Dietary studies in birds: testing a non‐invasive method using digital photography in seabirds

Summary Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic impacts on natural resources. Traditional diet sampling methods may be invasive or subject to biases, so developing non‐invasive and unbias...

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Published inMethods in ecology and evolution Vol. 8; no. 2; pp. 214 - 222
Main Authors Gaglio, Davide, Cook, Timothée R., Connan, Maëlle, Ryan, Peter G., Sherley, Richard B., Kurle, Carolyn
Format Journal Article
LanguageEnglish
Published London John Wiley & Sons, Inc 01.02.2017
Subjects
Anthropogenic factors
Aquatic birds
Breeding seasons
Chicks
Composition
Decision making
Diet
Digital photography
Engraulis encrasicolus
Environmental assessment
Environmental changes
Environmental conditions
Foraging behavior
Human influences
Natural resources
non‐invasive monitoring
Photography
Prey
prey‐carrying birds
rarefaction curves
regurgitation
Sampling
Sampling methods
Species
Species diversity
Test procedures
Thalasseus
Thalasseus bergii
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Abstract Summary Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic impacts on natural resources. Traditional diet sampling methods may be invasive or subject to biases, so developing non‐invasive and unbiased methods applicable to a diversity of species is essential. We used digital photography to investigate the diet fed to chicks of a prey‐carrying seabird and compared our approach (photo‐sampling) to a traditional method (regurgitations) for the greater crested tern Thalasseus bergii. Over three breeding seasons, we identified >24 000 prey items of at least 48 different species, more than doubling the known diversity of prey taken by this population of terns. We present a method to estimate the length of the main prey species (anchovy Engraulis encrasicolus) from photographs, with an accuracy <1 mm and precision ~ 0·5 mm. Compared to regurgitations at two colonies, photo‐sampling produced similar estimates of prey composition and size, at a faster species accumulation rate. The prey compositions collected by two researchers photo‐sampling concurrently were also similar. Photo‐sampling offers a non‐invasive tool to accurately and efficiently investigate the diet composition and prey size of prey‐carrying birds. It reduces biases associated with observer‐based studies and is simple to use. This methodology provides a novel tool to aid conservation and management decision‐making in the light of the growing need to assess environmental and anthropogenic change in natural ecosystems.
AbstractList Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic impacts on natural resources. Traditional diet sampling methods may be invasive or subject to biases, so developing non‐invasive and unbiased methods applicable to a diversity of species is essential.We used digital photography to investigate the diet fed to chicks of a prey‐carrying seabird and compared our approach (photo‐sampling) to a traditional method (regurgitations) for the greater crested tern Thalasseus bergii.Over three breeding seasons, we identified >24 000 prey items of at least 48 different species, more than doubling the known diversity of prey taken by this population of terns. We present a method to estimate the length of the main prey species (anchovy Engraulis encrasicolus) from photographs, with an accuracy <1 mm and precision ~ 0·5 mm. Compared to regurgitations at two colonies, photo‐sampling produced similar estimates of prey composition and size, at a faster species accumulation rate. The prey compositions collected by two researchers photo‐sampling concurrently were also similar.Photo‐sampling offers a non‐invasive tool to accurately and efficiently investigate the diet composition and prey size of prey‐carrying birds. It reduces biases associated with observer‐based studies and is simple to use. This methodology provides a novel tool to aid conservation and management decision‐making in the light of the growing need to assess environmental and anthropogenic change in natural ecosystems.
1. Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic impacts on natural resources. Traditional diet sampling methods may be invasive or subject to biases, so developing non-invasive and unbiased methods applicable to a diversity of species is essential. 2. We used digital photography to investigate the diet fed to chicks of a prey-carrying seabird and compared our approach (photo-sampling) to a traditional method (regurgitations) for the greater crested tern Thalasseus bergii. 3. Over three breeding seasons, we identified >24 000 prey items of at least 48 different species, more than doubling the known diversity of prey taken by this population of terns. We present a method to estimate the length of the main prey species (anchovy Engraulis encrasicolus) from photographs, with an accuracy <1 mm and precision ~ 0.5 mm. Compared to regurgitations at two colonies, photo-sampling produced similar estimates of prey composition and size, at a faster species accumulation rate. The prey compositions collected by two researchers photo-sampling concurrently were also similar. 4. Photo-sampling offers a non-invasive tool to accurately and efficiently investigate the diet composition and prey size of prey-carrying birds. It reduces biases associated with observer-based studies and is simple to use. This methodology provides a novel tool to aid conservation and management decision-making in the light of the growing need to assess environmental and anthropogenic change in natural ecosystems.
