Your search keyword '"chornobyl exclusion zone."' showing total 21 results

1. Wildfires in the Chornobyl exclusion zone—Risks and consequences.

Author

Beresford, Nicholas A., Barnett, Catherine L., Gashchak, Sergii, Kashparov, Valery, Kirieiev, Serhii I., Levchuk, Sviatoslav, Morozova, Valeriia, Smith, James T., and Wood, Michael D.

Subjects

ENVIRONMENTAL chemistry, WILDFIRES, ENVIRONMENTAL toxicology, ENVIRONMENTAL management, WILDFIRE prevention, NUCLEAR accidents

Abstract

Following the 1986 Chornobyl accident, an area approaching 5000 km2 surrounding the nuclear plant was abandoned, creating the Chornobyl exclusion zone (CEZ). Although this area likely contains the most radioactive terrestrial ecosystem on earth, the absence of humans and associated activities for nearly 35 years since the accident has resulted in increases in wildlife numbers. Both the Belarussian and Ukrainian components of the CEZ are now designated as nature reserves; together they form one of Europe's largest protected areas and have been described as an iconic example of rewilding. Forests and former agricultural land (now scrub) dominate the CEZ and wildfires are an annual event. In April 2020, the CEZ suffered its most widespread fires to date when greater than 800 km2 of the 2600 km2 Ukrainian portion of the CEZ was burnt. Large‐scale fires in the CEZ have implications for wildlife, as they do elsewhere, but they also pose additional radioecological and radiological protection questions. We discuss the implications of wildfires in the CEZ, considering effects on wildlife and changes in radionuclide mobility. We also demonstrate that the risk to firefighters and the wider public from the inhalation of radionuclides in smoke resulting from fires in the CEZ is likely to be low. However, further experimental and modeling work to evaluate potential doses to firefighters from inhaled radioactive particles would be valuable, not least for reassurance purposes. Integr Environ Assess Manag 2021;17:1141–1150 © 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC). KEY POINTS: The approximately 5000 km2 Chernobyl Exclusion Zone contains what is likely the most radioactive terrestrial ecosystem on earth.Wildfires are an annual event in the Chernobyl Exclusion Zone.We discuss the implications of wildfires in the Chernobyl Exclusion Zone, considering effects on wildlife and changes in radionuclide mobility.We demonstrate that the risk to firefighters and the wider public from the inhalation of radionuclides in smoke resulting from fires in the CEZ is likely to be low. [ABSTRACT FROM AUTHOR]

Published

2021

2. Shining a light on elusive lynx: Density estimation of three Eurasian lynx populations in Ukraine and Belarus.

Author

Palmero, Stefano, Smith, Adam F., Kudrenko, Svitlana, Gahbauer, Martin, Dachs, Dominik, Weingarth‐Dachs, Kirsten, Kashpei, Irina, Shamovich, Dmitry, Vyshnevskiy, Denys, Borsuk, Oleksandr, Korepanova, Kateryna, Bashta, Andriy‐Taras, Zhuravchak, Rostyslav, Fenchuk, Viktar, and Heurich, Marco

Subjects

*LYNX, *DENSITY, *GENETIC variation

Abstract

The Eurasian lynx is a large carnivore widely distributed across Eurasia. However, our understanding of population status is heterogeneous across their range, with some populations isolated that are at risk of reduced genetic variation and a complete lack of information about others. In many European countries, Eurasian lynx are monitored through demographic studies crucial for their conservation and management. Even so, there are only rough and fragmented population assessments from Ukraine and Belarus, despite strict protection in both countries and their importance for lynx connectivity across Europe. We monitored lynx from October 2020 to March 2021 and used camera trapping in combination with spatial capture–recapture (SCR) methods in a Bayesian framework to provide the first SCR density estimation of three lynx populations across Ukraine and Belarus, including the Ukrainian Chornobyl Exclusion Zone, southern Belarus and the Ukrainian Carpathians. Our density estimates varied within our study areas ranging from 0.45 to 1.54 individuals/100 km2. This work provides a substantial scientific component to the overall understanding of lynx conservation for a region where only broad information is available and opens the doors for further large‐scale monitoring and trend assessments. The crucial information we provide can greatly enhance the range‐wide assessments of the status of this protected species. We also discuss the implications for Eurasian lynx conservation, despite the geopolitical realities impacting species monitoring in the region. Our work serves as a baseline, not only for future conservation interventions but also to evaluate the effects of disturbance and threats to these protected populations. [ABSTRACT FROM AUTHOR]

