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Article
Open AccessElemental compositions of lichens from Duolun County, Inner Mongolia, China: Origin, road effect and species difference
To assess the response of lichen elemental compositions to road traffic and species difference in the context of high dust input and anthropogenic emissions, two foliose epiphytic lichens (Phaeophyscia hirtuosa, ...
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Article
Open AccessLong-term growth of temperate broadleaved forests no longer benefits soil C accumulation
It is widely recognized that the long-term growth of forests benefits biomass carbon (C) sequestration, but it is not known whether the long-term growth of forests would also benefit soil C sequestration. We s...
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Article
Open AccessLichen elemental composition distinguishes anthropogenic emissions from dust storm inputs and differs among species: Evidence from **linhot, Inner Mongolia, China
To test the applicability of lichens in the biomonitoring of atmospheric elemental deposition in a typical steppe zone of Inner Mongolia, China, six foliose lichens (Physcia aipolia, PA; P. tribacia, PT; Xanthori...
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Article
Open AccessUse of the lichen Xanthoria mandschurica in monitoring atmospheric elemental deposition in the Taihang Mountains, Hebei, China
Air pollution is a major concern in China. Lichens are a useful biomonitor for atmospheric elemental deposition but have rarely been used in North China. The aim of this study was to investigate the atmospheri...