4,182 research outputs found

    Copelatus deccanensis Sheth & Ghate & Hájek 2018, sp. nov.

    No full text
    Copelatus deccanensis sp. nov. (Figs 1–2, 17–18) Type locality. India, Maharashtra, Pune district, ca. 4 km SSW of Lonavala village, Bhushi dam, 18°43.2-4′N, 73°23.7-24.0′E, ca. 640 m a.s.l. Type material. Holotype ♂ (NMPC), labelled: "INDIA W, 24.–28.ix.2005, / Maharashtra st., 4 km S of / Lonavala, Bhushi dam env., / 500 m, J.Bezděk leg. [printed] // HOLOTYPE / COPELATUS / deccanensis sp. nov. / S. Sheth et al. det. 2016 [red label, printed]". Paratypes: 14♂, 13♀, same label data as holotype (BMNH, JSCL, NHMW, NMPC, UWPC, ZSMG); 10♂, 10♀, labelled: "INDIA occ. Maharashtra st. / Bhushi Dam env. 24–28.ix. / 4 km S of Lonavala 2005 / leg.F.&L.Kantner 500 m [printed]" (NMPC, SMNS); 1♂, 1♀, labelled: "INDIA W, 7.–11.x.2005 / Maharashtra state, / 40 km W of Pune, / Mulshi env. / J. Bezděk leg. [printed]" (NMPC); 1♂, 2♀, labelled: "INDIA, Maharashtra / Pune Distr., Mulshi at / Mulshi Lake, 7–8 X 2005 / at light, leg. L. Borowiec [printed]" (NMPC); 3♀, labelled: "INDIA occ., 7–11.x.2005 / Maharashtra state / MULSHI env.F.Kantner leg. / 40 km W of Pune [printed]" (SMNS); 1♀, labelled: "India / Maharashtra st., / Tamhini, Kalubai Mandir / 18°27′38.95″N, 73°24′41.89″E, 570m / 27.VIII.2013 / coll. S. D. Sheth [printed]" (HVGC); 4♂, 7♀, labelled: "India / Maharashtra st., / Tamhini, 18°26′41.50″N, 73°25′39.72″E, 625m / 29.X.2014 / coll. S. D. Sheth [printed]" (HVGC); 2♂, 1♀, labelled: "INDIA, Maharashtra / TAMHINI / 18°23′54.6″N 73°23′47.3″E / 29.x.2014 [printed]" (HVGC); 1♂, 1♀, labelled: "India / Maharashtra st., / Tamhini, Dongerwadi stream / 18°27′38.95″N, 73°24′41.89″E, 570m / 1.X.2015 / coll. S. D. Sheth [printed]" (HVGC); 7♂, 6♀, labelled: "India / Maharashtra st., / Harishchandragad fort / 19°23′26.37″N, 73°46′15.09″E, 1213m / 20.X.2013 / S.D. Sheth leg. [printed]" (HVGC, NMPC); 4♂, 5♀, labelled: "India / Maharashtra st., / Alanggad fort / 19°34′59.88″N, 73°39′39.26″E, 1175m / 9.I.2014 / coll. N. Modak [printed]" (HVGC); 2♂, 2♀, labelled: "India / Maharashtra st., / Madangad fort / 19°35′23.48″N, 73°38′57.63″E, 1151m / 10.I.2014 / coll. N. Modak [printed]" (HVGC); Each paratype provided with the respective red printed label. Description of male holotype. Habitus (Fig. 1) elongate oblong oval, nearly parallel sided with continuous outline, broadest in 1/3 of elytral length, slightly convex. Dorsal surface shiny. Coloration. Head rufous, darker (almost blackish) around eyes and medially between eyes, lighter on clypeus, labrum and medially on vertex. Pronotum rufous, infuscate on disc, lighter laterally. Elytra testaceous, somewhat darker in striae; numerous dark punctures present along basal and apical parts of elytral striae 1–5, and along sides of elytra. Ventral part rufous; abdomen dark. Appendages testaceous. Head. Moderately broad, ca. 0.7× width of pronotum, transversely elliptical. Labrum emarginate medially. Anterior margin of clypeus slightly concave. Antennae with antennomeres slender, club-shaped, antennomere I longest. Eyes emarginate anterolaterally. Reticulation consisting of fine, well impressed isodiametric polygonal meshes. Numerous short, deep and isolated strioles present between eyes. Punctation double; several large setigerous punctures present in fronto-clypeal depressions, frontal depressions at level of anterior margin of eyes, and in depressions along inner margin of eyes; very fine and sparsely distributed punctures placed among meshes of microreticulation. Pronotum. Transverse, broadest at posterior angles. Anterior angles acute, posterior angles rectangular. Sides slightly and evenly curved, with lateral beading very thin and indistinct. Anterior margin straight, posterior margin nearly straight with only indistinct sinuation medially. Reticulation similar to that of head, but slightly less impressed. Disc of pronotum with numerous deep irregular strioles of variable length. Punctation double; row of coarse setigerous punctures presents along anterior margin, basal margin (except medially), and laterally close to sides; fine punctures placed among meshes of microreticulation, denser than on head. Scutellar shield broadly triangular. Elytra. Elytral striation consisting of twelve discal striae: stria 1 shorter, ending at ca. 4/5 of elytral length; stria 2 longest; striae 7, 9 and 12 shorter apically, ending at ca. 3/4–4/5 of elytral length; stria 11 shortest, beginning more posteriorly than other striae and present only in basal third of elytral length. Surface reticulation consisting of fine, shallowly impressed isodiametric polygonal meshes. Punctation double; few large setigerous punctures present along elytral striae, but predominantly along lateral margin of elytra; very fine, sparsely distributed punctures placed among meshes of microreticulation, similar to those on pronotum. Legs. Protibia modified, angled near base, distinctly broadened anteriorly, club shaped. Pro- and mesotarsomeres 1–3 distinctly broadened, ventrally with