Determinants of interspecific variation in population declines of birds after exposure to radiation at Chernobyl
1. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxi...
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| Published in: | The Journal of applied ecology Vol. 44; no. 5; pp. 909 - 919 |
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| Main Authors: | , |
| Format: | Journal Article |
| Language: | English |
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Oxford, UK
Oxford, UK : Blackwell Publishing Ltd
01-10-2007
Blackwell Science Ltd Blackwell Publishing Ltd Blackwell Science |
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| Abstract | 1. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxidants are a limiting resource, we would expect individuals of species with a high expenditure of antioxidants to suffer the most from radiation. We tested this hypothesis by investigating interspecific variation in the relationship between abundance and level of radiation in breeding birds inhabiting forests around Chernobyl, Ukraine. We used bird point counts to estimate abundance of 57 species of birds at 254 locations where background radiation levels were quantified. 2. Migratory birds use large amounts of antioxidants during their annual migrations to neutralize free radicals, and migrants have depleted antioxidant levels upon arrival at their breeding grounds. Consistently, abundance decreased with increasing levels of radiation in species that migrated the longest distances. 3. Bird species with long dispersal distances may experience deficiencies in antioxidant levels because of physical activity but also because of exposure to novel antigens, implying that species with long dispersal distances should suffer the most from exposure to radiation. Indeed, the slope of the relationship between abundance and radiation decreased with increasing dispersal distance. 4. Female birds deposit large amounts of antioxidants in their eggs, with the total amount deposited often exceeding the total amount in a female's. Accordingly, the decrease in abundance with radiation level increased with relative egg size in different species. 5. Many bird species have plumage that is coloured by carotenoids, which cannot be recovered once deposited in feathers. Therefore, bird species with carotenoid-based plumage should show stronger declines with increasing levels of radiation than species with melanin-based or structural coloration. In accordance with this prediction, the decline in abundance with radiation was the strongest in species of birds with carotenoid-based plumage. 6. Synthesis and applications. These findings highlight the importance of antioxidants for understanding the ecological consequences of radiation on the abundance of free-living animals, showing that species using large amounts of antioxidants will be particularly susceptible to the effects of low-level radiation. |
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| AbstractList | 1. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxidants are a limiting resource, we would expect individuals of species with a high expenditure of antioxidants to suffer the most from radiation. We tested this hypothesis by investigating interspecific variation in the relationship between abundance and level of radiation in breeding birds inhabiting forests around Chernobyl, Ukraine. We used bird point counts to estimate abundance of 57 species of birds at 254 locations where background radiation levels were quantified. 2. Migratory birds use large amounts of antioxidants during their annual migrations to neutralize free radicals, and migrants have depleted antioxidant levels upon arrival at their breeding grounds. Consistently, abundance decreased with increasing levels of radiation in species that migrated the longest distances. 3. Bird species with long dispersal distances may experience deficiencies in antioxidant levels because of physical activity but also because of exposure to novel antigens, implying that species with long dispersal distances should suffer the most from exposure to radiation. Indeed, the slope of the relationship between abundance and radiation decreased with increasing dispersal distance. 4. Female birds deposit large amounts of antioxidants in their eggs, with the total amount deposited often exceeding the total amount in a female's. Accordingly, the decrease in abundance with radiation level increased with relative egg size in different species. 5. Many bird species have plumage that is coloured by carotenoids, which cannot be recovered once deposited in feathers. Therefore, bird species with carotenoid-based plumage should show stronger declines with increasing levels of radiation than species with melanin-based or structural coloration. In accordance with this prediction, the decline in abundance with radiation was the strongest in species of birds with carotenoid-based plumage. 6. Synthesis and applications. These findings highlight the importance of antioxidants for understanding the ecological consequences of radiation on the abundance of free-living animals, showing that species using large amounts of antioxidants will be particularly susceptible to the effects of low-level radiation. