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Yibing Ma
Researcher at University of Jinan
Publications - 56
Citations - 4478
Yibing Ma is an academic researcher from University of Jinan. The author has contributed to research in topics: Biology & Soil water. The author has an hindex of 22, co-authored 38 publications receiving 3147 citations. Previous affiliations of Yibing Ma include Chinese Academy of Sciences & Macau University of Science and Technology.
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Soil Contamination in China: Current Status and Mitigation Strategies
TL;DR: Comparisons with other regions of the world show that the current status of soil contamination, based on the total contaminant concentrations, is not worse in China, however, the concentrations of some heavy metals in Chinese soils appear to be increasing at much greater rates.
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An inventory of trace element inputs to agricultural soils in China.
TL;DR: The inputs of trace elements to agricultural soils via atmospheric deposition, livestock manures, fertilizers and agrochemicals, sewage irrigation and sewage sludge in China were analyzed and an annual inventory of trace element inputs was developed.
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Long-term field application of sewage sludge increases the abundance of antibiotic resistance genes in soil.
TL;DR: The patterns of bacterial community and antibiotic resistance genes (ARGs) in a long-term field experiment were investigated and it was suggested that bacterial community shifts, rather than MGEs, is the major driver shaping the antibiotic resistome.
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Long-Term Nickel Contamination Increases the Occurrence of Antibiotic Resistance Genes in Agricultural Soils.
TL;DR: Long-term nickel exposure significantly increased the diversity, abundance, and horizontal transfer potential of soil antibiotic resistance genes (ARGs) and demonstrated significant associations between ARGs and MGEs.
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Rare microbial taxa as the major drivers of ecosystem multifunctionality in long-term fertilized soils
Qing-Lin Chen,Qing-Lin Chen,Jing Ding,Dong Zhu,Hang-Wei Hu,Manuel Delgado-Baquerizo,Yibing Ma,Ji-Zheng He,Yong-Guan Zhu +8 more
TL;DR: Compared with inorganic fertilization, the application of organic fertilizer improved the soil multifunctionality, which positively correlated with the both bacterial and fungal diversity and indicated that rare microbial taxa had an over-proportional role in biological processes.