Abstract
Arthropods constitute the dominant group in the animal kingdom and are a major part of global biodiversity. There are 1,302,809 species of arthropods described that include 45,769 fossil species. Arthropods are the most successful group found in almost all biogeographical regions and ecological zones and have a dominating influence on other elements of biodiversity. The Insecta have 1, 070,781 species and it alone accounts for over 80 % of all arthropods. Another major group is Arachnida having 114, 275 described species of which 55, 214 species are mites and ticks. Arthropods contribute to human food supply, pollinate crops, help maintain ecosystem sustainability by biologically suppressing destructive arthropods, but cause and transmit diseases to humans and livestock and incur crop losses. Invasive arthropods can negatively impact natural resources.
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References
Bergström J, Hou XG (2003) Arthropod origins. Bull Geosci 78(4):323–334
Budd GE (1993) A Cambrian gilled lobopod from Greenland. Nature 364(6439):709–711
Budd GE, Butterfield NJ, Jensen S (2001) Crustaceans and the Cambrian explosion. Science 294(5549):2047
Callaway E (2008) Fossilised shrimp show earliest group behaviour, new scientist, archived from the original on 15 October 2008, retrieved Oct 21, 2008
Chapman AD (2009) Numbers of living species in Australia and the world (PDF), 2nd edn. Australian Biological Resources Study, Canberra, pp 1–80
Cowen R (2000) History of life, 3rd edn. Blackwell Science, Malden, p 126
Dunlop JA (1996) “A trigonotarbid arachnid from the Upper Silurian of Shropshire” (PDF). Palaeontology 39(3):605–614
Engel MS, Grimaldi DA (2004) New light shed on the oldest insect. Nature 427(6975):627–630
Gillott C (1995) Entomology. Springer, London, pp 17–19. ISBN 0-306-44967-6
Gould SJ (1990) Wonderful life: the Burgess Shale and the Nature of History. Hutchinson Radius, London, pp 102–106
Harper D (2014) Arthropoda, Online Entomology Dictionary
Hou XG, Bergström J, Jie Y (2006) Distinguishing anomalocaridids from arthropods and priapulids. Geol J 41(3–4):259–269. doi:10.1002/gj.1050
James HT (2003) Arthropoda and related groups. In: Encyclopedia of insects. Academic Press, Amsterdam
Jeram AJ (1990) Book-lungs in a Lower Carboniferous scorpion. Nature 343(6256):360–361
Karanth KP (2015) An island called India: phylogenetic patterns across multiple taxonomic groups reveal endemic radiations. Curr Sci 108(10):1847–1851
Labandeira C, Eble GJ (2000) The fossil record of insect diversity and disparity. In: Anderson J, Thackeray F, van Wyk B, de Wit M (eds) Gondwana alive: biodiversity and the evolving biosphere. Witwatersrand University Press, Johannesburg
Lieberman RC (1995) Race, institutions, and the administration of social policy. Soc Sci Hist 19(4):514–515
Lin JP, Gon SM, Gehling JG, Babcock LE, Zhao YL, Zhang XL, Hu SX, Yuan JL, Yu MY, Peng J (2006) A Parvancorina-like arthropod from the Cambrian of South China. Hist Biol 18(1):33–45
Mc Menamin MAS (2003) Spriggina is a trilobitoid ecdysozoan (abstract), Abstracts with Programs. Geol Soc Am 35(6):105
Pisani D, Poling LL, Weiler LM, Hedges SB (2004) The colonization of land by animals: molecular phylogeny and divergence times among arthropods. BMC Biol 2:1
Regier, Shultz JW, Zwick A, Hussey A, Ball B, Wetzer R, Martin JW, Cunningham CW (2010) Arthropod relationships revealed by phylogenomic analysis of nuclear protein-coding sequences. Nature 463(7284):1079–1084
Resh VH, Carde RT (2009) Encyclopedia of insects, 2nd edn. Academic Press, Amsterdam. ISBN 0-12-374144-0
Ruppert EE, Fox RS, Barnes RD (2004) Invertebrate zoology, 7th edn. Thomson-Brooks, Belmont, pp 518–522
Schmidt-Rhaesa A, Bartolomaeus T, Lemburg C, Ehlers U, Garey JR (1999) The position of the Arthropoda in the phylogenetic system. J Morphol 238(3):263–285
Selden PA, Shear WA (1996) Fossil evidence for the origin of spider spinnerets. PNAS. doi:10.1073/pnas.0809174106, PMC 2634869, PMID 19104044
Shubin N, Tabin C, Carroll S (2000) Fossils, genes and the evolution of animal limbs. In: Gee H (ed) Shaking the tree: readings from nature in the history of life. University of Chicago Press, Chicago
Vollrath F, Selden PA (2007) The role of behavior in the evolution of spiders, silks, and webs (PDF). Annu Rev Ecol Evol Syst 38:819–846
Whittington HB (1971) Redescription of Marrella splendens (Trilobitoidea) from the Burgess Shale, Middle Cambrian, British Columbia. Geol Surv Can Bull 209:1–24
Whittington HB (1979) Early arthropods, their appendages and relationships. In: House MR (ed) The origin of major invertebrate groups, vol 12, The Systematics Association special. Academic, London, pp 253–268
Zhang XG, Siveter DJ, Waloszek D, Maas A (2007) An epipodite-bearing crown-group crustacean from the Lower Cambrian. Nature 449(7162):595–598
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Chakravarthy, A.K., Kammar, V., Shashank, P.R. (2016). Arthropods: Evolution and Ecology. In: Chakravarthy, A., Sridhara, S. (eds) Economic and Ecological Significance of Arthropods in Diversified Ecosystems. Springer, Singapore. https://doi.org/10.1007/978-981-10-1524-3_1
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DOI: https://doi.org/10.1007/978-981-10-1524-3_1
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