Hanxia Yu
South China Normal University
7 Papers
10 Citations
Hanxia Yu is an academic researcher from South China Normal University. The author has contributed to research in topics: Mikania micrantha & Introduced species. The author has an hindex of 3, co-authored 7 publications.
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Papers
Mikania micrantha genome provides insights into the molecular mechanism of rapid growth.
Bo Liu,Jian Yan,W.S. Li,Lijuan Yin,Ping Li,Hanxia Yu,Longsheng Xing,Min-Ling Cai,Hengchao Wang,Mengxin Zhao,Jin Zheng,Feng Sun,Zhenzhen Wang,Zhaoyang Jiang,Qiaojing Ou,Shubin Li,Lu Qu,Qilei Zhang,Yaping Zheng,Xi Qiao,Yu Xi,Yan Zhang,Fan Jiang,Cong Huang,Conghui Liu,Yuwei Ren,Sen Wang,Hangwei Liu,Jianyang Guo,Haihong Wang,Hui Dong,Changlian Peng,Wanqiang Qian,Wei Fan,Fanghao Wan +34 more
TL;DR: It is shown that M. micrantha achieves higher photosynthetic capacity by CO2 absorption at night to supplement the carbon fixation during the day, as well as enhanced stem photosynthesis efficiency, and can increase the availability of nitrogen by enriching the microbes that participate in nitrogen cycling pathways.
Flooding with shallow water promotes the invasiveness of Mikania micrantha
TL;DR: Investigation of M. micrantha population sizes in dry, wet and aquatic habitats in the Pearl River Delta region of Guangdong, China showed that flooding with shallow water is conducive to the invaders' invasiveness, suggesting that water is the key determinant during the intrusion process.
11
Patent
Replacement control of Mikania micrantha invasion in orchard habitat by legume pasture
W.S. Li,Wang Jiayi,Hanxia Yu,Qilei Zhang,Changlian Peng,Gao Lei +5 more
- 11 Jan 2019
TL;DR: In this paper, the replacement control of Mikania micrantha invasion in an orchard habitat by legume pasture, and the legumes pasture Desmodium heterocarpum and/or Cassia tora can be used as aplant for the replecement control of the Mikania micro-ranthacan invasion in the orchard environment.
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The invasive plant Mikania micrantha affects the soil foodweb and plant-soil nutrient contents in orchards
TL;DR: It is suggested that invasive plants may enhance microbial-microfaunal interactions that in turn stimulate nutrient release, as shown in the results of correlation analysis, structural equation modeling and laboratory microcosm experiments.
Priority effects and competition by a native species inhibit an invasive species and may assist restoration.
TL;DR: P. lobata is a promising candidate for ecological restoration and for reducing impacts of M. micrantha in China, illustrating that careful species selection may improve restoration outcomes, a finding that may also apply to other invaded ecosystems and species.