26 research outputs found
No ALAD polymorphism in bank vole populations from unpolluted and lead-zinc polluted areas in Poland
Genetic variation in bank vole populations in natural and metal-contaminated areas
The effects of isolation and heavy-metal pollution on genetic diversity in Myodes (=Clethrionomys) glareolus populations were studied. Isolation and pollution are considered to have important effects on biodiversity. Animals were collected from ten populations in isolated (island), mainland, and metal-polluted areas. Three populations were in areas near zinc and lead smelters; four were on islands in the relatively unpolluted Mazurian Lake District and in the Bieszczady Mountains; and three were in clean-mainland areas in the Mazurian Lake District, the Niepołomice Forest, and the Bieszczady Mountains. Cadmium and lead concentrations in liver and kidney were measured to assess the animals’ exposure to metals. The metal concentrations were greater in animals from areas classed as polluted than in animals from the clean-mainland areas and islands. The genetic diversity of each population was analyzed using eight microsatellite markers. The results confirmed that isolation adversely affects genetic diversity in M. glareolus populations (giving low heterozygosity and poor allelic richness), but the effect of metal exposure on genetic diversity was not strong. Of the samples from polluted areas, only the Katowice population, which is exposed to high levels of metal pollution and is also isolated because of human activity, showed genetic variation parameters that were similar to those for the island populations. Nei’s genetic distances indicated that the island populations were genetically distant from each other and from the other populations, and there were noticeable inbreeding effects that would have been caused by the isolation of these populations
Cadmium, zinc and iron interactions in the tissues of bank vole Clethrionomys glareolus after exposure to low and high doses of cadmium chloride
In present study, bank voles Clethrionomys glareolus were peritioneally injected with different doses of cadmium, 0, 1.5, 3.0 mg Cd/kg body mass. Animals were sacrificed on the 21st day after cadmium exposure and the liver and kidney were obtained for cadmium, zinc and iron analysis using atomic absorption spectrometry. Results showed that cadmium had accumulated in the tissues according to dosage and sex. Cadmium affected the survival and body masses of dosed females. Cadmium decreased the iron concentrations in the liver of voles, whereas zinc concentrations increased in both the kidney and liver
The transfer of 137Cs, Pu isotopes and 90Sr to bird, bat and ground-dwelling small mammal species within the Chernobyl exclusion zone
Protected species are the focus of many radiological environmental assessments.
However, the lack of radioecological data for many protected species presents a
significant international challenge. Furthermore, there are legislative restrictions on
destructive sampling of protected species to obtain such data. Where data are not
available, extrapolations are often made from ‘similar’ species but there has been little
attempt to validate this approach.
In this paper we present what, to our knowledge, is the first study purposefully designed
to test the hypothesis that radioecological data for unprotected species can be used to
estimate conservative radioecolgical parameters for protected species; conservatism being
necessary to ensure that there is no significant impact.
The study was conducted in the Chernobyl Exclusion Zone. Consequently, we are able to
present data for Pu isotopes in terrestrial wildlife. There has been limited research on Pu
transfer to terrestrial wildlife which contrasts with the need to assess radiation exposure
of wildlife to Pu isotopes around many nuclear facilities internationally.
Our results provide overall support for the hypothesis that data for unprotected species
can be used to adequately assess the impacts for ionising radiation on protected species.
This is demonstrated for a range of mammalian and avian species. However, we identify
one case, the shrew, for which data from other ground-dwelling small mammals would
not lead to an appropriately conservative assessment of radiation impact. This indicates
the need to further test our hypothesis across a range of species and ecosystems, and/or
ensure adequate conservatism within assessments.
The data presented are of value to those trying to more accurately estimate the radiation
dose to wildlife in the Chernobyl Exclusion Zone, helping to reduce the considerable
uncertainty in studies reporting dose-effect relationships for wildlife.
A video abstract for this paper is available here