创新组1:
1.Yan, Y., Qi, Z., Zhang, Q. 2025. Cross-scale effects of habitat fragmentation on local biodiversity and ecosystem multifunctionality in a fragmented grassland landscape. Journal of Ecology 113: 1573-1584.
2.Zhao, Xuancheng, Li, Fengshi, Yuan, Yuan, Ari, Guna, Yan, Yongzhi, Zhang, Qing, Aruhan Olhnuud, Liu, Pengtao. 2025. Wind farms reduce grassland plant community diversity and lead to plant community convergence[J]. BMC ECOLOGY AND EVOLUTION, 25(1), 10.
3.Ari, Guna, Liu, Dongwei, Zhao, Xuancheng, Zhang, Qing. 2025. Snow droughts over 1951–2021 show a decreasing and then increasing trend[J]. ATMOSPHERIC RESEARCH, 108237.
4.Huang RK, Wu HB, Sun JW, Di N*, Duan J, Xi BY,Li XM*, Jansen S, Choat Brendan, Tissue D.T., 2025. Hydraulic traits are coordinated but decoupled from carbon traits in herbaceous species, Functional Ecology 39: 1302-1317.
5.Yan, Y., Jarvie, S., Zhang, Q. 2024. Habitat loss weakens the positive relationship between grassland plant richness and above-ground biomass. eLife 12: RP91193.
6.Gong, Xiaoqian, Jarvie Scott, Wen, Jia, Su, Nier, Yan, Yongzhi, Liu, Qingfu, Zhang, Qing. 2024. Compared with soil fungal diversity and microbial network complexity, soil bacterial diversity drives soil multifunctionality during the restoration process [J]. JOURNAL OF ENVIRONMENTAL MANAGEMENT, 354, 120379.
7.Yuan, Rongyan, Zhang, Ning, Zhang, Qing. 2024. The impact of habitat loss and fragmentation on biodiversity in global protected areas [J]. SCIENCE OF THE TOTAL ENVIRONMENT, 931, 173004.
8.Wen, Jia, Gong, Xiaoqian, Ma, Xiaomeng, Zhang, Qing. 2024. Soil bacterial community structure determines its resistance: A case study of aerial seeding restoration in the Mu Us sandy land, China [J]. APPLIED SOIL ECOLOGY, 202.
9.Zhang, Hengrui, Zhang, Le, Ma, Xiaomeng, Zhang, Qing. 2024. The declining trend of landscape ecological risk in Inner Mongolia over the past 30 years [J]. HUMAN AND ECOLOGICAL RISK ASSESSMENT, 30, (7-8): 680-698.
10.Lv, Zhuozhuo, Ma, Le, Zhang, Hengrui, Zhao, Yanyun, Zhang, Qing. 2024. Environmental and hydrological synergies shaping phytoplankton diversity in the Hetao irrigation district [J]. ENVIRONMENTAL RESEARCH, 263, (Pt 2):120142.
11.Wu, Jiaru, Han, Peng, Zhai, Jiwu, Zhang, Qing. 2024. Innovative Perspectives on Ecological Assessment in the Agro-Pastoral Ecotone of Inner Mongolia: An Integrated Evaluation and Forecast of Landscape and Ecological Risks and Drivers [J]. LAND, 13, (11):1849-1849.
12.Yu, Jiawei, Yan, Yongzhi, Wang, Guowei, Zhang, Qing. 2024. Habitat fragmentation reduced plant functional diversity in the agro-pastoral ecotone of Inner Mongolia [J]. ECOLOGICAL INDICATORS, 169.
13.Gao Y., Hsu P.-C., 2024. Contributions of air-sea coupling to northward-propagating intraseasonal convection over the South China Sea. Journal of Geophysical Research: Atmospheres 129: e2023JD039705.
14.Zhao, J., Zhang, N., Liu, Z., Zhang, Q., & Shang, C. 2024. SWAT model applications: From hydrological processes to ecosystem services. Science of The Total Environment, 931, 172605.
15.Wang XQ, Wang BJ*, Cui FQ. 2024. Exploring ecosystem services interactions in the dryland: Socio-ecological drivers and thresholds for better ecosystem management, Ecological Indicators, 159: 111699.
16.Zhang WC, Fan YY, Wang BJ*. 2024. Ecological Network Construction Based on Ecosystem Services and Landscape Pattern Indices in the Tabu River Basin. Land, 13, 2209.
17.张维琛,王惺琪,王博杰*.塔布河流域生态系统服务时空格局及影响因素分析.生态环境学报,2024,33(07):1142-1152.
18.范宇阳,孟和达来,洪美静,王博杰*.赛罕乌拉国家级自然保护区生态系统服务时空格局及驱动因素分析.环境科学,2025.
专著
1. 郝建娟,杨萌,侯艳玉,张庆(2025.01). 基于生态视角的城市景观空间规划与设计. 辽宁大学出版社
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