Alpine Entomology 4 2020, 129-138 | DOI 10.3897/alpento.4.50597
> PENSUFT.
7
Alpine Entomology
A new species of Cincticostella (Ephemeroptera, Ephemerellidae)
from China
Chonlakran Auychinda!, David Muranyi*%, Weihai Li*, Michel Sartori?®, Jean-Luc Gattolliat®®
1 Animal Systematics and Ecology Speciality Research Unit (ASESRU), Department of Zoology, Faculty of Science, Kasetsart University,
Bangkok 1090, Thailand
nN oO FW DY
http://zoobank.org/5C92D79F -984A -4465-S844E-C0E08B41E903
Corresponding author: Jean-Luc Gattolliat (jean-luc.gattolliat@vd.ch)
Department of Zoology, Eszterhazy Karoly University, Leanyka u. 6, H-3300 Eger, Hungary
Department of Zoology, Hungarian Natural History Museum, Baross u. 13, H-1088 Budapest, Hungary Department of Plant Protection, Henan Institute of Science and Technology, Xinxinag, Henan 453003, China Museum of Zoology, Palais de Rumine, Place Riponne 6, CH-1005 Lausanne, Switzerland
University of Lausanne (UNIL), Department of Ecology and Evolution, CH-1015 Lausanne, Switzerland
Academic editor: Stefan Schmidt # Received 29 January 2020 # Accepted 30 March 2020 Published 16 June 2020
Abstract
Cincticostella tornata, anew species of Ephemerellidae, is described from China. It belongs to the insolta-species group and 1s close- ly related to C. femorata. It is hitherto only known from its type locality in central China, more than 1000 km northern to the known distribution of C. femorata. In addition, the CO/ barcode of the new species is provided.
Key Words
Cincticostella femorata, Cincticostella tornata, COI, mayflies
Introduction
Cincticostella was established by Allen (1971) as a subge- nus of Ephemerella Walsh, 1862, then raised to the gener- ic level the following year (Tshernova 1972). It currently encompasses 17 valid species (Kluge 2019). They are dis- tributed in eastern Palearctic and Oriental regions, includ- ing China, India, Japan, Nepal, Thailand and Vietnam. In China, nine species were until now reported: C. colossa Kang & Yang, 1995, C. elongatula (McLachlan, 1875), C. femorata (Tshernova, 1972), C. fusca Kang & Yang, 1995, C. gosei (Allen, 1975), C. insolta (Allen, 1971), C. levanidovae (Tshernova, 1952), C. nigra (Ueno, 1928), C. orientalis (Tshernova, 1952) ) (Xie et al. 2009). The larvae can be identified by having the pronotum with a promi- nent anterolateral projection, the mesothorax with a pair of large wide anterolateral processes, abdominal tergites with paired dorsal tubercules and lamellate imbricate gills on segments III to VII (Allen 1971; 1975). Allen (1975) divid-
ed Cincticostella in two species groups: the insolta-group and the nigra-group. The insolta-group is characterized by suboccipital head tubercles and the mid and hindfem- ora enlarged with characterized protuberances, so-called chalazae (Jacobus and McCafferty 2008). A new subgenus of Cincticostella, Rhionella Allen, 1980, was subsequent- ly established for this species-group (Allen 1980). Jaco- bus and McCafferty (2008) recognized the monophyly of this species-group, but they considered Rhionella as strict synonym of Cinsticostella to avoid rendering the rest of Cincticostella paraphyletic. In his non-ranking phylogeny of Ephemeroptera, Kluge (2004) still considered Rhionel- la as valid and Cincticostella as a “plesiomorphon”’, 1.e. a taxon only defined by plesiomorphies.
Cincticostella femorata (Tshernova, 1972) was orig- inally described from Vietnam based on a single larva. It was assigned to Asiatella Tshernova, 1972, but was transferred to Cincticostella as addendum in the same article (Tshernova 1972). This species appears highly de-
Copyright Chonlakran Auychinda etal. 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.
