Role of the statolith in functioning of the acceleration receptor system in squids and sepioids

Alexander I. Arkhipkin; Vyacheslav A. Bizikov

doi:10.1111/j.1469-7998.2000.tb00575.x

Abstract

Morphology of statoliths and anatomy of statocysts were studied in five species of Gonatidae, Moroteuthis robusta (Onychoteuthidae) and Galiteuthis phyllura (Cranchiidae) from the northern Bering Sea, and Todarodes pacificus (Ommastrephidae) from the Pacific waters near Japan. A special experiment was carried out in order to observe statolith mobility on the macula statica and possible endolymph flows within the statocyst in freshly caught gonatid squid Berryteuthis magister. It was found that the statolith may deviate at small acute angles around three axes running through its centre of rotation (located near the spur) without any visual damage of its attachment area to the macula. This finding enabled us to re-consider previous theories and to create a new model of the squid statocyst functioning with the statolith as detector of multidimensional movement. Two types of statolith morphology are distinguished: demersal type statoliths characteristic of near-bottom decapods, and pelagic type statoliths characteristic of all pelagic squids and not dependent on their systematic position. Phylogenetic and ecological features of the statocyst and statolith structure are established. Possible evolutionary trends in development of different types of statocysts in decapods are discussed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Arkhipkin, Alexander I. 2005. Statoliths as 'black boxes' (life recorders) in squid. Marine and Freshwater Research, Vol. 56, Issue. 5, p. 573.

2005. Cephalopods. p. 373.

LIU, Bi-lin CHEN, Xin-jun MA, Jin and QIAN, Wei-guo 2010. Review of studies of the microchemical structure of cephalopod statoliths. JOURNAL OF FISHERIES OF CHINA, Vol. 34, Issue. 2, p. 315.

Guerra, Ángel González, Ángel F. Pascual, Santiago and Dawe, Earl G. 2011. The giant squid Architeuthis: An emblematic invertebrate that can represent concern for the conservation of marine biodiversity. Biological Conservation, Vol. 144, Issue. 7, p. 1989.

Liu, B Chen, X Chen, Y Lu, H and Qian, W 2011. Trace elements in the statoliths of jumbo flying squid off the Exclusive Economic Zones of Chile and Peru. Marine Ecology Progress Series, Vol. 429, Issue. , p. 93.

Arkhipkin, Alexander I. Bizikov, Vyacheslav A. and Fuchs, Dirk 2012. Vestigial phragmocone in the gladius points to a deepwater origin of squid (Mollusca: Cephalopoda). Deep Sea Research Part I: Oceanographic Research Papers, Vol. 61, Issue. , p. 109.

Kaplan, Maxwell B. Mooney, T. Aran McCorkle, Daniel C. Cohen, Anne L. and Thrush, Simon 2013. Adverse Effects of Ocean Acidification on Early Development of Squid (Doryteuthis pealeii). PLoS ONE, Vol. 8, Issue. 5, p. e63714.

Navarro, Michael Bockmon, Emily Frieder, Christina Gonzalez, Jennifer and Levin, Lisa 2014. Environmental pH, O2 and Capsular Effects on the Geochemical Composition of Statoliths of Embryonic Squid Doryteuthis opalescens. Water, Vol. 6, Issue. 8, p. 2233.

Haigh, Rowan Ianson, Debby Holt, Carrie A. Neate, Holly E. Edwards, Andrew M. and Thiyagarajan (Rajan), Vengatesen 2015. Effects of Ocean Acidification on Temperate Coastal Marine Ecosystems and Fisheries in the Northeast Pacific. PLOS ONE, Vol. 10, Issue. 2, p. e0117533.

Hart, Malcolm B. Clarke, Malcolm R. De Jonghe, Alex Price, Gregory D. Page, Kevin N. and Smart, Christopher W. 2015. Statoliths from the Jurassic succession of south-west England, United Kingdom. Swiss Journal of Palaeontology, Vol. 134, Issue. 2, p. 199.

Barcellos, Diogo D. and Gasalla, Maria A. 2015. Morphology and morphometry ofDoryteuthis plei(Cephalopoda: Loliginidae) statoliths from the northern shelf off São Paulo, southeastern Brazil. Journal of Natural History, Vol. 49, Issue. 21-24, p. 1305.

Neige, Pascal Lapierre, Hervé Merle, Didier and Kiel, Steffen 2016. New Eocene Coleoid (Cephalopoda) Diversity from Statolith Remains: Taxonomic Assignation, Fossil Record Analysis, and New Data for Calibrating Molecular Phylogenies. PLOS ONE, Vol. 11, Issue. 5, p. e0154062.

Klug, Christian Schweigert, Günter Fuchs, Dirk Kruta, Isabelle and Tischlinger, Helmut 2016. Adaptations to squid-style high-speed swimming in Jurassic belemnitids. Biology Letters, Vol. 12, Issue. 1, p. 20150877.

Navarro, Michael O. Kwan, Garfield T. Batalov, Olga Choi, Chelsea Y. Pierce, N. Tessa Levin, Lisa A. and Melzner, Frank 2016. Development of Embryonic Market Squid, Doryteuthis opalescens, under Chronic Exposure to Low Environmental pH and [O2]. PLOS ONE, Vol. 11, Issue. 12, p. e0167461.

Liu, Bi Lin Cao, Jie Truesdell, Samuel B. Chen, Yong Chen, Xin Jun and Tian, Si Quan 2016. Reconstructing cephalopod migration with statolith elemental signatures: a case study using Dosidicus gigas. Fisheries Science, Vol. 82, Issue. 3, p. 425.

Fang, Zhou and Chen, Xinjun 2017. Statolith-based species identification methods for ommastrephidae species. p. 1.

Jin, Yue Liu, Bilin Li, Jianhua and Chen, Xinjun 2017. Identification of three common Loliginidae squid species in the South China Sea by analyzing hard tissues with geometric outline method. Journal of Ocean University of China, Vol. 16, Issue. 5, p. 840.

Jones, Jessica B. Arkhipkin, Alexander I. Marriott, Andy L. and Pierce, Graham J. 2018. Using statolith elemental signatures to confirm ontogenetic migrations of the squid Doryteuthis gahi around the Falkland Islands (Southwest Atlantic). Chemical Geology, Vol. 481, Issue. , p. 85.

Spady, Blake L. Munday, Philip L. and Watson, Sue‐Ann 2018. Predatory strategies and behaviours in cephalopods are altered by elevated CO2. Global Change Biology, Vol. 24, Issue. 6, p. 2585.

Arkhipkin, Alexander I. 2018. Suture line complexity as an adaptation to acceleration changes during ammonoid locomotion. Cretaceous Research, Vol. 88, Issue. , p. 46.

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Role of the statolith in functioning of the acceleration receptor system in squids and sepioids

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