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Environmental Chemistry Environmental Chemistry Society
Environmental problems - Chemical approaches
RESEARCH ARTICLE

Trace metals and sulfur in soils and forage of a chronic wasting disease locus

M. B. McBride
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Department of Crop and Soil Sciences, Cornell University, Ithaca, NY 14853, USA. Email: mbm7@cornell.edu

Environmental Chemistry 4(2) 134-139 https://doi.org/10.1071/EN06066
Submitted: 31 October 2006  Accepted: 3 April 2007   Published: 17 April 2007

Environmental context. Chronic wasting disease (CWD) and other ‘prion’ diseases tend to cluster geographically, a characteristic that may indicate environmental risk factors, yet the biogeochemical features of regions with high prion disease incidence have rarely been investigated. This study, presenting soil, water and forage trace element analyses for a CWD cluster in Wisconsin, suggests that trace metal toxicity is unlikely to be a disease factor, but further indicates that willow browse could present a risk for copper deficiency in deer owing to high foliar sulfur concentrations. As copper deficiency leads to impaired immune function, it is hypothesised that the risk for CWD could be increased in environments where deer browse willow heavily.

Abstract. In an effort to determine whether incidence of chronic wasting disease (CWD) in wild cervids is linked to biogeochemical risk factors of affected regions, soils, plants and surface waters in the Mt Horeb, Wisconsin CWD cluster were sampled and analysed for trace metals as well as major elements. The results revealed normal (relatively low) levels of trace metals in the soils, water and most plants, with no evidence of widespread heavy metal contamination in this region. It was concluded that incidence of CWD in Mt Horeb is unlikely to be linked to abnormally high concentrations of potentially zootoxic metals, including Pb, Zn, Cd or Mn, in soils waters or forages of the region. However, shrub willow, a common browse plant in the area, had high S levels in its leaves compared with other potential forage plants. Bioaccumulation of S was species-specific, with one willow species in particular (Salix exigua) having high foliar S in comparison with other species both in controlled greenhouse experiments as well as in the field near Mt Horeb. The willow S concentrations in the Mt Horeb CWD locus, averaging in excess of 4500 mg kg–1 in 2003 and remaining high in 2004, were high enough to have contributed to hypocuprosis in deer, and possibly to have caused polioencephalomalacia (PEM). It is hypothesised that conditions favourable to intensive deer browsing on shrub willow may exist periodically in Mt Horeb, leading to hypocuprosis and increased susceptibility to CWD.


Acknowledgements

Research supported by the USDA Agricultural Ecosystems Program, Award No. 91–34244–5917. Willow cultivars for the hydroponic study were provided by LandSaga Biogeographical Inc., New Hamburg, Ontario, Canada.


The author wishes to thank Mr. Gene Flees for locating sites near Mt Horeb for sampling in 2003, as well as conducting further willow sampling in 2004. The author also thanks Ms. Katherine Barrett for assistance with sampling, and Ron Wasco and the Energy Institute of Penn State University for S analyses by combustion.


References


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