ZooKeys 9 | 2: 25-64 (2020) A peer-reviewed open-access journal
doi: 10.3897/zookeys.9 12.47796 RESEARCH ARTICLE $Z00Ke y S

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

Ancyronyx clisteri, a new spider riffle beetle species
from Borneo, redescription of A. sarawacensis
Jach including a description of the larva and new
distribution data for A. procerus Jach using DNA
barcodes (Coleoptera, Elmidae)

Jan Kodada', Manfred A. Jach?, Hendrik Freitag?*°,
Zuzana Ciamporova-Zatovitova®, Katarina Goffova', David Selnekovic',

Fedor Ciampor Jr®

| Department of Zoology, Faculty of Natural Science, Comenius University Mlynskd dolina B-1, SK-842 15
Bratislava, Slovakia 2. Naturhistorisches Museum Wien, Burgring 7, A~1010 Wien, Austria 3 Ateneo de Manila
University, Biology Department, School of Science and Engineering, Loyola Heights, Quezon City 1101, Philippines
4 Universiti Brunei Darussalam, Environmental and Life Sciences, Faculty of Science, Jalan Tungku Link, Gadong,
BE1410, Brunei § Taxon Expeditions, Rembrandtstraat 20, 2311 VW Leiden, Netherlands 6 Zoology Lab, Plant
Science and Biodiversity Centre, Slovak Academy of Sciences, Dubravska cesta 9, SK-84523, Bratislava, Slovakia

Corresponding author: /aén Kodada (jan.kodada@uniba.sk)

Academic editor: M. Michat | Received 30 October 2019 | Accepted 9 January 2020 | Published 17 February 2020
http://zoobank.org/0496 D752-E904-4B66-94BB-D41 FABCD893A

Citation: Kodada J, Jach MA, Freitag H, Ciamporova-Zatoviéova Z, Goftova K, Selnekovié D, Ciampor Jr F (2020)
Ancyronyx clisteri, a new spider riffle beetle species from Borneo, redescription of A. sarawacensis Jach including a
description of the larva and new distribution data for A. procerus Jach using DNA barcodes (Coleoptera, Elmidae).
ZooKeys 912: 25-64. https://doi.org/10.3897/zookeys.912.47796

Abstract

Ancyronyx clisteri sp. nov. (Coleoptera, Elmidae) a new spider riffle beetle discovered from northern Borneo
(Brunei; Sabah and Sarawak, Malaysia) and the larva of Ancyronyx sarawacensis Jach are described. Illustra-
tions of the habitus and diagnostic characters of the new species and the similar and highly variable A.
sarawacensis are presented. Differences to closely related species, based on DNA barcodes and morphologi-
cal characters, are discussed. Association of the larva and the imago of A. sarawacensis, and the occurrence of
Ancyronyx procerus Jach in Peninsular Malaysia and Sabah are confirmed by using COI mtDNA sequences.

Keywords
Brunei, COI mtDNA sequences, integrative taxonomy, Malaysia: Sabah and Sarawak, spider water

beetle, variability

Copyright Jan Kodada 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.

26 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Introduction

The first modern taxonomic review of Ancyronyx Erichson was published by Jach (1994)
almost 150 years after the description of the genus. Subsequently, numerous new species
and larvae were described from Asia (Jach 2003, 2004; Freitag and Jach 2007; Freitag and
Balke 2011; Bian et al. 2012; Freitag 2012, 2013; Kodada et al. 2014; Freitag and Kodada
2017a, b). Based on these descriptions, the morphological characteristics of the genus
were modified (Freitag 2012, Kodada et al. 2014). A total of 33 described species (includ-
ing one subspecies) is presently known (Jach et al. 2016, Freitag and Kodada 2017a).

Six species of Ancyronyx were so far recorded from Borneo (Brunei; Sabah and
Sarawak, Malaysia), the third largest island of the world. However, only few localities
in Brunei, Sabah and Sarawak were sufficiently surveyed so far, and the watercourses
of Kalimantan largely remain unexplored. Therefore, it can be expected that the fauna
of Borneo is probably much richer than known to date. Only a few species, such as A.
acaroides Grouvelle, A. malickyi Jach and A. procerus Jach, are considered to be widely
distributed in Southeast Asia, however, the published distributional data need confir-
mation at the molecular level. The distribution of most other species is confined to
Sulawesi, Indonesia (12 spp.) and some Philippine islands (11 spp.).

Examination of additional material of Ancyronyx from Borneo and a detailed study
of A. sarawacensis Jach (including type specimens and freshly collected material) re-
vealed an overlooked new species, which is described below.

The fresh material enabled also the use of DNA barcodes to support species delimi-
tation and to estimate the genetic as well as morphological variability of the two species
and to describe the larva of A. sarawacensis. Furthermore, we were able to confirm the
occurrence of A. procerus in Peninsular Malaysia by COI mtDNA comparison.

Material and methods

The material used for study is deposited in the following collections: BOR/COL (Born-
eensis Coleoptera Collection of the Institute for Tropical Biology and Conservation, Uni-
versiti Malaysia Sabah, Kota Kinabalu); CCB (Collection of Fedor Ciampor J, Brati-
slava, Slovakia); CFDS (Collection of Forest Department Sarawak, Kuching, Malaysia);
CFM (Collection Hendrik Freitag, Manila, currently deposited at the Ateneo de Manila
University, Quezon City, Philippines); CKB (Collection of Jan Kodada, Bratislava, Slova-
kia); NMW (Naturhistorisches Museum Wien, Austria); RMNH (Naturalis Biodiversity
Center, Leiden, Netherlands); UBDM (Universiti Brunei Darussalam Museum, Brunei).

Dried specimens were soaked in warm water with several drops of concentrated ace-
tic acid and cleaned. Abdomens with genitalia or genitalia only were exposed to lactic
acid for one or two days and temporarily mounted onto microscopic slides. Specimens
were examined and measured using a Leica M205C stereomicroscope with fusion op-
tics and diffuse lighting at magnifications up to 160 x. For measurements an eyepiece
graticule (5 mm: 100) or the Leica MC190-HD camera attached to microscope and

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 27

LAS software were used. The specimens were photographed under a Zeiss Axio-Zoom
V-16 stereomicroscope using diffuse LED lighting and a Canon 5D Mark IV camera
attached. Dissected genitalia and pregenital segments were studied in a temporary mi-
croscope cavity slide covered with a cover glass at magnifications up to 640 x with a
Leica DM 1000 microscope. All drawings were made using a Leica drawing device.

Principal component analyses (PCA) was performed separately for male and female
specimens using software PAST 3.12 (Hammer et al. 2001) and a variance-covariance
matrix with log-transformed variables. PCA plots were subsequently edited in Adobe
Illustrator CC.

Metric characters of 108 males and 99 females of A. sarawacensis as well as 11 males
and 20 females of A. clisteri sp. nov. were used for the PCA analyses; all specimens
identified by mtDNA characters were included in the dataset measured. Morphomet-
ric parameters are provided in tables as range and mean = standard deviation. ‘The fol-
lowing characters were measured: BL (body length without head, length of pronotum
and elytra measured along midline); EL (elytral length, length measured along suture
from level of the most anterior point of elytra to the most posterior tip of elytra) in
dorsal view; EW (elytral width, maximum width combined); HW (head width includ-
ing eyes); ID (interocular distance); MW (maximum pronotal width); PL (pronotal
length along midline).

For scanning electron microscopy, specimens were dehydrated in graded ethanol
series and then air dried from absolute ethanol, mounted on a stub, sputter coated with
gold and viewed and photographed using a TESCAN microscope.

For the DNA analyses, 32 adults (29 Ancyronyx spp.; 3 Graphelmis spp.) and one
larva were used. The dataset is available on dx.doi.org/10.5883/DS-ELMANCO1.
DNA was isolated from the whole specimens using DNeasy Blood and Tissue Kit
(Qiagen) according to the manufacturer's protocol. Fragment of the 5’ end of the mi-
tochondrial gene for cytochrome c oxidase subunit I (COI) was amplified with prim-
ers LCO1490, HCO2198 (Folmer et al. 1994). Amplification products were purified
by alkaline phosphatase (FastAP) and exonuclease and sequenced from both sides in
Macrogen Europe Inc. (Amsterdam, Netherlands). Raw sequences were assembled and
edited in Sequencher v5.1. The genetic distances were measured using K2P model,
maximum likelihood tree and bootstrap support were performed in MEGA software
v7 (Kumar et al. 2016). The best-fitted substitution model (GTR+I+G) was selected
by jModelTest 2 (Darriba et al. 2012). Voucher specimens numbers and GenBank
numbers are found between square brackets in the lists of specimens below.

The general morphological terminology follows Kodada et al. (2016) and Law-
rence and Slipiriski (2013).

Descriptions of the adults holotypes and mature larvae of Ancyronyx sarawacensis
are completed with SEM figures of specimens from the respective type locality. Using
the standard clearing procedure in lactic acid and gentle pressing by a tip of an ento-
mological pin on the aedeagus delivered extruded endophallus in several males, how-
ever the form was well preserved in a single specimen only. The endophallic structures
were examined and described only from this A. sarawacensis male.

28 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Results

DNA analyses

The COI sequences used in the analysis are 661bp long with no ambiguous sites or
indels. Maximum likelihood (ML) analysis revealed well-separated clades representing
three species of Ancyronyx (Fig. 1). The interspecific genetic distance was large, ranging
from 9.3—17.9%, the intraspecific diversity within Ancyronyx sarawacensis ranged from
1.0—3.0%, and within A. procerus from 0.0-1.2% (Tab. 2, Suppl. material 1: Tab. S1).
In the latter species two genetic lineages were recovered, which correspond with the
geographic distribution of the samples. The COI data clearly confirm the occurrence
of A. procerus in Peninsular Malaysia, which was previously proposed solely based on
the morphology of the genitalia.

The two clades recovered in A. procerus differ in color patterns, but their genetic
differentiation and the subtle differences in their genital morphology are far too weak
to consider them as separate species.

PCA analyses

We examined and quantified the morphometric variations among Ancyronyx sarawa-
censis and A. clisteri sp. nov. using PCA (Fig. 2A). First principal component (PC 1)
explained 78.18% of variance in males and 76.77% in females. According to loadings
(Tab. 3), the strongest correlation was found between body length and elytral length,
in both males and females. The second principal component (PC 2) explained 10.15%
of variance in males and 9.25% in females and was most strongly correlated with in-
terocular distance, reaching distinctly higher loading compared to other variables in
both sexes (Tab. 3).

When assigning the specimens of Ancyronyx sarawacensis to three geographically
separate groups, i.e., lowlands of Sarawak (40-70 m a.s.l.), uplands of Sabah (170-—
300 ma.s.l.), and the Kelabit Highlands (around 1000 m a.s.l.), the PCA plot reveals
a size gradient related to altitude (Fig. 2A). Specimens from Sarawak lowlands cluster
almost separately from those of the Kelabit Highlands. Specimens from Sabah form
an intermediate cluster, partly overlapping with both. This gradient corresponds with
differences in the actual measurements: elytral length and body length are smallest in
the specimens from Sarawak lowlands and largest in the specimens from the Kelabit
Highlands (Fig. 2B, Tabs 4, 5).

The cluster of Ancyronyx clisteri sp. nov. overlaps with the Kelabit Highlands cluster
of A. sarawacensis (Fig. 2A, B), but it is clearly separated along the PC 1 axes from clus-
ters of Sarawak lowlands and Sabah uplands. Ancyronyx clisteri sp. nov. is also differen-
tiated from A. sarawacensis along the PC 2 axes correlating with interocular distance
and head width (Fig. 2A) and males of the two species overlap only very marginally in
their EL/ID ratios (Fig. 2C).

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 29

Table |. Samples used in the molecular analyses: origin of samples, GenBank and BOLD Data Systems

BIN accession numbers (codes after species name refer to the voucher numbers used for DNA extraction).

