Patterns of sperm damage in Chernobyl passerine birds suggest a trade-off between sperm length and integrity

Hermosell, Ignacio G.; Laskemoen, Terje; Rowe, Melissah; Møller, Anders Pape; Mousseau, Timothy A.; Albrecht, Tomáš; Lifjeld, Jan T.

doi:10.1098/rsbl.2013.0530

Cited by 27 publications

(19 citation statements)

References 24 publications

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“…They also found that abnormality rates were correlated with reduced levels of antioxidants in the blood, liver, and eggs of these birds, supporting the hypothesis that antioxidants likely play a significant role in protecting DNA from the direct and indirect consequences of exposure to radionuclides. And a more recent analysis of Chernobyl birds found that in 9 out of 10 species examined, sperm abnormality rates were much larger for birds living in Chernobyl than those living in control areas across Europe, with the highest damage levels observed for species with longer sperm (Hermosell et al 2013), suggesting that sperm abnormalities are likely common for birds living in radioactive areas. Sperm behavior is also negatively affected by radiation exposure history .…”

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confidence: 99%

Genetic and Ecological Studies of Animals in Chernobyl and Fukushima

Mousseau

Møller

2014

Journal of Heredity

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Recent advances in genetic and ecological studies of wild animal populations in Chernobyl and Fukushima have demonstrated significant genetic, physiological, developmental, and fitness effects stemming from exposure to radioactive contaminants. The few genetic studies that have been conducted in Chernobyl generally show elevated rates of genetic damage and mutation rates. All major taxonomic groups investigated (i.e., birds, bees, butterflies, grasshoppers, dragonflies, spiders, mammals) displayed reduced population sizes in highly radioactive parts of the Chernobyl Exclusion Zone. In Fukushima, population censuses of birds, butterflies, and cicadas suggested that abundances were negatively impacted by exposure to radioactive contaminants, while other groups (e.g., dragonflies, grasshoppers, bees, spiders) showed no significant declines, at least during the first summer following the disaster. Insufficient information exists for groups other than insects and birds to assess effects on life history at this time. The differences observed between Fukushima and Chernobyl may reflect the different times of exposure and the significance of multigenerational mutation accumulation in Chernobyl compared to Fukushima. There was considerable variation among taxa in their apparent sensitivity to radiation and this reflects in part life history, physiology, behavior, and evolutionary history. Interestingly, for birds, population declines in Chernobyl can be predicted by historical mitochondrial DNA base-pair substitution rates that may reflect intrinsic DNA repair ability. Subject areas: Conservation genetics and biodiversity Key words: birds, Chernobyl, Fukushima, invertebrates, mutation, radiation The notion that populations may have evolved adaptive responses to the mutational pressures imposed by chronic, multigenerational exposure to low-dose-rate radioactivity has been a prime motivator for recent studies of populations of plants and animals inhabiting the Chernobyl Exclusion Zone. And the disaster at Fukushima, although ongoing and hugely tragic, provides a unique opportunity to replicate, validate, and certainly test the generality of the findings from studies conducted previously at Chernobyl. The availability of a replicate site with similar characteristics with respect to amount and type of radioactive materials in the environment, as well as significant similarities among species present in both areas, provides for a level of scientific rigor not often available when studying large-scale ecological disasters.The overarching thesis of the research conducted by our group has been that chronic exposure to radionuclides will result in genetic damage (i.e., single and double strand breaks in DNA) and increased mutation rates (e.g., single nucleotide polymorphism, deletions, insertions, etc.) in both somatic and germ cell lines within individuals. It is expected that some portion of the genetic damage and mutational load will generate physiological, developmental, and behavioral effects on organisms, and tha...

