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Type: Article
Published: 2023-05-09
Page range: 48-72
Abstract views: 545
PDF downloaded: 9

Moss-inhabiting beetles of the West Indies (Insecta: Coleoptera)

ystematic Entomology Laboratory, USDA, ARS, c/o Smithsonian Institution, National Museum of Natural History, Washington, District of Columbia, U.S.A.
CRETUS, Department of Zoology, Genetics and Physical Anthropology, Universidade de Santiago de Compostela, Santiago de Compostela, Spain
Research Division, Canadian Museum of Nature, PO Box 3443, Station D, Ottawa, ON. K1P 6P4, Canada.
LSU AgCenter, Louisiana State Arthropod Museum, Department of Entomology, Louisiana State University, Baton Rouge, LA USA 70803.
Natural History Museum, University of Oslo, P.O. Box 1172, Blindern NO-0318 Oslo, Norway.
Montana Entomology Collection, 1911 West Lincoln St., Montana State University, Bozeman, MT 59717, U.S.A.
LSU AgCenter, Louisiana State Arthropod Museum, Department of Entomology, Louisiana State University, Baton Rouge, LA USA 70803.
Systematic Entomology Laboratory, USDA, ARS, c/o Smithsonian Institution, National Museum of Natural History, Washington, District of Columbia, U.S.A.
Plant Pest Diagnostics Center, California Department of Food & Agriculture 3294 Meadowview Road, Sacramento, CA 95832-1448, U.S.A.
Beetles biological diversity bryophytes, bryobionts fungivory beetle flightlessness beetle blindness island fauna Neotropics Greater Antilles Dominican Republic Jamaica Puerto Rico

Abstract

This study is the first attempt to assess the diversity of beetles (Coleoptera) in terrestrial moss cushions on three West Indian islands (Hispaniola, Jamaica, and Puerto Rico) based on 10 years of moss sampling in 18 localities. In total 1711 adult beetles were collected. They belong to 234 species from 30 families. The most species and specimen rich families are Staphylinidae (86 morphospecies and 1195 specimens), Curculionidae (61 morphospecies and 131 specimens), and Chrysomelidae (16 morphospecies and 185 specimens). In addition to basic bryobionts feeding on moss tissues, moss cushions host a diverse fauna of mycophagous and saprophagous Coleoptera together with predaceous species of beetles. Our results suggest that community composition in moss inhabiting beetles is determined both by geographical isolation processes and, to a lesser degree, by environmental variation across altitudinal gradients. This confirms that the greater relevance of geographical isolation is a common pattern in organisms with limited dispersal ability. Beetle abundance was not significantly related to either the volume of moss or the substrate. Despite being not significant (but close to), the observed trend was to higher beetle abundance in moss cushions collected on trees than in those collected on soil/rock. This may be resulting from the greater diversity of fungi and higher number of beetle fungivores associated with tree growing moss communities.

References

  1. Anderson R. S. & Zhang G. 2017. The genus Apodrosus Marshall 1922 in Cuba (Coleoptera: Curculionidae; Entiminae; Polydrusini). Zookeys 679: 77–105. https://doi.org/10.3897/zookeys.679.12805
  2. Andújar C. & Grebennikov V. V. 2021. Endogean beetles (Coleoptera) of Madagascar: deep soil sampling and illustrated overview. Zootaxa 4963(2): 317–334.
  3. Andújar C., Pérez-González S., Arribas P., Zaballos J. P., Vogler A. P. & Ribera I. 2017. Speciation below ground: Tempo and mode of diversification in a radiation of endogean ground beetles. Molecular Ecology 26 (21): 6053–6070. https://doi.org/10.1111/mec.14358
  4. Arriga-Varela E., Tomashewska W., Szawaryn K., Robertson J., Seidel M., Ślipiński A. & Fikáček M. 2022. The resurrection of Cerasommatidiidae, an enigmatic group of coccinelloid beetles (Coleoptera: Coccinelloidea) based on molecular and morphological evidence. Zoological Journal of the Linnean Society 2022: 1–38.
