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Hyperaccumulator Plants from China: A Synthesis of the Current State of Knowledge
Environmental Science & Technology ( IF 10.8 ) Pub Date : 2018-10-22 , DOI: 10.1021/acs.est.8b01060 Jin-tian Li 1 , Hanumanth Kumar Gurajala 2 , Long-hua Wu 3 , Antony van der Ent 4, 5 , Rong-liang Qiu 6 , Alan J. M. Baker 4, 5, 7 , Ye-tao Tang 6 , Xiao-e Yang 2 , Wen-sheng Shu 1
Environmental Science & Technology ( IF 10.8 ) Pub Date : 2018-10-22 , DOI: 10.1021/acs.est.8b01060 Jin-tian Li 1 , Hanumanth Kumar Gurajala 2 , Long-hua Wu 3 , Antony van der Ent 4, 5 , Rong-liang Qiu 6 , Alan J. M. Baker 4, 5, 7 , Ye-tao Tang 6 , Xiao-e Yang 2 , Wen-sheng Shu 1
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Hyperaccumulator plants are the material basis for phytoextraction research and for practical applications in decontaminating polluted soils and industrial wastes. China’s high biodiversity and substantial mineral resources make it a global hotspot for hyperaccumulator plant species. Intensive screening efforts over the past 20 years by researchers working in China have led to the discovery of many different hyperaccumulators for a range of elements. In this review, we present the state of knowledge on all currently reported hyperaccumulator species from China, including Cardamine hupingshanensis (selenium, Se), Dicranopteris dichotoma (rare earth elements, REEs), Elsholtzia splendens (copper, Cu), Phytolacca americana (manganese, Mn), Pteris vittata (arsenic, As), Sedum alfredii, and Sedum plumbizincicola (cadmium/zinc, Cd/Zn). This review covers aspects of the ecophysiology and molecular biology of tolerance and hyperaccumulation for each element. The major scientific advances resulting from the study of hyperaccumulator plants in China are summarized and synthesized.
更新日期:2018-10-23
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