adhesive setae. Ventral side. Prosternum sinuate anteriorly, obtusely keeled medially. Prosternal process shortly lanceolate, in cross-section convex, apex obtuse; process distinctly bordered laterally; reticulation almost effaced except some superficial meshes apically. Metaventrite with microsculpture consisting of polygonal meshes; numerous short, oblique, deep strioles present laterally but absent medially; lateral parts of metaventrite ('metasternal wings') tongue-shaped, slender. Metacoxal lines well impressed, nearly complete—absent only close to metaventrite. Metacoxal plates covered with long, deep longitudinal strioles; reticulation consisting of extremely elongate, longitudinal polygonal meshes. Metacoxal processes rounded and incised at posterior margin. Abdominal ventrites I–II with longitudinal strioles; ventrites III–IV with oblique strioles laterally. Tuft of setae present antero-medially on ventrites III–V; ventrite VI with setigerous punctures laterally on either side. Abdominal reticulation consisting of elongate polygonal meshes, longitudinal on ventrites I–II, oblique on ventrite III and transverse on ventrites IV– VI. Punctation consisting of fine, sparsely distributed punctures. Male genitalia. Median lobe in lateral aspect broad in basal 3/4, then narrowing to pointed apex; almost evenly curved except at base (Fig. 17). A fold present till subapical region. Parameres 'D'-shaped, apex very narrow and long; apical lobe long (Fig. 18). Female. Females do not differ in external morphology from male except for nearly straight, apically less broadened protibia, and slender pro- and mesotarsi without adhesive setae. Additionally, we have studied two females with elytral stria 11 absent, thus they have only eleven striae on each elytron. Variability. The specimens of the type series vary in coloration, especially infuscation of head and pronotum (from rufous to nearly black) and elytra (from testaceous to reddish brown). A form with longitudinal striolation on elytra occurs in both males and females of this species (Fig. 2): strioles long, often confluent, distinctly less impressed than striae; present between all striae, but missing in apical fourth of elytral length. Striolate form differs from the typical specimens also in strioles on the pronotum, which are usually longer and denser than those in nonstriolate form. Measurements (N = 31). TL: 5.3–6.9 mm (holotype: 6.1 mm); Tl-h: 4.8–6.4 mm (holotype: 4.9 mm); MW: 2.0–3.0 mm (holotype: 2.7 mm). Differential diagnosis. Based on the presence of 11–12 dorsal elytral striae and absent submarginal stria, the new species can be classified within the Copelatus nigrolineatus species group sensu Guéorguiev (1968). This group so far contains only five species (Nilsson & Hájek 2018): C. flavicans Guignot, 1952 and C. luctuosus Guignot, 1939 occurring in the Neotropical region, C. nigrolineatus Sharp, 1882 from Australia, C. zimmermanni Gschwendtner, 1934 distributed in China and Japan, and C. schuhi Hendrich & Balke, 1998 known so far only from Maharashtra (India). The new species differs from C. schuhi by its large size, 5.3–6.9 mm (body length ranges between 4.0– 4.5 in C. schuhi); elytral striae extending apically (elytral striae are missing the in apical third in C. schuhi); pale basal transverse elytral band absent (broad and distinct pale band present in C. schuhi); and the different shape of the median lobe, which is in lateral view, broad in the basal 3/4, then narrowing to a pointed apex (Fig. 17), and almost evenly curved except at the base (median lobe of C. schuhi is unevenly curved in lateral view, its outer margin is slightly sinuate; subapically broad; abruptly pointed at apex, see Fig. 19). Etymology. The new species is named after the Deccan plateau, a large volcanic basalt plateau in southern India, which covers most of the territory of Maharashtra state. Mani (1974) referred to Maharashtra as the 'Deccan Lavas Country'. The specific epithet is an adjective in the nominative case. Collecting circumstances. This species appears to inhabit isolated, clean water bodies. The specimens were collected in a side pool of a stream (Fig. 40), an ephemeral puddle with decaying leaves (Fig. 41) and muddy substrate, in remnant pools with pebbles as substrate formed in drying streams (Fig. 39); also in nearly permanent man-made tanks and small puddles (Fig. 42) on basaltic rocks. The physicochemical parameters of water bodies range as follows: pH: 6.2 to 9.0, temperature 18 to 25 0C and salinity 23 to 115 ppm. Distribution. The species was found in Pune, Nashik, Ahemadnagar districts of Maharashtra (Fig. 45). Collected within an altitude range of 500–1,215 m a.s.l.Published as part of Sheth, Sayali D., Ghate, Hemant V. & Hájek, Jiří, 2018, Copelatus Erichson, 1832 from Maharashtra, India, with description of three new species and notes on other taxa of the genus (Coleoptera: Dytiscidae: Copelatinae), pp. 235-260 in Zootaxa 4459 (2) on pages 237-243, DOI: 10.11646/zootaxa.4459.2.2, http://zenodo.org/record/145854