Sample Country, state GenBank no. BOLD BIN no.
Ancyronyx sarawacensis FZ1634 Malaysia, Sarawak MK505407 BOLD:ADRI1478
Ancyronyx sarawacensis FZ1641 Malaysia, Sarawak MK505414 BOLD:ADR1478
Ancyronyx sarawacensis FZ1633 Malaysia, Sarawak MK505406 BOLD:ADR1478
Ancyronyx sarawacensis FZ1631 / Larva Malaysia, Sarawak MK505395 BOLD:ADR1478
Ancyronyx sarawacensis 38 Malaysia, Sarawak MK505398 BOLD:ADR1478
Ancyronyx sarawacensis FZ1642 Malaysia, Sarawak MK505418 BOLD:ADR1478
Ancyronyx sarawacensis FREImH39 Brunei LR735552 BOLD:ADR1478
Ancyronyx sarawacensis 82 Malaysia, Sarawak MK566773 BOLD:ADR1478
Ancyronyx sarawacensis FZ1643 Malaysia, Sarawak MK505415 BOLD:ADR1478
Ancyronyx sarawacensis 39 Malaysia, Sarawak MK505401 BOLD:ADR1478
Ancyronyx sarawacensis 83 Malaysia, Sarawak MK566771 BOLD:ADR1478
Ancyronyx sarawacensis FZ1635 Malaysia, Sarawak MK505422 BOLD:ADR1478
Ancyronyx sarawacensis FZ1628 Malaysia, Sarawak MK505420 BOLD:ADR1478
Ancyronyx sarawacensis 10 Malaysia, Sarawak MK505409 BOLD:ADR1478
Ancyronyx sarawacensis 36 Malaysia, Sarawak MK566772 BOLD:ADR1478
Ancyronyx sarawacensis FZ1645 Malaysia, Sarawak MK505404 BOLD:ADR1478
Ancyronyx sarawacensis FZ1651 Malaysia, Sabah MK505400 BOLD:ADR1478
Ancyronyx sarawacensis 09 Malaysia, Sarawak MK505396 BOLD:ADR1478
Ancyronyx sarawacensis 35 Malaysia, Sarawak MK505399 BOLD:ADR1478
Ancyronyx sarawacensis FZ1636 Malaysia, Sarawak MK505394 BOLD:ADR1478
Ancyronyx sarawacensis FZ1646 Malaysia, Sarawak MK505397 BOLD:ADR1478
Ancyronyx clisteri FZ1640 Malaysia, Sarawak MK505421 BOLD:ADR1475
Ancyronyx clisteri FREImH44 Brunei LR735553 BOLD:AEA6347
Ancyronyx procerus FZ1639 Malaysia, Sarawak MK505411 BOLD:ADRO116
Ancyronyx procerus FZ1644 Malaysia, Sarawak MK505410 BOLD:ADRO116
Ancyronyx procerus 11 Malaysia, Sarawak MK505423 BOLD:ADRO116
Ancyronyx procerus 37 Malaysia, Sarawak MK505417 BOLD:ADRO116
Ancyronyx procerus FZ1660 Malaysia, Sabah MK505403 BOLD:ADRO116
Ancyronyx procerus FZ1659 Malaysia, Pahang MK505405 BOLD:ADRO116
Ancyronyx procerus FZ1625 Malaysia, Terengganu MK505402 BOLD:ADRO116
Ancyronyx procerus FZ1626 Malaysia, Terengganu MK505412 BOLD:ADRO116
Ancyronyx procerus FZ1623 Malaysia, Terengganu MK505419 BOLD:ADRO116
Ancyronyx procerus FZ1624 Malaysia, Terengganu MK505413 BOLD:ADRO116
Graphelmis monticola FZ530 Malaysia, Kelantan MK505416 BOLD:ADB9822
Graphelmis anulata FZ510 Malaysia, Pahang MK505424 BOLD:ADC0259
Graphelmis obesa FZ544 Malaysia, Sabah MK505408 BOLD:ADB9823

Table 2. Estimates of evolutionary divergence over sequence pairs between groups of three Ancyronyx

species and the genus Graphelmis representing the outgroup.

1 2 3
1 A. clisteri sp. nov.
2 A, procerus 17.0%
3 A. sarawacensis 9.9% 20.1%
4 Graphelmis (outgroup) 23.2% 21.2% 23.5%

30 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Ancyronyx sarawacansis F21634
Ancyronyx sarawacansis F21641
Ancyronyx sarawacansis FZ1633
Ancyronyx sarawacensis FZ1631
Ancyronyx sarawacensis 38
Ancyronyx sarawacansis FZ1642
Ancyronyx sarawacensis H39
Ancyronyx sarawacensis 82
Ancyronyx sarawacansis F21643
Ancyronyx sarawacensis 39
Ancyronyx sarawacensis 83
Ancyronyx sarawacansis FZ1635
Ancyronyx sarawacensis F21628
06 Ancyronyx sarawacensis 10
Ancyronyx sarawacensis 36
Ancyronyx sarawacansis F21645
Ancyronyx sarawacansis F21651
Ancyronyx sarawacensis 09
Ancyronyx sarawacensis 35
1 Aneyronyx sarawacansis FZ1636
Ancyronyx sarawacansis FZ1646
0.98 Ancyronyx clisterisp.n. FZ7640 >
Ancyronyx clisterisp.n. H44
Ancyronyx procerus F21639
4 Ancyronyx procerus F21644
0.92|) Ancyronyx procerus 11
Ancyronyx procerus 37
4 | Ancyronyx procerus FZ1660
Ancyronyx procerus F21659
Ancyronyx procerus F21625
0,92 Ancyronyx procerus FZ1626 Ancyronyx procerus MALAY PENINSULA
Ancyronyx procerus F21623
Ancyronyx procerus FZ1624 - \
Graphelmis monticola F.2530
Graphelmis anulata FZ510
Graphelmis obesa FZ544

0.6

Ancyronyx procerus BORNEO

0.64)

1

0.03

Figure I. Results of DNA COI analyses, maximum likelihood tree.

Table 3. The loadings onto the principal components for males and females of Ancyronyx sarawacensis
and Ancyronyx clisteri sp. nov. The first and second highest values for each PC are highlighted in bold.

Males Females

PC1 PC2 PC3 PCl1 PC2 PC3
Explained Variance (%) 78.18 10.15 4.17 76.77 9.25 6.20
Loadings of Variables:
BL 0.450 -0.310 -0.156 0.454 -0.222 -0.300
EL 0.468 -0.354 -0.481 0.448 -0.143 -0.503
EW 0.418 0.021 -0.073 0.374 0.147 -0.223
PL 0.353 -0.105 0.633 0.385 -0.473 0.701
MW 0.317 0.150 0.507 0.298 -0.030 0.168
HW 0.322 0.169 0.056 0.312 0.052 0.101

ID 0.274 0.846 -0.279 0.345 0.825 0.274

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 31

ae PC 2 ~ Females Kel
0.04 0.030
0.00 0.0004 Low
-0.04 -0.030
-0.08 -0.060
T T T T T T
A -0.10 0.00 0.10 PC 1 -0.15 -0.05 0.05 PC 1
1.30
Females
1.25
1.20
s r=
od) om 1.15
Cc Cc
a) a
= — 1.10
5 £
=> =>
in ip. 1.05
1.00
0.95
© o
B St Ga age SS Sige Se?
6.5
Males 5.8, Females
6.0 5.65
5.44
AS 5.5 Oo 52-4
s B60
O Q
5.0 at,
=i i 4.8-
46-7
4.5
4.4
40 4.2-
re, S d x “% s d < 0

Figure 2. A Results of PCA analyses, black circles: specimens of Ancyronyx sarawacensis, red triangles: A.
clisteri sp. nov. Specimens of A. sarawacensis are assigned to three groups representing samples from differ-
ent localities B boxplots showing differences in elytral length between A. clisteri sp. nov. and three groups
of A. sarawacensis C Boxplots showing differences of ratio elytral length / interocular distance between A.

clisteri sp. nov. and three groups of A. sarawacensis. Abbreviations: Low: lowlands of Sarawak, Sab: uplands

of Sabah, Kel: Kelabit Highlands, Cli: A. clisteri sp. nov.

32

Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Table 4. Metric characters of Ancyronyx clisteri sp. nov. and Ancyronyx sarawacensis males. Morphometric

parameters are provided as range and mean + standard deviation.

A, clisteri sp. nov. A. sarawacensis
Aggregated data | Kelabit Highland | Sabah uplands | Sarawak lowlands | Aggregated data
(N = 37) (N = 44) (N = 27)
BL: mm 1.50-1.64 1.38-1.64 1.32-1.46 1.22-1.40 1.22-1.64
1.57 + 0.04 1.49 + 0.06 1.40 + 0.03 1.30 + 0.05 1.41 + 0.09
EL: mm 1.05-1.18 1.00—1.20 0.95-1.08 0.86—1.03 0.86—1.20
1.13 + 0.04 1.10 = 0.05 LOL 003 0.94 + 0.05 1.02 = 0.07
EW: mm 0.70-0.71 0.66-0.78 0.64-0.72 0.59-0.65 0.59-0.78
0.71 + 0.01 0.72 + 0.03 0.67 + 0.02 0.62 = 0.02 0.67 + 0.04
BL/EW 2.14-2.28 1.88—2.15 1.99-2.20 1.99-2.21 1.88—2.11
2.21 + 0.04 2.07 + 0.06 2.10 = 0.05 2.10 + 0.06 2.09 + 0.05
EL/EW 1.50-1.65 1.45-1.64 1.42-1.61 1.40-1.67 1.40-1.67
1.59 + 0.05 1.52 + 0.04 1.51 + 0.04 1.52 + 0.06 1.52 + 0.05
PL: mm 0.44-0.48 0.38-0.48 0.38-0.42 0.36-0.40 0.36-0.48
0.45 + 0.01 0.41 + 0.02 0.40 + 0.01 0.38 + 0.01 0.40 + 0.02
MW: mm 0.51-0.57 0.49-0.62 0.47-0.56 0.46-0.55 0.46-0.62
0.54 + 0.01 0.54 + 0.02 0.52 + 0.02 0.49 + 0.02 0.52 + 0.03
PL/MW 0.79-0.83 0.70-0.85 0.70—0.83 0.70—0.83 0.70—0.85
0.82 = 0.02 0.77 + 0.03 0.77 + 0.03 0.77 + 0.03 0:77 £0.03
HW: mm 0.39-0.40 0.36-0.42 0.35-0.40 0.33-0.36 0.33-0.42
0.39 + 0.00 0.39 + 0.01 0.37 + 0.01 0.35 + 0.01 0.37 + 0.02
ID: mm 0.18—0.22 0.21-0.25 0.20-0.25 0.18—0.22 0.18-0.25
O21 20.01 0.22 + 0.01 0.21 + 0.01 0.21 £0.01 0.21 + 0.01

Table 5. Metric characters of Ancyronyx clisteri sp. nov. and Ancyronyx sarawacensis females. Morphomet-

ric parameters are provided as range and mean + standard deviation.

A, sarawacensis
Aggregated data | Kelabit Highland | Sabah uplands | Sarawak lowlands | Aggregated data
seen bane el rr
BL: mm 1.60-1.70 1.44-1.78 1.34-1.64 1.32-1.50 1.32-1.78
1.64 + 0.03 1.59 + 0.06 1.48 + 0.06 1.39 + 0.05 1.50 + 0.09
EL: mm 1.12-1.20 1.07-1.27 0.99-1.16 0.94-1.08 0.94-1.27
1.16 = 0.02 1.16 + 0.04 1.06 = 0.05 1.00 + 0.04 1.08 = 0.07
EW: mm 0.70-0.77 0.69-0.79 0.66-0.78 0.62-0.72 0.62-0.79
0.73 + 0.01 0.75 + 0.02 0.71 = 0.02 0.65 = 0.02 0.71 + 0.04
BL/EW 2.11-2.38 1.94-2.36 1.95-2.23 2.06—2.24 1.94-2.36
225 TE OOS PAB EOOF 2.08 20-05 2.14 + 0.05 2.11 + 0.06
EL/EW 1.49-1.67 1.47-1.62 1.36-1.61 1.44-1.65 1.36-1.65
1.59 + 0.04 1.54 + 0.04 1.50 + 0.04 1.54 + 0.05 1.52 = 0.05
PL: mm 0.45-0.52 0.42-0.48 0.39-0.47 0.39-0.44 0.39-0.48
0.49 + 0.02 0.44 + 0.02 0.44 + 0.02 0.41 + 0.01 0.43 + 0.02
MW: mm 0.55-0.61 0.53-0.60 0.52-0.61 0.49-0.55 0.49-0.61
0.58 + 0.02 0.56 + 0.02 0.55 + 0.02 0.52 + 0.02 0.55 + 0.02
PL/MW 0.80—0.90 0.73—0.86 0.73—-0.83 0.74-0.84 0.73—0.86
0.85 + 0.03 0.79 + 0.03 0.79 + 0.02 0.80 = 0.03 0.79 + 0.02
HW: mm 0.39-0.44 0.38-0.43 0.36-0.44 0.35-0.39 0.35-0.44
0.41 + 0.01 0.40 + 0.01 0.39 + 0.02 0.37 + 0.01 0.39 + 0.02
ID: mm 0.21-0.25 0.21-0.25 0.21-0.25 0.20—0.23 0.20—0.25
0.23 + 0.01 0.24 + 0.01 0.23 + 0.01 0.21 = 0.01 0.22 + 0.01

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 33

Ancyronyx clisteri sp. nov.

http://zoobank.org/20 1 B4FB8-C588-468F-892A-AGA8F62FFEAF

Type locality (Fig. 11A). River, about 10 m wide (tributary of Kuamut River near
Kampung Pisang Pisang), meandering, with submerged wood; Sabah, Malaysia.

