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An orb-weaver spider (Araneae, Araneidae) from the early Eocene of India

Published online by Cambridge University Press:  05 November 2018

Raman Patel
Affiliation:
Department of Geology, Hemvati Nandan Bahuguna Garhwal University, Srinagar, 246174 Uttarakhand, India〈ramanpatel2142@gmail.com〉, 〈rajendra.rana1@gmail.com〉
Rajendra Singh Rana
Affiliation:
Department of Geology, Hemvati Nandan Bahuguna Garhwal University, Srinagar, 246174 Uttarakhand, India〈ramanpatel2142@gmail.com〉, 〈rajendra.rana1@gmail.com〉
Paul A. Selden
Affiliation:
Paleontological Institute and Department of Geology, University of Kansas, 1475 Jayhawk Boulevard, Lawrence, Kansas 66045, USA 〈selden@ku.edu〉 Natural History Museum, Cromwell Road, London SW7 5BD, UK

Abstract

A new fossil spider is described from the early Eocene (Ypresian) Palana Formation (54 to 57 Ma) at the Gurha opencast lignite mine, near Bikaner, western Rajasthan, India. It is the first report of a nonamber fossil spider from India. The fossil is referred to the modern genus Nephila Leach, 1815, but with hesitation because, while its habitus is similar to that genus, it lacks the behavioral synapomorphies that distinguish the genus.

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Articles
Copyright
Copyright © 2018, The Paleontological Society 