    Nearly-Doubling Spaces of Persistence Diagrams

    No full text
    The space of persistence diagrams under bottleneck distance is known to have infinite doubling dimension. Because many metric search algorithms and data structures have bounds that depend on the dimension of the search space, the high-dimensionality makes it difficult to analyze and compare asymptotic running times of metric search algorithms on this space. We introduce the notion of nearly-doubling metrics, those that are Gromov-Hausdorff close to metric spaces of bounded doubling dimension and prove that bounded k-point persistence diagrams are nearly-doubling. This allows us to prove that in some ways, persistence diagrams can be expected to behave like a doubling metric space. We prove our results in great generality, studying a large class of quotient metrics (of which the persistence plane is just one example). We also prove bounds on the dimension of the k-point bottleneck space over such metrics. The notion of being nearly-doubling in this Gromov-Hausdorff sense is likely of more general interest. Some algorithms that have a dependence on the dimension can be analyzed in terms of the dimension of the nearby metric rather than that of the metric itself. We give a specific example of this phenomenon by analyzing an algorithm to compute metric nets, a useful operation on persistence diagrams

    Sudev Sheth. Bankrolling empire: family fortunes and political transformation in Mughal India

    No full text
    Sudev Sheth. Bankrolling Empire: Family Fortunes and Political Transformation in Mughal India. Cambridge University Press, 2023. Pp. 379. Paper $39.99