Published

2023

3. Ionizing radiation and melanism in Chornobyl tree frogs.

Author

Burraco, Pablo and Orizaola, Germán

Subjects

HYLIDAE, IONIZING radiation, MELANISM, RADIATION sources, RADIOACTIVE contamination, RADIOACTIVE substances, RADIATION exposure

Abstract

Human actions are altering ecosystems worldwide. Among human‐released pollutants, ionizing radiation arises as a rare but potentially devastating threat to natural systems. The Chornobyl accident (1986) represents the largest release of radioactive material to the environment. Our aim was to examine how exposure to radiation from the Chornobyl accident influences dorsal skin coloration of Eastern tree frog (Hyla orientalis) males sampled across a wide gradient of radioactive contamination in northern Ukraine. We assessed the relationship between skin frog coloration (which can act as a protective mechanism against ionizing radiation), radiation conditions and oxidative stress levels. Skin coloration was darker in localities closest to areas with high radiation levels at the time of the accident, whereas current radiation levels seemed not to influence skin coloration in Chornobyl tree frogs. Tree frogs living within the Chornobyl Exclusion Zone had a remarkably darker dorsal skin coloration than frogs from outside the Zone. The maintenance of dark skin coloration was not linked to physiological costs in terms of frog body condition or oxidative status, and we did not detect short‐term changes in frog coloration. Dark coloration is known to protect against different sources of radiation by neutralizing free radicals and reducing DNA damage, and, particularly melanin pigmentation has been proposed as a buffering mechanism against ionizing radiation. Our results suggest that exposure to high levels of ionizing radiation, likely at the time of the accident, may have been selected for darker coloration in Chornobyl tree frogs. Further studies are needed to determine the underlying mechanisms and evolutionary consequences of the patterns found here. [ABSTRACT FROM AUTHOR]

Published

2022

4. Some observations on meaningful and objective inference in radioecological field studies.

Author

Jackson, Joseph A., Antwis, Rachael E., Beresford, Nicholas A., and Wood, Michael D.

Subjects

FIELD research, RADIOACTIVE substances, ABSORBED dose, GUT microbiome, RADIATION exposure

Abstract

Anthropogenic releases of radiation are of ongoing importance for environmental protection, but the radiation doses at which natural systems begin to show effects are controversial. More certainty is required in this area to achieve optimal regulation for radioactive substances. We recently carried out a large survey (268 sampled animals and 20 sites) of the association between environmental radiation exposures and small mammal gut‐associated microbiomes (fungal and bacterial) in the Chornobyl Exclusion zone (CEZ). Using individual measurements of total absorbed dose rates and a study design and analyses that accounted for spatial non‐independence, we found no, or only limited, association.Watts et al. have criticised our study: for not filtering candidate non‐resident components prior to our fungal microbiome analyses, for our qualified speculations on the relative merits of faecal and gut samples, and for the design of our study which they felt lacked sufficient replication.The advantage of filtering non‐resident‐fungal taxa is not clear and it would not have changed the null (spatially adjusted) association we found between radioactive dose and mycobiome composition because the most discriminatory fungal taxa with regard to dose were non‐resident taxa.We maintain that it was legitimate for us to make qualified discussion comments on the differences in results between our faecal and gut microbiome analyses and on the relative merits of these sample types.Most importantly, the criticism of our study design by Watts et al. and the designs and analysis of their recent studies in the CEZ show a misunderstanding of the true nature of independent replication in field studies. Recognising the importance of spatial non‐independence is essential in the design and analysis of radioecological field surveys. [ABSTRACT FROM AUTHOR]

Published

2022

5. UV radiation‐induced peptides in frog skin confer protection against cutaneous photodamage through suppressing MAPK signaling.

Author

Yang, Tingyi, Geng, Fenghao, Tang, Xiaoyou, Yu, Zuxiang, Liu, Yulan, Song, Bin, Tang, Zhihui, Wang, Baoning, Ye, Bengui, Yu, Daojiang, and Zhang, Shuyu

Subjects

MITOGEN-activated protein kinases, PEPTIDES, FROGS, PROTEIN domains, CELLULAR aging