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References

Agnarsson, I. , 2003, Spider webs as habitat patches—the distribution of kleptoparasites (Argyrodes, Theridiidae) among host webs (Nephila, Tetragnathidae): Journal of Arachnology, v. 31, p. 344349.Google Scholar
Agnarsson, I. , 2010, Habitat patch size and isolation as predictors of occupancy and number of argyrodine spider kleptoparasites in Nephila webs: Naturwissenschaften, v. 98, p. 163167.Google Scholar
Álvarez-Padilla, F. , and Hormiga, G. , 2011, Morphological and phylogenetic atlas of the orb-weaving spider family Tetragnathidae (Araneae: Araneoidea): Zoological Journal of the Linnean Society, v. 162, p. 713879.Google Scholar
Banks, N. , 1907, A preliminary list of the Arachnida of Indiana; with keys to families and genera of spiders: Annual Report of the Geological Survey of Indiana, v. 31, p. 715–747.Google Scholar
Cheng, X.-D. , Meng, Q.-J. , Wang, X.-R. , and Gao, C.-L. , 2008, New discovery of Nephilidae in Jehol biota (Araneae, Nephilidae): Acta Zootaxonomica Sinica, v. 33, p. 330334 [in Chinese with English summary].Google Scholar
Clerck, C. , 1757, Svenska Spindlar: Stockholm, L. Salvii, 162 p., 6 pls.Google Scholar
Coddington, J.A. , 1990, Ontogeny and homology in the male palpus of orb weaving spiders and their relatives, with comments on phylogeny (Araneoclada: Araneoidea, Deinopoidea): Smithsonian Contributions to Zoology, v. 496, p. 152.Google Scholar
Dimitrov, D. , Benavides, L.R. , Arnedo, M.A. , Giribet, G. , Griswold, C.E. , Scharff, N. , and Hormiga, G. , 2017, Rounding up the usual suspects: A standard target-gene approach for resolving the interfamilial phylogenetic relationships of ecribellate orb-weaving spiders with a new family-rank classification (Araneae, Araneoidea): Cladistics, v. 33, p. 221250.Google Scholar
Dunlop, J.A. , and Penney, D. , 2012, Fossil Arachnids: Manchester, Siri Scientific Press, 192 p.Google Scholar
Fabricius, J.C. , 1793, Entomologiae Systematica Emendata et Aucta, Secundum Classes, Ordines, Genera, Species adjectis synonimis, locis, observationibus, descriptionibus, tome II: Copenhagen, Christian Gottlob Proft, p. 407428.Google Scholar
Ghafoor, A. , and Beg, M.A. , 2002, Description of two new species of araneid spiders from Pakistan: International Journal of Agriculture and Biology, v. 4, p. 525527.Google Scholar
Ghazoul, J. , 2016, Dipterocarp Biology, Ecology, and Conservation: Oxford, Oxford University Press, xii+307p.Google Scholar
Harvey, M.S. , Austin, A.D. , and Adams, M. , 2007, The systematics and biology of the spider genus Nephila (Araneae: Nephilidae) in the Australasian region: Invertebrate Systematics, v. 21, p. 407451.Google Scholar
Higgins, J.A. , and Schrag, D.P. , 2006, Beyond methane: Towards a theory for the Paleocene–Eocene Thermal Maximum: Earth and Planetary Science Letters, v. 245, p. 523537.Google Scholar
Kar, R.K. , 1985, The fossil floras of Kachchh. IV. Tertiary palynostratigraphy: Palaeobotanist, v. 34, p. 1280.Google Scholar
Kar, R.K. , and Saxena, R.K. , 1981, Palynological investigation of a bore core near Rataria, Southern Kutch, Gujarat: Geophytology, v. 11, p. 103124.Google Scholar
Kar, R.K. , and Sharma, P. , 2001, Palynostratigraphy of late Palaeocene and early Eocene sediments of Rajasthan, India: Palaeontographica B, v. 256, p. 123157.Google Scholar
Koch, L. , 1872, Die Arachniden Australiens, nach der Natur Beschrieben und Abgebildet, v. 1: Nürnberg, Bauer and Raspe, p. 105–368, pls. 8–28.Google Scholar
Kumar, M. , 1996, Palynostratigraphy and palaeoecology of Early Eocene palynoflora of Rajpardi lignite, Bharuch District, Gujarat: Palaeobotanist, v. 43, p. 110121.Google Scholar
Kumar, M. , Spicer, R.A. , Spicer, T.E. , Shukla, A. , Mehrotra, R.C. , and Monga, P. , 2016, Palynostratigraphy and palynofacies of the early Eocene Gurha lignite mine, Rajasthan, India: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 461, p. 98108.Google Scholar
Kuntner, M. , 2006, Phylogenetic systematics of the Gondwanan nephilid spider lineage Clitaetrinae (Araneae, Nephilidae): Zoologica Scripta, v. 35, p. 1962.Google Scholar
Kuntner, M. , and Coddington, J.A. , 2009, Discovery of the largest orbweaving spider species: The evolution of gigantism in Nephila : PLoS ONE, v. 4, e7516.Google Scholar