    Copelatus maushomi Sheth & Ghate & Hájek 2018

    No full text
    Copelatus maushomi s p. nov. (Figs 4, 21–22) Type locality. India, Maharashtra, 120 km NE of Mumbai, Igatpuri environment, 19°42.3′N, 73°33.1′E, 600 m a.s.l. Type material. Holotype ♂ (NMPC), labelled: "INDIA occ. centr. / MAHARASHTRA prov. / 120 km NE of MUMBAI / IGATPURI env., 600m [printed] // INDIA 2002 Expedition / 19°42.17′N, 73°33.06′E / 1. – 12. VIII. 2002 / P.Šípek & M.Fikáček leg. [printed] // HOLOTYPE / COPELATUS / maushomi sp. nov. / S. Sheth et al. det. 2016 [red label, printed]" (NMPC). Paratypes: 4♂, 1♀ same data as holotype (LHCM, NMPC, ZSMG). Each paratype is provided with the respective red printed label. Description of male holotype. Habitus (Fig. 4) elongate oblong oval, nearly parallel sided; outline not continuous as pronotal posterior corners protrude; broadest in basal third of pronotum; very slightly convex. Dorsal surface matt due to dense striolation. Coloration. Dorsally almost uniformly testaceous; head slightly darker than pronotum and elytra, infuscate posterior to eyes; pronotum indistinctly infuscate on disc; elytra laterally and apically somewhat paler; appendages testaceous. Ventral part testaceous to brownish. Head. Moderately broad, ca. 0.6× width of pronotum, almost semicircular. Labrum medially emarginate. Anterior margin of clypeus slightly concave. Antennae with antennomeres slender, club-shaped, antennomere I longest. Eyes emarginate anterolaterally, small, eye width only ca. 0.1× width of head. Reticulation consisting of well impressed polygonal meshes; meshes slightly larger in anterior region. Rather long, longitudinal or oblique strioles present between eyes and on vertex. Punctation double; several large setigerous punctures present in fronto-clypeal depressions, frontal depressions at level of anterior margin of eyes, and in depressions along inner margin of eyes; very fine and sparsely distributed punctures placed among meshes of microreticulation, punctures denser posteriorly. Pronotum. Transverse, broadest in basal third. Anterior angles acute, posterior angles rectangular. Sides largely and evenly curved, with lateral beading very thin and indistinct. Anterior margin straight, posterior margin sinuate. Surface reticulation consisting of polygonal meshes, similar to that of head, but slightly less impressed. Disc of pronotum completely longitudinally striolate; strioles mostly long, well impressed, rarely confluent; few short, shallow strioles present between long strioles. Punctation double; row of coarse setigerous punctures present along anterior margin, basal margin (except medially), and laterally close to sides; fine punctures placed among meshes of microreticulation. Scutellar shield broadly triangular. Elytra. Elytral striation consisting of nine complete shallow discal striae; striae almost imperceptible due to dense striolation of elytra. Strioles very long, rarely confluent. Surface reticulation consisting of fine, shallowly impressed isodiametric polygonal meshes. Punctation consisting of setigerous punctures only, few punctures present along elytral striae, but predominantly apically and along lateral margin of elytra; fine punctures, due to dense striolation not perceptible. Legs. Protibia modified, angled near base, distinctly broadened anteriorly, club shaped. Pro- and mesotarsomeres 1–3 distinctly broadened, with four rows of adhesive setae on their ventral side. Ventral side. Prosternum sinuate anteriorly, obtusely keeled medially. Prosternal process shortly lanceolate, in cross-section convex, apex rounded; distinctly bordered laterally; reticulation or punctation absent. Metaventrite with microsculpture consisting of polygonal meshes; punctation imperceptible. Lateral parts of metaventrite ('metasternal wings') tongue-shaped, slender. Metacoxal