Abstract

Overexposure to ultraviolet light (UV) has become a major dermatological problem since the intensity of ultraviolet radiation is increasing. As an adaption to outside environments, amphibians gained an excellent peptide‐based defense system in their naked skin from secular evolution. Here, we first determined the adaptation and resistance of the dark‐spotted frogs (Pelophylax nigromaculatus) to constant ultraviolet B (UVB) exposure. Subsequently, peptidomics of frog skin identified a series of novel peptides in response to UVB. These UV‐induced frog skin peptides (UIFSPs) conferred significant protection against UVB‐induced death and senescence in skin cells. Moreover, the protective effects of UIFSPs were boosted by coupling with the transcription trans‐activating (TAT) protein transduction domain. In vivo, TAT‐conjugated UIFSPs mitigated skin photodamage and accelerated wound healing. Transcriptomic profiling revealed that multiple pathways were modulated by TAT‐conjugated UIFSPs, including small GTPase/Ras signaling and MAPK signaling. Importantly, pharmacological activation of MAPK kinases counteracted UIFSP‐induced decrease in cell death after UVB exposure. Taken together, our findings provide evidence for the potential preventive and therapeutic significance of UIFSPs in UV‐induced skin damage by antagonizing MAPK signaling pathways. In addition, these results suggest a practicable alternative in which potential therapeutic agents can be mined from organisms with a fascinating ability to adapt. [ABSTRACT FROM AUTHOR]

Published

2024

6. SUBCHRONIC EXPOSURE OF BALB/C AND C57BL/6 STRAINS OF MUS MUSCULUS TO THE RADIOACTIVE ENVIRONMENT OF THE CHORNOBYL, UKRAINE EXCLUSION ZONE.

Author

Rodgers, Brenda E., Chesser, Ronald K., Wickliffe, Jeffrey K., Phillips, Carleton J., and Baker, Robert J.

Subjects

RADIATION, HEALTH, MICE, BLOOD, NUCLEOLUS, RADIOISOTOPES

Abstract

Environmental contamination resulting from the Chornobyl, Ukraine, disaster offers a unique opportunity to examine the in vivo biological effects of chronic, low-dose exposure to radiation. Laboratory studies of acute exposure to ionizing radiation have been used to estimate risk and potential human health effects by the extrapolation of laboratory data to situations of low-dose environmental radiation exposure. Few studies, however, have explored the biological consequences of low-dose exposure via in situ environmental radiation in a sentinel species. In the present study, laboratory strains of Mus musculus (BALB/c and 57BL/6) were placed in environmental enclosures in the Red Forest region of the Chornobyl exclusion zone. Blood samples were obtained every 10 d, and the micronucleus (MN) test was employed to assess the potential for cytogenetic damage from exposure to Chornobyl radiation. Radionuclide uptake was monitored throughout the study, and dose was estimated for each individual as well as for their offspring. Total dose for the mice experimentally exposed to this environment averaged 1162 mGy for BALB/c (30 d) and 1629 mGy for C57BL/6 (40 d). A higher MN frequency for both strains was observed at day 10, although this change was only statistically significant in the C57BL/6 mice (x3⊃2 = 13.41, p= 0.003). Subsequent samples from C57BL/6 resulted in values at or less than the initial frequencies. In BALB/c mice, an increase in MN was also evident at day 30 (x2² = 10.38, p = 0.006). The experimental design employed here allows for the incorporation of traditional laboratory strains, as well as transgenic strains of Mus, as sentinels of environmental radiation contamination. [ABSTRACT FROM AUTHOR]

Published

2001

7. Megafauna restoration as a legal obligation: International biodiversity law and the rehabilitation of large mammals in Europe.

Author

Trouwborst, Arie and Svenning, Jens‐Christian

Subjects

ECOSYSTEM management, MEGAFAUNA, BIODIVERSITY, HOLOCENE extinction

Abstract

Restoring functional ecosystems in Europe inter alia requires restoring large mammal (megafauna) diversity and densities to levels well above the current downgraded state, which results from a human‐driven wave of megafauna extinctions and extirpations in the Late Pleistocene and Holocene. Combining law and natural science, we address the question to what degrees international legal instruments support or require such megafauna rewilding efforts. We provide an overview of Europe's current megafauna plus those species that would likely have been present without human interference. We categorize these species and restoration scenarios in ways that make sense from a legal perspective and identify and interpret relevant legal instruments. Our analysis indicates that Article 8(f) of the Convention on Biological Diversity requires restoring the diversity and densities of Europe's megafauna as far as possible—which is indeed quite far. Depending on the circumstances, megafauna rewilding measures can also be required or supported by various other legal instruments at global, pan‐European, European Union and other levels. [ABSTRACT FROM AUTHOR]

Published

2022

8. Unusual evolution of tree frog populations in the Chernobyl exclusion zone.

Author

Car, Clément, Gilles, André, Armant, Olivier, Burraco, Pablo, Beaugelin‐Seiller, Karine, Gashchak, Sergey, Camilleri, Virginie, Cavalié, Isabelle, Laloi, Patrick, Adam‐Guillermin, Christelle, Orizaola, Germán, and Bonzom, Jean‐Marc

