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Nguyen Ngoc-Lien Bui Van-Hoi Pham Hoang-Nam To Hien-Minh Dijoux-Franca Marie-Geneviève Vu Cam-Tu Nguyen Kieu-Oanh Thi 《Environmental science and pollution research international》2022,29(58):87268-87280
Environmental Science and Pollution Research - This study aims to find the interaction between ionome and metabolome profiles of Pteris vittata L., an arsenic hyperaccumulator plant, to reveal its... 相似文献
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Hoang Nam Pham Serge Michalet Josselin Bodillis Tien Dat Nguyen Thi Kieu Oanh Nguyen Thi Phuong Quynh Le Mohamed Haddad Sylvie Nazaret Marie-Geneviève Dijoux-Franca 《Environmental science and pollution research international》2017,24(20):16735-16750
Plants adapt to metal stress by modifying their metabolism including the production of secondary metabolites in plant tissues. Such changes may impact the diversity and functions of plant associated microbial communities. Our study aimed to evaluate the influence of metals on the secondary metabolism of plants and the indirect impact on rhizosphere bacterial communities. We then compared the secondary metabolites of the hyperaccumulator Pteris vittata L. collected from a contaminated mining site to a non-contaminated site in Vietnam and identified the discriminant metabolites. Our data showed a significant increase in chlorogenic acid derivatives and A-type procyanidin in plant roots at the contaminated site. We hypothesized that the intensive production of these compounds could be part of the antioxidant defense mechanism in response to metals. In parallel, the structure and diversity of bulk soil and rhizosphere communities was studied using high-throughput sequencing. The results showed strong differences in bacterial composition, characterized by the dominance of Proteobacteria and Nitrospira in the contaminated bulk soil, and the enrichment of some potential human pathogens, i.e., Acinetobacter, Mycobacterium, and Cupriavidus in P. vittata’s rhizosphere at the mining site. Overall, metal pollution modified the production of P. vittata secondary metabolites and altered the diversity and structure of bacterial communities. Further investigations are needed to understand whether the plant recruits specific bacteria to adapt to metal stress. 相似文献
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