Skip to main content Skip to main navigation menu Skip to site footer
Type: Article
Published: 2017-08-15
Page range: 91–107
Abstract views: 89
PDF downloaded: 1

Sycidiphaga, a new genus of Sycophaginae Walker, 1975 (Hymenoptera, Chalcidoidea, Agaonidae) associated with Ficus subgenus Sycidium in southern China

Key Laboratory of Zoological Systematics and Evolution, Institute of Zoology, Chinese Academy of Sciences, Beijing 100101, China University of Chinese Academy of Sciences,
INRA, UMR1062 CBGP, F-34988 Montferrier-sur-Lez, France
Natural History Division, Iziko South African Museum, P.O. Box 61, Cape Town, 8000, South Africa Department of Biological Sciences, University of Cape Town, Private Bag, Rondebosch, 7701, South Africa
Key Laboratory of Zoological Systematics and Evolution, Institute of Zoology, Chinese Academy of Sciences, Beijing 100101, China University of Chinese Academy of Sciences, Beijing, 100039, China Taiyuan University of Technology, Taiyuan, Shanxi, 030024, China
Key Laboratory of Zoological Systematics and Evolution, Institute of Zoology, Chinese Academy of Sciences, Beijing 100101, China College of Life Sciences, Hebei University, Baoding, Hebei, 071002, China
Hymenoptera fig wasps non-pollinating taxonomy new genus new species

Abstract

A new genus of Sycophaginae (Hymenoptera: Agaonidae), Sycidiphaga Liu, Rasplus & Huang n. gen., is described with a single new species, S. cyrtophyllae Liu, Rasplus & Huang n. sp. This species was discovered in Yun Nan and Gui Zhou, China and is associated with Ficus cyrtophylla (Moraceae, Ficus, subgenus Sycidium). The new taxon is readily distinguished from other genera of Sycophaginae by: 1) the presence of a conspicuous interantennal blade-like projection that extends well above the level of the toruli; 2) an inflated parastigma surrounded by a slight infuscation of the wing membrane; 3) the presence of a long and conspicuous median sulcus on the male pronotum; and 4) the presence of dense and long pilosity on the wings. Illustrations and a diagnosis and description of Sycidiphaga are provided, as is a key to the world genera of Sycophaginae. The phylogenetic position of Sycidiphaga was demonstrated through sequencing four gene regions of COI, Cyt b, 28s D3-D5 and EF-1α genes and conducting a phylogenetic analysis of available sequences for the subfamily. Sycidiphaga cannot be placed with confidence within Sycophaginae but several discussed characters suggest a close relationship with Idarnes Walker and Sycophaga Westwood. Interactive Lucid identification keys are available online at www.figweb.org.

 

References

  1. Aikake, H. (1973) Information theory and an extension of the maximum likelihood principle. In: Petrov, P.N. & Csaki, F. (Eds.), Second international symposium on information theory. Akadémiai Kiadó, Budapest, pp. 267–281.

    Berg, C.C. & Corner, E.J.H. (2005) Moraceae - Ficus. Flora Malesiana. Series I (Seed Plants). Vol. 17. Part 2. National Herbarium of the Netherlands, Leiden, 733 pp.

    Berg, C.C., Pattharahirantricin, N. & Chantarasuwan, B. (2011) Moraceae. In: Santisuk, T. & Larsen, K. (Eds.), Flora of Thailand, 10 (4), pp. 475–675.

    Bouček, Z. (1988) Australasian Chalcidoidea (Hymenoptera). A biosystematic revision of genera of fourteen families, with a reclassification of species. C.A.B. International, Wallingford, 832 pp.

    Cook, J.M., Compton, S.G., Herre, E.A. & West, S.A. (1997) Alternative mating tactics and extreme male dimorphism in fig wasps. Proceedings of the Royal Society of London B, 264, 747–754.
    https://doi.org/10.1098/rspb.1997.0106

    Cruaud, A., Jabbour-Zahab, R., Genson, G., Cruaud, C., Couloux, A., Kjellberg, F., Van Noort, S. & Rasplus, J.Y. (2010) Laying the foundations for a new classification of Agaonidae (Hymenoptera: Chalcidoidea), a multilocus phylogenetic approach. Cladistics, 26, 359–387.

    Cruaud, A., Jabbour-Zahab, R., Genson, G., Couloux, A., Yan-Qiong, P., Da Rong, Y., Ubaidillah, R., Pereira, R.A.S., Kjellberg, F., Van Noort, S., Kerdelhué, C. & Rasplus, J.-Y. (2011a) Out-of-Australia and back again: the worldwide historical biogeography of non-pollinating fig wasps (Hymenoptera: Sycophaginae). Journal of Biogeography, 38, 209–225.

    Cruaud, A., Jabbour-Zahab, R., Genson, G., Kjellberg, F., Kobmoo, N., van Noort, S., Da-Rong, Y., Yan-Qiong, P., Ubaidillah, R., Hanson, P.E., Santos-Mattos, O., Farache, F.H.A., Pereira, R.A.S., Kerdelhué, C. & Rasplus, J.Y. (2011b) Phylogeny and evolution of life-history strategies in the Sycophaginae non-pollinating fig wasps (Hymenoptera, Chalcidoidea). BMC Evolutionary Biology, 11 (178), 1–16.