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rived within the inso/ta-group as the mid and hind femora are greatly flattened with strong chalazae on dorsal and sometimes ventral margins, and the prothorax is much broader than in related species. A closely related spe- cies, Cincticostella boja (Allen, 1975) was subsequently established for larvae from Thailand, described and fig- ured but unnamed by Gose (1969). The description was just translated from Gose (1969), and no material was examined by Allen (1975). He considered that C. boja was significantly different from other species and espe- cially from C. femorata by the quadrangular head, the presence of paired submedian tubercles on tergites II to X and the well-developed posterolateral projections on segments VII to EX (Allen 1975). Jacobus et al. (2005) examined five larvae from three different Thai localities. They compared the main morphological characters used by Allen (1975), as well as the number of denticles on claws and the relative density of hair-like setae on the caudal filaments and concluded that all specimens present important but intraspecific variations. They consequently considered C. boja as a junior synonym of C. femorata (Jacobus et al. 2005). Comparisons of original illustra- tions and descriptions of the two species as well as more recent illustrations of specimens attributed to C. femorata from China (Xie et al. 2009) and Thailand (Martynov et al. 2019) challenged this synonymy. The species is now considered as occurring in Vietnam, Thailand and China (Martynov et al. 2019; Xie et al. 2009).
We had the opportunity to examine material recently collected in China by two of us (DM and WL). Despite important similarities with C. femorata, part of the charac- ters did not match the original and subsequent descriptions of the species. We therefore consider that this material be- longs to a new species. The description of this new species may help to better understand the intra- and interspecific variability within C. femorata; in the future C. femorata may appear as a complex of closely related species.
Material and methods
Collecting
The specimens were collected with small sized aquatic net, during a field trip primarily focused on collecting Plecoptera. They were fixed in 75% ethanol on the field. Holotype and paratypes are kept in the MZL (Museum of Zoology, Lausanne, Switzerland), one paratype in the HNHM (Hungarian Natural History Museum, Budapest, Hungary), one paratype in HIST (Henan Institute of Sci- ence and Technology) as indicated in the text.
Morphological examination
All dissected specimens were entirely mounted on slides in Euparal medium. Drawings and pictures of body parts were made using an Olympus BX51 stereoscopic micro- scope with a camera lucida or a digital camera Olympus
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Chonlakran Auychinda et al.: A new species of Cincticostella
SC50. Extended depth of focus images were obtained using the software Stream Basic 1.9.4. Pictures of the whole larval body were taken with the Visionary LK sys- tem (Dun., Inc., USA). Pictures and drawings were sub- sequently enhanced with Adobe Photoshop CC2015.
Genetics
DNA of part of the specimens was extracted using non-de- structive methods allowing subsequent morphological analysis (see Vuataz et al. 2011 for details). We ampli- fied a 658 bp fragment of the mitochondrial gene cyto- chrome oxidase subunit 1 (COI) using the primers LCO 1490 (GGTCAACAAATCATAAAGATATTGG) | and HCO 2198 (TAAACTTCAGGGTGACCAAAAAAT- CA) (Folmer et al. 1994). The polymerase chain reaction was conducted with an initial denaturation temperature of 98 °C for 30 sec followed by a total of 37 cycles with de- naturation temperature of 98 °C for 10 sec, an annealing temperature of 50 °C for 30 sec and an extension at 72 °C for 30 sec, final extension at 72 °C for 2 min. Sequencing was done with Sanger’s method (Vuataz et al. 2011). The genetic variability between specimens was estimated us- ing Kimura-2-parameter distances (K2P), calculated with the program MEGA 7 (Kumar et al. 2016).
Results
Cincticostella tornata Auychinda & Gattolliat, sp. nov. http://zoobank. org/8230C SFE-CB09-4C40-A A D6-E163C6AC9986
Material. Holotype: China « Larva; Shaanxi, Hanzhong city, Foping county, Qinling Mts, slow forest brook in Panda valley; Alt. 1330m. 33°40.368'N, 107°58.327'E; 20 Apr. 2018; Coll. W.H. Li, R.R. Mo, D. Muranyi; MZL GBIFCH 00763636.
