J. R. Coomes, J. P. Cuff, M. S. Reichert, G. L. Davidson, W. O. C. Symondson, J. L. Quinn
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Winter moth <i>Operophtera brumata</i>, a major focus in tit breeding phenology research, was the most prevalent dietary item, but the next ten most prevalent Lepidopterans were collectively four times more important. There was considerable variation in dietary richness and composition among seasons and years. In winter, natural plant and invertebrate species were extensively represented in the diet, despite the constant availability of supplemental food. Diet composition varied with woodland type: in conifer woodlands, birds fed on species adapted to conifer plantations, as expected, but they also fed on many species adapted to deciduous species. In winter, birds in conifers used peanut feeders more than they did in mixed woodlands where beech was more prevalent in the diet. In winter, first-year birds consumed more invertebrate species than adults, presumably because they were less selective, and beech (<i>Fagus</i>) was almost twice as prevalent in first-year diet. Our results suggest considerable spatio-temporal variation in diet and variation among cohorts, and provide insight into the diet of a key model species in avian ecology. Such variation is rarely considered even though it is likely to have important consequences for our understanding of how populations respond to environmental change.</p>","PeriodicalId":11467,"journal":{"name":"Ecology and Evolution","volume":"15 7","pages":""},"PeriodicalIF":2.3000,"publicationDate":"2025-07-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/ece3.71565","citationCount":"0","resultStr":"{\"title\":\"Spatio-Temporal Variation in Diet Among Age and Sex Cohorts of a Model Generalist Bird Species, the Great Tit Parus major: New Insights Revealed by DNA Metabarcoding\",\"authors\":\"J. R. Coomes, J. P. Cuff, M. S. Reichert, G. L. Davidson, W. O. C. Symondson, J. L. Quinn\",\"doi\":\"10.1002/ece3.71565\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Dietary variation among cohorts can have a major impact on how populations adapt to environmental variation. Although variation in diet between cohorts and across habitats has been studied in many taxa, this is not true for most birds, especially smaller generalist passerines whose feeding habits are predominantly cryptic. Here we used DNA metabarcoding with next-generation sequencing to assess spatio-temporal dietary variation among age and sex cohorts of the great tit <i>Parus major</i>, a model species in avian ecology. Most dietary species were rare but nevertheless collectively made up 30% of the diet, as expected of a generalist. Winter moth <i>Operophtera brumata</i>, a major focus in tit breeding phenology research, was the most prevalent dietary item, but the next ten most prevalent Lepidopterans were collectively four times more important. There was considerable variation in dietary richness and composition among seasons and years. In winter, natural plant and invertebrate species were extensively represented in the diet, despite the constant availability of supplemental food. Diet composition varied with woodland type: in conifer woodlands, birds fed on species adapted to conifer plantations, as expected, but they also fed on many species adapted to deciduous species. In winter, birds in conifers used peanut feeders more than they did in mixed woodlands where beech was more prevalent in the diet. In winter, first-year birds consumed more invertebrate species than adults, presumably because they were less selective, and beech (<i>Fagus</i>) was almost twice as prevalent in first-year diet. Our results suggest considerable spatio-temporal variation in diet and variation among cohorts, and provide insight into the diet of a key model species in avian ecology. 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Spatio-Temporal Variation in Diet Among Age and Sex Cohorts of a Model Generalist Bird Species, the Great Tit Parus major: New Insights Revealed by DNA Metabarcoding
Dietary variation among cohorts can have a major impact on how populations adapt to environmental variation. Although variation in diet between cohorts and across habitats has been studied in many taxa, this is not true for most birds, especially smaller generalist passerines whose feeding habits are predominantly cryptic. Here we used DNA metabarcoding with next-generation sequencing to assess spatio-temporal dietary variation among age and sex cohorts of the great tit Parus major, a model species in avian ecology. Most dietary species were rare but nevertheless collectively made up 30% of the diet, as expected of a generalist. Winter moth Operophtera brumata, a major focus in tit breeding phenology research, was the most prevalent dietary item, but the next ten most prevalent Lepidopterans were collectively four times more important. There was considerable variation in dietary richness and composition among seasons and years. In winter, natural plant and invertebrate species were extensively represented in the diet, despite the constant availability of supplemental food. Diet composition varied with woodland type: in conifer woodlands, birds fed on species adapted to conifer plantations, as expected, but they also fed on many species adapted to deciduous species. In winter, birds in conifers used peanut feeders more than they did in mixed woodlands where beech was more prevalent in the diet. In winter, first-year birds consumed more invertebrate species than adults, presumably because they were less selective, and beech (Fagus) was almost twice as prevalent in first-year diet. Our results suggest considerable spatio-temporal variation in diet and variation among cohorts, and provide insight into the diet of a key model species in avian ecology. Such variation is rarely considered even though it is likely to have important consequences for our understanding of how populations respond to environmental change.
期刊介绍:
Ecology and Evolution is the peer reviewed journal for rapid dissemination of research in all areas of ecology, evolution and conservation science. The journal gives priority to quality research reports, theoretical or empirical, that develop our understanding of organisms and their diversity, interactions between them, and the natural environment.
Ecology and Evolution gives prompt and equal consideration to papers reporting theoretical, experimental, applied and descriptive work in terrestrial and aquatic environments. The journal will consider submissions across taxa in areas including but not limited to micro and macro ecological and evolutionary processes, characteristics of and interactions between individuals, populations, communities and the environment, physiological responses to environmental change, population genetics and phylogenetics, relatedness and kin selection, life histories, systematics and taxonomy, conservation genetics, extinction, speciation, adaption, behaviour, biodiversity, species abundance, macroecology, population and ecosystem dynamics, and conservation policy.
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