; visible part of mesoventrite heart-shaped
with a truncate tip posteriorly, between coxae slightly longer than wide, slightly shorter
than length of metaventrite at middle; posterior margin of metaventrite broadly emar-
ginated; mesoventral-mesepisternal and metaventral-metepisternal sutures both visible.

Abdominal ventrites (Fig. 3D): Ventrites broad, ca. 2/3 total width of body meas-
ured at/opposite ventrite base, all sutures visible, first three ventrites connate, length
at middle compared to laterally slightly shorter except fifth where longest at middle;
first and second approximately equal in length, third slightly shorter, fourth distinctly
shortest, fifth distinctly longest.

Cordielytrum a new spider beetle genus from Peru 85

B

Figure 3. Cordielytrum pulchrum sp. nov. A Elytra, dorsal view B prothorax, frontal view, C aedeagus, dor-
sal view D meso- and metaventrites and abdominal ventrites. Scale bars: 0.5 mm (A, B, D), 0.1 mm (C).

Legs (Fig. 3B, D): moderate in length, femora widest near middle; tibia gradu-
ally expanded toward apex, pro- and mesotibiae similar in length to their respective
femora, metatibiae distinctly longer; tarsomeres 2—4 ca. as wide as long, 1 and 5" ca.
equal in length; procoxae and mesocoxae approximately rounded, procoxae slightly
smaller in diameter than mesocoxae, metacoxae transverse, fused with metaventrite.

Male genitalia (Fig. 3C): relatively simple; parameres and median lobe relatively
stout, parameres lacking setal clumps or other modifications.

Etymology. The generic name is derived from cordi = Latin for heart and elytrum
= Greek for sheath in reference to the fused elytra that figuratively resemble an ide-
ographic image of a heart.

Remarks. Sexual dimorphism externally is not apparent.

Distribution. Members of this genus appear to be denizens of xeric coastal areas
in Peru (Fig. 5). Based on the locations of the two known species, there is a separation
of over 700 km. Recent fieldwork in Peru has resulted in the collection of additional
undescribed species in the south with one ca. 730 km straight line distance from Lima
at ca. 17° latitude (Whorrall and Philips, unpublished). The discovery of even more
undocumented species with further sampling should be expected.

86 T. Keith Philips et al. / ZooKeys 934: 81-91 (2020)

A B

Figure 4. Cordielytrum pulchrum sp. nov. A Head, frontal view B labrum, dorsal view C mandible, ven-
tral view D maxilla, ventral view E labium, dorsal view F mentum, ventral view. Scale bars: 0.5 mm (A),

0.1 mm (B=F).

Ecology. Currently no information on the ecology is known with the exception
of the northernmost species that was collected via traps baited with a local corn beer
known as chicha: this fluid may have been attractive as a food and/or moisture source.
Based on recent collections and current rearing experiments (Philips and Whorrall,
unpublished), larvae feed on cat dung and likely any other type in their vicinity, such
as that from other mammals, birds, or lizards.

Cordielytrum a new spider beetle genus from Peru 87

Figure 5. Distribution of Cordielytrum peruvianum (circle) and C. pulchrum (triangle). The position of

the city of Lima is also indicated (star).

Cordielytrum peruvianum Whorrall & Philips, sp. nov.
http://zoobank.org/551A269D-CDA6-4328-B04F-9BE278A60B8D
Figurestll,.5

Type material. Holotype. Peru: Ica, coastal dunes, Seely, 15.1.1980. Deposited in the
Museo de Historia Natural, Lima Peru. Paratypes (6): Same data as holotype. Para-

88 T. Keith Philips et al. / ZooKeys 934: 81-91 (2020)

types have been deposited in the Ditsong Museum and the collections of the authors
(TKPC, JBHC, KAWC).

Diagnosis. This species is distinguished from its congener by its more rotund
shape and the narrow light tan scales covering the elytra. It is known only from the
type locality in the Ica Region of Southern Peru.

Description. Body small, compact, subovate, convex; head, pronotum, and elytra
tan colored. Length (anterior of pronotum to apex of elytra) 2.16 — 2.76 (u = 2.55 =
0.20) mm (NV = 7).