  5. Baselga A. 2010. Partitioning the turnover and nestedness components of beta diversity. Global Ecology and Biogeography 19(1): 134–143.
  6. Baselga A., Gómez-Rodríguez C., Araújo M. B., Castro-Insua A., Arenas M., Posada D. & Vogler A. P. 2022. Joint analysis of species and genetic variation to quantify the role of dispersal and environmental constraints in community turnover. Ecography 2022(5): e05808. https://doi.org/https://doi.org/10.1111/ecog.05808
  7. Baselga A. & Orme C. D. L. 2012. betapart: an R package for the study of beta diversity. Methods in Ecology and Evolution 3: 808–812.
  8. Baselga A., Orme C. D. L., Villéger S., De Bortoli J., Leprieur F. & Logez M. 2022. betapart: Partitioning beta diversity into turnover and nestedness components. R package version 1.5.6 Available from: http://CRAN.R-project.org/package=betapart.
  9. BirdLife International. 2009. The Caribbean Islands Biodiversity Hotspot. Ecosystem profile. Final draft for submission to the CEPF donor council, 2 December 2009, 145 pp.
  10. Blackwelder R. E. 1944. Checklist of the Coleopterous insects of Mexico, Central America, the West Indies, and South America. Part 2. Smithsonian Institution, United States National Museum. Bulletin 185: 189–342.
  11. Bordoni A. 1972. Coleotterofana dei muschi in un ambiente palustre di pianura (padule di fucecchio, Toscana). Bolletino dell’Associazione Romana di Entomologia 27(1): 9–25.
  12. Brown H. P. 1976. Aquatic dryopoid beetles (Coleoptera) of the United States. Water pollution control research series 18050 ELDO4/72. U.S. Environmental Protection Agency, Office of Research and Development, Environmental Monitoring and Support Laboratory, September 1976. 82pp.
  13. Carlton C. E. 2003. Revision of Reichenbachia of eastern North America (Coleoptera: Staphylinidae: Pselaphinae) [pp. 483–563 in: Systematics of Coleoptera: Papers Celebrating the Retirement of Ivan Löbl (R. Leschen and G. Cuccudoro, eds.)]. Associated Publications, Gainesville, FL.
  14. Chandler D. S. 1987. Species richness and abundance of Pselaphidae (Coleoptera) in an old-growth and 40-year-old forest in New Hampshire. Canadian Journal of Zoology 65: 608–15.
  15. Chandler D. S., G. Sabella G. & Bueckle C. 2015. A revision of the Nearctic species of Brachygluta Thomson, 1859 (Coleoptera: Staphylinidae: Pselaphinae). Zootaxa 3928: 1–91.
  16. Chernov Yu. I. 1985. The living tundra. Cambridge: Cambridge University Press. 212 pp.
  17. Chown S. L. & Scholtz C. H. 1989. Cryptogam herbivory in Curculionidae (Coleoptera) from the Sub-Antarctic Prince Edward Islands. The Coleopterists Bulletin 43: 165–169.
  18. Crowson R. A. 1981. The biology of Coleoptera. Academic Press, London, New York, Toronto, Sydney, San Francisco. 802 pp.
  19. Damaška A., Konstantinov A. S. & Fikáček M. 2022. Multiple origins of moss-inhabiting flea beetles (Coleoptera: Chrysomelidae): molecular phylogeny, overview of genera and a new genus from Africa. Zoological Journal of the Linnean Society 2022: 1–30. https://doi.org/10.1093/zoolinnean/zlab112
  20. Davey M. L. & Currah R. S. 2006. Interactions between mosses (Bryophyta) and fungi. Canadian Journal of Botany 84: 1509–1519.
  21. Davey M. L., Kauserud H. & Ohlson M. 2014. Forestry impacts on the hidden fungal biodiversity associated with bryophytes. FEMS Microbiology Ecology 90: 1–13
  22. Dilks T. J. K. & Procto M. C. F. 1979. Photosynthesis, respiration and water content in bryophytes. The New Phytologist 82: 97–114.
