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OLS Field Name OLS Field Data
Main Title Modeling coastal hypoxia : numerical simulations of patterns, controls and effects of dissolved oxygen dynamics /
Other Authors
Author Title of a Work
Justiâc, Dubravko,
Rose, Kenneth A.,
Hetland, Robert D.,
Fennel, Katja,
Publisher Springer,
Year Published 2017
OCLC Number 989975622
ISBN 3319545698; 9783319545691
Subjects Coastal ecology. ; Hypoxia (Water)--Mathematical models. ; Hypoxia (Water)--Computer simulation. ; Hypoxia (Water)--Environmental aspects--Mathematical models. ; Hypoxia (Water)--Environmental aspects--Computer simulation. ; Chemical oceanography. ; NATURE--Ecology. ; NATURE--Ecosystems & Habitats--Wilderness. ; SCIENCE--Environmental Science. ; SCIENCE--Life Sciences--Ecology.
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
EKCM  GC116.M6 2017 NHEERL/GED Library/Gulf Breeze,FL 02/27/2019 STATUS
Collation xii, 433 pages : illustrations (some color) ; 24 cm
Notes Includes bibliographical references and index.
Contents Notes This book provides a snapshot of representative modeling analyses of coastal hypoxia and its effects. Hypoxia refers to conditions in the water column where dissolved oxygen falls below levels that can support most metazoan marine life (i.e., 2 mg O2 l-1). The number of hypoxic zones has been increasing at an exponential rate since the 1960s; there are currently more than 600 documented hypoxic zones in the estuarine and coastal waters worldwide. Hypoxia develops as a synergistic product of many physical and biological factors that affect the balance of dissolved oxygen in seawater, including temperature, solar radiation, wind, freshwater discharge, nutrient supply, and the production and decay of organic matter. A number of modeling approaches have been increasingly used in hypoxia research, along with the more traditional observational and experimental studies. Modeling is necessary because of rapidly changing coastal circulation and stratification patterns that affect hypoxia, the large spatial extent over which hypoxia develops, and limitations on our capabilities to directly measure hypoxia over large spatial and temporal scales. This book consists of 15 chapters that are broadly organized around three main topics: (1) Modeling of the physical controls on hypoxia, (2) Modeling of biogeochemical controls and feedbacks, and, (3) Modeling of the ecological effects of hypoxia. The final chapter is a synthesis chapter that draws generalities from the earlier chapters, highlights strengths and weaknesses of the current state-of-the-art modeling, and offers recommendations on future directions.
Place Published Cham, Switzerland
PUB Date Free Form ©2017
BIB Level m
Medium unmediated
Content text
Carrier online resource
Cataloging Source RDA
LCCN 2017933669
Merged OCLC records 971044764; 971070032; 971222118; 971346406; 971513317
OCLC Time Stamp 20190221062612
Language eng
Origin OCLC
Type CAT
OCLC Rec Leader 03909cam 2200577Ii 45010