Mercury in the soil-plant-deer-predator food chain of a temperate forest in Slovenia | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

3784257

Reference Type

Journal Article

Title

Mercury in the soil-plant-deer-predator food chain of a temperate forest in Slovenia

Author(s)

Gnamus, A; Byrne, AR; Horvat, M

Year

2000

Is Peer Reviewed?

Journal

Environmental Science & Technology
ISSN: 0013-936X
EISSN: 1520-5851

Volume

Issue

Page Numbers

3337-3345

Language

English

DOI

10.1021/es991419w

Web of Science Id

WOS:000088751000005

URL

https://www.proquest.com/scholarly-journals/mercury-soil-plant-deer-predator-food-chain/docview/230147390/se-2?accountid=171501
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Abstract

Total mercury and methylmercury concentrations from long-term monitoring of the terrestrial soil-vegetation-herbivore-carnivore food chain with regard to accumulation and transformation processes were studied in areas of Slovenia contaminated with mercury to differing degrees, as well as uncontaminated areas. Assessment of the inhaled and ingested contribution of mercury from the environment in roe deer (Capreolus capreolus L.), the selected wild mammal species living in these areas, showed that while the ratio between these two routes of uptake is relatively constant, food intake of mercury in roe deer is much more important than inhaled mercury, which represents only up to 0.2% of ingested Hg. Although the plant species comprising roe deer foodstuffs were not active accumulators of mercury from soil or air, vegetation mediates significant transfer of Me-Hg to herbivores, and this becomes subject to further accumulation in the higher trophic levels of this food chain. Besides roe deer other bioindicators such as chamois (Rupicapra rupicapra L.) were selected to confirm the uptake of mercury from plants. Though the conclusions drawn from the carnivorous predators lynx (Felis lynx L.) and wolves (Canislupus L.) are limited due to the limited number of subjects (8 and 2, respectively), the results and their comparison to other environmental data showed the transfer of Hg from soil (and air) to vegetation, herbivores and carnivores further up the food chain. The results of the measurements as well as concentration factors (GF) and bio-accumulation factors (BAF) show appreciable accumulation of Me-Hg and less marked accumulation of T-HS at higher trophic levels of this terrestrial food chain. Interestingly, higher accumulation of Me-Hg was observed in those environments polluted with high concentrations of inorganic mercury compared to less contaminated and control areas.

Keywords

Environmental Studies; Mercury; Forests; Food chains; Flowers & plants; Contamination; Slovenia