Biological geography of the European seas: results from the MacroBen database

C. Arvanitidis; P. J. Somerfield; H. Rumohr; S. Faulwetter; V. Valavanis; A. Vasileiadou; G. Chatzigeorgiou; E. Vanden Berghe; J. Vanaverbeke; C. Labrune; A. Gremare; M. L. Zettler; M. Kedra; M. Wlodarska-Kowalczuk; I. F. Aleffi; J. M. Amouroux; N. Anisimova; G. Bachelet; M. Buntzow; S. J. Cochrane; M. J. Costello; J. Craeymeersch; S. Dahle; S. Degraer; S. Denisenko; C. Dounas; G. Duineveld; C. Emblow; V. Escavarage; M. C. Fabri; D. Fleischer; J. S. Gray; C. H. R. Heip; M. Herrmann; H. Hummel; U. Janas; I. Karakassis; M. A. Kendall; P. Kingston; L. Kotwicki; J. Laudien; A. S. Y. Mackie; E. L. Nevrova; A. Occhipinti-Ambrogi; P. G. Oliver; F. Olsgard; R. Palerud; A. Petrov; E. Rachor; N. K. Revkov; A. Rose; R. Sarda; W. C. H. Sistermans; J. Speybroeck; Gert Van Hoey; M. Vincx; P. Whomersley; W. Willems; A. Zenetos

doi:10.3354/meps07955

Biological geography of the European seas: results from the MacroBen database

C. Arvanitidis, P. J. Somerfield, H. Rumohr, S. Faulwetter, V. Valavanis, A. Vasileiadou, G. Chatzigeorgiou, E. Vanden Berghe, J. Vanaverbeke, C. Labrune, A. Gremare, M. L. Zettler, M. Kedra, M. Wlodarska-Kowalczuk, I. F. Aleffi, J. M. Amouroux, N. Anisimova, G. Bachelet, M. Buntzow, S. J. CochraneM. J. Costello, J. Craeymeersch, S. Dahle, S. Degraer, S. Denisenko, C. Dounas, G. Duineveld, C. Emblow, V. Escavarage, M. C. Fabri, D. Fleischer, J. S. Gray, C. H. R. Heip, M. Herrmann, H. Hummel, U. Janas, I. Karakassis, M. A. Kendall, P. Kingston, L. Kotwicki, J. Laudien, A. S. Y. Mackie, E. L. Nevrova, A. Occhipinti-Ambrogi, P. G. Oliver, F. Olsgard, R. Palerud, A. Petrov, E. Rachor, N. K. Revkov, A. Rose, R. Sarda, W. C. H. Sistermans, J. Speybroeck, Gert Van Hoey, M. Vincx, P. Whomersley, W. Willems, A. Zenetos

Onderzoeksoutput: Bijdrage aan tijdschrift › A1: Web of Science-artikel › peer review

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This study examines whether or not biogeographical and/or managerial divisions across the European seas can be validated using soft-bottom macrobenthic community data. The faunal groups used were: all macrobenthos groups, polychaetes, molluscs, crustaceans, echinoderms, sipunculans and the last 5 groups combined. In order to test the discriminating power of these groups, 3 criteria were used: (1) proximity, which refers to the expected closer faunal resemblance of adjacent. areas relative to more distant ones; (2) randomness, which in the present context is a measure of the degree to which the inventories of the various sectors, provinces or regions may in each case be considered as a random sample of the inventory of the next largest province or region in a hierarchy of geographic scales; and (3) differentiation, which provides a measure of the uniqueness of the pattern. Results show that only polychaetes fulfill all 3 criteria and that the only marine biogeographic system supported by the analyses is the one proposed by Longhurst (1998). Energy fluxes and other interactions, between the planktonic and benthic domains, acting over evolutionary time scales, can be associated with the multivariate pattern derived from the macrobenthos datasets. Third-stage multidimensional scaling ordination reveals that polychaetes produce a unique pattern when all systems are under consideration. Average island distance from the nearest coast, number of islands and the island surface area were the geographic variables best correlated with the community patterns produced by polychaetes. Biogeographic patterns suggest a vicariance model dominating over the founder-dispersal model except for the semi-closed regional seas, where a model substantially modified from the second option could be supported.

Oorspronkelijke taal	Engels
Tijdschrift	Marine Ecology-Progress Series
Volume	382
Pagina's (van-tot)	265-278
Aantal pagina’s	14
ISSN	0171-8630
DOI's	https://doi.org/10.3354/meps07955
Publicatiestatus	Gepubliceerd - 2009

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10.3354/meps07955

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Arvanitidis, C., Somerfield, P. J., Rumohr, H., Faulwetter, S., Valavanis, V., Vasileiadou, A., Chatzigeorgiou, G., Vanden Berghe, E., Vanaverbeke, J., Labrune, C., Gremare, A., Zettler, M. L., Kedra, M., Wlodarska-Kowalczuk, M., Aleffi, I. F., Amouroux, J. M., Anisimova, N., Bachelet, G., Buntzow, M., ... Zenetos, A. (2009). Biological geography of the European seas: results from the MacroBen database. Marine Ecology-Progress Series, 382, 265-278. https://doi.org/10.3354/meps07955