Head: densely covered in light tan, depressed, ovoid scales completely covering
surface, less dense laterally, with pronounced superantennal carinae; antennomeres 1—9
densely squamous, ultimate and penultimate antennomeres with simple setae, not ob-
scuring surface, antennomeres 1—3 and 11 slightly longer than wide, others subequal.

Pronotum: setose with scales anteriorly and longer densely matted setae posteri-
orly; short, erect setae sparsely placed throughout, longer at posterio-lateral edge, aris-
ing from cavities formed within matted setae, cavities distinctly larger laterally; medial
cavity deep, when viewed from above, extending nearly half total length but border
absent at middle, extending as a shallow groove anteriorly; two posterio-lateral cavities
on each side, deep and distinct.

Elytra: surface densely covered by narrow scales, giving a finely rugose appear-
ance; lateral edge at anterior 4 with row of sparsely placed bristly very long setae; four
prominent longitudinal carinae extending length of each elytron, including one at
suture; indistinct very shallow depressions in ~ two rows between carinae; background
cuticle color light reddish brown.

Ventral surface: Pro- and mesoventrites with matted setation similar to prono-
tum; metaventrite and abdominal ventrites with scales similar to elytra. Femora in-
creasing in width from base to apex, girth reaching maximum around midpoint; tibiae
increasing in width from base to apex, girth increasing throughout basal third then
remaining equal thereafter; tarsomere 1 ca. twice as long as 2-4, % longer than 5, 2-4
sub-equal in length.

Etymology. The specific name peruvianum refers to the country in South America
where this species was discovered.

Remarks. ‘This species is from the Ica Region, Peru (Fig. 5). The precise location is
unclear as the only additional information on the label is “coastal dunes.”

Cordielytrum pulchrum Whorrall & Philips, sp. nov.
http://zoobank.org/DA2130D6-0A9C-4230-BD 14-FB2381F2AB3E
Figures 2, 5

Type material. Holotype. Peru: Trujillo, Huaca de la Luna, Plateforme Uhle, J. B.
Huchet lgt.; Pi¢ge a “Chicha, (biére de mais), (J6) 13/05/2009). Holotype deposited
in the Muséum national d’Histoire naturelle, Paris, France. Paratypes (18), same
data as the holotype (13); Peru- Trujillo, Huaca de la Luna, 6. V-1.VI. 2009, J.B

Cordielytrum a new spider beetle genus from Peru 89

Huchet / A. Chauchat (5). Paratypes have been deposited in the Muséum national
d Histoire naturelle, Museo de Historia Natural, Lima, and the collections of the
authors (TKPC, JBHC, KAWC).

Diagnosis. This species is distinguished from C. peruvianum by its slightly more
elongate shape, the vestiture of broad, ovate tan and dark brown scales on its elytra.
Currently this species is only known from the type locality in Northern Peru.

Description. Body small, compact, subovate, convex; head and pronotum tan,
elytra mottled tan and dark brown. Length (anterior of pronotum to posterior of
elytra) 1.84— 2.44 (u = 2.13 + 0.22) mm (V= 15).

Head densely covered in light tan, depressed, ovoid scales completely covering sur-
face, less dense laterally, with subtle superantennal carina; antennomeres 1—9 densely
squamous, ultimate and penultimate antennomeres with simple setae; antennomeres
1-3 and 11 ca. twice as long as wide, others subequal.

Pronotum setose with scales anteriorly and longer densely matted setae posterior-
ly; short, erect setae sparsely placed throughout, longer at posterio-lateral edge, arising
from cavities formed within matted setae, cavities distinctly larger laterally; medial cav-
ity with poorly defined border, moderate in depth, when viewed from above, extending
nearly one third of total length; two posterio-lateral cavities on each side, somewhat
more distinct than medial cavity.

Elytra surface densely covered by broad, ovate scales, giving a coarsely rugose ap-
pearance; lateral edge at anterior 4% of each elytron with row of long densely placed
bristly very long setae; four low longitudinal carinae extending length of each elytron,
including one at suture; deep depressions in ~2 rows between carinae; background
cuticle color dark reddish brown.