    Drummond, A.J., Ashton, B., Buxton, S., Cheung, M., Cooper, A., Heled, J., Kearse, M., Moir, R., Stones-Havas, S., Sturrock, S., Thierer, T. & Wilson, A. (2010) Geneious. Version 6.1.6. Biomatters Inc., San Francisco, CA , USA. Available from: http://www.geneious.com (accessed 22 May 2017)

    Farache, F.H.A., Cruaud, A., Genson, G., Pereira, R.A.S. & Rasplus, J.Y. (2013) Taxonomic revision and molecular phylogeny of the fig wasp genus Anidarnes Bouček, 1993 (Hymenoptera: Sycophaginae). Systematic Entomology, 38, 14–34.
    https://doi.org/10.1111/j.1365-3113.2012.00644.x

    Farache, F.H.A. & Rasplus, J.Y. (2014) Revision of the Australasian genus Pseudidarnes Girault, 1927 (Hymenoptera, Agaonidae, Sycophaginae). Zookeys, 404, 31–70.
    https://doi.org/10.3897/zookeys.404.7204

    Farache, F.H.A. & Rasplus, J.Y. (2015) Conidarnes, a new oriental genus of Sycophaginae (Hymenoptera, Agaonidae) associated with Ficus section Conosycea (Moraceae). Zookeys, 539, 119–145.
    https://doi.org/10.3897/zookeys.539.6529

    Farache, F.H.A., Cruaud, A., Genson, G., Rasplus, J.-Y. & Pereira, R.A.S. (2016) Taxonomic revision and molecular phylogenetics of the Idarnes incertus species-group (Hymenoptera, Agaonidae, Sycophaginae). PeerJ, 5, e2842.

    Gu, X. (1995) Maximum likelihood estimation of the heterogeneity of substitution rate among nucleotide sites. Molecular Biology and Evolution, 12, 546–557.

    Harry, M., Solignac, M. & Lachaise, D. (1998) Molecular evidence for parallel evolution of adaptive syndromes in fig-breeding Lissocephala (Drosophilidae). Molecular Phylogenetics and Evolution, 9, 542–551.
    https://doi.org/10.1006/mpev.1998.0508

    Hebert, P.D., Penton, E.H., Burns, J.M., Janzen, D.H. & Hallwachs, W. (2004) Ten species in one: DNA barcoding reveals cryptic species in the neotropical skipper butterfly Astraptes fulgerator. Proceedings of the National Academy of Sciences USA, 101, 14812–14817.
    https://doi.org/10.1073/pnas.0406166101

    Heraty, J.M., Burks, R.A., Cruaud, A., Gibson, G.A.P., Liljeblad, J., Munro, J., Rasplus, J.-Y., Delvare, G., Janšta, P., Gumovsky, A., Huber, J., Woolley, J.B., Krogmann, L., Heydon, S., Polaszek, A., Schmidt, S., Darling, D.C., Gates, M.W., Mottern, J., Murray, E., Dal Molin, A., Triapitsyn, S., Baur, H., Pinto, J.D., van Noort, S., George, J. & Yoder, M. (2013) A phylogenetic analysis of the megadiverse Chalcidoidea (Hymenoptera). Cladistics, 29, 466–542.
    https://doi.org/10.1111/cla.12006

    Katoh, K. & Standley, D.M. (2013) MAFFT multiple sequence alignment software. Version 7: improvements in performance and usability. Molecular Biology and Evolution, 30, 772–780.
    https://doi.org/10.1093/molbev/mst010

    Li, Y., Zhou, X., Feng, G., Hu, H., Niu, L., Hebert, P.D. & Huang, D. (2010) COI and ITS2 sequences delimit species, reveal cryptic taxa and host specificity of fig-associated Sycophila (Hymenoptera, Eurytomidae). Molecular Ecology Resources, 10, 31–40.
    https://doi.org/10.1111/j.1755-0998.2009.02671.x

    Liu, Y., Li, Z., Jia, L. & Huang, D. (2016) Description of two new species from China in a new species-group of the fig wasp genus Sycophaga Westwood (Hymenoptera: Chalcidoidea: Agaonidae: Sycophaginae). Zootaxa, 4196 (4), 569–578.
    https://doi.org/10.11646/zootaxa.4196.4.6

    Nylander, J.A.A. (2004) MrAIC.pl. Program distributed by the author. Evolutionary Biology Centre, Uppsala University, Uppsala. [software]

    Rambaut, A., Suchard, M.A., Xie, D. & Drummond, A.J. (2014) Tracer v1.6, Available from: http://beast.bio.ed.ac.uk/Tracer (accessed 22 May 2017)

    Ronquist, F., Teslenko, M., van der Mark, P., Ayres, D.L., Darling, A., Höhna, S., Larget, B., Liu, L., Suchard, M.A. & Huelsenbeck, J.P. (2012) MrBayes 3.2: efficient Bayesian phylogenetic inference and model choice across a large model space. Systematic Biology, 61, 539–542.
    https://doi.org/10.1093/sysbio/sys029

    Rønsted, N., Weiblen, G., Savolainen, V. & Cook, J. (2008) Phylogeny, biogeography, and ecology of Ficus section Malvanthera (Moraceae). Molecular Phylogenetics and Evolution, 48, 12–22.
    https://doi.org/10.1016/j.ympev.2008.04.005

    Stamatakis, A. (2006) Phylogenetic models of rate heterogeneity: A High Performance Computing Perspective. International Parallel and Distributed Processing Symposium, IPDPS 2006, Rhodes Island, Greece, 1–8.

    Stamatakis, A. (2014) RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics, 30, 1312–1313.
    https://doi.org/10.1093/bioinformatics/btu033

    Stöver, B.C. & Müller, K.F. (2010) TreeGraph 2: Combining and visualizing evidence from different phylogenetic analyses. BMC Bioinformatics, 11, 7.
    https://doi.org/10.1186/1471-2105-11-7

    Yang, Z. (1994) Maximum likelihood phylogenetic estimation from DNA sequences with variable rates oversites: approximate methods. Journal of Molecular Evolution, 39, 306–314.