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxidants are a limiting resource, we would expect individuals of species with a high expenditure of antioxidants to suffer the most from radiation. We tested this hypothesis by investigating interspecific variation in the relationship between abundance and level of radiation in breeding birds inhabiting forests around Chernobyl, Ukraine. We used bird point counts to estimate abundance of 57 species of birds at 254 locations where background radiation levels were quantified. Migratory birds use large amounts of antioxidants during their annual migrations to neutralize free radicals, and migrants have depleted antioxidant levels upon arrival at their breeding grounds. Consistently, abundance decreased with increasing levels of radiation in species that migrated the longest distances. Bird species with long dispersal distances may experience deficiencies in antioxidant levels because of physical activity but also because of exposure to novel antigens, implying that species with long dispersal distances should suffer the most from exposure to radiation. Indeed, the slope of the relationship between abundance and radiation decreased with increasing dispersal distance. Female birds deposit large amounts of antioxidants in their eggs, with the total amount deposited often exceeding the total amount in a female's. Accordingly, the decrease in abundance with radiation level increased with relative egg size in different species. Many bird species have plumage that is coloured by carotenoids, which cannot be recovered once deposited in feathers. Therefore, bird species with carotenoid‐based plumage should show stronger declines with increasing levels of radiation than species with melanin‐based or structural coloration. In accordance with this prediction, the decline in abundance with radiation was the strongest in species of birds with carotenoid‐based plumage. Synthesis and applications . These findings highlight the importance of antioxidants for understanding the ecological consequences of radiation on the abundance of free‐living animals, showing that species using large amounts of antioxidants will be particularly susceptible to the effects of low‐level radiation. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxidants are a limiting resource, we would expect individuals of species with a high expenditure of antioxidants to suffer the most from radiation. We tested this hypothesis by investigating interspecific variation in the relationship between abundance and level of radiation in breeding birds inhabiting forests around Chernobyl, Ukraine. We used bird point counts to estimate abundance of 57 species of birds at 254 locations where background radiation levels were quantified.Migratory birds use large amounts of antioxidants during their annual migrations to neutralize free radicals, and migrants have depleted antioxidant levels upon arrival at their breeding grounds. Consistently, abundance decreased with increasing levels of radiation in species that migrated the longest distances.Bird species with long dispersal distances may experience deficiencies in antioxidant levels because of physical activity but also because of exposure to novel antigens, implying that species with long dispersal distances should suffer the most from exposure to radiation. Indeed, the slope of the relationship between abundance and radiation decreased with increasing dispersal distance.Female birds deposit large amounts of antioxidants in their eggs, with the total amount deposited often exceeding the total amount in a female's. Accordingly, the decrease in abundance with radiation level increased with relative egg size in different species.Many bird species have plumage that is coloured by carotenoids, which cannot be recovered once deposited in feathers. Therefore, bird species with carotenoid-based plumage should show stronger declines with increasing levels of radiation than species with melanin-based or structural coloration. In accordance with this prediction, the decline in abundance with radiation was the strongest in species of birds with carotenoid-based plumage.Synthesis and applications. These findings highlight the importance of antioxidants for understanding the ecological consequences of radiation on the abundance of free-living animals, showing that species using large amounts of antioxidants will be particularly susceptible to the effects of low-level radiation. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxidants are a limiting resource, we would expect individuals of species with a high expenditure of antioxidants to suffer the most from radiation. We tested this hypothesis by investigating interspecific variation in the relationship between abundance and level of radiation in breeding birds inhabiting forests around Chernobyl, Ukraine. We used bird point counts to estimate abundance of 57 species of birds at 254 locations where background radiation levels were quantified. Migratory birds use large amounts of antioxidants during their annual migrations to neutralize free radicals, and migrants have depleted antioxidant levels upon arrival at their breeding grounds. Consistently, abundance decreased with increasing levels of radiation in species that migrated the longest distances. Bird species with long dispersal distances may experience deficiencies in antioxidant levels because of physical activity but also because of exposure to novel antigens, implying that