lines well impressed, incomplete—absent in anterior fourth. Metacoxal plates covered with deep, longitudinal or oblique strioles; reticulation consisting of elongate, longitudinal polygonal meshes. Punctation on metacoxae absent. Metacoxal processes rounded and incised at posterior margin. Abdominal ventrites I–II with longitudinal strioles; ventrites III–IV with oblique strioles laterally, absent medially. Abdominal reticulation consisting of elongate polygonal meshes, longitudinal on ventrites I–II, oblique on ventrite III and transverse on ventrites IV–VI. Punctation consisting of fine punctures medially, and larger and deeper punctures laterally. Male genitalia. Median lobe in lateral aspect almost evenly curved; narrowing from base to pointed apex; broadest in middle (Fig. 21). A fold present till subapical region. Parameres more or less 'D'-shaped, slightly sinuate on outer margin, apex very narrow and long; apical lobe club-shaped (Fig. 22). Female. Females do not differ in external morphology from male except for nearly straight, apically less broadened protibia, and slender pro- and mesotarsi without adhesive setae. Variability. All specimens of the type series are rather uniform and vary only in extent of infuscation of head and pronotum. Measurements (N=5). TL: 4.6–5.0 mm (holotype: 4.8 mm); Tl-h: 4.2–4.5 mm (holotype: 4.4 mm); MW: 2.0– 2.1 mm (holotype: 2.0 mm). Differential diagnosis. Based on the presence of nine dorsal striae on the elytra, the new species can be tentatively classified within the Copelatus consors species group sensu Guignot (1961). This group so far contains eighteen species: 11 in the Afrotropical and seven in the Nearctic region (Nilsson & Hájek 2018). Copelatus maushomi sp. nov. does not seem to be related to any species of the C. consors group. With small eyes, pronotum distinctly broader than elytra, and elytra with dense striolation, the new species has very unique appearance within all known Copelatus species. The shape of the male median lobe suggests that the species may be related to Indian species of the C. nigrolineatus group— C. deccanensis sp. nov. and C. schuhi. Etymology. The species is named after the 'maushom'—a local name for the monsoon, indicating that the specimens were collected at the beginning of the monsoon season. The name is a noun in the genitive case. Collecting circumstances. The specimens were collected in small deep pools in a stony stream below a table mountain (Fig. 44). The place was visited at the beginning of the monsoon. Sudden large amount of water could have brought the specimens to the normal stream from less accessible habitat, e.g. wet gravels on the stream bottom or other interstitial water habitats (M. Fikáček, pers. comm. 2017). Distribution. The species is so far known only from the type locality (Fig. 45).Published as part of Sheth, Sayali D., Ghate, Hemant V. & Hájek, Jiří, 2018, Copelatus Erichson, 1832 from Maharashtra, India, with description of three new species and notes on other taxa of the genus (Coleoptera: Dytiscidae: Copelatinae), pp. 235-260 in Zootaxa 4459 (2) on pages 244-245, DOI: 10.11646/zootaxa.4459.2.2, http://zenodo.org/record/145854

    Performance versus cost analysis of WDM networks with dynamic traffic grooming capabilities

    No full text
    The objective of this paper is to compare three well-known WDM network architectures (first-generation, single-hop, and multi-hop) when they are deployed to accommodate dynamic end-to-end connections with sub-wavelength transmission rates. The comparison is based on a performance figure that is uniquely defined to take into account the various architecture costs determined by the cost of the deployed network elements. The defined performance figure permits also to compare the three architectures for all possible line-to-node cost ratio value