Type material. Holotype ¢ (NMW): “Malaysia, Sabah, Kuamut river env. near
Kampung Pisang Pisang, 3.4. VII. 1996, 14b: ca 10 m wide tributary of Kuamut River
in primary forest”. Paratypes (BOR/COL, CCB, CFDS, CFM, CKB, NMW, RMNH,
UBDM): 1 @, 2 29: same locality data as holotype; 5 64, 8 9: “Malaysia, Sabah,
(Borneo), Kuamut river env. near Kampung Pisang Pisang, 3.—4. VI. 1996, 14a: shaded
stream in primary forest with submerged wood”; 2 99: “Malaysia, Sabah, Kampung
Pisang Pisang env., tributary of Kuamut River, 29. VI. 1998”; 4 SS, 7 PQ: “Malaysia,
Sabah, Sabalangang river in primary forest ca 25 km SE Sapulut, 26.06.1998”; 1 9:
“Malaysia, Sabah, ca 5 km S Sapulut, Saliku river,16.V.2001”; 1 9: “Mataysta: Sabah:
Maliau Basin Studies Center: Kuamut River tributary, road bridge near observation
tower; submerged wood, riffle; 4°42'48"N, 116°58'34"E, 280 m a.s.l.; 03.O0ct2017,
leg. H. Freitag & C.V. Pangantihon / Taxon Expeditions (KRC1f)”; 1 2 [FZ1640,
MK505421]: “Malaysia, Sarawak, Marudi distr., Gunung Mulu NP, 17.10.2018, (42)
04.0267N, 114.818083E, 60 m a.s.l., river, J. Kodada & D. Selnekovié lgt.”; 5 Nes
[H44, LR735552], 7 99: “Brunei: Temburong, Belalong River tributary Sungai Sibut;
W of Ashton Trail, submerged wood, run; 4°32'38"N, 115°08'51"E, 170 ma.s.l.; leg.
Pangantihon / Taxonexpeditions 29.Sep2018 (SiCf)M”.

Diagnosis. Ancyronyx clisteri sp. nov. is a medium sized, elongate species with dark
head and elytra (Fig. 3A, B). It is morphologically most similar to Ancyronyx sarawa-
censis from which it can be distinguished by: 1) elytra extensively black with a very
narrow yellowish band along anterior margin and a moderately wider yellowish por-
tion dividing anterior and posterior black area; 2) ovipositor with longer and narrower
distal portion of coxite (2.7—2.9 x as long as wide near middle); 3) proximal portion
of coxite ca 0.7—0.8 x as long as distal portion; 4) longitudinal baculum of paraprocts
ca 1.04—1.19 x as long as entire coxite length; 5) about 9% divergence of the partial
mtDNA for cytochrome c oxidase subunit COI (COI barcodes with 90.7% similar-
ity between A. clisteri sp. nov. and A. sarawacensis, based upon 661 base pairs). We
were unable to find significant differences between the aedeagi of these two species, al-
though in direct comparison the apex of the penis of A. clisteri sp. nov. usually appears
to be narrower and more pointed than that of A. sarawacensis. Some A. sarawacensis
from Sabah (e.g., Figs 3D, 4A) show darker heads and pronota and wide anterior and
posterior elytral spots, their color pattern is very similar to those of A. clisteri sp. nov.
(see respective comment on variability below). For their correct identification it is best
to use the COI barcodes or comparison of ovipositors. It is possible that some of the
dark males of A. sarawacensis cannot be identified by morphological features without
direct comparison with A. clisteri sp. nov.

Description of holotype. Body form moderately elongate, elytra moderately convex
dorsally, with highest point near midlength; BL: 1.64 mm, EW: 0.74 mm, BL/EW: 2.22.

34 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Figure 3. Habitus of: A Ancyronyx clisteri sp. nov., holotype B A. clisteri sp. nov., female paratype from
Gunung Mulu NP, Sarawak C A. sarawacensis, holotype D A. sarawacensis, male from a tributary of Kua-
mut River “(14a)”, Sabah.

Coloration (Fig. 3A, B). Labrum yellowish-brown; mouth parts and antennae yel-
lowish, clypeus and narrow anterior portion of frons yellowish, remaining portions
of cranium black dorsally and posteriad of eyes; pronotum yellowish with large mesal

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 35

Figure 4. Habitus of: A Ancyronyx sarawacensis, male from the tributary of Kuamut River “(14a)”, Sa-

bah B A. sarawacensis, male paratype from Kapit area, Sarawak C A. sarawacensis, female paratype from
Gunung Mulu NP, Sarawak D A. sarawacensis, female from Bayur River near Kampung Bayur, Sarawak.

black spot; spot distinctly narrowed near middle; scutellum brownish; elytra mostly
black, with yellowish anterior margin and two oblique yellowish stripes meeting at su-
ture; elytral apices yellowish. Venter yellowish except for almost black mesanepisterna,

36 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

metanepisterna, lateral portion of metaventrite and lateral portions of ventrite 1; coxae
yellow; femora black on distal one sixth, yellowish on remaining portion; tibiae black
on proximal three fourths and near articulation with tarsi, yellowish on distal fourth;
tarsomeres 1—2 darker, tarsomeres 3—5 and claws yellowish.

Head. Labrum about as long as clypeus, with anterior margin slightly concave,
almost straight; surface with dual punctation; larger punctures deeper with fine setae,
smaller punctures very fine and shallow. Clypeus wide, densely punctate and finely
reticulate. Frons and vertex densely, finely punctate, appearing reticulated; reticulation
more distinct on black portion of vertex; surface with narrow, elongate, hardly discern-
ible granules (Fig. 5C); frontoclypeal suture almost straight, finely impressed. Eyes
moderately protruding and large. Antennae 11-segmented, subequal in length with
pronotum; each antennomere with a few scattered trichoid setae (sensilla trichoidea);
antennomeres 9-11 each with two clusters of peg-like setae near distal margins (Fig.
5D, E); terminal segment with additional different sensilla. Ratio of length of anten-
nomeres 1-11: 0.049 : 0.053 : 0.039 : 0.028 : 0.031 : 0.028 : 0.037 : 0.033 : 0.041 :
0.045 : 0.093 mm. Gena microsculptured; gula narrow, smooth; gular sutures absent;
posterior tentorial pits deep and large. HW: 0.39 mm; ID: 0.22 mm.

Thorax. Pronotum distinctly wider than long (PL/MW: 0.84), widest near pos-
terior angles; anteriorly attenuate; anterior margin strongly arcuate; almost entire hy-
pomeral portion visible in dorsal view; anterior transverse groove distinctly impressed,
oblique and dividing pronotum; area posteriad of transverse groove strongly gibbous;
anterior mesal longitudinal carina absent; posterolateral oblique grooves moderately
impressed. Pronotal surface densely punctate and irregularly reticulate on disc; ante-
rior and posterior portion smooth (Fig. 5A, F); flat cordiform granules mainly later-
ally and anteriorly; PL: 0.48 mm, MW: 0.57 mm. Prosternum irregularly, densely
and roughly punctate, very short in front of procoxae; prosternal process distinctly
transverse, almost flat; posterior margin widely rounded, feebly protruding posteriad;
lateral margins arcuate. Scutellum subpentagonal, smooth and shiny. Elytra elongate;
EL: 1.18 mm; slightly narrowed at the level of metacoxae, then gradually convergent
towards conjointly rounded apices; with ten more or less regular rows of punctures; six
rows between suture and shoulder; accessory scutellary rows absent (Fig. 6A); punc-
tures large, round and deeply impressed on disc and laterally (Fig. GA, B), smaller and
less distinct anteriorly and posteriorly; interstices and intervals wider and flat on disc,
narrower and feebly convex laterally and posteriorly; surface very finely sculptured;
humeri prominent. Mesoventrite almost flat, approximately half as long as proster-
num length; mesoventral cavity shallow and narrow; surface strongly and irregularly
punctate; mesoventral discrimen invisible; posterior angles rounded and moderately
protruding. Metaventrite along midline distinctly longer than combined length of
prosternum and mesoventrite; anterior margin arcuate; disc with shallow longitudinal
depression mesally; discrimen strongly depressed (Fig. 5B); surface of disc glabrous
with fine scarce punctures; distinct, deep irregular punctures along anterior margin and
on lateral portions of metaventrite; punctures coarser and denser laterally. Hind wings
fully developed. Forelegs about 1.47 x as long as body length; pro- and mesocoxae large

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo

Figure 5. Ancyronyx clisteri sp. nov., SEM micrographs, male paratype from the type locality: A habitus,
dorsal view B same specimen, ventral view C head, reticulate surface and granules, dorsal view D head,

detail of mouth parts and antenna, ventral view E antennal apex with clusters of sensilla, ventrolateral

view F pronotum with reticulate surface structure, dorsal view.

Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Figure 6. SEM micrographs: A, B Ancyronyx clisteri sp. nov. (male paratype from the type locality)
C-F A. sarawacensis (female from the type locality). A Elytra and scutellum, anterior portion, dorsal view
B same, detail of elytral surface, dorsal view C habitus, dorsal view D same, ventral view E head, prono-

tum and anterior portion of elytra, dorsal view F pronotum with reticulate surface structure, dorsal view.

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo ao

and prominent, strongly protruding laterad, bluntly drop-shaped; metacoxae smaller
and less protruding laterad; femora, tibiae, and tarsi with short setae; tibiae with a few
additional longer setae; distal tarsal segments with several longer setae near apex; claws
large, strongly curved, base with two small teeth.

Abdomen. Abdominal intercoxal process moderately longer than length of ven-
trite 1 posterior of metacoxae, very wide, anteriorly widely arcuate, with rows of deep
large punctures along anterior margin; ventrite | longest; ventrite 2 ca 0.75 x as long
as ventrite 1; ventrite 3 ca 0.88 x as long as ventrite 2; ventrite 4 ca 0.75 x as long
as ventrite 3; ventrite 5 as long as combined lengths of ventrites 3 and 4. Surface
of ventrites 2—5 with sparse punctures and setigerous flat, more or less cordiform
granules; punctures more distinct on mesal portion; granules more prominent and
more conspicuous laterally; ventrite 5 granulate. Male sternite IX ca 340 um long;
apical margin arcuately, but distinctly emarginated; lateroapical portion with a few
moderately long setae; paraprocts not reaching beyond apical margin. Tergite VIII
finely reticulate, with conspicuous median transverse ridge separating posterior and
anterior portion; basal half with microtrichial pattern; apical margin hyaline, with
subapical fringe of hair-like setae; setae on sublateral portions stronger and longer
than those along margin.