Paratypes: China « 5 larvae; same data as for holotype; 2L in alcohol GBIFCH 00673084; 1L on slide GBIFCH 00606852; 1L on slide used for DNA extraction GBIFCH 00654874 all deposited in MZL. 1L in alcohol deposited in HNHM. 1L in alcohol deposited in HIST.
Description. Larva: Body length 8.7—10.0 mm; cau- dal filaments length 8.0—9.0 mm. Body yellowish-brown.
Head: Covered with thin setae. One pair of small, round- ed protuberances between eyes. Genae quadrangular, well developed, angles rounded (Fig. 1). Antennae with scapus short, pedicellus as broad as long, flagellum of about 25 segments, first segment as long as next three segments.
Mouthparts: Labrum wide, apicolateral angle rounded; apicomedial emargination shallow, dorsal surface densely covered with long, hair-like setae and long stout flattened setae scattered over surface (Fig. 2A); ventral surface with numerous, long, stout, hair-like setae laterally orientated; apical margin with numerous feathered setae and very thin hair-like setae (Fig. 2B). Mandibles with numerous, hair- like setae on 2/3 proximal of dorsal and lateral surfaces (Figs 2C, D). Left mandible: outer incisor composed of
Alpine Entomology 4 2020, 129-138
Figure 1. Cincticostella tornata: A habitus in dorsal view; B habitus in ventral view. Scale bar: 1 mm.
three teeth, two outer teeth stout, broad, apically rounded stout rectangular prostheca with bunch of hair-like setae and one small, blunt tooth; inner incisor with one main — on inner side (Fig. 2E). Right mandible: outer incisor stout, apically pointed tooth and one inner vestigial tooth; | composed of two spoon-shaped teeth, outer tooth longer
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BZ Chonlakran Auychinda et al.: A new species of Cincticostella
Figure 2. Cincticostella tornata: A dorsal view of labrum; B ventral view of labrum; C left mandible; D right mandible; E left mandibular canine; F right mandibular canine; G maxilla; H crown of maxilla; I labium; J hypopharynx. Scale bars: 0.1 mm (A—D, G-I, J); 0.05 mm (E, F, H).
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than inner; inner incisor composed of two apically pointed teeth, orientated perpendicularly to outer incisor; prostheca consisting of numerous hair-like setae (Fig. 2F); eight hair-like setae on margin below mola (Fig. 2D). Maxilla: apex with transformed ventral canine typical of genus (Kluge 2004); two dentisetae with serrated inner margin; apex of maxilla surface with numerous, long, stout, hair- like setae, some with serrated inner margin; inner margin of galealacinia with 3-4 rows of long, stout, simple setae; 10-12 feathered, stout setae roughly arranged in a row near base of galealacinia surface (Fig. 2G, H). Maxillary palp: three segmented; segments partially fused; segment I slightly longer than half of segments IT and II combined; segment III short, pointed, with few thin setae on apex (Fig. 2G, H). Labium with glossae semicircular, almost two times longer than broad; ventral surface of glossae covered with long, stout, simple setae; dorsal surface with an arc of long simple setae parallel to outer margin; glossae protruding over apices of paraglossae; paraglossae semicircular, dorsal surface covered with numerous long stout simple setae, ventral surface with flame-like setae. Ventral surface of mentum and submentum mostly covered with flame-like setae. Labial palp three-segmented; segments I and II equal in length, covered with long, hair- like setae; segment IT crescent shaped, outer margin with spine-like long setae and long hair-like setae, inner margin covered with numerous long thin setae; segment II conical, two times longer than broad at base, apex covered with short thin setae (Fig. 21). Hypopharynx: surface of lingua covered with short setae, most abundant in apical part; apices of superlinguae rounded with numerous hair- like setae (Fig. 2J).