  23. Douglas J. W. 1870. Captures of Coleoptera during the past season. The Entomologist’s Monthly Magazine 7: 136–138.
  24. Douglas H. B., Konstantinov A., Brunke A. J., Moseyko A., Chapados J. T., Eyres J., Richter R., Savard K., Sears E., Prathapan K. D., Ruan Y. & Dettman J. R. 2023. Phylogeny of the flea beetles (Galerucinae: Alticini) and the position of Aulacothorax elucidated through anchored phylogenomics (Coleoptera: Chrysomelidae: Alticini). Systematic Entomology 1–26. https://doi.org/10.1111/syen.12582
  25. Drozdová M., Šipoš J. & Drozd P. 2009. Predation risk for insects living in moss cushions: comparison between different strata of mountain forest. p. 31–35. Troisièmes Rencontres Bryologiques Internationales 2009 — Third International Bryological Meeting 2009.
  26. Duckett C. N., Prathapan K. D. & Konstantinov A. S. 2006. Notes on identity, new synonymy and larva of Ivalia Jacoby (Coleoptera: Chrysomelidae) with description of a new species. Zootaxa 1363: 49–68.
  27. Gerson U. 1982. Bryophytes and invertebrates. p. 291–332. In: Smith, A. J. E. (Ed.) Bryophyte ecology. London New York, Chapman & Hall. 511pp.
  28. Gimmel M. L. & Ferro M. L. 2018. General Overview of Saproxylic Coleoptera. Chapter 2. M. D. Ulyshen (ed.), Saproxylic Insects, Zoological Monographs 1: 51–121. https://doi.org/10.1007/978-3-319-75937-1_2
  29. Girón J. C. & Franz N. M. 2010. Revision, phylogeny, and historical biogeography of the genus Apodrosus Marshall, 1922 (Coleoptera: Curculionidae: Entiminae). Insect Systematics & Evolution 41: 339–414. https://doi.org/10.1101/053611
  30. Glime J. M. 2017. Bryophyte ecology [Accessed 2022 October 30]. Available from: http://www.bryoecol.mtu.edu/.
  31. Gómez-Rodríguez C. & Baselga A. 2018. Variation among European beetle taxa in patterns of distance decay of similarity suggests a major role of dispersal processes. Ecography 41: 1825–1834.
  32. Gressitt J. L., Samuelson G. A. & Vitt D. H. 1968. Moss growing on living Papuan moss-forest weevils. Nature 217: 765–767.
  33. Hedges B. 2001. Biogeography of the West Indies: an overview. pp. 15–33. In: Woods C. A. and Sergile F. E. (Eds) Biogeography of the West Indies, patterns and perspectives. CRC Press, Boca Raton, London, New York, Washington DC, 582 pp. https://doi.org/10.1201/9781420039481
  34. Heilmann-Clausen J. & Christensen M. 2005. Wood-inhabiting macrofungi in Danish beech-forests – conflicting diversity patterns and their implications in a conservation perspective. Biological Conservation 122: 633–642.
  35. Ivie M. A., Marske K. A., Foley I. A. & Ivie L. L. 2008. Appendix 2. Species lists of the beetles, non-beetle hexapods and non-hexapod invertebrates of Montserrat. pp. 237–311. In: Young, R. P. A biodiversity assessment of the Centre Hills, Montserrat. Durrell Coservation Monographs No. 1. Durrell Wildlife Conservation Trust. 319pp.
  36. Johnson P. J. 1986. A new species and a key to the Nearctic species of Curimopsis Ganglbauer (Coleoptera: Byrrhidae). The Coleopterists Bulletin 40: 37–43.
  37. Konstantinov A. S. & Chamorro-Lacayo M. L. 2006. A new genus of moss-inhabiting flea beetles (Coleoptera: Chrysomelidae) from the Dominican Republic. The Coleopterists Bulletin 60(4): 275–290.
