The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)

The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)

Abstract The majority of landbird species feed their nestlings arthropods and variation in arthropod populations can impact reproductive outcomes in these species. Arthropod populations in turn are influenced by climate because temperature affects survival and reproduction, and larval development. T...

Full description

Bibliographic Details
Main Authors: Teresa J. Lorenz, Jeffrey M. Kozma, Patrick G. Cunningham
Format: Article
Language:English
Published: Wiley 2020-09-01
Series:Ecology and Evolution
Subjects:
climate affects
isotopic niche
stable isotopes
White‐headed Woodpecker
Online Access:https://doi.org/10.1002/ece3.6624
id doaj-01829270efab455e80973109fabb15fe
record_format Article
spelling doaj-01829270efab455e80973109fabb15fe2021-04-02T11:06:51ZengWileyEcology and Evolution2045-77582020-09-0110189827984010.1002/ece3.6624The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)Teresa J. Lorenz0Jeffrey M. Kozma1Patrick G. Cunningham2U.S. Department of Agriculture, Forest Service Pacific Northwest Research Station Olympia WA USAYakama Nation, Timber, Fish and Wildlife/Fisheries Resource Management Toppenish WA USAU.S. Department of Agriculture, Forest Service Pacific Northwest Research Station Corvallis OR USAAbstract The majority of landbird species feed their nestlings arthropods and variation in arthropod populations can impact reproductive outcomes in these species. Arthropod populations in turn are influenced by climate because temperature affects survival and reproduction, and larval development. Thus, climate factors have the potential to influence many bird species during their reproductive phases. In this study, we assessed climate factors that impact the diet of nestling White‐headed Woodpecker (Dryobates albolarvatus), an at‐risk keystone species in much of its range in western North America. To do this, we measured stable isotope signatures (δ13C and δ15N) in 152 nestlings across six years and linked variation in isotopic values to winter (December–February) and spring (June) precipitation and temperature using mixed effects models. We also explored habitat factors that may impact δ13C and δ15N and the relationship between δ15N and nest productivity. Last, we estimated isotopic niche width for nestlings in different watersheds and years using Bayesian standard ellipses, which allowed us to compare dietary niche width and overlap. We found that colder winter temperatures were associated with an increase in δ15N and δ15N levels had a weak positive relationship with nest productivity. We also found that sites with a more diverse tree community were associated with a broader isotopic niche width in nestlings. Our findings suggest that nestling diet is affected by climate, and under future warming climate scenarios, White‐headed Woodpecker nestling diet may shift in favor of lower trophic level prey (prey with lower δ15N levels). The impact of such changes on woodpecker populations merits further study.https://doi.org/10.1002/ece3.6624climate affectsisotopic nichestable isotopesWhite‐headed Woodpecker
collection DOAJ
language English
format Article
sources DOAJ
author Teresa J. Lorenz
Jeffrey M. Kozma
Patrick G. Cunningham
spellingShingle Teresa J. Lorenz
Jeffrey M. Kozma
Patrick G. Cunningham
The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)
Ecology and Evolution
climate affects
isotopic niche
stable isotopes
White‐headed Woodpecker
author_facet Teresa J. Lorenz
Jeffrey M. Kozma
Patrick G. Cunningham
author_sort Teresa J. Lorenz
title The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)
title_short The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)
title_full The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)
title_fullStr The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)
title_full_unstemmed The influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling White‐headed Woodpeckers (Dryobates albolarvatus)
title_sort influence of climate and habitat on stable isotope signatures and the isotopic niche of nestling white‐headed woodpeckers (dryobates albolarvatus)
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2020-09-01
description Abstract The majority of landbird species feed their nestlings arthropods and variation in arthropod populations can impact reproductive outcomes in these species. Arthropod populations in turn are influenced by climate because temperature affects survival and reproduction, and larval development. Thus, climate factors have the potential to influence many bird species during their reproductive phases. In this study, we assessed climate factors that impact the diet of nestling White‐headed Woodpecker (Dryobates albolarvatus), an at‐risk keystone species in much of its range in western North America. To do this, we measured stable isotope signatures (δ13C and δ15N) in 152 nestlings across six years and linked variation in isotopic values to winter (December–February) and spring (June) precipitation and temperature using mixed effects models. We also explored habitat factors that may impact δ13C and δ15N and the relationship between δ15N and nest productivity. Last, we estimated isotopic niche width for nestlings in different watersheds and years using Bayesian standard ellipses, which allowed us to compare dietary niche width and overlap. We found that colder winter temperatures were associated with an increase in δ15N and δ15N levels had a weak positive relationship with nest productivity. We also found that sites with a more diverse tree community were associated with a broader isotopic niche width in nestlings. Our findings suggest that nestling diet is affected by climate, and under future warming climate scenarios, White‐headed Woodpecker nestling diet may shift in favor of lower trophic level prey (prey with lower δ15N levels). The impact of such changes on woodpecker populations merits further study.
topic climate affects
isotopic niche
stable isotopes
White‐headed Woodpecker
url https://doi.org/10.1002/ece3.6624
work_keys_str_mv AT teresajlorenz theinfluenceofclimateandhabitatonstableisotopesignaturesandtheisotopicnicheofnestlingwhiteheadedwoodpeckersdryobatesalbolarvatus
AT jeffreymkozma theinfluenceofclimateandhabitatonstableisotopesignaturesandtheisotopicnicheofnestlingwhiteheadedwoodpeckersdryobatesalbolarvatus
AT patrickgcunningham theinfluenceofclimateandhabitatonstableisotopesignaturesandtheisotopicnicheofnestlingwhiteheadedwoodpeckersdryobatesalbolarvatus
AT teresajlorenz influenceofclimateandhabitatonstableisotopesignaturesandtheisotopicnicheofnestlingwhiteheadedwoodpeckersdryobatesalbolarvatus
AT jeffreymkozma influenceofclimateandhabitatonstableisotopesignaturesandtheisotopicnicheofnestlingwhiteheadedwoodpeckersdryobatesalbolarvatus
AT patrickgcunningham influenceofclimateandhabitatonstableisotopesignaturesandtheisotopicnicheofnestlingwhiteheadedwoodpeckersdryobatesalbolarvatus
_version_ 1724165623546642432

Similar Items