@article{5c649328fd3545f9a3651287c8c2c365,

title = "Biological geography of the European seas: results from the MacroBen database",

abstract = "This study examines whether or not biogeographical and/or managerial divisions across the European seas can be validated using soft-bottom macrobenthic community data. The faunal groups used were: all macrobenthos groups, polychaetes, molluscs, crustaceans, echinoderms, sipunculans and the last 5 groups combined. In order to test the discriminating power of these groups, 3 criteria were used: (1) proximity, which refers to the expected closer faunal resemblance of adjacent. areas relative to more distant ones; (2) randomness, which in the present context is a measure of the degree to which the inventories of the various sectors, provinces or regions may in each case be considered as a random sample of the inventory of the next largest province or region in a hierarchy of geographic scales; and (3) differentiation, which provides a measure of the uniqueness of the pattern. Results show that only polychaetes fulfill all 3 criteria and that the only marine biogeographic system supported by the analyses is the one proposed by Longhurst (1998). Energy fluxes and other interactions, between the planktonic and benthic domains, acting over evolutionary time scales, can be associated with the multivariate pattern derived from the macrobenthos datasets. Third-stage multidimensional scaling ordination reveals that polychaetes produce a unique pattern when all systems are under consideration. Average island distance from the nearest coast, number of islands and the island surface area were the geographic variables best correlated with the community patterns produced by polychaetes. Biogeographic patterns suggest a vicariance model dominating over the founder-dispersal model except for the semi-closed regional seas, where a model substantially modified from the second option could be supported.",

author = "C. Arvanitidis and Somerfield, {P. J.} and H. Rumohr and S. Faulwetter and V. Valavanis and A. Vasileiadou and G. Chatzigeorgiou and {Vanden Berghe}, E. and J. Vanaverbeke and C. Labrune and A. Gremare and Zettler, {M. L.} and M. Kedra and M. Wlodarska-Kowalczuk and Aleffi, {I. F.} and Amouroux, {J. M.} and N. Anisimova and G. Bachelet and M. Buntzow and Cochrane, {S. J.} and Costello, {M. J.} and J. Craeymeersch and S. Dahle and S. Degraer and S. Denisenko and C. Dounas and G. Duineveld and C. Emblow and V. Escavarage and Fabri, {M. C.} and D. Fleischer and Gray, {J. S.} and Heip, {C. H. R.} and M. Herrmann and H. Hummel and U. Janas and I. Karakassis and Kendall, {M. A.} and P. Kingston and L. Kotwicki and J. Laudien and Mackie, {A. S. Y.} and Nevrova, {E. L.} and A. Occhipinti-Ambrogi and Oliver, {P. G.} and F. Olsgard and R. Palerud and A. Petrov and E. Rachor and Revkov, {N. K.} and A. Rose and R. Sarda and Sistermans, {W. C. H.} and J. Speybroeck and {Van Hoey}, Gert and M. Vincx and P. Whomersley and W. Willems and A. Zenetos",

year = "2009",

doi = "10.3354/meps07955",

language = "English",

volume = "382",

pages = "265--278",

journal = "Marine Ecology-Progress Series",

issn = "0171-8630",

publisher = "Inter-Research",

}

Arvanitidis, C, Somerfield, PJ, Rumohr, H, Faulwetter, S, Valavanis, V, Vasileiadou, A, Chatzigeorgiou, G, Vanden Berghe, E, Vanaverbeke, J, Labrune, C, Gremare, A, Zettler, ML, Kedra, M, Wlodarska-Kowalczuk, M, Aleffi, IF, Amouroux, JM, Anisimova, N, Bachelet, G, Buntzow, M, Cochrane, SJ, Costello, MJ, Craeymeersch, J, Dahle, S, Degraer, S, Denisenko, S, Dounas, C, Duineveld, G, Emblow, C, Escavarage, V, Fabri, MC, Fleischer, D, Gray, JS, Heip, CHR, Herrmann, M, Hummel, H, Janas, U, Karakassis, I, Kendall, MA, Kingston, P, Kotwicki, L, Laudien, J, Mackie, ASY, Nevrova, EL, Occhipinti-Ambrogi, A, Oliver, PG, Olsgard, F, Palerud, R, Petrov, A, Rachor, E, Revkov, NK, Rose, A, Sarda, R, Sistermans, WCH, Speybroeck, J, Van Hoey, G, Vincx, M, Whomersley, P, Willems, W & Zenetos, A 2009, 'Biological geography of the European seas: results from the MacroBen database', Marine Ecology-Progress Series, vol. 382, blz. 265-278. https://doi.org/10.3354/meps07955

TY - JOUR

T1 - Biological geography of the European seas: results from the MacroBen database

AU - Arvanitidis, C.

AU - Somerfield, P. J.