  38. Konstantinov A. S., Chamorro M. L., Prathapan K. D., Ge S.-Q. & Yang X.-K. 2013. Moss-inhabiting flea beetles (Coleoptera: Chrysomelidae: Galerucinae: Alticini) with description of a new genus from Cangshan, China. Journal of Natural History 47: 2459–2477. https://doi.org/10.1080/00222933.2012.763068
  39. Konstantinov A. S. & Konstantinova A. 2011. New genus and species of flea beetles (Coleoptera, Chrysomelidae, Galerucinae, Alticini) from Puerto Rico, with comments on flea beetle diversity in the West Indies and a key to the West Indian Monoplatini genera. ZooKeys. 155:61–87. https://doi.org/10.3897/zookeys.155.2124
  40. Konstantinov A. S. & Linzmeier A. M. 2020. Moss inhabiting flea beetles of the West Indies III: Erinaceialtica, a new genus from Hispaniola (Coleoptera, Chrysomelidae, Galerucinae, Alticini). ZooKeys 955: 113–145. https://doi.org/10.3897/zookeys.955.53644
  41. Konstantinov A. S., Linzmeier A. M., Coelho Morais A. C., Palmer M. W., Scheffer S. J. & Lewis M. L. 2019. Discovery of the first Nearctic moss-eating flea beetle, Distigmoptera borealis Blake, 1943 (Coleoptera: Chrysomelidae: Galerucinae: Alticini). The Coleopterists Bulletin 73(3): 71–76.
  42. Konstantinov A. S., Linzmeier A. M., Scheffer S. J. & Lewis M. L. 2020a. Moss-inhabiting flea beetles of the West Indies I: New species of Borinken Konstantinov and Konstantinova and Kiskeya Konstantinov and Chamorro-Lacayo (Coleoptera: Chrysomelidae: Galerucinae: Alticini) from Puerto Rico. Insecta Mundi 0771: 1–12.
  43. Konstantinov A. S., Linzmeier A. M., Scheffer S. J. & Lewis M. L. 2020b. Moss inhabiting flea beetles of the West Indies IV: new species of Andersonaltica Linzmeier and Konstantinov from the Dominican Republic (Coleoptera: Chrysomelidae: Galerucinae: Alticini). Journal of Insect Biodiversity 018(1): 001–016. https://doi.org/10.12976/jib/2020.18.1.1
  44. Konstantinov A. S. & Tishechkin A. K. 2004. The first nearctic leaf litter flea beetle (Coleoptera: Chrysomelidae) from the Great Smoky Mountains National Park. The Coleopterists Bulletin 58(1): 599–610.
  45. Kuschel G. 1964. Insects of Campbell Island. Coleoptera: Curculionidae of the Subantarctic Islands of New Zealand. Pacific Insects Monograph 7: 416–493.
  46. Kuschel G. 1971. Entomology of the Auckland and other islands south of New Zealand: Coleoptera: Curculionidae. Pacific Insects Monograph 27: 225–259.
  47. Lawrence J. F. 2011. 4.2. Artematopodidae Lacordaire, 1857. In: Kükenthal W, Leschen RAB, Beutel RG, Lawrence JF, eds. Morphology and systematics (Elateroidea, Bostrichiformia, Cucujiformia partim). Berlin: Walter de Gruyter, 42–47.
  48. Lawrence J. F. & Britton E. B. 1994. Australian beetles. Melbourne University Press, Carlton, 192 pp.
  49. Lawrence J. F. & Ślipiński S. A. 2013. Australian beetles. Morphology, classification and keys. CSIRO Publishing 561 pp.
  50. Lee C.-F. & Beenan R. 2020. Taiwanoshaira Lee & Beenen, a new genus and first record of moss-inhabiting Galerucinae sensu stricto (Coleoptera, Chrysomelidae) from Taiwan. ZooKeys 944: 129–146. https://doi.org/10.3897/zookeys.944.53099
  51. Leschen R. A. B., Reid C. A. M. & Nadein K. S. 2020. Generic review of New Zealand Chrysomelinae (Coleoptera: Chrysomelidae). Zootaxa 4740: 1–66.
  52. Lindroth C. H. 1974. Handbook for the identification of British insects. Coleoptera, Carabidae. Royal Entomological Society of London 4(2): 148pp.