Subjects

FROG populations, HYLIDAE, NUCLEAR power plant accidents, IONIZING radiation, HAPLOTYPES, RADIOACTIVE contamination, NUCLEAR power plants

Abstract

Despite the ubiquity of pollutants in the environment, their long‐term ecological consequences are not always clear and still poorly studied. This is the case concerning the radioactive contamination of the environment following the major nuclear accident at the Chernobyl nuclear power plant. Notwithstanding the implications of evolutionary processes on the population status, few studies concern the evolution of organisms chronically exposed to ionizing radiation in the Chernobyl exclusion zone. Here, we examined genetic markers for 19 populations of Eastern tree frog (Hyla orientalis) sampled in the Chernobyl region about thirty years after the nuclear power plant accident to investigate microevolutionary processes ongoing in local populations. Genetic diversity estimated from nuclear and mitochondrial markers showed an absence of genetic erosion and higher mitochondrial diversity in tree frogs from the Chernobyl exclusion zone compared to other European populations. Moreover, the study of haplotype network permitted us to decipher the presence of an independent recent evolutionary history of Chernobyl exclusion zone's Eastern tree frogs caused by an elevated mutation rate compared to other European populations. By fitting to our data a model of haplotype network evolution, we suspected that Eastern tree frog populations in the Chernobyl exclusion zone have a high mitochondrial mutation rate and small effective population sizes. These data suggest that Eastern tree frog populations might offset the impact of deleterious mutations because of their large clutch size, but also question the long‐term impact of ionizing radiation on the status of other species living in the Chernobyl exclusion zone. [ABSTRACT FROM AUTHOR]

Published

2022

9. Impacts of radiation exposure on the bacterial and fungal microbiome of small mammals in the Chernobyl Exclusion Zone.

Author

Antwis, Rachael E., Beresford, Nicholas A., Jackson, Joseph A., Fawkes, Ross, Barnett, Catherine L., Potter, Elaine, Walker, Lee, Gaschak, Sergey, and Wood, Michael D.

Subjects

FUNGAL communities, NUCLEAR power plant accidents, BIOMARKERS, ABSORBED dose, MAMMALS

Abstract

Environmental impacts of the 1986 Chernobyl Nuclear Power Plant accident are much debated, but the effects of radiation on host microbiomes have received little attention to date.We present the first analysis of small mammal gut microbiomes from the Chernobyl Exclusion Zone in relation to total absorbed dose rate, including both caecum and faeces samples.We provide novel evidence that host species determines fungal community composition, and that associations between microbiome (both bacterial and fungal) communities and radiation exposure vary between host species. Using ambient versus total weighted absorbed dose rates in analyses produced different results, with the latter more robust for interpreting microbiome changes at the individual level. We found considerable variation between results for faecal and gut samples of bank voles, suggesting faecal samples are not an accurate indicator of gut composition.Associations between radiation exposure and microbiome composition of gut samples were not robust against geographical variation, although we identified families of bacteria (Lachnospiraceae and Muribaculaceae) and fungi (Steccherinaceae and Strophariaceae) in the guts of bank voles that may serve as biomarkers of radiation exposure.Further studies considering a range of small mammal species are needed to establish the robustness of these potential biomarkers. [ABSTRACT FROM AUTHOR]

Published

2021

10. Automatic acoustic detection of birds through deep learning: The first Bird Audio Detection challenge.

Author

Orme, David, Stowell, Dan, Wood, Michael D., Pamuła, Hanna, Stylianou, Yannis, and Glotin, Hervé

Subjects

DEEP learning, ECOSYSTEMS, MACHINE learning, BIRD populations, TECHNOLOGY

Abstract

Assessing the presence and abundance of birds is important for monitoring specific species as well as overall ecosystem health. Many birds are most readily detected by their sounds, and thus, passive acoustic monitoring is highly appropriate. Yet acoustic monitoring is often held back by practical limitations such as the need for manual configuration, reliance on example sound libraries, low accuracy, low robustness, and limited ability to generalise to novel acoustic conditions.Here, we report outcomes from a collaborative data challenge. We present new acoustic monitoring datasets, summarise the machine learning techniques proposed by challenge teams, conduct detailed performance evaluation, and discuss how such approaches to detection can be integrated into remote monitoring projects.Multiple methods were able to attain performance of around 88% area under the receiver operating characteristic (ROC) curve (AUC), much higher performance than previous general‐purpose methods.With modern machine learning, including deep learning, general‐purpose acoustic bird detection can achieve very high retrieval rates in remote monitoring data, with no manual recalibration, and no pretraining of the detector for the target species or the acoustic conditions in the target environment. [ABSTRACT FROM AUTHOR]

Published

2019

11. Genetic diversity of Clethrionomys glareolus populations from highlycontaminated sites in the Chornobyl region, Ukraine

Author

Baker, R. J., Chesser, R. K., Matson, C. W., and Rodgers, B. E.