Kuntner, M. , Coddington, J.A. , and Hormiga, G. , 2008, Phylogeny of extant nephilid orb-weaving spiders (Araneae, Nephilidae): Testing morphological and ethological homologies: Cladistics, v. 24, p. 147217.Google Scholar
Kuntner, M. , Arnedo, M.A. , Trontelj, P. , Lokovšek, T. , and Agnarsson, I. , 2013, A molecular phylogeny of nephilid spiders: Evolutionary history of a model lineage: Molecular Phylogenetics and Evolution, v. 69, p. 961979.Google Scholar
Lamarck, J.B. , 1801, Systême des Animaux Sans Vertèbres, ou Tableau Général des Classes, des Ordres et des Genres de ces Animaux; Présentant leurs Caractères Essentiels et leur Distribution, d’après la Considération de leurs Rapports Naturels et leur Organisation, et Suivant l’Arrangement Établis dans les Galeries du Muséum d’Histoire Naturelle, parmi leur Dépouilles Conservées; Précédé du Discours d’Ouverture du Cours de Zoologie, Donné dans le Muséum National d’Histoire Naturelle l’an 8 de la République: Paris, Déterville, viii + 432 p. Google Scholar
Leach, W.E. , 1815, Zoological Miscellany; being Descriptions of New and Interesting Animals, Volume 2: London, Nodder, 154p.Google Scholar
Levi, H.W. , 1986, The neotropical orb-weaver genera Chrysometa and Homalometa (Araneae: Tetragnathidae): Bulletin of the Museum of Comparative Zoology, Harvard University, v. 151, p. 91215.Google Scholar
Menge, A. , 1866, Preussische Spinnen. Erste Abtheilung: Schriften der Naturforschenden Gesellschaft in Danzig (N.F.), v. 1, p. 1152.Google Scholar
Mesquita, M.V. , 1996, Cretaraneus matensnetoi n. sp. (Araneoidea) da Formação Santana, Cretáceo Inferior da Bacia do Araripe: Revista Universidade Guarulhos, Série Geociências, v. 1, no. 3, p. 2431.Google Scholar
Murphy, J.A. , and Roberts, M.J. , 2015, Spider Families of the World and their Spinnerets: Norwich, British Arachnological Society, xvi + 553 p.Google Scholar
Pan, H.-C. , Zhou, K.-Y. , Song, D.-X. , and Qiu, Y. , 2004, Phylogenetic placement of the spider genus Nephila (Araneae: Araneoidea) inferred from rRNA and MaSp1 gene sequences: Zoological Science, v. 21, p. 343351.Google Scholar
Penney, D. , McNeil, A. , Green, D.I. , Bradley, R. , Withers, P.J. , and Preziosi, R.F. , 2012, The oldest fossil pirate spider (Araneae: Mimetidae), in uppermost Eocene Indian amber, imaged using X-ray computed tomography: Bulletin of the British Arachnological Society, v. 15, p. 299302.Google Scholar
Poinar, G.O. , and Buckley, R. , 2012, Predatory behaviour of the social orb-weaver spider, Geratonephila burmanica n. gen., n. sp. (Araneae: Nephilidae) with its wasp prey, Cascoscelio incassus n. gen., n. sp. (Hymenoptera: Platygastridae) in Early Cretaceous Burmese amber: Historical Biology, v. 24, p. 519525.Google Scholar
Ramanujam, C.G.K. , 1966, Palynology of the Miocene lignite from South Arcot District, Madras, India: Pollen Spores, v. 8, p. 149203.Google Scholar
Rao, M.R. , Sahni, A. , Rana, R.S. , and Verma, P. , 2013, Palynostratigraphy and depositional environment of Vastan Lignite Mine (Early Eocene), Gujarat, western India: Journal of Earth System Science, v. 122, p. 289307.Google Scholar
Robinson, M.H. , and Robinson, B. , 1973, Ecology and behavior of the giant wood spider Nephila maculata (Fabricius) in New Guinea: Smithsonian Contributions to Zoology, v. 149, p. 176.Google Scholar
Rust, J. , et al., 2010, Biogeographic and evolutionary implications of a diverse paleobiota in amber from the early Eocene of India: Proceedings of the National Academy of Sciences of the United States of America, v. 107, p. 18360–18365.Google Scholar
Sah, S.C.D. , and Kar, R.K. , 1974, Palynology of the Tertiary sediments of Palana, Rajasthan: Palaeobotanist, v. 21, no. 2, p. 163188.Google Scholar
Scharff, N. , and Coddington, J.A. , 1997, A phylogenetic analysis of the orb-weaving spider family Araneidae (Arachnida, Araneae): Zoological Journal of the Linnean Society, v. 120, p. 355434.Google Scholar
Scudder, S.H. , 1885, 3. Classe. Arachnoidea. Spinnen. Skorpione, in Zittel, K.A., ed., Handbuch der Palaeontologie. I. Abtheilung. Palaeozoologie 2: München and Leipzig, R. Oldenbourg, p. 732746.Google Scholar
Selden, P.A. , 1990, Lower Cretaceous spiders from the Sierra de Montsech, north-east Spain: Palaeontology, v. 33, p. 257285.Google Scholar
Selden, P.A. , Shih, C.-K. , and Ren, D. , 2011, A golden orb-weaver spider (Araneae: Nephilidae: Nephila) from the Middle Jurassic of China: Biology Letters, v. 7, p. 775778.Google Scholar