Summary Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic impacts on natural resources. Traditional diet sampling methods may be invasive or subject to biases, so developing non-invasive and unbiased methods applicable to a diversity of species is essential. We used digital photography to investigate the diet fed to chicks of a prey-carrying seabird and compared our approach (photo-sampling) to a traditional method (regurgitations) for the greater crested tern Thalasseus bergii. Over three breeding seasons, we identified >24 000 prey items of at least 48 different species, more than doubling the known diversity of prey taken by this population of terns. We present a method to estimate the length of the main prey species (anchovy Engraulis encrasicolus) from photographs, with an accuracy <1 mm and precision ~ 0·5 mm. Compared to regurgitations at two colonies, photo-sampling produced similar estimates of prey composition and size, at a faster species accumulation rate. The prey compositions collected by two researchers photo-sampling concurrently were also similar. Photo-sampling offers a non-invasive tool to accurately and efficiently investigate the diet composition and prey size of prey-carrying birds. It reduces biases associated with observer-based studies and is simple to use. This methodology provides a novel tool to aid conservation and management decision-making in the light of the growing need to assess environmental and anthropogenic change in natural ecosystems.
Summary Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic impacts on natural resources. Traditional diet sampling methods may be invasive or subject to biases, so developing non‐invasive and unbiased methods applicable to a diversity of species is essential. We used digital photography to investigate the diet fed to chicks of a prey‐carrying seabird and compared our approach (photo‐sampling) to a traditional method (regurgitations) for the greater crested tern Thalasseus bergii. Over three breeding seasons, we identified >24 000 prey items of at least 48 different species, more than doubling the known diversity of prey taken by this population of terns. We present a method to estimate the length of the main prey species (anchovy Engraulis encrasicolus) from photographs, with an accuracy <1 mm and precision ~ 0·5 mm. Compared to regurgitations at two colonies, photo‐sampling produced similar estimates of prey composition and size, at a faster species accumulation rate. The prey compositions collected by two researchers photo‐sampling concurrently were also similar. Photo‐sampling offers a non‐invasive tool to accurately and efficiently investigate the diet composition and prey size of prey‐carrying birds. It reduces biases associated with observer‐based studies and is simple to use. This methodology provides a novel tool to aid conservation and management decision‐making in the light of the growing need to assess environmental and anthropogenic change in natural ecosystems.
Author Ryan, Peter G.
Sherley, Richard B.
Gaglio, Davide
Cook, Timothée R.
Kurle, Carolyn
Connan, Maëlle
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  organization: University Pierre et Marie Curie
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  email: r.sherley@exeter.ac.uk
  organization: University of Cape Town
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Snippet Summary Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the...
Summary Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the...
Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic...
1. Dietary studies give vital insights into foraging behaviour, with implications for understanding changing environmental conditions and the anthropogenic...
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SubjectTerms Anthropogenic factors
Aquatic birds
Breeding seasons
Chicks
Composition
Decision making
Diet
Digital photography
Engraulis encrasicolus
Environmental assessment
Environmental changes
Environmental conditions
Foraging behavior
Human influences
Natural resources
non‐invasive monitoring
Photography
Prey
prey‐carrying birds
rarefaction curves
regurgitation
Sampling
Sampling methods
Species
Species diversity
Test procedures
Thalasseus
Thalasseus bergii
Title Dietary studies in birds: testing a non‐invasive method using digital photography in seabirds
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2F2041-210X.12643
https://www.proquest.com/docview/1867102715
https://www.proquest.com/docview/2374344733
https://www.proquest.com/docview/1872818424
Volume 8
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