Thorax: dorsal surface covered with scattered small thin setae. Pronotum: broad projection anterolaterally enclosing head, margin rounded except concave apical- ly (black arrow tip on Fig. 3A); projections covered with long hair-like setae; laterally with short flame-like setae. Mesonotum: broad, large, rounded anterolateral projec- tion, covered with long hair-like setae; laterally with short flame-like setae; small pair of triangular protuberances between forewing pads (white arrow tips on Fig. 3A). Forelegs: moderately expanded; length ratio of femur : tibia : tarsus = 2.9 : 2.4: 1. Forefemora: dorsal surfac- es cover with long hair-like setae; dorsal margin slightly concave, with dense setae and with only three blunt cha- lazae near distal angle; ventral margin with dense setae without serration; apex with one ventral and one dorsal well-developed extension (Fig. 4A). Foretibiae complete- ly covered with long hair-like setae and short stout se- tae, apex of ventral margin produced and covered with a bunch of dense, long, thin setae. Foretarsi covered with long hair-like setae, ventral margin with stouter longer feathered setae. Foreclaws hooked with a row of four triangular teeth, two proximal teeth closer to each others (Fig. 4D). Mid legs: greatly expanded; length ratio of fe- mur : tibia : tarsus = 3 : 2.7: 1. Mid femora: dorsal surface cover with hair-like setae; ventral margin with dense se- tae and four serrated chalazae in proximal half of femora,
1.33
ending with a well-developed triangular pointed process; dorsal margin with dense setae and eight chalazae pro- gressively larger (Fig. 4B). Mid tibiae similar to foretib- iae except setae less abundant and short flame-like setae on dorsal margin and apically. Mid tarsi: ventral margin with setae not feathered. Mid claws similar to foreclaws. Hind legs: greatly expanded; length ratio of femur : tibia : tarsus = 4.2 : 3.2 : 1; hind femora similar to mid femo- ra except chalazae of ventral and dorsal margins: ventral margin with three chalazae medially; dorsal margin with 12 chalazae along margin and progressively larger (Fig. 4C). Hind tibiae and hind tarsi similar to mid tibiae and mid tarsi, respectively. Hind claws similar to foreclaws.
Abdomen: surface of tergites covered with hair-like setae and few stout flame-like setae, absent laterally on tergites IV to LX; distal margin smooth without spines. Tergites I-X with a pair of tubercles, minute on tergites I-III and X (Fig. 4E); highly developed on tergites [V-IX (Fig. 3B): arched, acute tubercles covered with medium setae (Fig. 3C). Sternites densely covered with medium setae; distal margin smooth without spines. Triangular, slender distolateral expansions present on abdominal segments I to EX, highly developed on segments IV to IX, covered with dense flat medium and hair-like setae. Gills present on segments III to VII (Fig. 3E—I); upper lamellae dorsally densely covered with flame-like setae, upper lamellae of gills HII to V subrectangular, of gills VI roughly paddle-like, of gills VII suboval and reduced; lower lamellae bifurcate with marginal processes, bilobed on gills III to V, simple on gills VI and VI. Paracercus subequal in length to cerci; cerci and paracercus densely covered with hair-like setae, apex of each segment with very long, flattened setae (Fig. 3D).
Adults. Unknown.
Etymology. The Latin word “tornata” means rounded, in reference to the genae and anterolateral projection of mesonotum.
Diagnosis. Cincticostella tornata sp. nov. differs from closely related species of the inso/ta-group by the follow- ing combination of characters: 1) glossae protruded be- yond apices of paraglossae; 2) genae extended with round apex; 3) anterolateral projection of pronotum pointed with a concave margin; 4) mesothorax with broad, round- ed proximolateral expansion; 5) number and degree of development of chalazae on ventral and dorsal margins of mid and hind femora; 6) degree of development of api- coventral projection on ventral margin of fore-, mid and hind femora; 7) apicolateral projection of tergite [X well developed exceeding 1/3 of tergite X.
