第一标注(含通讯作者)发表文章:
1.Yuan Zuoqiang, Ali Arshad, Sanaei Anvar, Ruiz-Benito Paloma, Jucker Tommaso, Fang Lei, Bai Edith, Ye Ji, Lin Fei, Fang Shuai, Hao Zhanqing and Wang Xugao*. Few large trees, rather than plant diversity and composition, drive the above-ground biomass stock and dynamics of temperate forests in northeast China. Forest Ecology and Management, 2021, 481:118698.
2.Sanaei Anvar, Ali Arshad, Yuan Zuoqiang*, Liu Shufang, Lin Fei, Fang Shuai, Ye Ji, Hao Zhanqing, Loreau Michel, Bai Edith and Wang Xugao*. Context-dependency of tree species diversity, trait composition and stand structural attributes regulate temperate forest multifunctionality. Science of the total environment, 2021, 757: 143724.
3.Yuan Zuoqiang, Ali Arshad, Loreau Michel, Ding Fang, Liu Shufang, Sanaei Anvar, Zhou Wangming, Ye Ji, Lin Fei, Fang Shuai, Hao Zhanqing*, Wang Xugao* and Bagousse-Pinguet Yoann Le. Divergent above- and below-ground biodiversity pathways mediate disturbance impacts on temperate forest multifunctionality. Global change biology, 2021, 27(12): 2883-2894.
4.Sanaei Anvar, Yuan Zuoqiang, Ali Arshad, Loreau Michel, Mori Akira S., Reich Peter B., Jucker Tommaso, Lin Fei, Ye Ji, Fang Shuai, Hao Zhanqing and Wang Xugao*. Tree species diversity enhances plant-soil interactions in a temperate forest in northeast China. Forest Ecology and Management, 2021, 491: 119160.
5.Sanaei Anvar, Sayer Emma J., Yuan Zuoqiang*, Lin Fei, Fang Shuai, Ye Ji, Liu Shufang, Hao Zhanqing and Wang Xugao*. Soil Stoichiometry Mediates Links Between Tree Functional Diversity and Soil Microbial Diversity in a Temperate Forest. Ecosystems, 2021, http:// doi. org/ 10. 1007/s10021-021-00655-3.
6.Wiegand Thorsten*, Wang Xugao*, Anderson-Teixeira Kristina J., Bourg Norman A., Cao Min, Ci Xiuqin, Davies Stuart J., Hao Zhanqing, Howe Robert W., Kress W. John, Lian Juyu, Li Jie, Lin Luxiang, Lin Yiching, Ma Keping, Mcshea William, Mi Xiangcheng, Su Sheng-Hsin, Sun I-Fang, Wolf Amy, Ye Wanhui and Huth Andreas. Consequences of spatial patterns for coexistence in species-rich plant communities. Nature Ecology and Evoluution, 2021, 5(7): 965-973.
7.Wang Shuyue, Jimenez-Alfaro Borja, Pan Shaoan, Yu Jinghua, Sanaei Anvar, Sayer Emma J., Ye Ji, Hao Zhanqing, Fang Shuai, Lin Fei, Yuan Zuoqiang and Wang Xugao*. Differential responses of forest strata species richness to paleoclimate and forest structure. Forest Ecology and Management, 2021, 499: 119605.
8.Ren Jing, Fang Shuai, Lin Guigang, Lin Fei, Yuan Zuoqiang, Ye Ji, Wang Xugao, Hao Zhanqing* and Fortunel Claire*. Tree growth response to soil nutrients and neighborhood crowding varies between mycorrhizal types in an old-growth temperate forest. Oecologia, 2021, 197(2): 523-535.
9.Liu Shufang, Yuan Zuoqiang, Ali Arshad, Sanaei Anvar, Mao Zikun, Ding Fan, Zheng Di, Fang Shuai, Jia Zhaojie, Tao Zhao, Lin Fei, Ye Ji, Wang Xugao and Hao Zhanqing*. Anthropogenic disturbances shape soil capillary and saturated water retention indirectly via functional traits and soil organic carbon in temperate forests. Forests, 2021, 12: 1588.
10.Sanaei Anvar, Sayer Emma J., Saiz Hugo, Yuan Zuoqiang and Ali Arshad*. Species co-occurrence shapes spatial variability in plant diversity-biomass relationships in natural rangelands under different grazing intensities. Land Degradation and Development, 2021, 32(15): 4390-4401.
11.Bai Zhen, Ye Ji, Wei Yulian, Yan Shaokui* and Yuan Haisheng*. Soil depth-dependent C/N stoichiometry and fungal and bacterial communities along a temperate forest succession gradient. Catena, 2021, 207: 105613.
12.郑迪,沈国春,王舶鉴,戴冠华,胡家瑞,蔺菲,叶吉,房帅,郝占庆,王绪高,原作强*. 基于机载高光谱和深度学习算法的长白山针阔混交林优势树种分类研究. 生态学杂志, 2021, 40(7): 1871-1878.