Ventral surface: Pro-, meso-, and metaventrites and abdominal ventrites with
scales similar to elytra. Femora increasing in width from base to apex, girth reaching
maximum around midpoint; tibiae increasing in width from base to apex, girth in-
creasing throughout basal third then remaining equal thereafter; tarsomere 1 ca. twice
as long as 2-4, 43 longer than 5, 2—4 sub-equal in length.

Etymology. The name derives from the attractive variegated pattern of dark and
light-colored setae on the elytral surface.

Remarks. Many well-preserved, partial remains of this new species were initially
recovered within organic material from pre-Columbian Mochica graves at the em-
blematic archaeological site of Huacas de Moche, located along the pacific coastal de-
sert, in the vicinity of Trujillo, 550 km north of Lima, Peru. This archaeological com-
plex includes two monumental pyramids built as a series of platforms: Huaca del Sol
(Temple of the Sun) and Huaca de la Luna (Temple of the Moon), separated by a vast
urban centre (Chauchat et al. 2009) (Fig. 6). The archaeological remains were directly
associated with human skeletons or from inside ceramic vessels placed as offerings. In
order to collect specimens of this “subfossil” species, pitfall traps were placed on site by
one of the authors (JBH) baited with meat, rotten fruits or with a local corn beer called
chicha. This fluid may have been attractive as a food and/or moisture source since this
permitted collection of all specimens of the type-series.

90 T. Keith Philips et al. / ZooKeys 934: 81-91 (2020)

Figure 6. The archaeological site of Huacas de Moche, located along the pacific coastal desert, in the

vicinity of Trujillo, 550 km north of Lima, Peru. ‘This is the type locality of Cordielytrum pulchrum sp. nov.

Discussion

The most plausible sister lineage is the genus Trigonogenius, as both are somewhat
comparable morphologically and are found in the same region of South America. To
support this hypothesis, an attempt to acquire a sample of DNA from a dried speci-
men was done but amplification attempts failed. Hence more complete data to support
relationships and to truly understand where the ancestry of this taxon lies will have to
wait until fresh material is processed and sequenced.

Further collecting efforts in coastal Peru south of Lima has resulted in the discov-
ery of additional undescribed species of this genus. How many more species remain to
be found in this poorly surveyed part of South America remains unknown.

Acknowledgements

We are very grateful to Ruth Miller and the late Charles Bellamy for providing
us the opportunity to study specimens from the Ditsong National Museum of Natu-
ral History (Pretoria, South Africa) and in particular the support from them given
while the second author was on a postdoctoral fellowship at the University of Pre-
toria and two sabbaticals (2008 and 2015) while at Western Kentucky University
(WKU). We are indebted to Dr. Claude Chauchat (“Archéologie des Amériques,”
UMR 8096, Centre National de la Recherche Scientifique), director of the French

Cordielytrum a new spider beetle genus from Peru 91

archeological mission at Huaca de la Luna for permitting JBH to conduct ento-
mological investigations at this site, Dr Louis Deharveng, head of the Entomology
department, Muséum national d’Histoire naturelle, Paris, France and Dr. Bruno
Maureille (University of Bordeaux) for partially supporting the field research in
Trujillo, Peru. We are very grateful to Belkys Gutiérrez, Prof. Segundo Vasquez, and
our colleagues in the Department of Biological Sciences (Universidad Nacional de
Trujillo, Pert) for field support at Huaca de la Luna and logistics while in Peru. Our
sincere thanks to Azadeh Taghavian (Muséum national d’Histoire naturelle, Paris)
who took pictures of the type specimen of Trigonogenius impressicolis Pic to verify
excluding it from Cordielytrum. The authors gratefully acknowledge the Center for
Biodiversity Studies at WKU and a NSF Biological Surveys and Inventories grant
(DEB 0430132) that has helped support studies on spider beetles. Lastly, we thank
the reviews from Xavier Bellés and Michael Ivie for their useful comments that
improved the manuscript.

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