Use of anthropogenic-related nest material and nest parasite prevalence have increased over the past two centuries in Australian birds

Global plastic production has increased exponentially since the 1940s, resulting in the increased presence of anthropogenic debris in the environment. Recent studies have shown that birds incorporate anthropogenic debris into their nests, which can reduce nest ectoparasite loads. However, we know li...

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Veröffentlicht in:	Oecologia 2021-08, Vol.196 (4), p.1207-1217
Hauptverfasser:	Potvin, Dominique A., Opitz, Fabiola, Townsend, Kathy A., Knutie, Sarah A.
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Sprache:	eng
Schlagworte:	Anthropogenic factors Biodegradability Biodegradation Biomedical and Life Sciences Birds Debris Detritus Ecology Ectoparasites GLOBAL CHANGE ECOLOGY – ORIGINAL RESEARCH Human influences Hydrology/Water Resources Life Sciences Museum collections Museums Nests Parasites Plant Sciences Wildlife Wildlife habitats
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container_title	Oecologia
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creator	Potvin, Dominique A. Opitz, Fabiola Townsend, Kathy A. Knutie, Sarah A.
description	Global plastic production has increased exponentially since the 1940s, resulting in the increased presence of anthropogenic debris in the environment. Recent studies have shown that birds incorporate anthropogenic debris into their nests, which can reduce nest ectoparasite loads. However, we know little about the long-term history of interactions among birds, anthropogenic debris, and ectoparasites. Our study took a unique approach to address this issue by determining the prevalence of anthropogenic debris and ectoparasitic nest flies (Protocalliphora and Passeromyia spp.) in 893 bird nests from 224 species between 1832 and 2018, which were sourced from Australian museum collections. The prevalence of anthropogenic material increased from approximately 4% in 1832 to almost 30% in 2018. This change was driven by an increase in the incorporation of synthetic rather than biodegradable anthropogenic debris (by 2018~25% of all nests contained synthetics), with the first synthetic item being found in a nest from 1956 in the city of Melbourne. Nest parasite prevalence increased over time but contrary to other studies, there was no relationship between habitat type or anthropogenic material and parasite presence. Our study is the first to use museum specimens to quantify temporal and spatial impacts of anthropogenic material on birds, the results of which justifies contemporary concerns regarding the ubiquitous nature of human impacts on terrestrial wildlife.
doi_str_mv	10.1007/s00442-021-04982-z
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Recent studies have shown that birds incorporate anthropogenic debris into their nests, which can reduce nest ectoparasite loads. However, we know little about the long-term history of interactions among birds, anthropogenic debris, and ectoparasites. Our study took a unique approach to address this issue by determining the prevalence of anthropogenic debris and ectoparasitic nest flies (Protocalliphora and Passeromyia spp.) in 893 bird nests from 224 species between 1832 and 2018, which were sourced from Australian museum collections. The prevalence of anthropogenic material increased from approximately 4% in 1832 to almost 30% in 2018. This change was driven by an increase in the incorporation of synthetic rather than biodegradable anthropogenic debris (by 2018~25% of all nests contained synthetics), with the first synthetic item being found in a nest from 1956 in the city of Melbourne. Nest parasite prevalence increased over time but contrary to other studies, there was no relationship between habitat type or anthropogenic material and parasite presence. 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subjects	Anthropogenic factors Biodegradability Biodegradation Biomedical and Life Sciences Birds Debris Detritus Ecology Ectoparasites GLOBAL CHANGE ECOLOGY – ORIGINAL RESEARCH Human influences Hydrology/Water Resources Life Sciences Museum collections Museums Nests Parasites Plant Sciences Wildlife Wildlife habitats
title	Use of anthropogenic-related nest material and nest parasite prevalence have increased over the past two centuries in Australian birds
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