Aedeagus (Fig. 13A, B) ca 350 um long; penis (including lateral basal apophy-
ses) ca 2.85 x as long as phallobase, gradually tapering apicad; apical half moder-
ately curved ventrad (LV), dorsolateral portion with only a few very short setae; apex
narrowly rounded; lateral basal apophyses long; ventral sac large; fibula conspicuous,
moderately wide; surface of endophallus with spinules; corona indistinct. Phallobase
asymmetrical; parameres moderately exceeding middle of penis, widest near base, nar-
rowed to apex; dorsal margin arcuate; ventral margin feebly sinuate; apex narrowed
and rounded; mesal and outer surface of parameres with short setae.

Description of ovipositor (Fig. 14A—C). Ovipositor ca 490 pm long; stylus narrow
and long, almost straight, ca 0.50 x as long as coxite (compared to the length of distal por-
tion of coxite). Coxite moderately long and stout, rounded at posterolateral angle; distal
portion ca 2.70—2.90 x as long as wide near middle, slightly bent, with numerous short
stout peg-like setae and with a few thinner peg-like setae; latter mainly at apical portion;
inner margin moderately pubescent; proximal portion ca 0.70—0.80 x as long as distal
portion, with peg-like and short, fine hair-like setae. Transverse baculum well sclerotised;
longitudinal baculum of paraprocts (valvifers) ca 1.04-1.19 x as long as coxite (measured
from apical margin of coxite to point where it is joining the transverse baculum).

Secondary sexual dimorphism. Not strongly pronounced. Females on average
longer and wider than respective males, with longitudinal depression of metaventrite
narrower and shallower. Ventrite 5 in females longer and narrower than in males.

Variability. The specimens vary moderately in size (Tabs 4, 5). The elytral colora-
tion exhibits, in contrast to Ancyronyx sarawacensis, only minor variation: some speci-
mens have a larger yellowish anterior margin, oblique yellowish stripes and yellowish
apices. In the genitalia, we detected only minor variability in the form of the penis.
However, the dataset is too limited for a well supported statistical analysis.

40 Jain Kodada et al. / ZooKeys 912: 25-64 (2020)

Habitat. The type locality is a shallow meandering river of about 10 m width
flowing through primary forest, with stony substrate and plenty of submerged wood
(Fig. 11A). Specimens were collected exclusively from submerged wood predominatly
in stream reaches with relatively strong current. The specimens from Brunei were col-
lected in a very similar habitat — an upland headwater stream in (slightly disturbed) pri-
mary forest (Fig. 12A); the small piece of submerged wood from which the specimens
were collected was found in a very shallow, slowly flowing reach (Fig. 12A). A single
female was collected from submerged wood in fast flowing, shallow water in a small
tributary in primary rainforest (280 m a.s.l.) near the Maliau Basin, Sabah. The altitude
of all collection sites ranges from 60-300 m a.s.l. The limited number of collection sites
suggests that this species is restricted to rather pristine forest streams at lower altitudes.

Syntopic taxa. At the type locality specimens were collected together with Ancy-
ronyx acaroides, A. procerus and A. sarawacensis, all found on the same submerged tree
trunk. Some species of Graphelmis Deléve (Elmidae), Elmomorphus Sharp and Steno-
mystax Kodada, Jach & Ciampor (Dryopidae) also occurred in the same microhabitat.
However, in Temburong, besides Ancyronyx acaroides, and A. sarawacensis, no other
species were collected from exactly the same piece of submerged wood.

Distribution. This species is presently known from a few localities in northern
Borneo: Brunei, Sabah and Sarawak.

Etymology. The species is named after Clister V. Pangantihon of the Ateneo de
Manila University (Philippines), assistant at Taxon Expeditions, who discovered the
new species during the expedition to Brunei. The name was selected by Taxon Expedi-
tion participants, instructors and staff of the Kuala Belalong Field Studies Centre in
recognition for Clister’s discovery and his most appreciated engagement and friendly
care for the expedition participants.

Ancyronyx sarawacensis Jach, 1994.

Type locality (Fig. 11C). Small stream, ca 3 m wide, flowing through degraded pri-
mary forest above the village of Arur Dalan near Bario, ca 1000 ma.s.l., Kelabit High-
lands, northern Sarawak, Borneo, Malaysia.

Material examined. Adults. Holotype 3 (NMW): “Mataysia, Sarawak 1993
Kelabit HL. Umg. Bario, 26.2., ca 1000 m leg. M. Jach (14)”. Paratypes (NMW,
CKB): 1 9, 2 unsexed exs: “Mataysta, Sarawak 1993 Kelabit HL., 5 km E Bario Pa
Ukat, 27.2., 1000 m leg. M. Jach (15)”; 1 3, 1 9: “MALAYSIA, Sarawak 1993 Kela-
bit HL., 5 km E Bario Pa Ukat, 1.3., 1000 m leg. M. Jach (17)”; 1 &, 5 unsexed exs:
“Mataysia, Sarawak Mulu NP, Long Iman 4.3.1993 leg. M. Jach (20)”; 4 do, 2 29,
8 unsexed exs: “Mataysia — Sarawak 40 km E Kapit III. 1994 leg J. Kodada / Rumah
Ugap Ng marating Kapit Sut’.

Additional material (BOR/COL, CCB, CFDS, CFM, CKB, NMW, UBDM,
RMNH). SARAWAK: 1 &: “Malaysia, Sarawak, Marudi distr., Gunung Mulu NP,
16.10.2018, (40) 04.0267N, 114.8234E, 55 m as.l., small stream, J. Kodada &

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 4]

D. Selnekovié Igt.”; 1 ¢ [FZ1634, MK505407], 1 2 [38, MK505398], 1 3 [39,
MK505401]: “Malaysia, Sarawak, Miri distr., Bario env., 20.06./24.06.2018, (7)
03.76665N, 115.45371E 1146 m as.l., Arur Takang, J. Kodada & D. Selnekovic
let.”; 1 G: “Malaysia, Sarawak, Miri distr., Bario env., 20.06.2018, (8) 03.76567N,
115.45215E1121 ma.s.l., ArurTakang, J. Kodada & D. Selnekovié lgt.”; 1 ¢ [FZ1641,
MK505414], 1 2: “Malaysia, Sarawak, Miri distr., Ramudu env., 27.06.2018, (16)
03.56813N, 115.49488E 919 m a.s.l., Pa Ngaruren riv., J. Kodada & D. Selnekovic
let.”; 1 G [FZ1633, MK505406], 2 29: “Malaysia, Sarawak, Miri distr., Bario env.,
19.06.2018, (6) 03.74350N, 115.43137E 1131 ma.s.l., Pa Ramapoh, J. Kodada & D.
Selnekovicé lgt.”; 1 S [82, MK566773], 1 4 [83, MK566771],9 33,9 2Q: “Malay-
sia, Sarawak, Miri distr., Bario env., 5.10.2018, (33) 03.759617N, 115.440233E 1143
m a.s.l., Arur Dalan, J. Kodada & D. Selnekovié lgt.; 1 SG, 1 Q: “Malaysia, Sarawak,
Miri distr., Bario env., 22.06.2018, (10) 03.76245N, 115.43778E 1167 ma.s.L, Arur
Dalan, J. Kodada & D. Selnekovié lgt.”; 7 63, 7 99: “Malaysia, Sarawak, Miri distr.,
Bario env., 21.06.2018, (9) 03.76894N, 115.44592E 1171 m a.s.l., PaMarario, J.
Kodada & D. Selnekovic lgt.”; 3 SS, 4 OQ: “Malaysia, Sarawak, Miri distr., Ramudu
env., 26.06.2018, (14) 03.54745N, 115.49052E 921 maz.s.l., Pa’Kasi riv., J. Kodada
& D. Selnekovié lgt.”; 1 ¢, 4 QQ: “Malaysia, Sarawak, Miri distr., Ramudu env.,
28.06.2018, (18) 03.54745N, 115.49052E 921 ma.s.l., Pa’Kasi riv., J. Kodada & D.
Selnekovié lgt.”; 1 9 [FZ1642, MK505418], 1 GO [FZ1643, MK505415], 1 9: “Malay-
sia, Sarawak, Miri distr., Pa Lungan, 30.06.2018, (20) 03.81132N, 115.50737E 1103
m a.s.l., Petarutun riv., J. Kodada & D. Selnekovié lgt.”; 1 3 [FZ1635, MK505422!]:
“Malaysia, Sarawak, Miri distr., Pa Ukat, 25.06.2018, (13) 03.77346N, 115. ea
1118 mas.l., J. Kodada & D. Selnekovié lgt.”; 1 3 [FZ1628, MK505420], 1 Q [9

MK505396], 1 3 [10, MK505409], 15 do, 14 QQ: “Malaysia, Sarawak, Kuching
distr., Bayur riv. near Kampung Bayur, 20.10.2018, 1°14'42.33"N, 110°17'35.26"E
40 ma.s.l., J. Kodada & D. Selnekovié lgt.”; 1 2 [FZ1645, MK505404], 1 3 [FZ1646,
MK505397], 1 4 [35, MK505399], 1 9 [36, MK566772]: “Malaysia, Sarawak,
Kuching distr., Kampong Jangkar env., 10.7.2018, (29) 01.65911N, 109.70829E 67
m a.s.l., J. Kodada & D. Selnekovié lgt.”; 1 So [FZ1636, MK505394]: “Malaysia,
Sarawak, Miri distr., Ramudu env., 26.06.2018, (14) 03.54745N, 115.49052E 921 m
a.s.l., Pa’ Kasi riv., J. Kodada & D. Selnekovié lgt.”. SABAH: 50 ¢'4, 46 9 9: “Malay-
sia, Sabah, (Borneo), Kuamut river env. near Kampung Pisang Pisang, 3.-4. VI. 1996,
14a: shaded stream in primary forest with submerged wood”; 12 33, 4 OQ: “Ma-
laysia, Sabah, Kuamut river env. near Kampung Pisang Pisang, 3.-4. VII. 1996, 14b:
ca 10 m wide tributary of Kuamut River in primary forest.”; 2 SS, 1 Q: “Malaysia,
Sabah, ca 7 km S Sapulut, Saupi riv. in primary forest, 15.5.2001, J.E Kociam leg.”;
1 ex. (sex not examined) [FZ1651, MK505400]: “Malaysia, Sabah, Tawau Division
(Kalabakan), 10.7.2018, (MY16-MAL40) 04.560750N, 117.158367E 210 m as.L,
Ciampor & Ciamporova-Zatovicova let.”; 1 3, 2 99: “Mataysia: Sabah: Maliau Res.
Center.: Belian trail; small Maliau R. tributary; bottom gravel, riffle; ca 4°44'15"N,
116°58'15"E, 220 ma.s.l., 27.Sep2017, leg. H. Freitag, C.V. Pangantihon, I. Njunjic
et al. / Taxon Expeditions (MRC2c)M”; 2 99: “Mataysia: Sabah: Maliau Basin: Aga-

42 Jain Kodada et al. / ZooKeys 912: 25-64 (2020)

tis River; subm. wood, run; ca 4°41'51"N, 116°54'30"E, 520 m a.s.l., 02.Oct2017,
leg. C.V. Pangantihon & I. Njunji¢ / Taxon Expeditions (AgtR2f)M.”. BRuNE: 1
1 Q: “Brunei: Temburong, Belalong River tributary Sungai Sibut; W of Ashton Trail,
root packs, run; 4°32'38"N, 115°08'51"E, 170 ma.s.L; leg. H. Freitag & W.C. Hayden
/ Taxon Expeditions 29.Sep2018 (SiCg)M”; 2 33,2 29 [H39, LR735553]: “Bru-
nei: Temburong; Belalong River near UBD field station 4°32'49"N, 115°09'30"E, ca
100 ma.s.L.; primary forest; submerged wood in run; leg. Pangantihon / Taxon Expedi-
tions 28.Sep2018 (BeRIf)M”.

Diagnosis. Ancyronyx sarawacensis is a moderately large, usually yellowish species
with a pronounced variability of coloration and body size (Figs 3C, D, 4A—D; Tabs
4, 5). From the most similar A. clisteri sp. nov., A. sarawacensis differs mainly in: 1)
anterior elytral portion with expanded yellowish area, much larger than in A. clisteri sp.
noy.; 2) ovipositor with shorter and wider distal portion of coxite which is ca 1.5—1.6
x as long as wide near middle; 3) proximal portion of coxite subequal in length to
distal portion; 4) longitudinal baculum of paraprocts ca 1.3—1.4 x as long as entire
coxite length; 5) about 9% divergence of the partial mtDNA for cytochrome c oxidase
subunit COI. In the direct comparison the apex of the penis appears to be wider and
less pointed in A. sarawacensis.

