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== '''性别''' ==
女


== '''工作单位''' ==
中国科学院成都生物研究所


== '''职称/职务''' ==
研究员


== '''主要研究方向''' ==
植物生态生理学


== '''工作年限（从事该领域研究的起始时间）''' ==
20年（起始：2005）


== '''论文著作''' ==


2024年：

1.Lin Luo,Liu Li,Ali Raza,Chunzhang Zhao,Xueyong Pang,Jinbo Zhang,Christoph M ller,Chunying Yin*. 2024. Organic fertilizer and Bacillus amyloliquefaciens promote soil N availability via changing different mineralization-immobilization turnover rates in acidic soil. Agriculture, Ecosystems and Environment,366: 108950.

2.Lulu Xie,Guigang Lin,Qing-Wei Wan,Chunying Yin*. Tree species-specific differences in carbon allocation to ectomycorrhizal symbionts tightly relate to ectomycorrhizal fungal community composition. Forest Ecology and Management,accepted.

3.Lulu Xie,Xuefeng Hu,Wanting Li,Qinghua Liu,Chunying Yin*. 2024. Plant-plant interactions affect seasonal nitrogen uptake of subalpine conifer seedlings by altering root traits and soil nitrogen availabilities. Physiologia Plantarum, 176:e14204.

2023年：

4.Lin Luo,Chunzhang Zhao,Donghui Zheng,Entao Wang, Jin Liang,Chunying Yin*. 2023. Nitrogen uptake preference and allocation in Populus cathayana in response to drought stress. Environmental and Experimental Botany,213:105415.

5.Wanting Li,Qinghua Liu,Lulu Xie,Chunying Yin*. 2023. Interspecific plant-plant interactions increase the soil microbial network stability,shift keystone microbial taxa,and enhance their functions in mixed stands. Forest Ecology and Management,533: 120851.

6.Lulu Xie,Wanting Li,Xue yong Pang,Qinghua Liu,Chunying Yin*. 2023. Soil properties and root traits are important factors driving rhizosphere soil bacterial and fungal community variations in alpine Rhododendron nitidulum shrub ecosystems along an altitudinal gradient. Science of the Total Environment,864:161048.

7.Xiaole Tang,Qinghua Liu,Lin Luo,Chunying Yin*. 2023. The endophyte Bacillus amyloliquefaciens from Picea asperata seeds promotes seed germination and its physiological mechanism. Journal of Soil Science and Plant Nutrition,https://doi.org/10.1007/s42729-023-01552-5.

8.Shulan Wu,Erke Wuda,Qinghua Liu,Liu Li,Chunzhang Zhao,Juanjuan Huang,Shuang Li,Wanting Li,Lulu Xie,Lin Luo,Chunying Yin*. 2023. The above- and below-ground biomass of alpine meadow on eastern margin of the Tibetan Plateau and their relationships with abiotic and biotic factors. Global Ecology and Conservation,48: e02701.

9.Lulu Xie,Qunying Xiao,Chunying Yin*. 2023. Low-order fine roots of Picea asperata have different physiological mechanisms in response to seasonal freeze and freeze-thaw of soil. Plant Biology,doi:10.1111/plb.13529

10. 杜文志,陈超群,庞学勇,刘庆华,陈正峰,尹春英*. 2023. 我国道路边坡植被修复的研究进展. 应用生态学报,12：3437-3446.

11. 李柳,刘庆华,尹春英*. 2023. 植物硒生物强化及微生物在其中的应用潜力. 植物生态学报,47(5):0-0. DOI: 10.17521/cjpe.2022.0163

2022年：

12. Wanting Li,Lulu Xie,Chunzhang Zhao,Xuefeng Hu,Chunying Yin*. 2022. Nitrogen fertilization increases soil microbial biomass and alters microbial composition especially under low soil water availabilities. Microbial Ecology,  https://doi.org/10.1007/s00248-022-02103-8,

13. Lulu Xie,Chunying Yin*. 2022. Seasonal variations of soil fungal diversity and communities in subalpine coniferous and broadleaved forests. Science of the Total Environment,846:157409

14. Lin Luo,Chunzhang Zhao,Entao Wang,Ali Raza,Chunying Yin*. 2022. Bacillus amyloliquefaciens as an excellent agent for biofertilizer and biocontrol in agriculture: an overview for its mechanisms. Microbiological Research,259:127016

15.Xuefeng Hu,Wanting Li,Qinghua Liu,Chunying Yin*. 2022. Interactions between species change the uptake of ammonium and nitrate inAbies faxonianaandPicea asperata. Tree Physiology,42:1396-1410

16. 范雨,唐小乐,刘庆华,尹春英*. 2022. 木本植物种子内生菌研究进展. 应用与环境生物学报,28(5):1375-1383.

17.郑东辉,马伟伟,谢路路,王丽霞,刘庆,尹春英*. 2022. 青杨扦插苗生物量积累与分配对土壤水-氮有效性的短期响应及动态调整. 应用与环境生物学报,28(4):1002-1011.



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[[分类:研究人员]]
[[分类:生物多样性保护专家]]