以第一作者或通讯作者在Water Resources Research (WRR), Journal of Hydrology(JH), Geoderma, Catena, International Soil and Water Conservation Research(ISWCR), Land Degradation & Development (LDD), Geomorphology, Earth Surface Processes and Landforms(ESPL),土壤学报、生态学报、水土保持学报等期刊发表SCI 论文40余篇,EI及中文核心期刊50余篇;合作编写专著3部;以第一发明人授权发明专利11项。
部分论文:
[1] Zhao Dongmei, He Kunlong, Xiong Donghong*, et al. Dam-Induced Alternations of Flow and Sediment Regimes in the Tibetan Plateau: An Example of the Yarlung Tsangpo River. Water Resources Research, 2025.
[2] Liu Lin, Xiong Donghong*, Zhang Binyan, et al. Effects of shrub stem and litter on promoting concentrated flow branching, increasing flow resistance, and reducing sediment during gully bed erosion. Catena, 2025.
[3] Liu Lin, Xiong Donghong*, Zhang Baojun, et al. How does shrub stem coverage affect the hydraulic properties of concentrated flow and sediment yield during gully bed erosion. International Soil and Water Conservation Research, 2025.
[4] Zhao Dongmei, Xiong Donghong*, He Kunlong, et al. Non-consistent changes and drivers of water-sediment fluxes in the yarlung tsangpo river basin of the Tibetan plateau. International Soil and Water Conservation Research, 2025.
[5] Wu Han, Xiong Donghong*, Zhang Xinbao, et al. Substantial reduction in sediment yield after check dams in the Daliang Mountain region, Southwest China: Insights from sediment fingerprinting in a debris flow-prone catchment. Journal of Hydrology: Regional Studies, 2024.
[6] Zhang Wenduo, Zhao Dongmei, Zhang Baojun*, Xiong Donghong*, et al. Quantifying the impacts of climate change and human activities on runoff and suspended sediment load in the Lhasa River Basin, Tibetan Plateau. Earth Surface Processes and Landforms, 2024.
[7] Liu Lin, Yuan Yong, Xiong Donghong*, et al. Effects of fencing project on wind erosion reduction in Alpine grassland and its impact on the development of climbing dunes in southern Tibetan Plateau. Earth Surface Processes and Landforms, 2024.
[8] Wu Han, Yuan Yong, Xiong Donghong*, et al. Variation in soil erosion rate under typical land uses and vertical zones in an agricultural catchment of the Daliangshan region, Southwest China. Earth Surface Processes and Landforms, 2024.
[9] Zhao Dongmei, Jiao Yuanmei*, He Kunlong, Xiong Donghong*, et al. Evaluating the effect of natural-artificial linear landscape elements on flow and sediment connectivity in a typical agricultural terraced catchment, China. Catena, 2024.
[10] Yigez Belayneh, Xiong Donghong*, Zhang Baojun, et al. Dynamics of soil loss and sediment export as affected by land use/cover change in Koshi River Basin, Nepal. Journal of Geographical Sciences, 2023.
[11] Zhao Dongmei, Xiong Donghong*, Zhang Baojun, et al. Long-term response of runoff and sediment load to spatiotemporally varied rainfall in the Lhasa River basin, Tibetan Plateau. Journal of Hydrology, 2023.
[12] Yuan Yong, Xiong Donghong*, Zhang Yunqi, et al. A Model on Changes in Pb-210(Ex) Depth Distribution for Non-Eroded Abandoned Farmland, Geoderma, 2022.
[13] Zhang Baojun, Xiong Donghong*, Tang Yongfa, et al. Land surface roughness impacted by typical vegetation restoration projects on aeolian sandy lands in the Yarlung Zangbo River valley, southern Tibetan Plateau, International Soil and Water Conservation Research, 2022.
[14] Yang Dan, Xiong Donghong*, Zhang Baojun, et al. Impacts of Grass Basal Diameter on Runoff Erosion Force and Energy Consumption in Gully Bed in Dry-Hot Valley Region, Southwest China, Journal of Soils and Sediments, 2022.
[15] Yigez Belayneh, Xiong Donghong*, Zhang Baojun, et al. Spatial distribution of soil erosion and sediment yield in the Koshi River Basin, Nepal: A case study of Triyuga Watershed, Journal of Soils and Sediments, 2021.
[16] Yuan Yong, Xiong Donghong*, Wu Han, et al. Using(137)Cs and(210)Pb(ex)to trace soil erosion rates fora small catchment in the mid-hills of Nepal, Journal of Soils and Sediments, 2021.
[17] Dong Yifan, Xiong Donghong*, Su Zhengan, et al. Effects of vegetation buffer strips on concentrated flow hydraulics and gully bed erosion based on in situ scouring experiments, Land Degradation & Development, 2018.
