DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES

Migratory birds are experiencing widespread global declines. Shorebirds appear to be experiencing some of the most dramatic declining population trends, with the long-distance, Arctic-breeding migrants apparently losing ground the fastest. Challenges arise in monitoring these populations as they und...

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Bibliographic Details
Main Author:	Cosentino, Jess M
Other Authors:	Morrissey, Christy, Hobson, Keith, McKellar, Ann, Benson, James, Tonra, Chris
Format:	Thesis
Language:	English
Published:	2022
Subjects:	Sanderling Calidris alba shorebirds migration migratory connectivity stable isotopes Motus Motus Wildlife Tracking System Arctic
Online Access:	https://hdl.handle.net/10388/14160

id	ftusaskatchewan:oai:harvest.usask.ca:10388/14160
record_format	openpolar
spelling	ftusaskatchewan:oai:harvest.usask.ca:10388/14160 2024-06-02T08:02:51+00:00 DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES Cosentino, Jess M Morrissey, Christy Hobson, Keith McKellar, Ann Benson, James Tonra, Chris 2022-09-14T18:05:08Z application/pdf https://hdl.handle.net/10388/14160 en eng https://hdl.handle.net/10388/14160 Sanderling Calidris alba shorebirds migration migratory connectivity stable isotopes Motus Motus Wildlife Tracking System Thesis text 2022 ftusaskatchewan 2024-05-06T10:46:13Z Migratory birds are experiencing widespread global declines. Shorebirds appear to be experiencing some of the most dramatic declining population trends, with the long-distance, Arctic-breeding migrants apparently losing ground the fastest. Challenges arise in monitoring these populations as they undertake impressive circumpolar migrations between breeding and overwintering areas. The ability to trace individual-level movements and assess the consequences of those decisions is critical as migratory connectivity is known to influence population demographics. I used both stable isotopes (δ 2H, δ13C, δ 15N) in winter-grown feathers and the Motus Wildlife Tracking System to track a northward migratory population of Sanderling (Calidris alba) in the Western Hemisphere. I examined geographic variation in feather isotope values from a northern population of Sanderling staging at Chaplin Lake, Saskatchewan over seven years and compared these to feathers collected at three disparate wintering locations separated by approximately 4000 km to classify individuals based on their overwintering moult origin. Feather isotope values in northward migrants were expansive (δ2H: −0.08 to −98.2; δ13C: −7.4 to −25.3‰; δ 15N: 5.9 to 24.5‰) and differed across known-origin wintering latitudes (27oN to 42oS). The range in δ2H values in birds captured in the Gulf of Mexico (GOM) was wider (δ2H: −1.3 to −98.2‰) compared to Peru (δ2H: −17.7 to −58.8‰) or Chile (δ2H: −46.0 to −77.1‰). Using discriminant function analysis, 85% of the sample population at Chaplin Lake could be classified to one overwintering area while the origins of 15% remained unknown. The majority (70%; range 52-70% across years) were assigned to the GOM, suggesting this is an important overwintering area for Midcontinental migrants. Northward departures of nanotagged Sanderling (Chile n = 23; Peru n = 11, GOM = NA) were primarily influenced by site with individuals from Chile departing on average 18 days earlier than those in Peru, but with no detectable differences in ... Thesis Arctic Calidris alba Sanderling University of Saskatchewan: eCommons@USASK Arctic
institution	Open Polar
collection	University of Saskatchewan: eCommons@USASK
op_collection_id	ftusaskatchewan
language	English
topic	Sanderling Calidris alba shorebirds migration migratory connectivity stable isotopes Motus Motus Wildlife Tracking System
spellingShingle	Sanderling Calidris alba shorebirds migration migratory connectivity stable isotopes Motus Motus Wildlife Tracking System Cosentino, Jess M DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES
topic_facet	Sanderling Calidris alba shorebirds migration migratory connectivity stable isotopes Motus Motus Wildlife Tracking System
description	Migratory birds are experiencing widespread global declines. Shorebirds appear to be experiencing some of the most dramatic declining population trends, with the long-distance, Arctic-breeding migrants apparently losing ground the fastest. Challenges arise in monitoring these populations as they undertake impressive circumpolar migrations between breeding and overwintering areas. The ability to trace individual-level movements and assess the consequences of those decisions is critical as migratory connectivity is known to influence population demographics. I used both stable isotopes (δ 2H, δ13C, δ 15N) in winter-grown feathers and the Motus Wildlife Tracking System to track a northward migratory population of Sanderling (Calidris alba) in the Western Hemisphere. I examined geographic variation in feather isotope values from a northern population of Sanderling staging at Chaplin Lake, Saskatchewan over seven years and compared these to feathers collected at three disparate wintering locations separated by approximately 4000 km to classify individuals based on their overwintering moult origin. Feather isotope values in northward migrants were expansive (δ2H: −0.08 to −98.2; δ13C: −7.4 to −25.3‰; δ 15N: 5.9 to 24.5‰) and differed across known-origin wintering latitudes (27oN to 42oS). The range in δ2H values in birds captured in the Gulf of Mexico (GOM) was wider (δ2H: −1.3 to −98.2‰) compared to Peru (δ2H: −17.7 to −58.8‰) or Chile (δ2H: −46.0 to −77.1‰). Using discriminant function analysis, 85% of the sample population at Chaplin Lake could be classified to one overwintering area while the origins of 15% remained unknown. The majority (70%; range 52-70% across years) were assigned to the GOM, suggesting this is an important overwintering area for Midcontinental migrants. Northward departures of nanotagged Sanderling (Chile n = 23; Peru n = 11, GOM = NA) were primarily influenced by site with individuals from Chile departing on average 18 days earlier than those in Peru, but with no detectable differences in ...
author2	Morrissey, Christy Hobson, Keith McKellar, Ann Benson, James Tonra, Chris
format	Thesis
author	Cosentino, Jess M
author_facet	Cosentino, Jess M
author_sort	Cosentino, Jess M
title	DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES
title_short	DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES
title_full	DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES
title_fullStr	DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES
title_full_unstemmed	DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES
title_sort	discriminating overwintering origin and migratory connectivity in a long-distance migratory shorebird staging in the canadian prairies
publishDate	2022
url	https://hdl.handle.net/10388/14160
geographic	Arctic
geographic_facet	Arctic
genre	Arctic Calidris alba Sanderling
genre_facet	Arctic Calidris alba Sanderling
op_relation	https://hdl.handle.net/10388/14160
_version_	1800747329246986240

DISCRIMINATING OVERWINTERING ORIGIN AND MIGRATORY CONNECTIVITY IN A LONG-DISTANCE MIGRATORY SHOREBIRD STAGING IN THE CANADIAN PRAIRIES

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