Subjects

CLETHRIONOMYS glareolus, RADIATION, RADIOACTIVITY, POPULATION genetics, GENETICS, POLLUTION

Abstract

At radioactive sites, at least two mechanisms may affect the geneticdiversity of populations of a given species. Increased mutation rates due to radiation exposure may increase the amount of genetic diversity in a population. Alternatively, population bottlenecks exacerbated by environmental degradation may lead to a reduction of diversity. The relationship between these two contradictory forces is complex. To explore this relationship, long-term monitoring of a genetic markerwithin a population is needed. To provide baseline data on the population genetics of the bank vole (Clethrionomys glareolus) living in the most contaminated regions at Chornobyl, Ukraine, we have sequenced291 base pairs of the mitochondrial DNA control region. Bank voles were chosen as a model system because they have the highest levels of internal dose of cesium-134, cesium-137, and strontium90 within the Chornobyl exclusion zone. We sampled three geographic sites, which were Oranoe, a reference site with virtually no radioactive contamination (<2 Ci/km2), and two highly contaminated sites, Glyboke Lake and the Red Forest (both 1,000 Ci/ km2). Genetic diversity in the population from Red Forest (0.722 +/- 0.024) was significantly greater than at the Oranoe reference site (0.615 +/- 0.039), while genetic diversity at Glyboke Lake (0.677 +/- 0.068) was intermediate. It is concluded that long-term studies of historical and demographic characteristics for experimental and reference populations are required in order to employ population genetics to understand the biological impact of environmental contaminants on the genetics of natural populations. [ABSTRACT FROM AUTHOR]

Published

2000

12. Use of the aquatic plant Elodea canadensis to assess toxicity and genotoxicity of Yenisei River sediments.

Author

Zotina, Tatiana A., Trofimova, Elena A., Medvedeva, Marina Yu., Dementyev, Dmitry V., and Bolsunovsky, Alexander Ya.

Subjects

ELODEA, CELL analysis, TOXICITY testing, BIOLOGICAL assay, WATER pollution, SPECIES distribution

Abstract

The toxicity, cytotoxicity, and genotoxicity of bulk sediments from the Yenisei River (Siberia, Russia) were estimated in laboratory bioassays based on several endpoints in the aquatic plant Elodea canadensis. The bottom sediment samples were collected in the Yenisei River upstream and downstream of the sources of chemical and radioactive contamination. The testing revealed different sensitivities of Elodea endpoints to the quality of the bottom sediment: weight of shoots < length of shoots < mitotic index < length of roots < percentage of abnormal cells. The response of the genotoxicity endpoint (percentage of cells with chromosome abnormalities in roots of Elodea) was the highest in sediments with chemical pollution, whereas the highest inhibition of toxicity endpoints (shoot and root length) occurred in sediments with the highest level of radioactive pollution. The extreme response of Elodea endpoints to the quality of certain sediment samples may be regarded as related to the possible presence of unknown toxicants. The results show that E. canadensis can be used as an indicator species in laboratory contact testing of bottom sediment. The responses of shoot and root length growth endpoints of Elodea can be recommended as basic sensitivity indicators of bottom sediment toxicity. Analysis of cells carrying abnormal chromosomes in the apical root meristem of Elodea can be performed optionally in the same test to assess the genotoxicity of sediments. Environ Toxicol Chem 2015;34:2310-2321. © 2015 SETAC [ABSTRACT FROM AUTHOR]

Published

2015

13. Radioactive Wastes.

Author

Choudri, B. S. and Baawain, Mahad

Subjects

RADIOACTIVE waste disposal, RADIOISOTOPES, WASTE management

Abstract

Papers reviewed herein present a general overview of radioactive waste activities around the world in 2014. These include safety assessments, decommission and decontamination of nuclear facilities, fusion facilities, transportation and management solutions for the final disposal of low and high level radioactive wastes (LLW and HLW), interim storage and final disposal options for spent fuel (SF), and tritiated wastes, with a focus on environmental impacts due to the mobility of radionuclides in water, soil and ecosystem alongwith other progress made in the management of radioactive wastes. [ABSTRACT FROM AUTHOR]

Published

2015

14. Genetics of cattails in radioactively contaminated areas around Chornobyl.

Author

TSYUSKO, OLGA V., SMITH, MICHAEL H., OLEKSYK, TARAS K., GORYANAYA, JULIA, and GLENN, TRAVIS C.

