Predicting how migratory animals respond to changing climatic conditions requires knowledge of how climatic events affect each phase of the annual cycle and how those effects carry-over to subsequent phases. We utilized a 17-year migration dataset to examine how El Niño-Southern Oscillation climatic events in geographically different regions of the Western hemisphere carry-over to impact the stopover biology of several intercontinental migratory bird species. We found that migratory birds that over-wintered in South America experienced significantly drier environments during El Niño years, as reflected by reduced Normalized Difference Vegetation Index (NDVI) values, and arrived at stopover sites in reduced energetic condition during spring ...
To better understand the ecological implications of global climate change for species that display g...
Migratory birds employ a variety of mechanisms to ensure appropriate timing of migration based on th...
Abstract Climate change causes changes in the timing of life cycle events across all trophic groups...
Predicting how migratory animals respond to changing climatic conditions requires knowledge of how c...
Predicting how migratory animals respond to changing climatic conditions requires knowledge of how c...
Predicting how migratory animals respond to changing climatic conditions requires knowledge of how c...
Reduced rainfall in tropical regions decreases the availability of food resources for overwintering ...
Determining the implications of global climate change for highly mobile taxa such as migratory birds...
Ecological processes are changing in response to climatic warming. Birds, in particular, have been d...
Long-distance migratory birds are extensively studied, and appear to be especially vulnerable to cli...
Thesis (M.S.)--Humboldt State University, Natural Resources: Wildlife, 2010Global climate cycles can...
Reduced rainfall in tropical regions may impact the ability of temperate-breeding songbirds to prepa...
Progress toward understanding factors that limit abundances of migratory birds, including climate ch...
159 pagesAs migratory organisms decline globally at unprecedented rates, there is a growing imperati...
Climate is changing at a fast pace, causing widespread, profound consequences for living organisms. ...
To better understand the ecological implications of global climate change for species that display g...
Migratory birds employ a variety of mechanisms to ensure appropriate timing of migration based on th...
Abstract Climate change causes changes in the timing of life cycle events across all trophic groups...
Predicting how migratory animals respond to changing climatic conditions requires knowledge of how c...
Predicting how migratory animals respond to changing climatic conditions requires knowledge of how c...
Predicting how migratory animals respond to changing climatic conditions requires knowledge of how c...
Reduced rainfall in tropical regions decreases the availability of food resources for overwintering ...
Determining the implications of global climate change for highly mobile taxa such as migratory birds...
Ecological processes are changing in response to climatic warming. Birds, in particular, have been d...
Long-distance migratory birds are extensively studied, and appear to be especially vulnerable to cli...
Thesis (M.S.)--Humboldt State University, Natural Resources: Wildlife, 2010Global climate cycles can...
Reduced rainfall in tropical regions may impact the ability of temperate-breeding songbirds to prepa...
Progress toward understanding factors that limit abundances of migratory birds, including climate ch...
159 pagesAs migratory organisms decline globally at unprecedented rates, there is a growing imperati...
Climate is changing at a fast pace, causing widespread, profound consequences for living organisms. ...
To better understand the ecological implications of global climate change for species that display g...
Migratory birds employ a variety of mechanisms to ensure appropriate timing of migration based on th...
Abstract Climate change causes changes in the timing of life cycle events across all trophic groups...
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