Distribution. The new species is only known from the type locality located in the Qinling mountains (Shaanxi province, close to Hanzhong city). This mountain range is considered as a natural boundary between South and North China and between the Palaearctic and Oriental realms (Fig. 5). A huge diversity of plant and animals is considered as endemic from this area, among others a subspecies of the giant panda (Ai/uropoda melanoleuca qinlingensis) and the golden snub-nosed monkey
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134 Chonlakran Auychinda et al.: A new species of Cincticostella
Figure 3. Cincticostella tornata: A thorax (black arrow tip: concave apical margin of prothorax; white arrow tips: small pair of tri- angular protuberances between forewing pads); B abdomen; C tergites VI-VII; D cercus; E-I gills of segments II-VI respectively. Scale bars: 1 mm (A, B); 0.25 mm (C-I).
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4 ae
135
a: Day
Figure 4. Cincticostella tornata: A forefemur,; B mid femur; C hind femur; D forefemur claw; E tergite X. Scale bars: 0.2 mm
(A-C): 0.1 mm (D, E).
(Rhinopithecus roxellana). At our present state of knowledge, it is not possible to know if Cincticostella tornata sp. nov. is endemic to this mountain range or 1s more widely distributed through China.
Habitat. The larvae were found in a small forest brook of relatively slow current. Maximum width of the brook is about 1.5 meter; depth varies between 10 and 30 centime- tres. The substrate is mostly stony and sandy, mixed with silty patches and a moderate amount of debris. Accompa- nying fauna included two Holarctic genera of mayflies, Baetis (Baetidae) and Ameletus (Ameletidae), as well as the stoneflies Rhopalopsole basinigra Yang & Yang, 1995, Spaeronemoura grandicauda (Wu, 1973), Nemou- ra sp., and two species recently described from the same
area, namely Amphinemura albicauda Li, Mo, Dong, Yang & Muranyi, 2018 and Amphinemura dingoidea Li, Mo, Dong, Yang & Muranyi, 2018 (Li et al. 2018). Molecular results. A sequence of 658 bp, corre- sponding to the usual fragment of the CO/J gene, was obtained. The sequence was deposited in GenBank (Ac- cession number: MT254050). It was compared to other known sequences found in databases such as GenBank and BOLD. The closest sequence corresponds to a North America Ephemerellidae (Drunella walker (Eaton, 1884)) with less than 83% of identity. Around twenty se- quences were found with a percentage of identity com- prising between 80 and 83, most of them belonging to the families Ephemerellidae and Caenidae. K2P distance
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mee
Chonlakran Auychinda et al.: A new species of Cincticostella
— A C. tornata sp. nov. " @ Gose 1969 @ Jacobus et al. 2005 ~S @ Tshernova 1972
a, Martynov et al. 2019
Figure 5. Map distribution of C. femorata and C. tornata. C. femorata represented by green circle (Gose 1969), blue circle (Tsher- nova 1972), gray circle (Jacobus 2005) and yellow square (Martynov et al. 2019); C. tornata represented by red triangular. Local- ities of C. femorata in China are not reported on the map as the species was mentioned from China by Xie et al. 2009 but without
further information.
was also calculated with a sequence of Cincticostella go- sei from Thailand (collected and sequenced by the first author, GenBank accession number: MN186574.1). The distance between the two species was estimated to 21.6% (meaning only 78.4% of identity).
Discussion Within the inso/ta-group, C. femorata and C. tornata
share two presumably derived characters, namely the
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anterolateral expanded prothorax and the extremely flat- tened mid and hind femora. The degree of development, the position and the orientation of the tubercles on the abdominal tergites of C. tornata are different from oth- er species of the group. However, these characters must be considered with caution as it was recently demon- strated in a species of Notacanthella Jacobus and Mc- Cafferty, 2008. Two morphotypes were present based on the shapes of the tubercles, but these intraspecific variabilities mainly correspond to different ontogenic stages (earlier stages having more prominent tubercles)
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137,
Table 1. Larval character comparisons of C. femorata and C. tornata.