Subjects

TYPHA, GENES, MICROSATELLITE repeats, NUCLEOTIDE sequence, MOLECULAR ecology, MOLECULAR biology, TYPHA latifolia, YELLOW-necked mouse, CATOSTOMUS, CATOSTOMIDAE

Abstract

Research on populations from radioactively contaminated areas around Chornobyl has produced ambiguous results for the presence of radiation effects. More studies are needed to provide information on whether radiation exposure at Chornobyl significantly affected genetic diversity in natural populations of various taxa. Eleven and nine variable microsatellite loci were used to test for differences in genetic diversity between reference and Chornobyl populations of two cattail species ( Typha angustifolia and Typha latifolia, respectively) from Ukraine. Our purpose was to determine whether radiation had a significant impact on genetic diversities of the Chornobyl Typha populations, or if their genetic composition might be better explained by species demography and/or changes in population dynamics, mainly in sexual and asexual reproduction. Populations closest to the reactor had increased genetic diversities and high number of genets, which likely were due to factors other than radiation including increased gene flow among Chornobyl populations, enhanced sexual reproduction within populations, and/or origin of the genets from seed bank. Both Typha species also demonstrated small but significant effects associated with latitude, geographical regions, and watersheds. Typha's demography in Ukraine possibly varies with these three factors, and the small difference between Chornobyl and reference populations of T. latifolia detected after partitioning the total genetic variance between them is probably due primarily to these factors. However, the positive correlations of several genetic characteristics with radionuclide concentrations suggest that radiation may have also affected genetics of Chornobyl Typha populations but much less than was expected considering massive contamination of the Chornobyl area. [ABSTRACT FROM AUTHOR]

Published

2006

15. Exposure to chronic, low-dose rate γ-radiation at Chornobyl does not induce point mutations in Big Blue® mice.

Author

Jeffrey K. Wickliffe, Amy M. Bickham, Brenda E. Rodgers, Ronald K. Chesser, Carleton J. Phillips, Sergey P. Gaschak, J.A. Goryanaya, I. Chizhevsky, and Robert J. Baker

Published

2003

16. ASSESSING THE GENOTOXICITY OF CHRONIC ENVIRONMENTAL IRRADIATION BY USING MITOCHONDRIAL DNA HETEROPLASMY IN THE BANK VOLE (CLETHRIONOMYS GLAREOLUS) AT CHORNOBYL, UKRAINE.

Author

Wickliffe, Jeffrey K., Chesser, Ronald K., Rodgers, Brenda E., and Baker, Robert J.

Subjects

MAMMALS, MITOCHONDRIAL DNA, GENETIC mutation, CYTOCHROME b, GENES

Abstract

This study was designed to investigate whether or not chronic exposure to Chornobyl radiation poses a molecular genetic risk to mammals by examining a relatively rapidly evolving genetic system, mitochondrial DNA (mtDNA). More mtDNA mutations (∼19%) and an increase in mtDNA heteroplasmy (∼5%) occurred in the cytochrome b gene of an exposed mother--embryo set when compared to a relatively unexposed mother--embryo set. However, this increase was not statistically significant (p > 0.05). Our results, in conjunction with previous molecular genetic research on small mammals from Chornobyl, suggest that chronic exposure to environmental ionizing radiation does not increase the number of nucleotide substitutions, as predicted by studies using acute or subacute exposures. Thus, cumulative models of radiation risk would not appear to follow simple linear functions derived from high doses and dose rates. The equivocal nature of research regarding the effects of the Chornobyl accident indicates that future research is warranted such that models of chronic environmental exposure can be developed or refined. Although additional study is required to properly validate mtDNA heteroplasmy as a useful effect biomarker, examination of these data does not indicate that a significant risk to mtDNA exists in native rodents chronically exposed to both internal and external radiation. [ABSTRACT FROM AUTHOR]

Published

2002

17. INTERSPECIES DIFFERENCES IN OXIDATIVE STRESS RESPONSE AND RADIOCESIUM CONCENTRATIONS IN RODENTS INHABITING AREAS HIGHLY CONTAMINATED BY THE CHORNOBYL NUCLEAR DISASTER.

Author

Holloman, Kevin A., Dallas, Cham E., Jagoe, Charles H., Tackett, Randall, Kind, John A., and Rollor, Edward A.