  53. Linzmeier A. M. and Konstantinov A. S. 2020. Moss inhabiting flea beetles (Coleoptera: Chrysomelidae: Galerucinae: Alticini) of the West Indies II: Menudos, a new genus from Puerto Rico and description of methods to collect moss inhabiting flea beetles. Zootaxa 4786(1): 1–22. https://doi.org/10.11646/zootaxa.4786.1.1
  54. Mägdefrau K. 1982. Life-forms of bryophytes. p. 45–58. In: Smith, A. J. E. (Ed.) Bryophyte ecology. London New York, Chapman & Hall. 511pp.
  55. Mani M. S. 1978. Ecology and phytogeography of high altitude plants on the Northwest Himalaya. Introduction to high altitude botany. London, Chapman and Hall 205pp.
  56. Martínez-Santalla S., Martín-Devasa R., Gómez-Rodríguez C., Crujeiras R. M. & Baselga A. 2022. Assessing the nonlinear decay of community similarity: Permutation and site-block resampling significance tests. Journal of Biogeography 49(5): 968–978. https://doi.org/https://doi.org/10.1111/jbi.14351
  57. McKenna D. D., Shina S., Ahrens D., Balke M., Beza-Beza C., Clarke D. J., Donath A., Escalona H. E., Friedrich F., Letsch H., Liu S., Maddison D., Mayer C., Misof B., Murin P. J., Niehuis O., Peters R. S., Podsiadlowski L., Pohl H., Scully E. D., Yan E. V., Zhou X., Ślipiński A. & Beutel R. G. 2019. The evolution and genomic basis of beetle diversity. PNAS 116(49): 1–9. https://doi.org/10.1073/pnas.1909655116
  58. Myers N., Mittermeier R. A., Mittermeier C. G., da Fonseca G. A. B. & Kent G. 2000. Biodiversity hotspots for conservation priorities. Nature 403: 853–858. https://doi.org/10.1038/35002501
  59. Oberprieler R. G., Marvaldi A. E. & Anderson R. S. 2007. Weevils, weevils, weevils everywhere. Zootaxa 1668: 491–520. (In: Zhang, Z.-Q. & Shear, W.A. (Eds) (2007) Linnaeus Tercentenary: Progress in Invertebrate Taxonomy. Zootaxa 1668: 1–766.
  60. Oksanen J., Simpson G. L., Blanchet F. G., Kindt R., Legendre P., Minchin P. R., O’Hara R. B., Solymos P., Stevens M. H. H., Szoecs E., Wagner H., Barbour M., Bedward M., Bolker B., Borcard D., Carvalho G., Chirico M., De Caceres M., Durand S. & Weedon J. 2017. vegan: Community Ecology Package. R package version 2.6-4. Available from: https://CRAN.R-project.org/package=vegan.
  61. Padgham M. & Sumner M. D. 2021. geodist: Fast, Dependency-Free Geodesic Distance Calculations. R package version 0.0.7. Available from: https://CRAN.R-project.org/package=geodist.
  62. Pakaluk J. 1986. Description of an Anagaricophilus (Coleoptera: Endomychidae) larva from Madagascar. Proceedings of the Entomological Society of Washington 88: 313–315.
  63. Porley R. & Hodgetts N. 2005. Mosses and Liverworts. Harper Collins Publishers, London 495pp.
  64. Purhonen J., Abrego N., Komonen A., Huhtinen S., Kotiranta H., Læssøe T. & Halme P. 2021. Wood-inhabiting fungal responses to forest naturalness vary among morpho-groups. Scientific Reports 11, Article 14585.
  65. Reichle D. 1969. Distribution and abundance of bog inhabiting pselaphid beetles. Transactions of the Illinois State Academy of Science 62: 232–264.
  66. Ruan Y., Konstantinov A. S. & Damaška A. F. 2020. The biology and immature stages of the moss-eating flea beetle Cangshanaltica fuanensis sp. nov. (Coleoptera, Chrysomelidae, Galerucinae, Alticini), with description of a fan-driven high-power Berlese funnel. Insects 11(571): 1–27. https://doi.org/10.3390/insects11090571
  67. Runtz M. W. P. & Peck S. B. 1994. The beetle fauna of a mature spruce-Sphagnum bog, Algonquin Park, Ontario: Ecological implications of the species composition. Memoirs of the Entomological Society of Canada 169: 161–171.