    Role of semantics in Autonomic and Adaptive Web Services & Processes

    No full text
    The emergence of Service Oriented Architectures (SOA) has created a new paradigm of loosely coupled distributed systems. In the METEOR-S project, we have studied the comprehensive role of semantics in all stages of the life cycle of service and process-- including annotation, publication, discovery, interoperability/data mediation, and composition. In 2002-2003, we had offered a broad framework of semantics consisting of four types:1) Data semantics, 2) Functional semantics, 3) Non-Functional semantics and 4) Execution semantics. This talk describes the need for the four types of semantics, its standards-based support through WSDL-S/SAWSDL, and the need for such semantic representation to dynamic and adaptive SOA. We also briefly review the proposal for Adaptive Web Processes introduced earlier in a ICSOC 2005 vision talk

    Contribution of JAM-1 to epithelial differentiation and tight-junction biogenesis in the mouse preimplantation embryo

    No full text
    We have investigated the contribution of the tight junction (TJ) transmembrane protein junction-adhesion-molecule 1 (JAM-1) to trophectoderm epithelial differentiation in the mouse embryo. JAM-1-encoding mRNA is expressed early from the embryonic genome and is detectable as protein from the eight-cell stage. Immunofluorescence confocal analysis of staged embryos and synchronized cell clusters revealed JAM-1 recruitment to cell contact sites occurred predominantly during the first hour after division to the eight-cell stage, earlier than any other TJ protein analysed to date in this model and before E-cadherin adhesion and cell polarization. During embryo compaction later in the fourth cell cycle, JAM-1 localized transiently yet precisely to the apical microvillous pole, where protein kinase C (PKC) and PKC are also found, indicating a role in cell surface reorganization and polarization. Subsequently, in morulae and blastocysts, JAM-1 is distributed ubiquitously at cell contact sites within the embryo but is concentrated within the trophectoderm apicolateral junctional complex, a pattern resembling that of E-cadherin and nectin-2. However, treatment of embryos with anti-JAM-1-neutralizing antibodies indicated that JAM-1 did not contribute to global embryo compaction and adhesion but rather regulated the timing of blastocoel cavity formation dependent upon establishment of the trophectoderm TJ paracellular seal

    A search for the most massive galaxies: double trouble?

    No full text
    We describe the results of a search for galaxies with large ({approx}> 350 kms{sup -1}) velocity dispersions. The largest systems we have found appear to be the extremes of the early-type galaxy population: compared to other galaxies with similar luminosities, they have the largest velocity dispersions and the smallest sizes. However, they are not distant outliers from the Fundamental Plane and mass-to-light scaling relations defined by the bulk of the early-type galaxy population. They may host the most massive black holes in the Universe, and their abundance and properties can be used to constrain galaxy formation models. Clear outliers from the scaling relations tend to be objects in superposition (angular separations smaller than 1 arcsec), evidence for which comes sometimes from the spectra, sometimes from the images, and sometimes from both. The statistical properties of the superposed pairs, e.g., the distribution of pair separations and velocity dispersions, can be used to provide useful information about the expected distribution of image multiplicities, separations and flux ratios due to gravitational lensing by multiple lenses, and may also constrain models of their interaction rates

    Coelostoma nostocinum Sheth & Ghate & Fikáček 2020, sp. nov.