Selden, P.A. , Shih, C.-K. , and Ren, D. , 2013, A giant spider from the Jurassic of China reveals greater diversity of the orbicularian stem group: Naturwissenschaften, v. 100, p. 11711181.Google Scholar
Shukla, A. , Mehrotra, R.C. , Spicer, R.A. , Spicer, T.E.V. , and Kumar, M. , 2014, Cool equatorial terrestrial temperatures and the South Asian monsoon in the Early Eocene: Evidence from the Gurha Mine, Rajasthan, India: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 412, p. 187198.Google Scholar
Simon, E. , 1881, Les Arachnides de France, Volume 5: Paris, Roret, 180 p.Google Scholar
Simon, E. , 1889, Études arachnologiques. 21e Mémoire. XXXI. Descriptions d’espèces et de genres nouveaux de Madagascar et de Mayotte: Annales de la Société Entomologique de France, sér. 6, v. 8, p. 223236.Google Scholar
Simon, E. , 1894, Histoire Naturelle des Araignées, Volume 1: Paris, Roret, p. 489–760.Google Scholar
Spicer, R. , Yang, J. , Herman, A. , Kodrul, T. , Aleksandrova, G. , et al., 2017, Paleogene monsoons across India and South China: Drivers of biotic change: Gondwana Research, v. 49, p. 350363.Google Scholar
Su, Y.-C. , Chang, Y.-H. , Smith, D. , Zhu, M.-S. , Kuntner, M. , and Tso, I.-M. , 2011, Biogeography and speciation patterns of the Golden Orb spider genus Nephila (Araneae: Nephilidae) in Asia: Zoological Science, v. 28, p. 4755.Google Scholar
Thakur, M.K. , and Tembe, V.B. , 1956, Bionomics of the Giant Wood spider, Nephila maculata Fabr.: Journal of the Bombay Natural History Society, v. 53, p. 350354, pls. I–II.Google Scholar
Thanikaimoni, G. , Caratini, C. , Venkatachala, B.S. , Ramanujam, C.G.K. , Kar, R.K. , 1984, Selected Tertiary angiosperm pollen from India and their relationships with African Tertiary pollens: Travaux de la Section Scientifique Technique, v. 19, p. 193.Google Scholar
Thorell, T. , 1877, Studi sui Ragni Malesi e Papuani. I. Ragni di Selebes raccolti nel 1874 dal Dott. O. Beccari: Annali del Museo Civico di Storia Naturale di Genova, v. 10, p. 341637.Google Scholar
Tikader, B.K. , 1982, The Fauna of India; Spiders: Araneae Volume II. Part 1 Family Araneidae (= Argiopidae) typical orb-weavers; Part 2 Family Gnaphosidae: Calcutta, Zoological Survey of India, xiv + 536 p.Google Scholar
Tso, I.-M. , and Severinghaus, L.L. , 1998, Silk stealing by Argyrodes lanyuensis (Araneae: Theridiidae): A unique form of kleptoparasitism: Animal Behaviour, v. 56, p. 219225.Google Scholar
Venkatachala, B.S. , and Kar, R.K. , 1969, Palynology of the tertiary sediments in Kutch-1. Spores and pollen from bore-hole no. 14: Palaeobotanist, v. 17, no. 2, p. 157178.Google Scholar
Vollrath, F. , 1987, Kleptobiosis in spiders, in Nentwig, W., ed., Ecophysiology of Spiders: Berlin, Springer, p. 274286.Google Scholar
Wheeler, W.C. , Coddington, J.A. , Crowley, L.M. , Dimitrov, D. , Goloboff, P.A. , et al., 2017, The spider tree of life: Phylogeny of Araneae based on target-gene analyses from an extensive taxon sampling: Cladistics, v. 33, p. 574616.Google Scholar
World Spider Catalog, 2018, World spider catalog, version 19.0: Bern, Natural History Museum, http://wsc.nmbe.ch.Google Scholar
Wunderlich, J. , 1982, Die häufigsten Spinnen (Araneae) des Dominikanischen Bernsteins: Neue Entomologische Nachrichten, v. 1, p. 2645.Google Scholar
Wunderlich, J. , 1986, Spinnenfauna Gestern und Heute. Fossile Spinnen in Bernstein und ihre Heute Lebenden Verwandten: Wiesbaden, Erich Bauer, 283 p.Google Scholar
Wunderlich, J. , 2004, Fossil spiders in amber and copal: Beiträge zur Araneologie, v. 3, p. 11908.Google Scholar
Wunderlich, J. , 2011, Some subrecent spiders (Araneae) in copal from Madagascar: Beiträge zur Araneologie, v. 6, p. 445460.Google Scholar
Wunderlich, J. , 2015, On the evolution and the classification of spiders, the Mesozoic spider faunas, and descriptions of new Cretaceous taxa mainly in amber from Myanmar (Burma) (Arachnida: Araneae): Beiträge zur Araneologie, v. 9, p. 21408.Google Scholar
Zachos, J.C. , Pagani, M. , Sloan, L. , Thomas, E. , and Billups, K. , 2001, Trends, rhythms, and aberrations in global climate 65 Ma to present: Science, v. 292, p. 686693.Google Scholar
Zachos, J.C. , Wara, M.W. , Bohaty, S. , Delaney, M.L. , Petrizzo, M.R. , Brill, A. , Bralower, T.J. , and Premoli-Silva, I. , 2003, A transient rise in tropical sea surface temperature during the Paleocene–Eocene Thermal Maximum: Science, v. 302, p. 15511554.Google Scholar