Redescription of the holotype. Body form moderately elongate; elytra moder-
ately convex dorsally, shiny, with highest point in 0.45 of elytral length; BL: 1.45 mm,
EW: 0.71 mm, BL/EW: 2.04.

Coloration (Fig. 3C). Labrum, mouth parts, antennae, clypeus and anterior half of
frons yellowish; remaining portions of cranium black; pronotum yellowish with large
mesal black spot, spot narrowed near middle; scutellum brownish. Elytra with lateral
margin and epipleura black along anterior half; dorsum extensively yellowish with six
black spots: a small elongate sutural spot behind scutellum; a second, elongate narrow
sutural spot on elytral declivity; two lateral, suboval spots extending within elytral
striae 3-9 from anterior third slightly behind middle length of elytra; two subapical
small spots within elytral striae 4-5. Mesanepisterna, metanepisterna, lateral portion
of metaventrite and lateral portions of ventrite 1 black; coxae yellow; femora black
on distal sixth, yellowish on remaining surface; tibiae dark in proximal half and near
articulation with tarsi, yellowish in distal portion; tarsomeres 1—2 darker; tarsomeres
3—5 and claws yellowish.

Head. Labrum shorter than clypeus; anterior margin almost straight; surface with
fine irregular punctation, finely setose. Clypeus wide, densely punctate; sides rounded.
Frons and vertex densely, finely punctate, reticulate; reticulation more distinct on black
portion of vertex; surface with narrow, elongate distinct granules; frontoclypeal suture
almost straight, finely impressed. Eyes well protruding, with large facets, semicircular
in outline; HW: 0.38 mm, ID: 0.20 mm. Antennae 11-segmented, 0.46 mm long,
moderately longer than pronotum; ratio of length of antennomeres 1-11: 0.055 :
0.061 : 0.042 : 0.030: 0.031 : 0.030 : 0.029 : 0.029 : 0.032 : 0.037 : 0.089 mm. Gena
microsculptured; gula narrow, smooth; gular sutures indiscernible; posterior tentorial

pits deep and large.

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 43

Thorax. Pronotum distinctly wider than long (PL/MW: 0.81), widest near mid-
dle; anteriorly attenuate; anterior margin strongly arcuate; most of hypomeral portion
visible in dorsal view; anterior transverse groove deep, oblique, dividing pronotum;
area anterior and posterior of transverse groove strongly gibbous; anterior mesal lon-
gitudinal carina absent; posterolateral oblique grooves strongly impressed (Fig. GE, F).
Pronotal surface densely punctate and irregularly reticulate on disc, with flat cordiform
granules mainly in lateral and anterior portion; granules rather irregularly spaced; an-
terior and posterior portion smooth; prescutellar pits round and deep; PL: 0.42 mm,
MW: 0.52 mm. Prosternum densely and roughly punctate; anterior portion very short;
prosternal process distinctly transverse, almost flat, slightly protruding posteriad; pos-
terior margin widely rounded. Scutellum subpentagonal; surface smooth and mod-
erately elevated. Elytra elongate; EL: 1.06 mm; sides slightly narrowed at ca anterior
0.4, then gradually convergent to rounded apices; each elytron with ten more or less
regular rows of punctures; six rows between suture and shoulder; accessory scutellary
rows absent (Fig. 6C); punctures large, round and deeply impressed on disc and later-
ally, smaller and less distinct anteriorly and posteriorly; interstices and intervals wider
and flat on disc, narrower and slightly convex laterally and posteriorly; surface shiny;
humeri prominent. Mesoventrite almost flat, less than half as long as prosternum along
midline; mesoventral cavity shallow and narrow; surface strongly and irregularly punc-
tate; mesoventral discrimen invisible. Metaventrite along midline distinctly longer
than combined length of prosternum and mesoventrite; anterior margin arcuate; disc
with large mesal longitudinal depression; discrimen depressed; surface of disc glabrous,
with fine, scarce punctures; large, deep irregular punctures along anterior margin and
on lateral portions of metaventrite; punctures coarser and denser laterally (Fig. 6D).
Hind wings fully developed. Forelegs about 1.54 x as long as body length; claws large
and robust, with one small subbasal and one hardly discernible, basal tooth.

Abdomen. Intercoxal process longer than length of ventrite 2, very wide, anteriorly
widely arcuate, with rows of deep large punctures along anterior margin; ventrite 1
longest; ventrite 2 ca 0.75 x as long as ventrite 1; ventrite 3 ca 0.88 x as long as ventrite
2; ventrite 4 ca 0.75 x as long as ventrite 3; ventrite 5 ca as long as combined lengths
of ventrites 3 and 4. Surface of ventrites 2-5 with sparse punctures and setigerous, flat,
more or less cordiform granules; punctures more distinct on mesal portion, granules
more prominent and more conspicuous laterally. Male sternite IX ca 340 um long,
asymmetrical; apical margin distinctly arcuately emarginated; lateroapical portion with
short setae; paraprocts not reaching beyond apical margin. Tergite VIII finely reticulate,
with conspicuous median transverse ridge separating posterior and anterior portion;
basal half with microtrichial pattern; apical margin hyaline, with subapical fringe of
hair-like setae; setae on sublateral portions stronger and longer than those along margin.

Aedeagus (Figs 15A, B, 16A, B) ca 358 um long; penis about 2.63 x as long as
phallobase; sides subparallel from base to apical fourth then gradually tapering apicad;
apical half moderately curved ventrad; dorsolateral portion only with few very short
setae; apex narrowly rounded; lateral basal apophyses long; ventral sac large; fibula long
and narrow; surface of endophallus with numerous almost regularly arranged, small

44 Jain Kodada et al. / ZooKeys 912: 25-64 (2020)

spines; corona not discernible in endophallus repose. Entirely extruded endophallus
more than twice as long as aedeagus, asymmetrical (description based on one specimen
(CKB) from the type locality); most of the following characters of the endophallus,
even if it is extruded, are difficult to observe and clearly visible in Fig. 10G: supporting
sclerites of endophallus thin; ventral and dorsal bladders bulbous, extending less than
half of penis length, with few very fine short thin setae; distal portion of endophallus
tubular, very long; apex narrowed and supported by a fine elongate sclerite near gonop-
ore (Fig. 10G). Phallobase asymmetrical; parameres moderately exceeding midlength
of penis, widest near base, narrowed to apex; dorsal and ventral margin sinuate; apex
narrowed and rounded; outer surface of parameres with short setae.

Description of ovipositor (Fig. 17A—C). Ovipositor in females from the type lo-
cality ca 435 um long; stylus (gonostylus) narrow, straight, about 0.7 x as long as distal
portion of coxite. Coxite short and stout; posterolateral angle rounded, not protrud-
ing. Distal portion of coxite ca 1.5—1.6 x as long as wide, moderately bent; surface with
numerous conspicuous peg-like/spine-like setae; apical area with few moderately long
trichoid and few thinner peg-like setae; inner margin moderately pubescent. Proximal
portion of coxite about as long as distal portion, with numerous stout peg-like and
trichoid setae; transverse baculum well sclerotised; longitudinal baculum of paraprocts
ca 1.3—1.4 x as long as coxite length.

Secondary sexual dimorphism. Not strongly pronounced. On average, females
are longer and wider than the males (Tabs 4, 5). Females possess narrower and shallow-
er longitudinal depression of the metaventrite, and their terminal ventrite is longer and
narrower than in males. All these differences named here refer to syntopic specimens.

Variability. In addition to the metric characters (Tabs 4, 5), adults of Ancyronyx
sarawacensis vary in color pattern, body form and surface structures. This is obviously
dependent on altitude and water temperature. Specimens from the Kelabit Highlands
usually exhibit a more extensively black cranium, their pronotal spot is usually not or
less distinctly divided, the elytral spots are wide (Fig. 3D). Generally, any fusion of ely-
tral spots is rather rarely seen and if, then only the three posterior spots fuse. ‘The elytral
surface appears shinier and smoother; the anterior transverse pronotal groove is deep,
and areas anterior and posterior of these grooves are strongly gibbous, and their body
form appears generally shorter and more convex. In comparison, the specimens from
Sarawak and Brunei lowlands (Gunung Mulu NP, Kapit area, Kampong Bayur, Kam-
pong Jangkar, Temburong) usually have a paler cranium, and their pronotal spots are
more distinct, smaller and isolated (Fig. 4B—D). Furthermore, their elytral surface is less
shiny, and their interstices are narrower, the pronotum is almost flat and the body ap-
pears overall slenderer. Specimens from Sabah uplands (Figs 3D, 4A) tend to have darker
heads and pronota and separately fused large anterior and posterior elytral spots, their
color pattern is very similar to those of A. clisteri sp. nov. Pronota of these specimens
are usually more convex, similar to those of the specimens from the Kelabit Highlands.

Material examined. Larva. Nine larvae of three different sizes/instars including
the larva used in the DNA analysis (CKB): “Malaysia, Sarawak, Miri distr., Bario env.,
5.10.2018, (33) 3.759617N, 115.440233E 1143 ma.s.l., Arur Dalan, J. Kodada &

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 45

D. Selnekovié lgt”. For the description, the two largest larvae, probably representing
last instars, were selected.

Matching of developmental stages. All larvae were collected together with adults
at the type locality. One larva [FZ1631, MK505395] was compared with adults of A.
sarawacensis based on partial COI mtDNA sequences.

Diagnosis of mature larva (Figs 7A, 8A, 9E—G, 10A—F, H). Body elongate, tapered
dorsad; length from anterior margin of head to apex of abdomen: 4.43 mm; largest
width across metanotum: 1.01 mm; body ventrally almost flat, dorsally convex; dorsal
sagittal line present from prothorax up to sixth abdominal segment (Fig. 7A). Ratio of
length of thoracic segments and abdominal segment IX: 0.60 : 0.35 : 0.32 : 0.84 mm;
lengths of all remaining abdominal segments between 0.21 and 0.26 mm. Thoracic seg-
ments II and HI with flattened lateral tergal processes (Fig. 7B); abdominal segments
I-VHI with conical prominent bent lateral tergal processes (Figs 7A, 91). All spiracles
small and subequal in form and size, biforous, situated at ends of prominent spiracular
tubes on mesothorax and abdominal segments I-VIII (Figs 7A, B, 91). Dorsum densely
covered with flat setiferous tubercles except for rugose distal portion of terminal segment
(Fig. 7B). Antennae and legs very short (Fig. 8A, B). Prevailing ground color (Fig. 7A)
yellowish-brown combined with dark brown patterns on frons, adjacent portion of epi-
cranium, posterior two thirds of pronotum; meso- and metanotum each with four pairs
of dark brown signae (Fig. 7B); genae very pale, almost white; abdominal segments I—
VIL with two dorsolateral pairs of dark brown signae and with brownish spot near mid-
dle, dark coloration increasingly inconspicuous posteriorly (Fig. 7A); segment IX pale
brown on anterior portion, dark brown apically (Fig. 7A). In contrast to previous darker
patterns, anterior third of pronotum, dorsolateral portions of cranium, middle portion
of abdominal segment IX as well as appendages and entire venter paler yellowish.