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confidence: 99%

Genetic and Ecological Studies of Animals in Chernobyl and Fukushima

Mousseau

Møller

2014

Journal of Heredity

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“…For the Passeriformes, sinistrality has previously also been reported in, for example, Hirundo rustica Linnaeus, 1758, Turdus merula Linnaeus, 1758, Fringilla coelebs Linnaeus 1758, Sturnus vulgaris Linnaeus, 1758, and Poephila acuticauda (Gould, 1839 (Retzius, 1909;Vernon and Woolley, 1999;Hermosell et al, 2013;Rowe et al, 2015).…”

Section: Discussionmentioning

confidence: 70%

An unexpected twist: Sperm cells coil to the right in land snails and to the left in song birds

Langelaan

Hemmings

Oostenbrugge

et al. 2017

CTOZ

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In animals, cell polarity may initiate symmetry breaking very early in development, ultimately leading to whole-body asymmetry. Helical sperm cells, which occur in a variety of animal clades, are one class of cells that show clearly visible bilateral asymmetry. We used scanning-electron microscopy to study coiling direction in helical sperm cells in two groups of animals that have figured prominently in the sperm morphology literature, namely land snails, Stylommatophora (514 spermatozoa, from 27 individuals, belonging to 8 species and 4 families) and songbirds, Passeriformes (486 spermatozoa, from 26 individuals, belonging to 18 species and 8 families). We found that the snail sperm cells were consistently dextral (clockwise), whereas the bird sperm cells were consistently sinistral (counterclockwise). We discuss reasons why this apparent evolutionary conservatism of sperm cell chirality may or may not be related to whole-body asymmetry.

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“…As such, investigating further adverse effects from supplementary feeding on this species is particularly important, as it could help inform potential conservation actions and ensure that provided foods improve the situation of urban greenfinches rather than contributing to further decline. Finally, we have in the past observed remarkably high rates of abnormal sperm in the greenfinch, especially in when several samples showed around 50% sperm abnormalities (n = 13, mean: 35.23%, range: 0–60%), as well as indications of elevated rates of abnormal sperm in the hawfinch (Hermosell et al ). These observations motivated the collection of more extensive sampling for the current study.…”

Section: Methodsmentioning

confidence: 85%

“…abnormal sperm in the greenfinch, especially in 2013 when several samples showed around 50% sperm abnormalities (n = 13, mean: 35.23%, range: 0-60%), as well as indications of elevated rates of abnormal sperm in the hawfinch (Hermosell et al 2013). These observations motivated the collection of more extensive sampling for the current study.…”

Section: Study Speciesmentioning

confidence: 94%

Sperm head abnormalities are associated with excessive omega‐6 fatty acids in two finch species feeding on sunflower seeds

Støstad

Rowe

Johnsen

et al. 2019

Journal of Avian Biology

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In a rapidly changing world, it is important to understand how urban environments impact wildlife. For example, supplementary feeding of birds, though well‐intended, might have unexpected negative effects on the health of individual animals. Sunflower seeds are commonly provided in garden bird feeders, but they contain high levels of linoleic acid (LA), an omega‐6 polyunsaturated fatty acid (PUFA). Omega‐6 PUFAs are associated with increased oxidative stress, which can damage cell membranes, and in particular sperm cells. We assessed the level of LA in the blood of two seed‐eating finch species, greenfinches Chloris chloris and hawfinches Coccothraustes coccothraustes, caught in and in environments with direct access to sunflower seed feeders (Norway), and compared these with the level of LA in a smaller number of individuals sampled in in a rural area with low incidence of sunflower seed feeders (Czech Republic). Furthermore, we investigated the relationship between the proportion of LA in the blood (as well as the proportion of 10 other fatty acids) and sperm quality (the frequency of sperm head abnormalities and sperm swimming speed). We found that both finch species, but particularly greenfinches caught near feeders, exhibited levels of LA that were considerably higher than those previously reported for other wild birds. We also found that the proportion of LA was positively correlated with the frequency of abnormal sperm heads (sperm missing the acrosome), while there was no significant effect of fatty acid composition on sperm swimming speed. Our results indicate that the sperm quality of finches may be negatively affected by a high intake of sunflower seeds, adding to a growing body of research showing that supplementary feeding may have detrimental side effects for urban animals. This is particularly relevant for the greenfinch, which is currently affected by disease and population declines.

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Patterns of sperm damage in Chernobyl passerine birds suggest a trade-off between sperm length and integrity

Cited by 27 publications

References 24 publications

Genetic and Ecological Studies of Animals in Chernobyl and Fukushima

Genetic and Ecological Studies of Animals in Chernobyl and Fukushima

An unexpected twist: Sperm cells coil to the right in land snails and to the left in song birds

Sperm head abnormalities are associated with excessive omega‐6 fatty acids in two finch species feeding on sunflower seeds

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