Subjects

OXIDATIVE stress, RODENTS, SUPEROXIDE dismutase, CATALASE, RADIOISOTOPES & the environment, CHERNOBYL Nuclear Accident, Chornobyl, Ukraine, 1986

Abstract

Indicators of oxidative stress response were compared to radionuclide concentrations in rodents from highly contaminated sites around the Chornobyl Nuclear Power Plant, Ukraine, and uncontaminated reference areas. Three rodent species--Apodemus agrarius, Apodemus sylvaticus, and Clethrionomys glareolus (n = 121)--were collected from contaminated sites within the 10- km exclusion zone surrounding the Chornobyl Nuclear Power Plant and from uncontaminated reference areas in northern Ukraine. Liver samples were analyzed for superoxide dismutase (SOD) and catalase (CAT) activities, and muscle samples were analyzed for radiocesium activity. Superoxide dismutase and catalase activities differed significantly between reference and contaminated groups only for A. agrarius, and activities were lower in contaminated animals relative to those from reference sites. The SOD activity did not differ among species collected in reference areas. Among contaminated groups, A. agrarius had a significantly lower SOD activity than the other two species. Among reference groups, CAT activity for C. glareolus was significantly lower than for the other two species. Very high muscle radiocesium activities (up to 60,000 Bq/g) were found in rodents from contaminated areas, while the references for each species were at or below background. Clethrionomys glareolus had significantly higher muscle radiocesium concentrations than the other species collected at contaminated sites. There were no significant correlations between either SOD or CAT activities and muscle radiocesium concentrations for contaminated or reference animals in any species. There are significant interspecies differences in oxidative enzyme activities in rodents with lifetime exposure at highly radioactive contaminated sites. However, internal radiocesium concentration is not a sensitive predictor of these oxidative stress responses in individuals. [ABSTRACT FROM AUTHOR]

Published

2000

18. CONCENTRATIONS AND DOSE RATE ESTIMATES OF 134, 137CESIUM AND 90STRONTIUM IN SMALL MAMMALS AT CHORNOBYL, UKRAINE.

Author

Chesser, Ronald K., Sugg, Derrick W., Lomakin, Michael D., Van Den Bussche, Ronald A., Dewoody, J. Andrew, Jagoe, Charles H., Dallas, Cham E., Whicker, F. Ward, Smith, Michael H., Gaschak, Sergei P., Chizhevsky, Igor V., Lyabik, Vitalij V., Buntova, Elena G., Holloman, Kevin, and Baker, Robert J.

Subjects

NUCLEAR reactors, RADIATION, MAMMALS, TISSUES, REPRODUCTION

Abstract

Free-ranging mammals near the Chornobyl nuclear reactor are experiencing substantial radiation dose rates from intramuscular concentrations of 134,137Cs and skeletal 90Sr. Radiocesium concentrations averaged 3,200 Bq/g of dry muscle, compared to a mean of 297 Bq 90Sr/g in bone for mammals in the Exclusion Zone, a region of restricted human activity surrounding the reactor. Estimates of dose rates from intramuscular sources of radiocesium averaged 2.4 mGy/d within 8 km of the reactor and ranged as high as 60 mGy/d. Overall dose rates from internal 90Sr for mammals in the Exclusion Zone averaged 1.0 mGy/d, although doses to specific tissues are likely much higher. Mammals captured 30 km southeast of the reactor averaged only 2 Bq/g of muscle and were receiving an average of 1.4 µGy/d from internal radiocesium. Dramatic variation exists in the spatial pattern of radiocesium in areas immediately surrounding the reactor and within and between remediated and unremediated regions. The variance of 134,137Sr for taxa among sites was significantly less than that for 134,137Cs. Thermoluminescent dosimeters placed on free-ranging mice showed that dose rates from external sources of radiation were much greater than the dose rates from internal sources of radiocesium. Estimated dose rates in very small areas of the Chornobyl region exceed those reported to impede reproductive success in mammals. [ABSTRACT FROM AUTHOR]

Published

2000

19. Experimental exposure of naive bank voles (Clethrionomys glareolus) to the Chornobyl, Ukraine, environment: a test of radioresistance

Author

Baker, Robert J., Chesser, Ronald K., Wickliffe, Jeffrey K., Rodgers, Brenda E., and Phillips, Carleton J.

