The study of deep-sea cephalopods

Henk Jan T. Hoving; Jose Angel A. Perez; Kathrin S.R. Bolstad; Heather E. Braid; Aaron B. Evans; Dirk Fuchs; Heather Judkins; Jesse T. Kelly; José E.A.R. Marian; Ryuta Nakajima; Uwe Piatkowski; Amanda Reid; Michael Vecchione; José C.C. Xavier

doi:10.1016/B978-0-12-800287-2.00003-2

The study of deep-sea cephalopods

Henk Jan T. Hoving, Jose Angel A. Perez, Kathrin S.R. Bolstad, Heather E. Braid, Aaron B. Evans, Dirk Fuchs, Heather Judkins, Jesse T. Kelly, José E.A.R. Marian, Ryuta Nakajima, Uwe Piatkowski, Amanda Reid, Michael Vecchione, José C.C. Xavier

University of Minnesota Duluth

Research output: Chapter in Book/Report/Conference proceeding › Chapter

95 Scopus citations

Abstract

"Deep-sea" cephalopods are here defined as cephalopods that spend a significant part of their life cycles outside the euphotic zone. In this chapter, the state of knowledge in several aspects of deep-sea cephalopod research are summarized, including information sources for these animals, diversity and general biogeography and life cycles, including reproduction. Recommendations are made for addressing some of the remaining knowledge deficiencies using a variety of traditional and more recently developed methods. The types of oceanic gear that are suitable for collecting cephalopod specimens and images are reviewed. Many groups of deep-sea cephalopods require taxonomic reviews, ideally based on both morphological and molecular characters. Museum collections play a vital role in these revisions, and novel (molecular) techniques may facilitate new use of old museum specimens. Fundamental life-cycle parameters remain unknown for many species; techniques developed for neritic species that could potentially be applied to deep-sea cephalopods are discussed. Reproductive tactics and strategies in deep-sea cephalopods are very diverse and call for comparative evolutionary and experimental studies, but even in the twenty-first century, mature individuals are still unknown for many species. New insights into diet and trophic position have begun to reveal a more diverse range of feeding strategies than the typically voracious predatory lifestyle known for many cephalopods. Regular standardized deep-sea cephalopod surveys are necessary to provide insight into temporal changes in oceanic cephalopod populations and to forecast, verify and monitor the impacts of global marine changes and human impacts on these populations.

Original language	English (US)
Title of host publication	Advances in Marine Biology
Publisher	Academic Press
Pages	235-359
Number of pages	125
DOIs	https://doi.org/10.1016/B978-0-12-800287-2.00003-2
State	Published - 2014

Publication series

Name	Advances in Marine Biology
Volume	67
ISSN (Print)	0065-2881

Bibliographical note

Funding Information:
H.J.T.H. was funded by the David and Lucile Packard Foundation, the Netherlands Organization for Scientific Research (NWO) through a Rubicon grant (#825.09.016), and by a grant (CP1218) of the Cluster of Excellence 80 “The Future Ocean,” which is funded within the framework of the Excellence Initiative by the Deutsche Forschungsgemeinschaft (DFG) on behalf of the German federal and state governments. J. E. A. R. M. acknowledges funding provided by the São Paulo Research Foundation—FAPESP (grants # 2013/02653-1 and 2012/14140-6) and CNPq (grant # 477233/2013-9)—and the support of the Research Center for Marine Biodiversity (NP-BioMar). K. S. R. B., A. B. E., H. E. B. and J. T. K. received support from Auckland University of Technology, with J. T. K. additionally supported by the New Zealand Marine Sciences Society.

Keywords

Biogeography
Cephalopoda
Collection methods
Deep sea
Diversity
Evolution
Longevity
Reproduction
Trophic ecology

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Hoving, H. J. T., Perez, J. A. A., Bolstad, K. S. R., Braid, H. E., Evans, A. B., Fuchs, D., Judkins, H., Kelly, J. T., Marian, J. E. A. R., Nakajima, R., Piatkowski, U., Reid, A., Vecchione, M., & Xavier, J. C. C. (2014). The study of deep-sea cephalopods. In Advances in Marine Biology (pp. 235-359). (Advances in Marine Biology; Vol. 67). Academic Press. https://doi.org/10.1016/B978-0-12-800287-2.00003-2

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abstract = "{"}Deep-sea{"} cephalopods are here defined as cephalopods that spend a significant part of their life cycles outside the euphotic zone. In this chapter, the state of knowledge in several aspects of deep-sea cephalopod research are summarized, including information sources for these animals, diversity and general biogeography and life cycles, including reproduction. Recommendations are made for addressing some of the remaining knowledge deficiencies using a variety of traditional and more recently developed methods. The types of oceanic gear that are suitable for collecting cephalopod specimens and images are reviewed. Many groups of deep-sea cephalopods require taxonomic reviews, ideally based on both morphological and molecular characters. Museum collections play a vital role in these revisions, and novel (molecular) techniques may facilitate new use of old museum specimens. Fundamental life-cycle parameters remain unknown for many species; techniques developed for neritic species that could potentially be applied to deep-sea cephalopods are discussed. Reproductive tactics and strategies in deep-sea cephalopods are very diverse and call for comparative evolutionary and experimental studies, but even in the twenty-first century, mature individuals are still unknown for many species. New insights into diet and trophic position have begun to reveal a more diverse range of feeding strategies than the typically voracious predatory lifestyle known for many cephalopods. Regular standardized deep-sea cephalopod surveys are necessary to provide insight into temporal changes in oceanic cephalopod populations and to forecast, verify and monitor the impacts of global marine changes and human impacts on these populations.",

keywords = "Biogeography, Cephalopoda, Collection methods, Deep sea, Diversity, Evolution, Longevity, Reproduction, Trophic ecology",

