Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations

Of all climatic zones on earth, Arctic areas have experienced the greatest climate change in recent decades. Predicted changes, including a continuing rise in temperature and precipitation and a reduction in snow cover, are expected to have a large impact on Arctic life. Large numbers of birds breed...

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Bibliographic Details
Published in:ARCTIC
Main Authors: Tulp, Ingrid, Schekkerman, Hans
Format: Article in Journal/Newspaper
Language:unknown
Published: The Arctic Institute of North America 2009
Subjects:
Arctic
Arctic birds
Climate change
Taimyr
Tundra
Siberia
Online Access:http://dx.doi.org/10.14430/arctic6
http://arctic.journalhosting.ucalgary.ca/arctic/index.php/arctic/article/viewFile/6/6
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spelling crarcticinstna:10.14430/arctic6 2024-09-15T17:49:52+00:00 Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations Tulp, Ingrid Schekkerman, Hans 2009 http://dx.doi.org/10.14430/arctic6 http://arctic.journalhosting.ucalgary.ca/arctic/index.php/arctic/article/viewFile/6/6 unknown The Arctic Institute of North America ARCTIC volume 61, issue 1, page 48 ISSN 1923-1245 0004-0843 journal-article 2009 crarcticinstna https://doi.org/10.14430/arctic6 2024-07-16T04:00:22Z Of all climatic zones on earth, Arctic areas have experienced the greatest climate change in recent decades. Predicted changes, including a continuing rise in temperature and precipitation and a reduction in snow cover, are expected to have a large impact on Arctic life. Large numbers of birds breed on the Arctic tundra, and many of these, such as shorebirds and passerines, feed on arthropods. Their chicks depend on a short insect population outburst characteristic of Arctic areas. To predict the consequences of climate change for reproduction in these birds, insight into arthropod phenology is essential. We investigated weather-related and seasonal patterns in abundance of surface-active arthropods during four years in the tundra of NW Taimyr, Siberia. The resulting statistical models were used to hindcast arthropod abundance on the basis of a 33-year weather dataset collected in the same area. Daily insect abundance was correlated closely with date, temperature, and, in some years, with wind and precipitation. An additional correlation with the number of degree-days accumulated after 1 June suggests that the pool of potential arthropod recruits is depleted in the course of the summer. The amplitude of short-term, weather-induced variation was as large as that of the seasonal variation. The hindcasted dates of peak arthropod abundance advanced during the study period, occurring seven days earlier in 2003 than in 1973. The timing of the period during which birds have a reasonable probability of finding enough food to grow has changed as well, with the highest probabilities now occurring at earlier dates. At the same time, the overall length of the period with probabilities of finding enough food has remained unchanged. The result is an advancement of the optimal breeding date for breeding birds. To take advantage of the new optimal breeding time, Arctic shorebirds and passerines must advance the start of breeding, and this change could affect the entire migratory schedule. Because our analyses are based on a ... Article in Journal/Newspaper Arctic Arctic birds Climate change Taimyr Tundra Siberia Arctic Institute of North America ARCTIC 61 1 48
institution Open Polar
collection Arctic Institute of North America
op_collection_id crarcticinstna
language unknown
description Of all climatic zones on earth, Arctic areas have experienced the greatest climate change in recent decades. Predicted changes, including a continuing rise in temperature and precipitation and a reduction in snow cover, are expected to have a large impact on Arctic life. Large numbers of birds breed on the Arctic tundra, and many of these, such as shorebirds and passerines, feed on arthropods. Their chicks depend on a short insect population outburst characteristic of Arctic areas. To predict the consequences of climate change for reproduction in these birds, insight into arthropod phenology is essential. We investigated weather-related and seasonal patterns in abundance of surface-active arthropods during four years in the tundra of NW Taimyr, Siberia. The resulting statistical models were used to hindcast arthropod abundance on the basis of a 33-year weather dataset collected in the same area. Daily insect abundance was correlated closely with date, temperature, and, in some years, with wind and precipitation. An additional correlation with the number of degree-days accumulated after 1 June suggests that the pool of potential arthropod recruits is depleted in the course of the summer. The amplitude of short-term, weather-induced variation was as large as that of the seasonal variation. The hindcasted dates of peak arthropod abundance advanced during the study period, occurring seven days earlier in 2003 than in 1973. The timing of the period during which birds have a reasonable probability of finding enough food to grow has changed as well, with the highest probabilities now occurring at earlier dates. At the same time, the overall length of the period with probabilities of finding enough food has remained unchanged. The result is an advancement of the optimal breeding date for breeding birds. To take advantage of the new optimal breeding time, Arctic shorebirds and passerines must advance the start of breeding, and this change could affect the entire migratory schedule. Because our analyses are based on a ...
format Article in Journal/Newspaper
author Tulp, Ingrid
Schekkerman, Hans
spellingShingle Tulp, Ingrid
Schekkerman, Hans
Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations
author_facet Tulp, Ingrid
Schekkerman, Hans
author_sort Tulp, Ingrid
title Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations
title_short Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations
title_full Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations
title_fullStr Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations
title_full_unstemmed Has Prey Availability for Arctic Birds Advanced with Climate Change? Hindcasting the Abundance of Tundra Arthropods Using Weather and Seasonal Variations
title_sort has prey availability for arctic birds advanced with climate change? hindcasting the abundance of tundra arthropods using weather and seasonal variations
publisher The Arctic Institute of North America
publishDate 2009
url http://dx.doi.org/10.14430/arctic6
http://arctic.journalhosting.ucalgary.ca/arctic/index.php/arctic/article/viewFile/6/6
genre Arctic
Arctic birds
Climate change
Taimyr
Tundra
Siberia
genre_facet Arctic
Arctic birds
Climate change
Taimyr
Tundra
Siberia
op_source ARCTIC
volume 61, issue 1, page 48
ISSN 1923-1245 0004-0843
op_doi https://doi.org/10.14430/arctic6
container_title ARCTIC
container_volume 61
container_issue 1
container_start_page 48
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