Subjects

CHEMISTRY, TOXICOLOGY, RADIATION exposure

Abstract

Previous studies have demonstrated no difference in micronucleus (MN) frequencies between wild rodents chronically exposed to the environmental radiation contamination of the Chornobyl (Ukraine) exclusion zone and those inhabiting reference populations. The aim of the present study was to test the hypothesis that a population of bank voles (Clethrionomys glareolus) has developed radioresistance as a result of 14 years of chronic, low-dose radiation exposure. Naive voles were placed in environmental enclosures in the Red Forest region of the exclusion zone for 30 d. Blood samples were obtained at regular intervals, and the MN assay was used to assess chromosomal damage. Additionally, radionuclide uptake was monitored throughout the study, and dose was documented for each individual as well as for their offspring. Total dose for the voles experimentally exposed in this environment averaged 1.09 Gy (36.20 mGy d-1) for the 30-d study period. Our results indicate that exposure to radiation levels well above regulatory statutes did not result in an increased MN frequency. Furthermore, our results do not support the hypothesis that voles chronically exposed to these radiation levels have developed a genetic basis for radioresistance that is unique from that present in naive populations. The use of C. glareolus as a sentinel species for environmental studies of radiation contamination and the question of whether the MN assay is an appropriate endpoint for studies of low-dose, chronic radiation exposure are also discussed. [ABSTRACT FROM AUTHOR]

Published

2001

20. Accumulation of 137cesium and 90strontium fromabiotic and biotic sources in rodents at Chornobyl, Ukraine

Author

Baker, Robert J., Chesser, Ronald K., Phillips, Carleton J., Rodgers, Brenda E., Chizhevsky, Igor, Gaschak, Sergei, and Wickliffe, Jeffrey K.

Subjects

CESIUM, CHEMISTRY, MATHEMATICAL analysis, MATHEMATICAL models, RODENTS, TOXICOLOGY, BIOCHEMISTRY

Abstract

Bank voles (Clethrionomys glareolus) and laboratory strains of housemice (Mus musculus BALB and C57BL) were relocated into enclosures ina highly contaminated area of the Red Forest near the Chornobyl (Ukraine) Reactor 4 to evaluate the uptake rates of 137Cs and 90Sr from abiotic sources. Mice were provided with uncontaminated food supplies, ensuring that uptake of radionuclides was through soil ingestion, inhalation, or water. Mice were sampled before introduction and were reanalyzed every 10 d for 137Cs uptake. Levels of 90Sr were assessed in subsamples from the native populations and in experimental animals at the termination of the study. Uptake rates in house mice were greater than those in voles for both 137Cs and 90Sr. Daily uptake rates in house mice were estimated at 2.72 x 1012 unstable atoms pergram (whole body) for 137Cs and 4.04 x 1010 unstable atoms per gram for 90Sr. Comparable rates in voles were 2.26 x 1011 unstable atoms per gram for 137Cs and 1.94 x 1010 unstable atoms per gram for 90Sr. By comparing values from voles in the enclosures to those from wild voles caught within 50 m of the enclosures, it was estimated that only 8.5% of 137Cs was incorporated from abiotic sources, leaving 91.5% being incorporated by uptake from biotic materials. The fraction of 90Sr uptake from abiotic sources was at least 66.7% (and was probably much higher). Accumulated whole-body doses during the enclosure periods were estimated as 174 mGy from intramuscular 137Cs and 68 mGy by skeletal 90Sr in house mice over 40 d and 98 mGy from 137Cs and 19 mGy from 90Sr in voles over 30 d. Thus, uptake of radionuclides from abiotic materials in the Red Forest at Chornobyl is an important source of internal contamination. [ABSTRACT FROM AUTHOR]

Published

2001

21. Frequencies of micronuclei in bank voles from zones of high radiation at Chornobyl, Ukraine

Author

Baker, Robert J. and Rodgers, Brenda E.

Subjects

ZOOLOGY, RADIATION exposure

Abstract

A population of Clethrionomys glareolus (bank vole) from a highly radioactive area within the Chornobyl, Ukraine exclusion zone was sampled in June 1997 and in June and October 1998. Internal radiation doses from radiocesium were estimated to be as high as 8 rads/d. Total dose, which takes into account the internal dose from radiostrontium and the surrounding environment, was estimated to be 15 to 20 rads/d. In contrast, individuals from a reference population lying outside of the exclusion zone registered negligible levels of contamination. We used the micronucleus test in a double-blind study to analyze blood samples from 58 individuals. We scored more than 600,000 polychromaticerythrocytes (PCEs) but could not reject the null hypothesis that the frequency of micronucleated PCEs in voles exposed to radiation was equal to the frequency in unexposed voles. Results of our study standin sharp contrast to earlier reports of increased frequencies of micronuclei in rodents exposed to fallout of the Chornobyl accident, butwith radiation doses that were orders of magnitude lower than those reported here. Radioresistance and experimental methods are possible explanations for these differences in the results. [ABSTRACT FROM AUTHOR]

Published

2000