Head prognathous, partly retractable, distinctly narrower than pronotum (Fig.
9A); maximum head width 0.55 mm. Labrum very short, ca 2.5 x as wide as long,
separated from head capsule by complete suture, anterior margin arcuate, middle with
transverse row of moderately long, ramified setae (Fig. 9B); clypeus subequal in length
with labrum, with a row of pilose setae along posterior margin; frontoclypeal suture
complete. Anterior margin of frons arcuate, with a row of moderately long, pilose
setae; anterolateral angles form short conical projections, each projection with one
distinct peg-like pilose seta. Frontal arms broadly V-shaped, well impressed, epicranial
stem absent (Fig. 7B); surface of frons and adjacent area of epicranium with cordiform
tubercles, which are distinct, flattened and provided with short scale-like setae (Fig.
9A); anterolateral portion with one moderately long trichoid seta. Setal pattern on epi-
cranial plates: one moderately long trichoid seta near dorsal margin of stemmata; one
at 0.6 of cranial length near frontal arm; one ventral near antennal insertion; four long
and very conspicuous trichoid setae on lateroventral portion; several simple spine-like
setae on lateral/laterodorsal portion, mostly widely spaced, four of them arranged in
an oblique laterodorsal row; genae with several spine-like slightly serrate/pilose setae
on ventral portion. Antennae (Fig. 9C, D, G) three-segmented, short, approximately
0.25 x as long as maximal head width. Scape (Fig. 9C, D) elongate, moderately longer

46 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

0.5mm

0.5mm

0.5mm

A C

Figure 7. Ancyronyx sarawacensis, larvae from the type locality: A final instar, dorsal view B pre-final
instar, cleared specimen mounted on microscopic slide, detail of anterior portion, dorsal view C same

specimen, terminal abdominal segment showing hooks of operculum, ventral view.

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo

Figure 8. Azcyronyx sarawacensis, larvae from the type locality, SEM micrographs: A final instar, ventral

view B pre-final instar, lateral view.

48 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

than wide, with three moderately ramified setae around distal margin (two trichoid
setae of varying length and a single, moderately long, pointed peg-like seta); pedicel
narrow, cylindrical and about 1.5 x as long as scape, distally with two minute peg-like
setae (Fig. 9G); flagellum and sensorium subequal in length, both elongate and about
4 x as long as wide; terminal segment with minute setae. Stemmata arranged in a sin-
gle unified lateral spot, not exposed (Fig. 9A). Mandibles (Fig. 13C) short, distinctly
longer than wide, left and right mandible almost symmetrical; apices wide, tridentate,
ventral and dorsal teeth continuing in ventral and dorsal carina; right mola convex and
prominent, left mola flat, asperities absent; articulated process setose, robust, half as
long as mandible. Penicillus with moderately long, thin, setae, densely arranged in a
row along mesal portion; outer mandibular edges arcuate, each bearing four conspicu-
ous ramified setae; ventral condyles robust and prominent.

Ventral side of cranium (Fig. 9E) with strong hypostomal ridge extending pos-
teriad into robust hypostomal rods; the latter exceeding middle of cranium; oblique
row of 3—5 short stout peg-like setae situated posteriad of hypostomal rods. Posterior
tentorial pits small, gular sutures absent. Maxilla elongate, large, almost half as wide
as mentum (across stipes); cardo very short, transverse, almost perpendicular to stipes.
Stipes elongate, with several different setae (Fig. 9F): one short ramified seta near base;
four moderately long, extensively ramified setae in a submarginal row along anterior
half; few conspicuous long trichoid setae on anterior fourth; palpifer well sclerotised,
short and wider than palpomeres, apical portion with two spine-like setae. Maxillary
palp three-segmented (Fig. 9E), distinctly shorter than stipes width; palpomeres with a
few short trichoid setae, terminal palpomere with several small peg-like sensilla. Galea
undivided, elongate, about 2 x as long as wide; apex narrowed and rounded, with row
of several moderately bent spines and numerous short, mesally directed setae; dorsal
surface with cluster of dense thin setae. Lacinia subequal to galea in form and length;
apex with dense, strong spines. Labium with very short and transverse submentum
oriented vertically to mentum. Mentum (Fig. 9E) about 1.6 x as long as wide; widest
at anterior third; median portion shallowly impressed, laterally with row of six mod-
erately long, extensively ramified setae in anterior 0.6 and a single moderately long
trichoid seta at anterior third; anterolateral portion with one distinct stout peg-like seta
on each side; disc of mentum with pair of mesal, longitudinal rows of five trichoid and
ramified setae. Ligula with mesal longitudinal line, about as long as lacinia, with four
short peg-like setae; anterior margin arcuate and densely setose; labial palp very short;
apical segment similar to that of maxillary palp; palpiger undifferentiated.

Pronotum (Fig. 7A, B) 1.5 x as wide as long; posterior half with seven pairs of partly
fused small and rather inconspicuous areas (signa) with irregular polygonal reticulation
(Fig. 9H); three pairs of erected trichoid setae present on disc and one pair on postero-
lateral position; lateral margins fringed with long trichoid setae. Meso- and metanotum
more than 3 x as wide as long, distinctly shorter than pronotum, each with five pairs
of partly fused signa and one posterolateral and two admedian pairs of long erected
trichoid setae; sides projected laterally, fringed with long setae; surface with tubercles.
Posterior margins of all nota dentate, fringed with row of scale-like setae. Ventral side
of prothorax with small triangular presternum (Fig. 8A) and three hardly identifiable

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo

Figure 9. Ancyronyx sarawacensis, larvae (pre-final instar) from the type locality, SEM micrographs and
cleared microscopic slide mounts: A head, frontal view B labrum, frontal view C left antenna, frontal

view D right antenna, in rotaded view E final instar, head, ventral view F detail of ramified setae on an-

terior portion of stipes, ventral view G antenna, ventral view H detail of surface structure of prothorax,

dorsal view I lateral portion of abdominal segments VI and VII, ventral view.

50 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

sclerites: one large anterolateral sclerite on each side and one small transverse sclerite
on posteromesal portion; sclerites completely surrounding coxae, connate, more or less
discernible in cleared specimen only. Ventral portions of both, meso- and metathorax,
with six sclerites (Figs 8A, 10A): two large anterior sclerites divided by fine line mesally;
each side with one small anterolateral sclerite and one large lateral sclerite; the latter
projecting moderately at posteromesal portion; anteromesal sclerites with rows of short
spine-like setae along posterior margin. Legs (Figs 8A, B, 10A) stout, five-segmented,
about 0.5 x as long as thorax width, all similar in shape and length. Coxae large, dis-
tinctly wider than long, subellipsoidal; mesal portion moderately projecting ventrad;
surface with a few short setae. Trochanters subconical, each with a single long trichoid
seta on distal third. Femora subcylindrical with scattered short peg-like setae, most of
them with serrate/setose margins (Fig. 10D, E); largest setae concentrated on inner
portion and around distal margins. Tibiotarsi subcylindrical, narrower than femora,
subequal in length with trochanters and femora; surface with several different trichoid
setae in distal portion and a pair of distinct, very closely set trichoid seta (Fig. 10B, C).
Pretarsi elongate, moderately bent, each with a single long trichoid seta.

Abdominal segments I—VIII similar in shape, each distinctly wider than long, sub-
rectangular; sagittal line visible in segments I-VI; lateral tergal processes of segments
I-VIII conical, prominent and bent with dorsally directed pointed tip (Figs 7A, 8A);
surface with asperities, stout setae and short spines; processes of subsequent segments
moderately increase in size. Posterior margins of terga dentate and each fringed with
scale-like setae. Ventral portion of segment I—VII with three well differentiated sclerites;
median sclerite (sternite) of segment I widest, about 2.8 x as wide as a lateral sclerite
(pleurite); sternites moderately narrowed posteriad, pleurites distinctly narrowed poste-
riad; pleurites of segments VIII-I[X completely fused with tergites and sternites. Ventral
surface with numerous stout short spines and several longer thinner trichoid setae; the
latter concentrated on posterolateral portion; segments I-VIII with a pair of long, very
closely set trichoid setae near basis of lateral process (Figs 91, 10F); posterior margins of
segments dentate and fringed with scale-like setae. Terminal segment (Figs 7A, C, 10F)
2.1 x as long as wide, widest at anterior 0.15, subconical; subtriangular in cross-section;
apex narrowed. Dorsal surface with flat setiferous tubercles; the latter large and distinct on
anterior two thirds, absent or inconspicuous on posterior third; setae on tubercles short;
setae along lateral margins long and very distinct; several moderately long erect-trichoid
setae intermixed within granules on admedian portion. Ventral side with scattered, short
or moderately long trichoid setae. Operculum (Fig. 10F) elongate, subtriangular, almost
2 x as long as wide, slightly impressed medially, rugose; lateral and apical margins with
trichoid setae; internally inserted pair of hooks half as long as operculum (Fig. 7C); each
hook with two clusters of longitudinally arranged trichoid setae near base.

Variation between larval instars. ‘The pre-final instars are shorter (3.85 mm) with
narrower head (HW: 0.43 mm) and exhibit more evenly brown color from the pos-
terior pronotal portion up to the anterior portion of segment IX. The pale anterior
portion on the pronotum extends up to half of the pronotal length. Segment IX is rela-
tively slender and 2.3 x as long as wide vs. ratio 2.1 in the final instar. The triangular
presternum is not yet clearly delimited.

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 51

0.1mm

ie |

Figure 10. Ancyronyx sarawacensis A-F, H final instar larvae from the type locality, SEM micrographs
and cleared microscopic slide mounts, G everted endophallus: A meso- and metathorax with legs, ventral
view B right middle leg, detail, ventral view C detail of twin setae on tibiotarsus, ventral view D detail of
pilose setae on femur, ventral view E detail of twin setae on pleurite VI, ventral view F terminal abdominal
segment, ventral view G extruded endophallus, dorsolateral view. Abbreviations: Ds: dorsal sac-support-
ing sclerite, Vb: ventral bladder, Db: dorsal bladder, DpE: distal portion of endophallus, As: apical sclerite
(according to Hayashi and Yoshitomi 2015).

52 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

Figure I 1. Habitats of Ancyronyx clisteri sp. nov. and A. sarawacensis: A type locality of A.clisteri sp. nov.,

tributary of the Kuamut River near Kampung Pisang Pisang, Sabah B atypical locality of A. sarawacensis,
shaded shallow stream in primary forest, Gunung Mulu NP, Sarawak C type locality of A. sarawacensis,
small stream above Arur Dalan near Bario, Kelabit Highlands, Sarawak.

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 53

— 2 lO — <- = P A ‘ Fassel eS idler ws

Figure 12. Habitats of Ancyronyx clisteri sp. nov. (A) and. A. sarawacensis (B, C) sampled during Taxon
Expeditions: A Sibut Creek (tributary of Belalong River), Temburong, Brunei, microhabitat (piece of
submerged wood from which A. clisteri sp. nov. was collected) B Belalong River near Kuala Belalong Field
Studies Centre, Temburong C Agatis River in the vicinity of Maliau Basin, Sabah, Malaysia. All photo-
graphs by Clister V. Pangantihon.

54 Jin Kodada et al. / ZooKeys 912: 25-64 (2020)

ig, fe

Ls TET, sy eer, rs ae a
ee ETE, fe, set em, ag et FO TE Se TS Fo

Figure 13. A Ancyronyx clisteri sp. nov., aedeagus of holotype with endophallus partly extruded, ventral

view B same, lateral view C A. sarawacensis, larval mandible, ventral view.

Comparative remarks. The body shape of the larva is typical for the Ancyronyx var-
iegatus (Germar) species group. In this group, larvae were described for A. helgeschneideri
Freitag & Jach, A. procerus, A. schillhammeri Jach and A. variegatus (Brown 1972; Freitag
and Balke 2011; Freitag 2013). In contrast to those of the A. patrolus species group,
these larvae share the comparably large size, dorsoventrally depressed body, stout legs
and prominent conical lateral tergal processes (posterolateral appendages). Ancyronyx
sarawacensis closely resembles A. helgeschneideri (comp. Freitag and Balke 2011) in the
yellowish-brown color, similar size (final instar HW 0.55 mm vs. 0.50 mm; body length

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 55

LZ,

7 t,

Gd (ay

“ ly

Figure | 4. Ancyronyx clisteri sp. nov.: A ovipositor, paratype from Sarawak, dorsal view B same, ventral

view C ovipositor, paratype from the type locality, ventral view.