Characters C. femorata C. femorata (Martynov| C. femorata = C. boja | Cincticostella tornata sp. nov. (Tshernova 1972) —) (Gose 1969)
Labium Glossae not protruding
beyond paraglossae
Glossae not protruding} Glossae protruding beyond beyond paraglossae paraglossae
Maxillary canine Well-developed, sharp, -
Reduced, length less Reduced, length less than
conical than width width Chalazae: dorsal/ 3/none 3/none None/none 3/none ventral margin of forefemora Chalazae: dorsal/ 4/none 9/none 7/3 9/6 ventral margin of mid femur Chalazae: dorsal/ 11/none 9/none dba 12/4
ventral margin of hind femur
Anterolateral projection of
Broad, apically blunt, convex below tip
pronotum small teeth Genae Extended with a Extended with a
rounded apex
Broad, apically blunt, convex below tip
rounded apex
Broad, apically pointed, concave below tip Somewhat hooked, 3-4 small teeth Extended, with a little | Extended with a rounded apex
corner
Broad, apically pointed, concave below tip
Hooked, 4 teeth
Prostheca right - -
Well-developed with a Reduced with a bunch of
mandible bunch of simple setae simple setae Prostheca left Well-developed, Well-developed, Well-developed, rounded with a mandible conical with a bunch Slender with a bunch bunch of simple setae
of simple setae IV-IX
Posterolateral II-X projection of abdominal tergites
Lateral projection
Moderately developed,
Well-developed,
of simple setae I|-X I-X
Well-developed Well-developed extended
of tergite IX not extended beyond extended beyond extended equally beyond tergite X tergite X tergite X tergite X Cerci High density of long - Low density of short | Low density of medium hair-
hair-like setae
Small occipital Present
spines on head Distribution
(Auychinda et al. 2020). As already mentioned, C. fem- orata and C. tornata only differ by minute characters which may be easily overlooked. In particular, when us- ing the keys to identify species of Cincticostella (Allen 1975; Xie et al. 2009), one will arrive to C. femorata without discrepancies. This easily explains why all the larvae with expanded prothorax, flattened femora and developed genae were previously identified as C. fem- orata. A global revision involving all available materi- al from South East Asia is highly recommended for the species delimitation of C. femorata, including the con- firmation or rejection of the synonymy of C. boja with C. femorata as well as the correct attribution of the ma- terial from South and Central China to one of these spe- cies. This revision should be ideally based on integrative taxonomy, especially by using both morphological and molecular evidences. The comparison of the characters in the closely related species is summarized in Table 1. Noteworthy, the imagos all these taxa remain unknown. The recent discovery and description of imaginal C. fus- ca revealed that male genitalia (penes and gonopods), tergite pattern and pigmentation of hind wings are re-
Thailand Thailand
hair-like setae like setae Present Present China
liable characters to distinguish the different species of Cincticostella (Zhang et al. 2020). We may expect that imaginal characters will confirm the separation and va- lidity of these closely related species.
The type-locality of C. tornata is located 1200 km north to those of C. femorata and 2350 km north to those of C. boja (1700 km north to the closest report from Thailand) (Martynov et al. 2019). These long dis- tances may explain the differences observed between taxa and may be the results of vicariant speciation. Xie et al. (2009) indicated that Cincticostella species were frequently collected in the recent years (meaning prob- ably during the first decade of this century). However, they did not indicate where in China C. femorata was found and how widespread the species 1s. It will be of first interest from a biogeographic point of view to prop- erly identify this material. This will allow the clarifica- tion of the distribution of C. femorata in China and may also clarify the distribution of C. tornata. It is also not excluded that collected specimens mentioned by Xie et al. (2009) partly belong to C. tornata or even to a still undescribed species.
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Acknowledgements
This research was made possible by facilities and assis- tances of Museum of Zoology, Lausanne, Switzerland to the first author. We are most grateful to Assoc. Prof. Dr Boonsatien Boonsoong and our colleagues for assistance during the stay of the first author in Lausanne. CA would like to thank the Development and Promotion for Science and Technology talents project (DPST) for a short-term research scholarship in the MZL. We thank Marion Po- dolak for providing the molecular sequence. We want to sincerely thank Arnold Staniczek and Erikcsen Raimundi for their valuable comments on the manuscript.
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