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The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology. / Bobkov, A.A.; Petrov, K.M.

Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA).. 2013. p. 324-327.

Research output: Chapter in Book/Report/Conference proceedingArticle in an anthologyResearch

Harvard

Bobkov, AA & Petrov, KM 2013, The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology. in Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA).. pp. 324-327.

APA

Bobkov, A. A., & Petrov, K. M. (2013). The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology. In Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA). (pp. 324-327)

Vancouver

Bobkov AA, Petrov KM. The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology. In Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA).. 2013. p. 324-327

Author

Bobkov, A.A. ; Petrov, K.M. / The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology. Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA).. 2013. pp. 324-327

BibTeX

@inbook{be20ed59df3e4b4ea78bb16a41e5aed0,
title = "The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology.",
abstract = "Large marine ecosystem – the water areas, characterizing by common bathymetry, geomorphology, properties of water masses, hydroclimate (air circulation and cryosphereic elements if it is question of freezing regions), biogeography, ecology, productivity and trophically interconnected populations. Distinguishing of large marine ecosystems is based on physico-geographic, oceanographic and biocenosis factors. Most full of them serves landscape-bionomic approach considering multi-level description of biomes taking for basic structural elements of water columns. Mark Spalging (Spalding and al, 2007) addressing to history of problem, writes that biogeographic regionalization of the World Ocean is traditionally biotic, leaning on showing up unique floristic and faunistic complexes by distribution analysis of taxa (families, genus, species). Developed by Spalding with colleagues the global system of regionalization includes 12 realms, 62 provinces and 232 ecoregions. Criteria for their separating include biocen",
keywords = "Large marine ecosystem, biogeographic regionalization, Sea of Okhotsk",
author = "A.A. Bobkov and K.M. Petrov",
year = "2013",
language = "English",
pages = "324--327",
booktitle = "Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA).",

}

RIS

TY - CHAP

T1 - The Sea of Okhotsk as the large marine ecosystem. Part 1: methodology.

AU - Bobkov, A.A.

AU - Petrov, K.M.

PY - 2013

Y1 - 2013

N2 - Large marine ecosystem – the water areas, characterizing by common bathymetry, geomorphology, properties of water masses, hydroclimate (air circulation and cryosphereic elements if it is question of freezing regions), biogeography, ecology, productivity and trophically interconnected populations. Distinguishing of large marine ecosystems is based on physico-geographic, oceanographic and biocenosis factors. Most full of them serves landscape-bionomic approach considering multi-level description of biomes taking for basic structural elements of water columns. Mark Spalging (Spalding and al, 2007) addressing to history of problem, writes that biogeographic regionalization of the World Ocean is traditionally biotic, leaning on showing up unique floristic and faunistic complexes by distribution analysis of taxa (families, genus, species). Developed by Spalding with colleagues the global system of regionalization includes 12 realms, 62 provinces and 232 ecoregions. Criteria for their separating include biocen

AB - Large marine ecosystem – the water areas, characterizing by common bathymetry, geomorphology, properties of water masses, hydroclimate (air circulation and cryosphereic elements if it is question of freezing regions), biogeography, ecology, productivity and trophically interconnected populations. Distinguishing of large marine ecosystems is based on physico-geographic, oceanographic and biocenosis factors. Most full of them serves landscape-bionomic approach considering multi-level description of biomes taking for basic structural elements of water columns. Mark Spalging (Spalding and al, 2007) addressing to history of problem, writes that biogeographic regionalization of the World Ocean is traditionally biotic, leaning on showing up unique floristic and faunistic complexes by distribution analysis of taxa (families, genus, species). Developed by Spalding with colleagues the global system of regionalization includes 12 realms, 62 provinces and 232 ecoregions. Criteria for their separating include biocen

KW - Large marine ecosystem

KW - biogeographic regionalization

KW - Sea of Okhotsk

M3 - Article in an anthology

SP - 324

EP - 327

BT - Proc.of the 28th Int.Symp.on Okhotsk Sea & Sea Ice (OSCORA).

ER -

ID: 4630574