  68. Saito V. S., Soininen J., Fonseca-Gessner A. A. & Siqueira T. 2015. Dispersal traits drive the phylogenetic distance decay of similarity in Neotropical stream metacommunities. Journal of Biogeography 42(11): 2101–2111. https://doi.org/10.1111/jbi.12577
  69. Salces-Castellano A., Andújar C., López H., Pérez-Delgado A. J., Arribas P. & Emerson B. C. 2021. Flightlessness in insects enhances diversification and determines assemblage structure across whole communities. Proceedings of the Royal Society B: Biological Sciences 288(1945): 1–10. https://doi.org/10.1098/rspb.2020.2646
  70. Shockley F. W. 2012. First records of Micropsephodes lundgreni Leschen and Carlton (Coleoptera: Endomychidae) in Alabama and Texas, U.S.A. The Coleopterists Bulletin 66: 76–78.
  71. Shockley F. W., Ulyshen M. D. & Lord N. P. 2008. New distributional records and natural history notes for Micropsephodes lundgreni Leschen and Carlton (Coleoptera: Endomychidae). The Coleopterists Bulletin 62: 350–352.
  72. Shockley F. W., Tomaszewska K. W. & McHugh J. W. 2009a. Review of the natural history of the handsome fungus beetles (Coleoptera: Cucujoidea: Endomychidae). Insecta Mundi 0072: 1–24.
  73. Shockley F. W., Tomaszewska K. W. & McHugh J. W. 2009b. An annotated checklist of the handsome fungus beetles of the world (Coleoptera: Cucujoidea: Endomychidae). Zootaxa 1999: 113pp.
  74. Shorohova E., Kapitsa E., Kazartsev I., Romashkin I., Polevoi A. & Kushnevskaya H. 2016. Tree species traits are the predominant control on the decomposition rate of tree log bark in a mesic old-growth boreal forest. Forest Ecology and Management 377: 36–45.
  75. Simpson G. G. 1960. Notes on the measurement of faunal resemblance. American Journal of Science 258: 300–311.
  76. Ślipiński S. A., Leschen R. A. B. & Lawrence J. F. 2011. Order Coleoptera Linnaeus, 1758. Animal Biodiversity: An Outline of Higher-Level Classification and Survey of Taxonomic Richness (ed. by Z.-Q. Zhang). Zootaxa 3148: 203–208.
  77. Smith A. J. E. (Ed.) 1982. Bryophyte ecology. London New York, Chapman & Hall. 511 pp.
  78. Spiessberger E. L. & Ivie M. A. 2020. A new genus and fourteen new species of Anopidiina (Coleoptera: Tenebrionidae: Diaperinae: Gnathidiini) from the West Indies. The Coleopterists Bulletin 74(4): 667–695. https://doi.org/10.1649/0010-065X-74.4.667
  79. Takizawa H. & Konstantinov A. S. 2018. The genus Ivalia Jacoby 1887 (Coleoptera: Chrysomelidae: Galerucinae: Alticini) of the mount Kinabalu, Sabah, Malaysia. Journal of Insect Biodiversity 6(1): 1–23.
  80. Thayer M. K. 2005. 11.7. Staphylinidae Latreille, 1802. p. 296–344. In: Beutel R. G. and Leschen R.A.B. (Eds.) Handbook of Zoology. Coleoptera. Beetles, Volume 1: Morphology and Systematics (Archostemata, Adephaga, Myxophaga, Polyphaga partim). Berlin New York Walter de Gruyter Inc. 580 pp.
  81. Waterhouse E. A. 1870. Coleoptera at Rannoch in 1870. The Entomologist’s Monthly Magazine 7: 81.
  82. Westwood J. O. 1839. An introduction to the modern classification of insects; founded on the natural habits and corresponding organization of the different families. Volume I. Longman, Orme, Brown, Green, and Longmans, Paternoster-row. 462 pp.
  83. Wilcoxon-test. https://datatab.net/tutorial/wilcoxon-test (accessed on: February 22, 2023).