4.4 mm vs. 4.5 mm), relatively large spiracles, similar shape and distribution of setae,
tubercles and asperities, similar proportions and color pattern of abdominal segment IX,
arcuate sides of head, and presence of short anterolateral frontal projections and lack of
a median frontal projection. Ancyronyx sarawacensis differs from A. helgeschneideri in the
pale anterior third of pronotum (vs. pale anterior and lateral pronotal margins), labrum
with transverse row of ramified setae (vs. tuberculate with rather inconspicuous ramified

56 Jain Kodada et al. / ZooKeys 912: 25-64 (2020)

Figure 15. Azcyronyx sarawacensis, specimen from the type locality: A aedeagus with endophallus partly

extruded, ventral view B same, lateral view.

and trichoid setae), submentum relatively longer and slenderer (1.6 x as long as wide vs.
1.4 x) and clearly delimited triangular presternum. Larvae of Ancyronyx procerus (comp.
Freitag and Balke 2011) can be distinguished by head being almost as wide as pronotum
with sides almost straight (vs. head distinctly narrower than pronotum with sides arcu-
ate), presence of a median frontal projection and three prominent frontal projections
(vs. short anterolateral frontal projections). Furthermore, A. sarawacensis larvae are rela-
tively slenderer than those of A. procerus (final instar HW 0.55 mm vs. 0.62 mm, body
length 4.4 mm vs. 3.7 mm) and dorsally more densely covered with larger tubercles.
Habitat. The altitude of all collection sites ranges from 40-1200 m a.s.l; the
species is described from a small stream near Arur Dalan in the Kelabit Highlands

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 57

i. 4 Sf
a FA v4
ba Fa i 4
a | E Fi % |
Ea FZ ty
Ed fe iy
‘3 E2 i
ed El a
f 03 iu
ba Ee} ey
ee Gz |
ra E EA
F 8 ta
i i ‘

Figure 16. Azcyronyx sarawacensis, holotype: A aedeagus, ventral view B same, lateral view.

(1000-1200 m a.s.l.). It is an upper reach (epirhithron), ca 3 m wide, with boulders
and cascades, flowing through degraded primary forest. Water quality is presumably
very good since the stream serves as drinking water for the settlements. Current and
bottom substrates are heterogeneous; the latter includes mineral and organic deposits.
All Ancyronyx specimens were collected from submerged wood. ‘The larvae were found
together with adults hidden in fissures of the bark of a large, relatively fresh submerged
tree branch fully covered with bark. Mountain streams in the Bario area (Pa Ramapoh,
Arur Takang and Pa’Marario) have fewer boulders, fewer cascades and more submerged
wood. The river at Pa’ Ukat is ca 10 m wide, shallow, slowly flowing, entirely shaded,
with stony and sandy substrates and numerous fallen trees. Forest streams near Ra-
mudu, Pa’Ngaruren and Pa’Kasi are ca 4-7 m wide, slowly flowing and meandering,
with stones, some cobbles and sand substrates, submerged woods, leaf packs and ex-
posed roots. Specimens were collected mostly from submerged dead wood, however,

58 Jan Kodada et al. / ZooKeys 912: 25-64 (2020)

I we ut
wt aN
“i \' i yl

AaB

Figure 17. Ancyronyx sarawacensis: A ovipositor and abdominal segment VII, specimen from a tributary
of Kuamut River, Sabah “(14B)”, ventral view B ovipositor, paratype from Kapit area, Sarawak, ventral

view C ovipositor, paratype from the Kelabit Highlands, Sarawak, ventral view.

a few specimens come also from submerged roots of tree or bamboo. The Petarutung
River in PaLungan is 7-10 m wide, shallow, meandering, with sandy bottom and
represents the only reddish colored river where some specimens were found (water
color is probably due to humic substances from a nearby peat swamp forest). Outside
the Kelabit Highlands A. sarawacensis was collected in small lowland and upland for-
est streams, which are moderately wide, rather shallow, usually meandering and with
sandy or stony substrates, always containing submerged logs, woody debris and leaf
packs. The specimens were collected mainly, but not exclusively, in stream reaches with
stronger currents. The most atypical stream inhabited by A. sarawacensis was a small,
slowly flowing, very shallow, meandering creek in Gunung Mulu NP (55 ma.s.l.) with
large amounts of accumulated leaves and a sandy bottom, with some gravel and a few

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo Eby

submerged branches (Fig. 11B); specimens were collected together with Ancyronyx pul-
cherrimus Kodada, Jich & Ciampor and a new species of Okalia Kodada & Ciampor.

Syntopic taxa. Usually, the same piece of submerged wood, especially larger piec-
es can be inhabited by several genera of Elmidae and Dryopidae. Ancyronyx sarawa-
censis was found with specimens of Graphelmis berbulu Ciampor, G. labralis Ciampor
and G. mumini Ciampor at the type locality. From lowland and upland Sarawak and
Sabah, the following species were found to be syntopic: Ancyronyx procerus, A. acar-
oides, A. pulcherrimus, Graphelmis gemuk Ciampor and several species belonging to
the G. picta and G. marshalli groups. Some species of Leptelmis Sharp as well as Steno-
mystax montanus Kodada, Jach & Ciampor, S. depressus Kodada, Jach & Ciampor and
S. minutus Kodada, Jach & Ciampor and some species of Elmomorphus Sharp were
also found syntopic.

Distribution. This species is widely distributed in northern Borneo (Sarawak, Sa-
bah and Brunei). In Sarawak it was collected in several small tributaries of the Dapur
and the Kelapang rivers in the Kelabit Highlands; small tributaries of the Tutoh and
the Melinau Paku rivers in and near the Gunung Mulu National Park; tributaries of
the Sut River near Kapit, the Jangkar River near Lundu and a small stream near Kam-
pung Bayur (Kuching area). In Sabah, it is known from the tributaries of Sapulut River
near Batu Punggul; small tributaries of the Kuamut River as well as the Agatis River
and a small tributary of the Maliau River. In Brunei, the species was collected from the
Belalong River and from one of its small tributaries.

Ancyronyx procerus Jach, 1994

Type locality. Tributary of the Tutoh River, near Long Iman, Mulu National Park,
northern Sarawak, Borneo, East Malaysia.

Material examined. Holotype $ (NMW): “Malaysia, Sarawak, Mulu NP, Long
Iman 4.3.1993 leg. M. Jach (20)”. Paratypes: 5 exs with same data as holotype
(NMW), 2 exs (CKB): “Malaysia - Sarawak ca 40 km E Kapit HI. 1994 leg. J. Kodada
\ Rumah ugap Ng marating Kapit Sut”.

Additional material (CCB, CFDS, CKB, NMW). SARAWAK: 1 & [37,
MK505417], 1 2 [FZ1639, MK505411], 2 exs: “Malaysia, Sarawak, Kuching dis-
tr, Kampong Jantar env., 10.7.2018, (29) 1.65911N, 109.70829E, 67 m a.s.l., J.
Kodada & D. Selnekovieé lgt.”; 1 9 [11, MK505423], 1 ¢ [FZ1644, MK505410],
2 exs: “Malaysia, Sarawak, Kuching distr., Bayur riv. near bridge of jalan Jambur -
Bayur, 20.10.2018, 1°14'43.2"N, 110°17'34.8"E, ca 50 m as.L., J. Kodada & D.
Selnekovic¢ lgt.”; 3 exs: “Malaysia, Sarawak, Miri distr., Ramudu env., 5.03.2019, (No.
51), Ramudu riv., 3°32'14.390"N, 115°30'22.456"E, ca 900 m a.s.l., J. Kodada &
D. Selnekovié lgt.”; 4 exs: "Malaysia, Sarawak, Miri distr., Ramudu env., 6.03.2019,
(No. 52), Pa*Masia riv., ca 3°31'57.736"N, 115°30'39.624"E, ca 950 m a.s.l., J. Ko-
dada & D. Selnekovié lgt.”; 10 exs: “Malaysia, Sarawak, Miri distr., Dapur riv. near
Pa Umor, 8.03.2019, (No. 54), 3°44'3.49"N, 115°30'56.24"E ca 1070 ma.s.l., J. Ko-

60 Jain Kodada et al. / ZooKeys 912: 25-64 (2020)

dada & D. Selnekovié lgt.”. SABAH: 1 CG: “Malaysia, Sabah, ca 25 km Sapulut, Sa-
balangang river, 21.V.2001*; 1 So, 3 29, 4 exs: “Malaysia, Sabah, (Borneo), Kuamut
river env. near Kampung Pisang Pisang, 3.-4. VI. 1996, 14a: shaded stream in primary
forest with submerged wood”; 1 GS, 1 ex.: “Malaysia, Sabah, Kampung Pisang Pisang
env., tributary of Kuamut River, 29.6.1998, J. Kodada & F. Ciampor Let.”; 1 ex.
[FZ1660, MK505403], 1 3: “Malaysia, Sabah, Interior Division (Nabawan), Batu
Punggul env., 23.5.2001, Ciampor Igt.”. West Mataysta: PAHANG: 1 ex. [FZ1659,
MK505405], 8 do, 3 QQ: “Malaysia, Malaysia, Pahang, Kenong Rimba Park, Ke-
song River, 5.6.2001, J. Kodada & FE Ciampor”. TERENGGANU: 4 exs [FZ1623,
MK505419; FZ1624, MK505413, FZ1625, MK505402; FZ1626, MK505412]:
“Mataysia, Terengganu, Kg. Pancur Merah env., stream ca 7m wide, 5°33'28.86"N,
102°40'47.70"E, 2.8.2016, ca 30 mais.l.”.

Variability. Ancyronyx procerus represents the largest species of the genus (TL
2.4—2.8 mm) with two, more or less distinct color forms. The form with lighter (less
black) elytra and sometimes smaller to obsolete femoral spot correspond in habitus to
the type specimens from Long Iman, Sarawak (see Jach 1994: fig. 28). These lighter
specimens were found, e.g., in all Sarawak lowland localities and in Sabah, in the
Sabalangang River and in the tributary of the Kuamut River. The darker form with ex-
tensive black elytra and darker femoral spot were found in Sarawak in the rivers of the
Kelabit Highlands, Sabah and in localities from West Malaysia. These color forms do
not represent separate taxa, neither according to their genetic differentiation in COI
mtDNA sequences, nor according to the fine differences in their genital morphology.

Habitat. All Ancyronyx procerus were sampled from submerged wood and seem to
prefer larger pieces of fresh wood with bark; so far none of the specimens were found
on submerged exposed roots of living trees or bamboo like adults of A. sarawacensis or
A. acaroides (Kodada and Selnekovicé pers. obs.). Adults have also not been collected in
light traps yet. The larva was described after two specimens, one from type locality and
one from Busuanga Island (Philippines); association with adults was corroborated by
COI mtDNA sequences (Freitag and Balke 2011).

Specimens were usually found in smaller shallow meandering rivers with low vertical
gradient, or — less frequently — in lowlands streams/creeks with a rather slower current,
mostly with gravel or sandy substrate (e.g., Kesong River, rivers near Kampung Jalan
and Kampung Bayur, Sabalangan River). In mountainous habitats the species is newly
recorded from rivers in the Kelabit Higlands: Dapur, Ramudu and Pa’Masia; all these
localities are within altitudes of 900-1070 m a.s.l. The largest of these rivers is the Dapur
River; at the collecting place near PaUmor it is about 10-15 m wide, deep, reddish
colored, meandering, with sandy bottom, and contains lot of submerged logs; the water
level is strongly fluctuating annually. The partly shaded forest rivers Pa Ramudu and
Pa Masia are 7-10 m wide, shallow, slowly flowing and meandering, with stones, some
cobbles and gravel, and with some submerged wood and a lot of exposed bamboo roots.

Examination of flooded wood in larger rivers at lowland reaches of Sarawak (e.g.,
the Sarawak River at Kuching, the Rajang River at Kapit, Batang Kayan River near
Lundu) did not yield any Ancyronyx specimens.

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 61

Distribution. Ancyronyx procerus was described from a tributary of the Tutoh
River near Long Iman in Mulu National Park (Sarawak). ‘The type series contains 12
specimens from the type locality and two specimens from the river Sut near Kapit
(Sarawak). Recent collecting activities in northern Borneo showed that A. procerus is
less abundant than A. sarawacensis or A. acaroides.

Ancyronyx procerus was recorded from Brunei, Malaysia (Pahang, Sarawak), the
Philippines (Busuanga) and Vietnam (Jach et al. 2016). The distributional data from
Sabah and Terengganu represent first records from these states.