    No full text
    Coelostoma (s. str.) nostocinum sp. nov. urn:lsid:zoobank.org:act: B069E8DC-6096-4292-B70D-93D6C5CB7337 Fig. 5 A–K Differential diagnosis Coelostoma nostocinum sp. nov. is characterized by smaller body size, by which it especially resembles C. vividum. Its male genitalia with the triangular median lobe easily distinguish it from all species except C. fallaciosum and C. aeneolum. The species may be distinguished from C. fallaciosum by its much shorter median lobe (compared to parameres) with straight lateral margins (concave in C. fallaciosum) and wider apex, and by the more or less symmetrically pointed apex of the paramere (strongly asymmetrical in C. fallaciosum). Coelostoma nostocinum sp. nov. is very similar to C. aeneolum, but may be distinguished from it by its (1) smaller body size (3.5–4.5 mm, compared to 4.6 mm in C. aeneolum), (2) larger aedeagus (0.7 mm, compared to 0.4 mm in C. aeneolum), (3) relatively longer apodemes of the median lobe (longer than half of the length of the apical triangular part of the median lobe, compared to much shorter than half the length in C. aeneolum) and (4) paramere distinctly concave on outer margin subapically and pointed apically (compared to evenly arcuate on whole outer margin and more less rounded apically in C. aeneolum). Etymology The species name refers to the finding of the holotype of this species in association with Nostoc Vaucher ex Bornet & Flahault (see Biology). Material examined Holotype INDIA • ♂; “ GOA province, 30 km S of MARGAO (Madgaon), Palolem env., INDIA 2002 exped; 15º00.47ʹN 74º01.56ʹE ” [15º00ʹ38.37ʺ N, 74º01ʹ23.76ʺ E]; 0–20 m a.s.l.; 12–14 Aug. 2002; P. Šípek and M. Fikáček leg; found in Nostoc -like algae; NMPC. Paratypes INDIA – Goa • 11 specs; same collection data as for holotype; NMPC • 2 specs; same collection data as for holotype; BMNH • 1 spec; same collection data as for holotype; UASB 01923074 • 1 spec; same collection data as for holotype; ZSI • 3 specs; “ 30 km S of Margao, Palolem env.; 15º00.47ʹ N, 74º01.56ʹ E ” [15º00ʹ38.37ʺ N, 74º01ʹ23.76ʺ E]; 0–20 m a.s.l.; 12–14 Aug. 2002; M. Fikáček and P. Šípek leg.; NMPC. – Maharashtra • 1 ♂, 33 specs; “ 4 km W of Lonavala, Bushi dam env.” [Bhushi dam]; [18º45ʹ22.31ʺ N, 73º24ʹ32.95ʺ E]; 500 m a.s.l.; 24–28 Oct. 2005; J. Bezděk leg.; at light; NMPC • 3 specs; same collection data as for preceding; SMNS • 1 ♂, 1 spec.; “ 4 km S of Lonavala, Bushi dam env.” [Bhushi dam]; [18º43ʹ24.35ʺ N, 73º23ʹ49.43ʺ E]; 500 m a.s.l.; 12–15 Oct. 2005; J. Bezděk leg.; NMPC • 1 spec.; same collection data as for preceding; NCBS BL020 • 2 ♂♂, 3 specs; Lonavala, 80 km E of Bombay; [18º45ʹ21.96ʺ N, 73º24ʹ32.40ʺ E]; [630 m a.s.l.]; 13 Sep. 1991; R. Schuh leg.; NHMW. – Karnataka • 1 spec.; Udipi distr., E of Bhatkal, Kollur; [13º51ʹ48.71ʺ N, 74º48ʹ37.46ʺ E]; [80 m a.s.l.]; 26–29 May 2006; Z. Kejval leg.; UASB 01923075. – Kerala • 6 specs; Cardamon Hills, 50 km NW of Pathanamhitta, Pambaiyar River; 9º25ʹ N, 77º05ʹ E; 300 m a.s.l.; 6–9 May1994; Z. Kejval leg.; at light; NHMW • 1 spec.; same collection data as for preceding; NMPC. Description FORM AND COLOUR. Body length 3.3–4.5 mm (3.8 mm in holotype), body width 2.2–2.5 mm (2.4 mm in holotype). Body oval in dorsal view, moderately convex in lateral view. Head black, dark brown clypeus; pronotum and elytra uniformly dark brown to black; ventral surface pale to dark brown. Femora and tarsi yellowish brown, tibia dark reddish brown, tarsi pale brown. Mouth parts and antennae yellowish, antennal club brown. HEAD. Dorsal punctation dense, consisting of simple punctures without associated ridges; trichobothria present; surface between punctures smooth. Anterior margin of clypeus non-arcuate. Eyes large, interocular distance ca 4.0 × the width of one eye in dorsal view; eye emarginate anteriorly. Labrum moderately sclerotized, largely exposed anterior of clypeus. Antenna with 9 antennomeres, club