Department of Biology, Duke University, Durham, North Carolina, USA.
Ann N Y Acad Sci. 2011 Mar;1223:39-57. doi: 10.1111/j.1749-6632.2011.05986.x.
Southern Appalachian forests are recognized as a biodiversity hot spot of global significance, particularly for endemic aquatic salamanders and mussels. The dominant driver of land-cover and land-use change in this region is surface mining, with an ever-increasing proportion occurring as mountaintop mining with valley fill operations (MTVF). In MTVF, seams of coal are exposed using explosives, and the resulting noncoal overburden is pushed into adjacent valleys to facilitate coal extraction. To date, MTVF throughout the Appalachians have converted 1.1 million hectares of forest to surface mines and buried more than 2,000 km of stream channel beneath mining overburden. The impacts of these lost forests and buried streams are propagated throughout the river networks of the region as the resulting sediment and chemical pollutants are transmitted downstream. There is, to date, no evidence to suggest that the extensive chemical and hydrologic alterations of streams by MTVF can be offset or reversed by currently required reclamation and mitigation practices.
南阿巴拉契亚森林被认为是具有全球重要意义的生物多样性热点地区,特别是对于特有水生蝾螈和贻贝类。该地区土地覆盖和土地利用变化的主要驱动因素是露天开采,随着山顶开采和山谷填充作业(MTVF)的比例不断增加。在 MTVF 中,使用炸药开采煤层,然后将产生的非煤矿石覆盖物推入相邻的山谷,以方便煤炭开采。迄今为止,阿巴拉契亚山脉的 MTVF 已经将 110 万公顷的森林转化为露天矿,并在采矿覆盖层下掩埋了超过 2000 公里的河道。随着这些流失的森林和被掩埋的溪流的影响在整个地区的河流网络中传播,由此产生的泥沙和化学污染物被输送到下游。迄今为止,没有证据表明 MTVF 对溪流的广泛化学和水文变化可以通过目前要求的复垦和缓解措施来抵消或逆转。