AU - Rumohr, H.

AU - Faulwetter, S.

AU - Valavanis, V.

AU - Vasileiadou, A.

AU - Chatzigeorgiou, G.

AU - Vanden Berghe, E.

AU - Vanaverbeke, J.

AU - Labrune, C.

AU - Gremare, A.

AU - Zettler, M. L.

AU - Kedra, M.

AU - Wlodarska-Kowalczuk, M.

AU - Aleffi, I. F.

AU - Amouroux, J. M.

AU - Anisimova, N.

AU - Bachelet, G.

AU - Buntzow, M.

AU - Cochrane, S. J.

AU - Costello, M. J.

AU - Craeymeersch, J.

AU - Dahle, S.

AU - Degraer, S.

AU - Denisenko, S.

AU - Dounas, C.

AU - Duineveld, G.

AU - Emblow, C.

AU - Escavarage, V.

AU - Fabri, M. C.

AU - Fleischer, D.

AU - Gray, J. S.

AU - Heip, C. H. R.

AU - Herrmann, M.

AU - Hummel, H.

AU - Janas, U.

AU - Karakassis, I.

AU - Kendall, M. A.

AU - Kingston, P.

AU - Kotwicki, L.

AU - Laudien, J.

AU - Mackie, A. S. Y.

AU - Nevrova, E. L.

AU - Occhipinti-Ambrogi, A.

AU - Oliver, P. G.

AU - Olsgard, F.

AU - Palerud, R.

AU - Petrov, A.

AU - Rachor, E.

AU - Revkov, N. K.

AU - Rose, A.

AU - Sarda, R.

AU - Sistermans, W. C. H.

AU - Speybroeck, J.

AU - Van Hoey, Gert

AU - Vincx, M.

AU - Whomersley, P.

AU - Willems, W.

AU - Zenetos, A.

PY - 2009

Y1 - 2009

N2 - This study examines whether or not biogeographical and/or managerial divisions across the European seas can be validated using soft-bottom macrobenthic community data. The faunal groups used were: all macrobenthos groups, polychaetes, molluscs, crustaceans, echinoderms, sipunculans and the last 5 groups combined. In order to test the discriminating power of these groups, 3 criteria were used: (1) proximity, which refers to the expected closer faunal resemblance of adjacent. areas relative to more distant ones; (2) randomness, which in the present context is a measure of the degree to which the inventories of the various sectors, provinces or regions may in each case be considered as a random sample of the inventory of the next largest province or region in a hierarchy of geographic scales; and (3) differentiation, which provides a measure of the uniqueness of the pattern. Results show that only polychaetes fulfill all 3 criteria and that the only marine biogeographic system supported by the analyses is the one proposed by Longhurst (1998). Energy fluxes and other interactions, between the planktonic and benthic domains, acting over evolutionary time scales, can be associated with the multivariate pattern derived from the macrobenthos datasets. Third-stage multidimensional scaling ordination reveals that polychaetes produce a unique pattern when all systems are under consideration. Average island distance from the nearest coast, number of islands and the island surface area were the geographic variables best correlated with the community patterns produced by polychaetes. Biogeographic patterns suggest a vicariance model dominating over the founder-dispersal model except for the semi-closed regional seas, where a model substantially modified from the second option could be supported.

AB - This study examines whether or not biogeographical and/or managerial divisions across the European seas can be validated using soft-bottom macrobenthic community data. The faunal groups used were: all macrobenthos groups, polychaetes, molluscs, crustaceans, echinoderms, sipunculans and the last 5 groups combined. In order to test the discriminating power of these groups, 3 criteria were used: (1) proximity, which refers to the expected closer faunal resemblance of adjacent. areas relative to more distant ones; (2) randomness, which in the present context is a measure of the degree to which the inventories of the various sectors, provinces or regions may in each case be considered as a random sample of the inventory of the next largest province or region in a hierarchy of geographic scales; and (3) differentiation, which provides a measure of the uniqueness of the pattern. Results show that only polychaetes fulfill all 3 criteria and that the only marine biogeographic system supported by the analyses is the one proposed by Longhurst (1998). Energy fluxes and other interactions, between the planktonic and benthic domains, acting over evolutionary time scales, can be associated with the multivariate pattern derived from the macrobenthos datasets. Third-stage multidimensional scaling ordination reveals that polychaetes produce a unique pattern when all systems are under consideration. Average island distance from the nearest coast, number of islands and the island surface area were the geographic variables best correlated with the community patterns produced by polychaetes. Biogeographic patterns suggest a vicariance model dominating over the founder-dispersal model except for the semi-closed regional seas, where a model substantially modified from the second option could be supported.

U2 - 10.3354/meps07955

DO - 10.3354/meps07955

M3 - A1: Web of Science-article

SN - 0171-8630

VL - 382

SP - 265

EP - 278

JO - Marine Ecology-Progress Series

JF - Marine Ecology-Progress Series

ER -

Biological geography of the European seas: results from the MacroBen database

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