loosely segmented. Second maxillary palpomere markedly wide. PROTHORAX. Pronotum bisinuate anteriorly, anterolateral corners obtuse; posterior margin moderately bisinuate, posterolateral corners rectangular. Anterior and lateral margins with distinct bead not extending to posterior margin. Pronotal punctation finer than on head, consisting of simple punctures without associated ridges; surface between punctures smooth. Prosternum nearly straight on anterior margin, gently carinate mesally. MESOTHORAX. Elytral punctation dense and moderately coarse, consisting of punctures without transverse ridges. Weakly developed series of impressed punctures present along suture and laterally. Sutural stria well impressed, present in apical half, extends beyond middle; lateral elytral margins with sculpture. Mesoventral plate as long as wide, arrowhead-shaped, bluntly pointed anteriorly, posteriorly widely attached to metaventrite. METATHORAX. Metaventrite raised medially, completely glabrous on median elevation, lateral portions pubescent. Anterior metaventral process narrowly projecting between mesocoxae; posterior process bifid. Wings well-developed (macropterous). LEGS. Profemur with dense pubescence except in apical fifth; mesofemur and metafemur with sparsely arranged short setae only. ABDOMEN. All ventrites densely pubescent. First ventrite without carina. Posterior margin of last ventrite entire, without stout spines mesally. AEDEAGUS (Fig. 5 J–K). 0.7 mm long. Median lobe broad at base, slightly tapering towards widely rounded apex; gonopore situated at apex, widely semicircular. Parameres longer than median lobe; weakly arcuate on outer margin, narrowed in apical fourth; apex bluntly pointed; inner margin of parameres with long setae. Phallobase small, slightly wider than long. Variation Specimens from Maharashtra are slightly smaller than those from more southern areas. The aedeagus varies slightly in the shape of the parameres, the apical part of which is slightly wider in the specimens from Kerala; in all other aspects these specimens agree with those from Goa and hence we consider them conspecific. Remarks Coelostoma nostocinum sp. nov. and C. aeneolum are very similar in all characters including the morphology of the male genitalia, and both species seem to have very similar (and overlapping) distribution ranges. We were hence working with the hypothesis that they may be conspecific for some time, with the observed variation in body size and aedeagus morphology being an intraspecific variation. The examination of all available material, however, indicates that this is not the case, and that we really have two distinct morphotypes without intermediate characters: the species with larger body and smaller aedeagus with more or less rounded apices of parameres (C. aeneolum) and the smaller species with larger aedeagus with narrower and apically pointed paramere (C. nostocinum sp. nov.). Based on the material examined, both morphotypes are constant in the characters listed in the differential diagnosis across the distribution range (i.e., from Maharashtra to Kerala in both). For these reasons, we are treating them as separate species, with the smaller species described here as C. nostocinum sp. nov. Biology The specimens from Goa were collected under ‘ballsʼ of Nostoc blue-green algae growing on wet sandy places on rock cliffs at the sea coast. Specimens from Maharashtra were collected at light. Distribution Only known from the western coast of India and adjacent parts of the Western Ghats Mts, from Maharashtra to Kerala.Published as part of Sheth, Sayali D., Ghate, Hemant V. & Fikáček, Martin, 2020, Review of Coelostoma of the Indian subcontinent (Coleoptera: Hydrophilidae) Part 1: Coelostoma s. str. and Holocoelostoma, pp. 1-32 in European Journal of Taxonomy 690 on pages 12-14, DOI: 10.5852/ejt.2020.690, http://zenodo.org/record/396178
    corecore