合作发表文章:
1.Wu Shengbiao, Wang Jing, Yan Zhengbing, Song Guangqin, Chen Yang, Ma Qin, Deng Meifeng, Wu Yuntao, Zhao Yingyi, Guo Zhengfei, Yuan Zuoqiang, Dai Guanhua, Xu Xiangtao, Yang Xi, Su Yanjun, Liu Lingli and Wu Jin. Monitoring tree-crown scale autumn leaf phenology in a temperate forest with an integration of PlanetScope and drone remote sensing observations. ISPRS Journal of Photogrammetry and Remote Sensing, 2021, 171: 36-48.
2.Li Hui, Yang Shan, Semenov Mikhail V., Yao Fei, Ye Ji, Bu Rencang, Ma Ruiao, Lin Junjie, Kurganova Irina, Wang Xugao, Deng Ye, Kravchenko Irina, Jiang Yong and Kuzyakov Yakov. Temperature sensitivity of SOM decomposition is linked with a K-selected microbial community. Global change biology, 2021, 27(12): 2763- 2779.
3.Wang Fang, Harindintwali Jean Damascene, Yuan Zhizhang, Wang Min, Wang Faming, Li Sheng, Yin Zhigang, Huang Lei, Fu Yuhao, Li Lei, Chang Scott X., Zhang Linjuan, Rinklebe Jorg, Yuan Zuoqiang, Zhu Qinggong, Xiang Leilei, Tsang Daniel C. W., Xu Liang, Jiang Xin, Liu Jihua, Wei Ning, Kastner Matthias, Zou Yang, Ok Yong Sik, Shen Jianlin, Peng Dailiang, Zhang Wei, Barcelo Damia, Zhou Yongjin, Bai Zhaohai, Li Boqiang, Zhang Bin, Wei Ke, Cao Hujun, Tan Zhiliang, Zhao Liubin, He Xiao, Zheng Jinxing, Bolan Nanthi, Liu Xiaohong, Huang Changping, Dietmann Sabine, Luo Ming, Sun Nannan, Gong Jirui, Gong Yulie, Brahushi Ferdi, Zhang Tangtang, Xiao Cunde, Li Xianfeng, Chen Wenfu, Jiao Nianzhi, Lehmann Johannes, Zhu Yongguan, Jin Hongguang, Schaffer Andreas, Tiedje James M. and Chen Jing M. Technologies and perspectives for achieving carbon neutrality. The Innovation, 2021, 2: 100180.
4.Biurrun Idoia, ......Sanaei Anvar,......Yuan Zuoqiang, et al. Benchmarking plant diversity of Palaearctic grasslands and other open habitats. Journal of Vegetation Science, 2021, 32(4): e13050.
5.Ren Siyuan, Ali Arshad, Liu Heming, Yuan Zuoqiang, Yang Qingsong, Shen Guochun, Zhou Shuangshuang and Wang Xihua. Response of community diversity and productivity to canopy gap disturbance in subtropical forests. Forest Ecology and Management, 2021, 502: 119740.
6.Davies Stuart J.,.....Hao Zhanqing.....Wang Xugao, et al. ForestGEO: Understanding forest diversity and dynamics through a global observatory network. Biological Conservation, 2021, 253: 108907.
7.Jiang Feng, Lutz James A., Guo Qingxi, Hao Zhanqing, Wang Xugao, Gilbert Gregory S., Mao Zikun, Orwig David A., Parker Geoffrey G., Sang Weiguo, Liu Yankun, Tian Songyan, Cadotte Marc W. and Jin Guangze. Mycorrhizal type influences plant density dependence and species richness across 15 temperate forests. Ecology, 2021, 102(3): e03259.
8.Xiong Dan, Wei Cunzheng, Wang Xugao, Lu Xiaotao, Fang Shuai, Li Yingbin, Wang Xiaobo, Liang Wenju, Han Xingguo, Bezemer Thiemo Martijin and Li Qi. Spatial patterns and ecological drivers of soil nematode beta-diversity in natural grasslands vary among vegetation types and trophic position. Journal of Animal Ecology, 2021, 90(5): 1367-1378.
9.Wills Christopher, ......Fang Shuai......Wang Xugao, et al. Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories. Plos Computational Biology, 2021, 17(4): e1008853.
10.Li Jing, Sang Changpeng, Yang Jingyi, Qu Lingrui, Xia Zongwei, Sun Hao, Jiang Ping, Wang Xugao, He Hongbo and Wang Chao. Stoichiometric imbalance and microbial community regulate microbial elements use efficiencies under nitrogen addition. Soil Biology and Biochemistry, 2021, 156: 108207.
11.Zhong Yonglin, Chu Chengjin, Myers Jonathan A., .....Wang Xugao, et al. Arbuscular mycorrhizal trees influence the latitudinal beta-diversity gradient of tree communities in forests worldwide. Nature communications, 2021, 12(1): 3137.
12.Lin Guigang, Craig Matthew E., Jo Insu, Wang Xugao, Zeng Dehui and Phillips Richard P. Mycorrhizal associations of tree species influence soil nitrogen dynamics via effects on soil acid-base chemistry. Global Ecology and Biogeography, 2021, doi: 10. 1111/geb. 13418.
