Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework

The multifaceted role of the environment in regulating the structure and dynamics of biological communities has long fascinated ecologists and motivated much debate and research. Now, in a time of accelerated global changes due to human impacts, the need to understand how the environment shapes comm...

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Bibliographic Details
Main Author: Cerny-Chipman, Elizabeth B.
Other Authors: Menge, Bruce A., Waldbusser, George G., Novak, Mark, Hacker, Sally D., Dugger, Katie, Integrative Biology, Oregon State University. Graduate School
Format: Doctoral or Postdoctoral Thesis
Language:English
unknown
Published: Oregon State University
Subjects:
Upwelling (Oceanography)
Top predators > Climatic factors
Mussels > Predators of
Intertidal animals > Climatic factors
Predation (Biology)
Barnacles > Predators of
Pisaster ochraceus > Diseases
Nucella > Effect of temperature on
Nucella > Effect of carbon dioxide on
Nucella > Food
Ocean acidification
Online Access:https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/qn59q824n
id ftoregonstate:ir.library.oregonstate.edu:qn59q824n
record_format openpolar
spelling ftoregonstate:ir.library.oregonstate.edu:qn59q824n 2024-09-15T18:28:26+00:00 Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework Cerny-Chipman, Elizabeth B. Menge, Bruce A. Waldbusser, George G. Novak, Mark Hacker, Sally D. Dugger, Katie Integrative Biology Oregon State University. Graduate School https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/qn59q824n English [eng] eng unknown Oregon State University https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/qn59q824n All rights reserved Upwelling (Oceanography) Top predators -- Climatic factors Mussels -- Predators of Intertidal animals -- Climatic factors Predation (Biology) Barnacles -- Predators of Pisaster ochraceus -- Diseases Nucella -- Effect of temperature on Nucella -- Effect of carbon dioxide on Nucella -- Food Ocean acidification Dissertation ftoregonstate 2024-07-22T18:06:05Z The multifaceted role of the environment in regulating the structure and dynamics of biological communities has long fascinated ecologists and motivated much debate and research. Now, in a time of accelerated global changes due to human impacts, the need to understand how the environment shapes communities has gained new urgency. The environment acts directly on communities by causing direct mortality and changes to vital rates of individuals. However, the environment can also exert indirect effects on communities by changing the nature of biotic interactions. This occurs either through changes to the physiological performance of interacting species or through shifts in the abundance of other species in the community. Much of the effort to understand how global change will influence communities has focused on direct effects of environmental conditions. However, the essential influence of biotic interactions suggests that we will need to improve our conceptual understanding of indirect environmental effects to better predict outcomes of anthropogenic change.Understanding how the interactions of predators and prey are vulnerable to environmental context may provide a useful pathway to link relatively well-resolved individual effects of climate change to a broader community context. Predators are often important in determining community structure and stability through their control of lower trophic levels. However, predators also tend to be particularly sensitive to environmental stress. As a result, environmental stress models predict that the impacts of predators will lessen as stress increases, which could weaken existing processes regulating communities. Top predators, which often have the strongest impacts, may be especially vulnerable to climate change because of their large body size, energy needs, range requirements, and dependence on prey populations. The effects of environmental change on top predators have been justifiably well-studied, yet changing contexts require a more comprehensive view of which ... Doctoral or Postdoctoral Thesis Ocean acidification ScholarsArchive@OSU (Oregon State University)
institution Open Polar
collection ScholarsArchive@OSU (Oregon State University)
op_collection_id ftoregonstate
language English
unknown
topic Upwelling (Oceanography)
Top predators -- Climatic factors
Mussels -- Predators of
Intertidal animals -- Climatic factors
Predation (Biology)
Barnacles -- Predators of
Pisaster ochraceus -- Diseases
Nucella -- Effect of temperature on
Nucella -- Effect of carbon dioxide on
Nucella -- Food
Ocean acidification
spellingShingle Upwelling (Oceanography)
Top predators -- Climatic factors
Mussels -- Predators of
Intertidal animals -- Climatic factors
Predation (Biology)
Barnacles -- Predators of
Pisaster ochraceus -- Diseases
Nucella -- Effect of temperature on
Nucella -- Effect of carbon dioxide on
Nucella -- Food
Ocean acidification
Cerny-Chipman, Elizabeth B.
Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework
topic_facet Upwelling (Oceanography)
Top predators -- Climatic factors
Mussels -- Predators of
Intertidal animals -- Climatic factors
Predation (Biology)
Barnacles -- Predators of
Pisaster ochraceus -- Diseases
Nucella -- Effect of temperature on
Nucella -- Effect of carbon dioxide on
Nucella -- Food
Ocean acidification
description The multifaceted role of the environment in regulating the structure and dynamics of biological communities has long fascinated ecologists and motivated much debate and research. Now, in a time of accelerated global changes due to human impacts, the need to understand how the environment shapes communities has gained new urgency. The environment acts directly on communities by causing direct mortality and changes to vital rates of individuals. However, the environment can also exert indirect effects on communities by changing the nature of biotic interactions. This occurs either through changes to the physiological performance of interacting species or through shifts in the abundance of other species in the community. Much of the effort to understand how global change will influence communities has focused on direct effects of environmental conditions. However, the essential influence of biotic interactions suggests that we will need to improve our conceptual understanding of indirect environmental effects to better predict outcomes of anthropogenic change.Understanding how the interactions of predators and prey are vulnerable to environmental context may provide a useful pathway to link relatively well-resolved individual effects of climate change to a broader community context. Predators are often important in determining community structure and stability through their control of lower trophic levels. However, predators also tend to be particularly sensitive to environmental stress. As a result, environmental stress models predict that the impacts of predators will lessen as stress increases, which could weaken existing processes regulating communities. Top predators, which often have the strongest impacts, may be especially vulnerable to climate change because of their large body size, energy needs, range requirements, and dependence on prey populations. The effects of environmental change on top predators have been justifiably well-studied, yet changing contexts require a more comprehensive view of which ...
author2 Menge, Bruce A.
Waldbusser, George G.
Novak, Mark
Hacker, Sally D.
Dugger, Katie
Integrative Biology
Oregon State University. Graduate School
format Doctoral or Postdoctoral Thesis
author Cerny-Chipman, Elizabeth B.
author_facet Cerny-Chipman, Elizabeth B.
author_sort Cerny-Chipman, Elizabeth B.
title Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework
title_short Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework
title_full Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework
title_fullStr Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework
title_full_unstemmed Changing Climate, Changing Contexts : Variation in Rocky Intertidal Predator-prey Interactions Seen Through an Environmental Stress Framework
title_sort changing climate, changing contexts : variation in rocky intertidal predator-prey interactions seen through an environmental stress framework
publisher Oregon State University
url https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/qn59q824n
genre Ocean acidification
genre_facet Ocean acidification
op_relation https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/qn59q824n
op_rights All rights reserved
_version_ 1810469797604884480

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