Discussion

The species of Ancyronyx are usually colorful, showing various color patterns, which
were originally considered to be species-specific (e.g., Jach 1994, 2004, Kodada et al.
2014). In the present study, the use of barcoding confirmed the existence of a cryp-
tic taxon, A. clisteri sp. nov., and highlighted the existence of a phenotypic plasticity
regarding color patterns and other morphological characters of A. sarawacensis and A.
procerus populations. Generally, in Elmidae, closely related species often replace each
other along water courses; remarkably, stenothermic species of cold upper courses are
usually larger, more strongly pigmented and smoother than their relatives from the
lower courses (e.g., Steffan 1963, 1964; Berthélemy 1967; Jach 1984). This obvious-
ly temperature-related phenomenon has been observed also in different populations
of the same species, e.g., in Elmis maugetii Latreille (Knie 1977, 1978; Berthélemy
1979), Llamelmis foveicollis (Grouvelle) (Jach 1984), and it is now confirmed by mo-
lecular data for populations of Ancyronyx sarawacensis.

The aedeagus of Ancyronyx is of a trilobate type, with moderately large parameres
and a short phallobase. The form of the penis in most species is simple, with sides more
or less straight and narrowed apicad (e.g., A. sarawacensis, A. procerus, A. variegatus), but
in some species (A. acaroides and A. johanni Jach), the sides of the penis are angular and
strongly produced laterad, while they are produced and rounded in A. patrolus Freitag &
Jach, A. pseudopatrolus Freitag & Jach and A. punktii Freitag & Jach. The form of the par-
ameres is simple, and their length, setation, and shape are varying between the species.

Hayashi and Yoshitomi (2015) described a technique for endophallus extrusion,
which allows a better examination of its internal morphology (bladders and sclerites)
and its surface structures, which are difficult to observe when the endophallus is in
resting position; in Japanese species of the genus Zaitzeviaria Nomura they were able
to find characters useful for species identifications. The examination of an extruded
endophallus in A. sarawacensis revealed a possible diagnostic potential in the form and
position of several bladders, microsclerites and different spines. Unfortunately, it is not
possible to manually evert the endophallus in all specimens. ‘The success rate of getting
the endophallus fully everted was low even when the technique described by Hayashi
and Yoshitomi (2015) was used. However, these particular structures are probably of
some significance also in Ancyronyx.

62 Jin Kodada et al. / ZooKeys 912: 25-64 (2020)

Acknowledgements

We wish to thank to the staff of Forest Department Sarawak (Kuching) for the help
in arranging the Permission to conduct research on biological resources and in other
necessary administration processes (Permit No. (93)JHS/NCCD/600-7/2/107 and Park
Permit No.WL49/2018). Lian Lugun (Forest Department Sarawak, Bario, Sarawak) and
Lian Labang (Bario, Sarawak) accompanied J. Kodada and D. Selnekovi¢é during their
collecting trips in the Kelabit Highlands in 2018; their help and field knowledge were ir-
replaceable. Thanks are also due to Miroslav Zahoran (Comenius University, Bratislava,
Slovakia) for taking the SEM micrographs. We are very grateful to Janka Polakova, Tana
Ktidelova (Comenius University, Bratislava, Slovakia) and Emmanuel D. Delocado (At-
eneo de Manila University, Philippines) for help in DNA isolation and amplification.
We would also like to thank the organizers of the 2018 Taxon Expedition to Temburong,
Iva Njunji¢, Menno Schilthuizen and Ferry Slik as well as all participating citizen scien-
tists, namely Angela Lynne Tucker, Brock Thomas Boslem, Michiel Dirk de Groot, Si-
mon Berenyi, Alfie Edward Andras Berenyi, Anthony Eales, William Curtis Hayden and
UBD students Agilah Shyagifah, Raf’ah Jambul, Army Limin, and assistants Werner de
Gier and Clister Pangantihon for their active involvement in material collection, sorting
and examination. We thankfully acknowledge that the participation of Clister Pangan-
tihon was made possible by an Ateneo de Manila University Internationalization Grant.

Hiroyuki Yoshitomi (Ehime University, Tarumi, Japan) and Mariano Michat (Uni-
versity of Buenos Aires, Buenos Aires, Argentina) read the manuscript; their comments
are acknowledged.

This study was partly supported by the Slovak Research and Development Agency,
Project APVV-15-0147 and VEGA project 2/0101/16.

References

Berthélemy C (1967) Description de deux larves de Limnius et remarques sur la systématique et
la répartition du genre (Coleoptera, Elminthidae). Annales de Limnologie 3(2): 253-266.
https://doi.org/10.1051/limn/1967002

Berthélemy C (1979) Elmidae de la region paléarctique occidentale: systématique et répartition
(Coleoptera Dryopoidea). Annales de Limnologie 15(1): 1-102. https://doi-org/10.1051/
limn/1979014

Bian D, Guo C, Ji L (2012) First record of Ancyronyx Erichson (Coleoptera: Elmidae) from Chi-
na, with description of a new species. Zootaxa 3255(1): 57-61. https://doi.org/10.11646/
zootaxa.3255.1.4

Brown HP (1972) Aquatic dryopoid beetles (Coleoptera) of the United States. Biota of fresh-
water ecosystems identification manual no. 6. Water Pollution Control Research Series,
EPA, Washington D.C., 82 pp. https://doi.org/10.5962/bhl.title.4106

Darriba D, Taboada GL, Doallo R, Posada D (2012) jModel'Test 2: more models, new heuristics
and parallel computing. Nature Methods 9(8): 772. https://doi.org/10.1038/nmeth.2109

Ancyronyx clisteri, a new Spider Riffle Beetle species from Borneo 63

Folmer O, Black M, Hoeh W, Lutz R, Vrijenhoek R (1994) DNA primers for amplification of
mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Mo-
lecular Marine Biology and Biotechnology 3: 294-299.

Freitag H (2012) Ancyronyx jaechi sp.n. from Sri Lanka, the first record of the genus Ancyronyx
Erichson, 1847 (Insecta: Coleoptera: Elmidae) from the Indian Subcontinent, and a world
checklist of species. Zootaxa 3382(1): 59-65. https://doi.org/10.11646/zootaxa.3382.1.6

Freitag H (2013) Ancyronyx Erichson, 1847 (Coleoptera, Elmidae) from Mindoro, Philippines,
with description of the larvae and two new species using DNA sequences for the assignment of
the developmental stages. ZooKeys 321: 35-64. https://doi.org/10.3897/zookeys.321.5395

Freitag H, Balke M (2011) Larvae and a new species of Ancyronyx Erichson, 1847 (Insecta, Co-
leoptera, Elmidae) from Palawan, Philippines, using DNA sequences for the assignment of
the developmental stages. ZooKeys 136: 47-82. https://doi.org/10.3897/zookeys.321.5395

Freitag H, Jich MA (2007) The genus Azcyronyx Erichson, 1847 (Coleoptera, Elmidae) in
Palawan and Busuanga, (Philippines) with description of six new species. Zootaxa 1590:
37-59. https://doi.org/10.11646/zootaxa.1590.1.2

Freitag H, Kodada J (2017a) A taxonomic review of the genus Ancyronyx Erichson, 1847 from
Sulawesi (Insecta: Coleoptera: Elmidae). Journal of Natural History 51(9-10): 561-606.
https://doi.org/10.1080/00222933.2017.1285447

Freitag H, Kodada J (2017b) Larvae of Ancyronyx Erichson, 1847 (Insecta: Coleoptera: Elmi-
dae) from Sulawesi, using DNA sequences for the assignment of the larval stages. Zootaxa
4299(1): 121-130. https://doi.org/10.11646/zootaxa.4299.1.6

Hammer @, Harper DAT, Ryan PD (2001) PAST: Paleontological Statistics software package
for education and data analysis. Palaeontologia Electronica 4: 1-9. http://palaeo—electroni-
caorg/2001_1/past/issuel_01.htm

Hayashi M, Yoshitomi H (2015) Endophallic structure of the genus Zaitzeviaria Nomura (Co-
leoptera, Elmidae, Elminae), with review of Japanese species. Elytra, Tokyo, New Series
5(1): 67-96.

Jach MA (1984) Die Koleopterenfauna der Bergbache von Siidwest—Ceylon (Col.). Archiv fur
Hydrobiologie, Supplementum 69(2): 228-332.

Jach MA (1994) A taxonomic review of the Oriental species of the genus Ancyronyx Erich-
son, 1847 (Coleoptera, Elmidae). Revue suisse de Zoologie 101: 601-622. https://doi.
org/10.5962/bhlI.part.79919

Jach MA (2003) Ancyronyx Erichson: new faunistic records, and description of a new spe-
cies from Sulawesi (Indonesia) (Coleoptera: Elmidae). Koleopterologische Rundschau 73:
255-260.

Jach MA (2004) Descriptions of two new species of Ancyronyx Erichson (Insecta: Coleoptera:
Elmidae). Annalen des Naturhistorischen Museums in Wien (Ser. B) 105: 389-395.

Jach MA, Kodada J, Brojer M, Shepard WD, Ciampor Jr F (2016) Coleoptera: Elmidae and
Protelmidae. World Catalogue of Insects, Volume 14. Brill, Leiden, XXI + 318 pp. https://
doi.org/10.1163/9789004291775

Knie J (1977) Okologische Untersuchungen der Kaferfauna von ausgewahlten FlieSgewassern
des Rheinischen Schiefergebirges (Insecta: Coleoptera). Decheniana. Verhandlungen des
Naturhistorischen Vereins der Rheinlande und Westfalens 130: 151-221.

64 Jain Kodada et al. / ZooKeys 912: 25-64 (2020)

Knie J (1978) Untersuchungen an Elmis maugetii var. hungarica var.n. und ihre Abgrenzung
gegentiber Elmis maugetii Latreille, 1798 und Elmis maugetii var. megerlei (Duftschmid,
1805) (Coleoptera: Dryopoidea). Folia Entomologica Hungarica 31: 61-67.

Kodada J, Jach MA, Ciampor Jr F (2014) Ancyronyx reticulatus and A. pulcherrimus, two new
riffle beetle species from Borneo, and discussion about elmid plastron structures (Coleop-
tera: Elmidae). Zootaxa 3760(3): 383-395. https://doi.org/10.11646/zootaxa.3760.3.5

Kodada J, Jich MA, Ciampor Jr F (2016) 19.2. Elmidae Curtis, 1830. In: Beutel RG, Leschen
RAB (Eds) Coleoptera, Beetles. Volume 1: Morphology and Systematics (Archostemata,
Adephaga, Myxophaga, Polyphaga partim), Handbook of Zoology, Arthropoda: Insecta
(2"4 edn). Walter de Gruyter, Berlin, 561-589.

Kumar S, Stecher G, Tamura K (2016) MEGA7: Molecular evolutionary genetics analysis ver-
sion 7.0 for bigger datasets. Molecular Biology and Evolution 33: 1870-1874. https://doi.
org/10.1093/molbev/msw054

Lawrence JF, Slipiriski A (2013) Australian beetles. Volume 1: morphology, classification and
keys. CSIRO, Collingwood, 561 pp. https://doi.org/10.107 1/9780643097292

Steffan AW (1963) Beziehungen zwischen Lebensraum und K6rpergréfe bei mitteleuropai-
schen Elminthidae (Coleoptera: Dryopoidea). Zeitschrift fiir Morphologie und Okologie
der Tiere 53: 1-21. https://doi.org/10.1007/BF00408496

Steffan AW (1964) Biozénotische Parallelitét der Kérpergréfe bei mitteleuropaischen EI-
minthidae (Coleoptera: Dryopoidea). Naturwissenschaften 51(1): 20-21. https://doi.
org/10.1007/BF00601735

Supplementary material |

Table S1

Authors: Jan Kodada, Manfred A. Jach, Hendrik Freitag, Zuzana Ciamporova-

Zatovicova, Katarina Goffova, David Selnekovié, Fedor Ciampor Jr

Data type: measurement.

Explanation note: Pairwise genetic distance among specimens of Ancyronyx and Grap-
helmis species (Kimura 2-parameter distance) based on the 661bp barcoding frag-
ment of the COI gene.

Copyright notice: This dataset is made available under the Open Database License
(http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License
(ODbL) is a license agreement intended to allow users to freely share, modify, and
use this Dataset while maintaining this same freedom for others, provided that the
original source and author(s) are credited.

Link: https://doi.org/10.3897/zookeys.912.47796.suppl1