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Ecophysiology and Ocean Acidification in Marine Mollusks : From Molecule to Behavior / Youji Wang, editor.
Format
Book
Language
English
Εdition
First edition.
Published/Created
London, England : Elsevier Inc., [2024]
©2024
Description
1 online resource (322 pages)
Details
Subject(s)
Ecophysiology
[Browse]
Editor
Wang, Youji
[Browse]
Bibliographic references
Includes bibliographical references and index.
Source of description
Description based on publisher supplied metadata and other sources.
Description based on print version record.
Contents
Front Cover
Ecophysiology and Ocean Acidification in Marine Mollusks
Copyright
Contents
Contributors
Preface
Acknowledgments
1 - Overview: Ocean acidification and marine mollusks
1.1 Introduction of ocean acidification
1.2 Introduction of marine mollusks
1.3 Effects of ocean acidification on marine mollusks
1.3.1 Effects on reproduction
1.3.2 Effects on calcification
1.3.3 Effects on energy metabolism
1.3.4 Effects on immune responses
1.3.5 Effects on growth and development
References
2 - Effects of ocean acidification on the reproduction of marine mollusks
2.1 Introduction
2.2 Effects of ocean acidification on hatching of marine mollusks
2.3 Effects of ocean acidification on spawning and fertilization of marine mollusks
2.4 Effects of acidification on reproductive gene expression in marine mollusks
2.5 Reproductive strategies of different marine mollusk groups in response to acidification: New ideas for breeding of stress-r ...
3 - Effects of ocean acidification on the growth and development of marine mollusks
3.1 Introduction
3.2 Effects of OA on embryonic development and larval growth of marine mollusks
3.3 Effects of OA on calcification of marine mollusks
3.3.1 Brief introduction of calcification in mollusks
3.3.2 Complex impacts of OA on calcification of marine mollusks
3.3.3 Increased shell dissolution in the acidifying ocean
3.4 Molecular responses of embryonic development and larval growth of marine mollusks to OA
3.4.1 Energy budget
3.4.2 Acid-base balance
3.4.3 Mechanism of mineralization
3.4.4 Modification of organic matrix
3.4.5 Mineralogical adjustment
3.4.6 Species interaction
3.4.7 Transgenerational adaptation
3.4.8 Historical OA.
3.5 Conclusion and prospection
4 - Impacts of ocean acidification on metabolism of marine mollusks
4.1 Ocean acidification as a stressor for the mollusks populations
4.2 Impacts of OA on energy metabolism of mollusks
4.2.1 Effects of OA on molluskan feeding and digestion
4.2.2 Effects of OA on aerobic metabolism of mollusks
4.2.3 Impacts of OA on the energy costs of basal maintenance
4.2.3.1 Energy costs of biomineralization
4.2.3.2 Energy costs of acid-base homeostasis
4.3 Impacts of OA on the intermediary metabolism of mollusks
4.4 Conclusions and outlook
5 - Impacts of ocean acidification on the immunity and host-microbe interactions in marine mollusks
5.1 Introduction
5.2 Impacts of ocean acidification on immunity of marine mollusks
5.3 Potential affecting mechanisms of ocean acidification on immunity of marine mollusks
5.4 Impacts of ocean acidification on host-microbe interactions in marine mollusks
5.5 The combined impacts of ocean acidification and other environmental stressors on the immunity of marine mollusks
5.5.1 The combined impacts of ocean acidification and temperature on the immunity of marine mollusks
5.5.2 The combined impacts of ocean acidification and hypoxia on the immunity of marine mollusks
5.5.3 The combined impacts of ocean acidification and salinity on the immunity of marine mollusks
5.5.4 The combined impacts of ocean acidification and heavy metals on the immunity of marine mollusks
5.5.5 The combined impacts of ocean acidification and emerging contaminants on the immunity of marine mollusks
6 - Impacts of ocean acidification on the behavior of marine mollusks
6.1 Introduction
6.2 Impacts of ocean acidification on foraging of marine mollusks.
6.3 Impacts of ocean acidification on antipredation of marine mollusks
6.4 Impacts of ocean acidification on habitat selection for marine mollusks
6.5 Impacts of ocean acidification on sports behavior of marine mollusks
6.6 Impacts of ocean acidification on clumping behavior of marine mollusks
6.7 Impacts of ocean acidification on the social hierarchy of marine mollusks
6.8 Conclusion
7 - Proteomic analysis of ocean acidification stress in bivalves: A synthesis and implications for aquaculture
7.1 Introduction
7.2 Application of transcriptomics and proteomics in OA research
7.3 Integrated multiple "omics" for pathway analysis under OA
7.4 Molecular response of edible mollusks and oysters to OA
7.5 Applications of multiple omics technology in aquaculture
8 - Limitations and outlook of research in ecophysiology and ocean acidification in marine mollusks
8.1 Introduction
8.2 Review and summary
8.2.1 Ocean acidification and marine mollusks
8.2.2 Reproduction
8.2.3 Growth and development
8.2.4 Metabolism
8.2.5 Immunity and host-microbe interactions
8.2.6 Behavior
8.3 Research limitations
8.4 Outlook
Further reading
Index
Back Cover.
Show 87 more Contents items
ISBN
0-443-15939-4
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