author = "Hoving, {Henk Jan T.} and Perez, {Jose Angel A.} and Bolstad, {Kathrin S.R.} and Braid, {Heather E.} and Evans, {Aaron B.} and Dirk Fuchs and Heather Judkins and Kelly, {Jesse T.} and Marian, {Jos{\'e} E.A.R.} and Ryuta Nakajima and Uwe Piatkowski and Amanda Reid and Michael Vecchione and Xavier, {Jos{\'e} C.C.}",

note = "Funding Information: H.J.T.H. was funded by the David and Lucile Packard Foundation, the Netherlands Organization for Scientific Research (NWO) through a Rubicon grant (#825.09.016), and by a grant (CP1218) of the Cluster of Excellence 80 “The Future Ocean,” which is funded within the framework of the Excellence Initiative by the Deutsche Forschungsgemeinschaft (DFG) on behalf of the German federal and state governments. J. E. A. R. M. acknowledges funding provided by the S{\~a}o Paulo Research Foundation—FAPESP (grants # 2013/02653-1 and 2012/14140-6) and CNPq (grant # 477233/2013-9)—and the support of the Research Center for Marine Biodiversity (NP-BioMar). K. S. R. B., A. B. E., H. E. B. and J. T. K. received support from Auckland University of Technology, with J. T. K. additionally supported by the New Zealand Marine Sciences Society. ",

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AU - Bolstad, Kathrin S.R.

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AU - Evans, Aaron B.

AU - Fuchs, Dirk

AU - Judkins, Heather

AU - Kelly, Jesse T.

AU - Marian, José E.A.R.

AU - Nakajima, Ryuta

AU - Piatkowski, Uwe

AU - Reid, Amanda

AU - Vecchione, Michael

AU - Xavier, José C.C.

N1 - Funding Information: H.J.T.H. was funded by the David and Lucile Packard Foundation, the Netherlands Organization for Scientific Research (NWO) through a Rubicon grant (#825.09.016), and by a grant (CP1218) of the Cluster of Excellence 80 “The Future Ocean,” which is funded within the framework of the Excellence Initiative by the Deutsche Forschungsgemeinschaft (DFG) on behalf of the German federal and state governments. J. E. A. R. M. acknowledges funding provided by the São Paulo Research Foundation—FAPESP (grants # 2013/02653-1 and 2012/14140-6) and CNPq (grant # 477233/2013-9)—and the support of the Research Center for Marine Biodiversity (NP-BioMar). K. S. R. B., A. B. E., H. E. B. and J. T. K. received support from Auckland University of Technology, with J. T. K. additionally supported by the New Zealand Marine Sciences Society.

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N2 - "Deep-sea" cephalopods are here defined as cephalopods that spend a significant part of their life cycles outside the euphotic zone. In this chapter, the state of knowledge in several aspects of deep-sea cephalopod research are summarized, including information sources for these animals, diversity and general biogeography and life cycles, including reproduction. Recommendations are made for addressing some of the remaining knowledge deficiencies using a variety of traditional and more recently developed methods. The types of oceanic gear that are suitable for collecting cephalopod specimens and images are reviewed. Many groups of deep-sea cephalopods require taxonomic reviews, ideally based on both morphological and molecular characters. Museum collections play a vital role in these revisions, and novel (molecular) techniques may facilitate new use of old museum specimens. Fundamental life-cycle parameters remain unknown for many species; techniques developed for neritic species that could potentially be applied to deep-sea cephalopods are discussed. Reproductive tactics and strategies in deep-sea cephalopods are very diverse and call for comparative evolutionary and experimental studies, but even in the twenty-first century, mature individuals are still unknown for many species. New insights into diet and trophic position have begun to reveal a more diverse range of feeding strategies than the typically voracious predatory lifestyle known for many cephalopods. Regular standardized deep-sea cephalopod surveys are necessary to provide insight into temporal changes in oceanic cephalopod populations and to forecast, verify and monitor the impacts of global marine changes and human impacts on these populations.

AB - "Deep-sea" cephalopods are here defined as cephalopods that spend a significant part of their life cycles outside the euphotic zone. In this chapter, the state of knowledge in several aspects of deep-sea cephalopod research are summarized, including information sources for these animals, diversity and general biogeography and life cycles, including reproduction. Recommendations are made for addressing some of the remaining knowledge deficiencies using a variety of traditional and more recently developed methods. The types of oceanic gear that are suitable for collecting cephalopod specimens and images are reviewed. Many groups of deep-sea cephalopods require taxonomic reviews, ideally based on both morphological and molecular characters. Museum collections play a vital role in these revisions, and novel (molecular) techniques may facilitate new use of old museum specimens. Fundamental life-cycle parameters remain unknown for many species; techniques developed for neritic species that could potentially be applied to deep-sea cephalopods are discussed. Reproductive tactics and strategies in deep-sea cephalopods are very diverse and call for comparative evolutionary and experimental studies, but even in the twenty-first century, mature individuals are still unknown for many species. New insights into diet and trophic position have begun to reveal a more diverse range of feeding strategies than the typically voracious predatory lifestyle known for many cephalopods. Regular standardized deep-sea cephalopod surveys are necessary to provide insight into temporal changes in oceanic cephalopod populations and to forecast, verify and monitor the impacts of global marine changes and human impacts on these populations.

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KW - Cephalopoda

KW - Collection methods

KW - Deep sea

KW - Diversity

KW - Evolution

KW - Longevity

KW - Reproduction

KW - Trophic ecology

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ER -

The study of deep-sea cephalopods

Abstract

Publication series

Bibliographical note

Keywords

Access

OpenUrl availability

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Cite this