1.论文
(1)Fu Aihong; Li Weihong*; Wang Yi*; Bai Yifei; Basic and target eco-environment water requirement of a dry inland river under typical flow frequencies in China, PeerJ, 2020, 8:1-19. (SCI)
(2)Fu Aihong; Li Weihong*; Chen Yaning; Liu Yuting; Suitable oasis scales under a government plan in the Kaidu-Konqi River Basin of northwest arid region, China. PeerJ, 2018. DOI: 10.7717/peerj.4943. (SCI)
(3)Fu Aihong, Chen Yaning, Li Weihong, Zhang Shuhua, Wang Rizhao, Li Dalong, Zhang Yonglei. Effects of climate warming on surface water availability and water demand for oases in arid regions of northwest China. Fresenius Environmental Bulletin, 2017, 26(5):3268-3279.(SCI)
(4)Fu Aihong, Li Weihong, Chen Yaning. The characteristics of soil water evaporation in the corn fields under different climate conditions in arid regions of Northwestern China. Fresenius Environmental Bulletin, 2016, 25(2):548-564.(SCI)
(5)Fu Aihong, Chen Yaning, Li Weihong. Analysis on regional climate and atmospheric drought characteristics in the north slope of Tianshan Mountain in Xinjiang, China. F Fresenius Environmental Bulletin, 2016, 25(2):534-547.(SCI)
(6)Fu Aihong; Chen Yaning*; Li Weihong; Water use strategies of the desert riparian forest plant community in the lower reaches of Heihe River Basin, China, Science China Earth Sciences, 2014,57(6):1293-1305.(SCI)
(7)Fu Aihong; Chen Yaning*; Li Weihong; et al. Spatial and temporal patterns of climate variations in the Kaidu River Basin of Xinjiang, Northwest China, Quaternary International, 2013,311:117-122. (SCI)
(8)Fu Aihong; Li Weihong*; Chen Yaning; The threshold of soil moisture and salinity influencing the growth of Populus euphratica and Tamarix ramosissima in the extremely arid region, Environmental Earth Science,2012, 66:2519-2529. (SCI)
(9)Fu Aihong, Li Weihong, Chen Yaning, et al. Analysis of dominant factors influencing moisture change of broad-ovate leaves of Populus euphratica Oliv. in extremely arid region. Photosynthetica, 2011,49(2):295-308. (SCI)
(10)Fu Aihong, Chen Yaning, Li Weihong. Analysis on the change of Populus euphratica Oliv. and P. Russkii Jabl under different irrigation volumes in temperature desert zone. Chinese Science Bulletin, 2010,55(10):965-972. (SCI)
(11)Fu Aihong, Chen Yaning, Li Weihong. Analysis on water potential of Populus euphratica oliv and its meaning in the lower reaches of Tarim River, Xinjiang. Chinese Science Bulletin.2006,51,增刊 ,221-228.(SCI)
(12)Li Weihong, Fu Aihong, Zhou Honghua, et al. Analysis of trends and changes in the water environment of an inland river basin in an arid area. Water Environment Research, 2014,86(2):104-110. (SCI)
2.参与编写出版专著
(1)新疆塔里木河流域生态保护与可持续管理,北京:科学出版社,2015
(2)博斯腾湖流域水资源可持续利用研究,北京:科学出版社,2013
(3)新疆塔里木河流域生态水文问题研究,北京:科学出版社,2010
(4)荒漠河岸林植被对环境胁迫的生理响应与适应策略,乌鲁木齐:新疆科学技术出版社,2009
(5)干旱荒漠区生态系统与可持续管理,北京:科学出版社,2009
3.已转化或应用的专利
(1)付爱红,李卫红,陈亚宁,香慧远. 干旱荒漠区植被有效利用农田回排水新方法,专利号:ZL201410030235.5, 授权日:2015.7.22
(2)付爱红,陈亚宁,李卫红. 一种测定农田棵间蒸发量日变化的方法. 专利号:ZL201310168692.6, 授权日:2015.10.21
4.获批软件登记著作权
(1)干旱区内陆河流域荒漠河岸林不同生态保护目标划定系统1.0. 2019SR0703432
(2)干旱区内陆和流域生产、生活和生态用水相互协调系统1.0. 2019SR0656962
(3)基于生物多样性指数的退化植被生态系统恢复效益评估软件1.0,2018SR814805
(4)农作物产量模型模拟效果评估软件1.0,2017SR397585
(5)环境变化对农作物产量模拟影响的不确定性分析软件V1.0,2017SR376661
(6)流域农作物灌溉需水量计算软件1.0,2016SR049894
(7)西北干旱区天然植被生态需水量计算软件2.0,2016SR100179
(8)博斯腾湖水位调度对水循环影响模拟系统1.0,2016SR082392
(9)干旱区典型流域河-湖-库水系连通与水资源调度系统1.0,2016SR067371
(10)干旱区典型流域河-湖-库水系连通与水资源调度系统2.0,2016SR174628
(11)博斯腾湖水位调度对生源要素循环模拟系统1.0,2016SR082396
(12)近地表层气候干旱特征分析软件1.0,2015SR048260
(13)西北干旱区天然植被生态需水量计算软件1.0,2015SR170221
(14)陆地生态系统健康评价软件1.0,2010SR070300
(15)基于丙二醛变化的胡杨干旱胁迫评价软件v2.0,2011SR046495
(16)陆地生态系统健康评价软件2.0,2011SR037269
(17)基于生态位变化的干旱区天然植被合理生态水位分析软件1.0,2011SR024060
(18)新疆博斯腾湖水位调控管理系统1.0,2014SR066086
(19)干旱区植物群落水分利用策略分析软件1.0,2014SR072446
(20)基于丙二醛变化的胡杨干旱胁迫评价软件V1.0,2010SR066418
(21)基于水势变化的植物干旱胁迫定性评价系统.V1.0,2009SR049904
(22)干旱区内陆和流域荒漠河岸林不同生态保护目标划定系统1.0,2019SR0703432
(23)干旱区内陆河流域生产、生活和生态用水相互协调系统1.0,2019SR0656962