species with long dispersal distances should suffer the most from exposure to radiation. Indeed, the slope of the relationship between abundance and radiation decreased with increasing dispersal distance. Female birds deposit large amounts of antioxidants in their eggs, with the total amount deposited often exceeding the total amount in a female's. Accordingly, the decrease in abundance with radiation level increased with relative egg size in different species. Many bird species have plumage that is coloured by carotenoids, which cannot be recovered once deposited in feathers. Therefore, bird species with carotenoid-based plumage should show stronger declines with increasing levels of radiation than species with melanin-based or structural coloration. In accordance with this prediction, the decline in abundance with radiation was the strongest in species of birds with carotenoid-based plumage. These findings highlight the importance of antioxidants for understanding the ecological consequences of radiation on the abundance of free-living animals, showing that species using large amounts of antioxidants will be particularly susceptible to the effects of low-level radiation. Summary 1 Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation. Antioxidants are crucial biochemicals for elimination of free radicals, which can cause permanent damage to DNA and other molecules. If antioxidants are a limiting resource, we would expect individuals of species with a high expenditure of antioxidants to suffer the most from radiation. We tested this hypothesis by investigating interspecific variation in the relationship between abundance and level of radiation in breeding birds inhabiting forests around Chernobyl, Ukraine. We used bird point counts to estimate abundance of 57 species of birds at 254 locations where background radiation levels were quantified. 2 Migratory birds use large amounts of antioxidants during their annual migrations to neutralize free radicals, and migrants have depleted antioxidant levels upon arrival at their breeding grounds. Consistently, abundance decreased with increasing levels of radiation in species that migrated the longest distances. 3 Bird species with long dispersal distances may experience deficiencies in antioxidant levels because of physical activity but also because of exposure to novel antigens, implying that species with long dispersal distances should suffer the most from exposure to radiation. Indeed, the slope of the relationship between abundance and radiation decreased with increasing dispersal distance. 4 Female birds deposit large amounts of antioxidants in their eggs, with the total amount deposited often exceeding the total amount in a female's. Accordingly, the decrease in abundance with radiation level increased with relative egg size in different species. 5 Many bird species have plumage that is coloured by carotenoids, which cannot be recovered once deposited in feathers. Therefore, bird species with carotenoid‐based plumage should show stronger declines with increasing levels of radiation than species with melanin‐based or structural coloration. In accordance with this prediction, the decline in abundance with radiation was the strongest in species of birds with carotenoid‐based plumage. 6 Synthesis and applications. These findings highlight the importance of antioxidants for understanding the ecological consequences of radiation on the abundance of free‐living animals, showing that species using large amounts of antioxidants will be particularly susceptible to the effects of low‐level radiation. |
| Author | MØLLER, A.P MOUSSEAU, T.A |
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| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=19029101$$DView record in Pascal Francis |
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| Keywords | sexual coloration carotenoids Interspecific comparison Migration dispersal Dispersion Population decline Vertebrata maternal effects Maternal effect Aves Carotenoid Chernobyl Ukraine Coloration |
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| Snippet | 1. Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation.... Summary 1 Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of... Radiation can reduce antioxidant levels dramatically because of the use of antioxidants to eliminate free radicals produced in the presence of radiation.... |
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| SubjectTerms | animal ecology Animal migration behavior Animal, plant and microbial ecology Antioxidants Applied ecology Aves Aviculture Biological and medical sciences Biological variation Bird Population Responses to Environmental Change Birds Carotenoids chemical composition dispersal dispersibility DNA damage Ecology Egg masses Eggs Environmental impact explosions free radical scavengers Free radicals Fundamental and applied biological sciences. Psychology General aspects genetic variation maternal effects migration nuclear power Ornithology Plumage power plants Radiation radiation injury sexual coloration toxicity Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution wild birds |
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| Title | Determinants of interspecific variation in population declines of birds after exposure to radiation at Chernobyl |
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