Eutrophication-driven deoxygenation in the coastal ocean

Nancy N. Rabalais; Wei Jun Cai; Jacob Carstens; Daniel J. Conley; Brian Fry; Xinping Hu; Zoraida Quiñones-Rivera; Rutger Rosenberg; Calorine P. Slomp; R. Eugene Turner; Maren Voss; Björn Wissel; Jing Zhang

doi:10.5670/oceanog.2014.21

Eutrophication-driven deoxygenation in the coastal ocean

Nancy N. Rabalais
, Wei Jun Cai
, Jacob Carstens
, Daniel J. Conley
, Brian Fry
, Xinping Hu
, Zoraida Quiñones-Rivera
, Rutger Rosenberg
, Calorine P. Slomp
, R. Eugene Turner
, Maren Voss
, Björn Wissel
, Jing Zhang

河口海岸科学研究院

Louisiana Universities Marine Consortium
University of Delaware
Aarhus University
Lund University
Griffith University Queensland
Texas A&M University-Corpus Christi
University of Regina
University of Gothenburg
Utrecht University
Louisiana State University
Leibniz Institute for Baltic Sea Research

科研成果: 期刊稿件 › 文章 › 同行评审

323 引用（Scopus）

摘要

Human activities, especially increased nutrient loads that set in motion a cascading chain of events related to eutrophication, accelerate development of hypoxia (lower oxygen concentration) in many areas of the world's coastal ocean. Climate changes and extreme weather events may modify hypoxia. Organismal and fisheries effects are at the heart of the coastal hypoxia issue, but more subtle regime shifts and trophic interactions are also cause for concern. The chemical milieu associated with declining dissolved oxygen concentrations affects the biogeochemical cycling of oxygen, carbon, nitrogen, phosphorus, silica, trace metals, and sulfide as observed in water column processes, shifts in sediment biogeochemistry, and increases in carbon, nitrogen, and sulfur, as well as shifts in their stable isotopes, in recently accumulated sediments.

源语言	英语
页（从-至）	172-183
页数	12
期刊	Oceanography
卷	27
期	1
DOI	https://doi.org/10.5670/oceanog.2014.21
出版状态	已出版 - 3月 2014

联合国可持续发展目标

此成果有助于实现下列可持续发展目标：

可持续发展目标 13 气候行动
可持续发展目标 14 水下生物

访问文件

10.5670/oceanog.2014.21

其它文件与链接

链接到 Scopus 的出版物

引用此

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title = "Eutrophication-driven deoxygenation in the coastal ocean",

abstract = "Human activities, especially increased nutrient loads that set in motion a cascading chain of events related to eutrophication, accelerate development of hypoxia (lower oxygen concentration) in many areas of the world's coastal ocean. Climate changes and extreme weather events may modify hypoxia. Organismal and fisheries effects are at the heart of the coastal hypoxia issue, but more subtle regime shifts and trophic interactions are also cause for concern. The chemical milieu associated with declining dissolved oxygen concentrations affects the biogeochemical cycling of oxygen, carbon, nitrogen, phosphorus, silica, trace metals, and sulfide as observed in water column processes, shifts in sediment biogeochemistry, and increases in carbon, nitrogen, and sulfur, as well as shifts in their stable isotopes, in recently accumulated sediments.",

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T1 - Eutrophication-driven deoxygenation in the coastal ocean

AU - Rabalais, Nancy N.

AU - Cai, Wei Jun

AU - Carstens, Jacob

AU - Conley, Daniel J.

AU - Fry, Brian

AU - Hu, Xinping

AU - Quiñones-Rivera, Zoraida

AU - Rosenberg, Rutger

AU - Slomp, Calorine P.

AU - Turner, R. Eugene

AU - Voss, Maren

AU - Wissel, Björn

AU - Zhang, Jing

PY - 2014/3

Y1 - 2014/3

N2 - Human activities, especially increased nutrient loads that set in motion a cascading chain of events related to eutrophication, accelerate development of hypoxia (lower oxygen concentration) in many areas of the world's coastal ocean. Climate changes and extreme weather events may modify hypoxia. Organismal and fisheries effects are at the heart of the coastal hypoxia issue, but more subtle regime shifts and trophic interactions are also cause for concern. The chemical milieu associated with declining dissolved oxygen concentrations affects the biogeochemical cycling of oxygen, carbon, nitrogen, phosphorus, silica, trace metals, and sulfide as observed in water column processes, shifts in sediment biogeochemistry, and increases in carbon, nitrogen, and sulfur, as well as shifts in their stable isotopes, in recently accumulated sediments.

AB - Human activities, especially increased nutrient loads that set in motion a cascading chain of events related to eutrophication, accelerate development of hypoxia (lower oxygen concentration) in many areas of the world's coastal ocean. Climate changes and extreme weather events may modify hypoxia. Organismal and fisheries effects are at the heart of the coastal hypoxia issue, but more subtle regime shifts and trophic interactions are also cause for concern. The chemical milieu associated with declining dissolved oxygen concentrations affects the biogeochemical cycling of oxygen, carbon, nitrogen, phosphorus, silica, trace metals, and sulfide as observed in water column processes, shifts in sediment biogeochemistry, and increases in carbon, nitrogen, and sulfur, as well as shifts in their stable isotopes, in recently accumulated sediments.

UR - https://www.scopus.com/pages/publications/84894093813

U2 - 10.5670/oceanog.2014.21

DO - 10.5670/oceanog.2014.21

M3 - 文章

AN - SCOPUS:84894093813

SN - 1042-8275

VL - 27

SP - 172

EP - 183

JO - Oceanography

JF - Oceanography

IS - 1

ER -

Eutrophication-driven deoxygenation in the coastal ocean

摘要

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