[18] Yuan Yong, Xiong Donghong*, Wu Han, et al. Spatial variation of soil physical properties and its relationship with plant biomass in degraded slopes in dry-hot valley region of Southwest China, Journal of Soils and Sediments, 2020.
[19] Zhang Baojun, Xiong Donghong*, Zhang Guanghui, et al, Impacts of headcut height on flow energy, sediment yield and surface landform during bank gully erosion processes in the Yuanmou Dry-hot Valley region, southwest China, Earth Surface Processes and Landforms, 2018.
[20] Yang Dan, Xiong Donghong*, Zhang Baojun, et al. Effect of grass basal diameter on hydraulic properties and sediment yield processes in gully beds in the dry-hot valley region of Southwest China, Catena, 2017.
[21] Su Zhengan, Xiong Donghong*, Dong Yifan, et al. Hydraulic properties of concentrated flow for a bank gully in the Dry-hot Valley Region of southwest China, Earth Surface Processes and Landforms, 2015.
[22] Su Zhengan, Xiong Donghong*, Dong Yifan, et al. Simulated headward erosion of bank gullies in the Dry-hot Valley Region of southwest China, Geomorphology, 2014.
[23] Dong Yifan, Xiong Donghong*, Su Zhengan, et al. The distribution and influencing factors of vegetation in a gully in the Dry-hot Valley of Southwest China, Catena, 2014.
[24] 张素,熊东红*,吴汉,等. 基于RUSLE模型的孙水河流域土壤侵蚀空间分异特征,水土保持学报,2021.
[25] 唐永发,张宝军,熊东红*,等. 雅江河谷防沙治沙生态工程实施年限对沙地持水性能的影响,水土保持学报,2021.
[26] 刘琳,张宝军,熊东红*,等. 雅江河谷防沙治沙工程近地表特性——林下植被特性、生物结皮及土壤养分变化特征,中国环境科学,2021.
[27] 李琬欣,熊东红*,张素,等. 四川凉山州孙水河流域近60年来径流趋势特征分析,水土保持学报,2020.
[28] 刘琳,熊东红*,张闻多,等. 元谋干热河谷平沟建园土地治理工程效益及生态风险,农业工程学报,2020.
[29] 校亮,熊东红*,张宝军,等. 干热河谷冲沟沟岸葛藤不同覆被状况及土壤性质差异分析,生态学报,2018.
[30] 张宝军,熊东红*,张光辉,等. 基于力矩法的元谋干热河谷冲沟沟头土体稳定性模拟与验证,农业工程学报,2018.
[31] 校亮,熊东红*,张宝军,等. 葛藤覆被下干热河谷冲沟沟岸土壤水热变化特征,生态学报,2018.
[32] 张素,郑学用,熊东红*,等. 干湿交替对干热河谷冲沟发育区不同土壤崩解性的影响,水土保持学报,2016.
[33] 杨丹,熊东红*,张宝军,等. 沟床草被对干热河谷冲沟产沙特性影响的野外模拟试验,农业工程学报,2015.
[34] 张素,熊东红*,郑学用,等. 干热河谷不同活跃程度冲沟沟床土体抗冲性差异,水土保持学报,2015.
合作编写专著:
[1] 王小丹,赵慧,侯太平,熊东红,等. 青藏高原重大生态工程建设成效评估. 北京:科学出版社,2024.
[2] Li Ainong, Deng Wei, Zhao Wei, et al. Land Cover Change and Its Eco-environmental Responses in Nepal, 2017.
[3] 邓伟,李爱农,刘斌涛,赵伟,张建强,孔博,南希,宋孟强,熊东红等. 南亚地理—资源与环境. 成都:四川科学技术出版社,2016.
已授权发明专利:
[1] 熊东红,吴汉,李勇,等. 堤岸及堤岸系统,2023.04.11.
[2] 熊东红,袁勇,刘琳,等. 一种基于210Pbex退耕地土壤侵蚀速率评估方法,2023.04.18.
[3] 熊东红,吴汉,李勇,等. 河坝及堤防系统,2023.04.21.
[4] 熊东红,吴汉,李勇,等. 灌渠治污装置、灌渠治污系统及灌渠治污方法,2023.01.10.
[5] 熊东红,杨丹,张素,等. 冲沟沟头消能沟岸稳固方法,2020.07.31.
[6] 熊东红,杨丹,董一帆,等. 测定冲沟沟床植被对径流消能及拦沙效应的模拟试验方法,2015.08.05.
[7] 熊东红,翟娟,李佳佳,等. 一种冲沟沟头溯源侵蚀速率的快速监测方法,2014.10.15.
[8] 熊东红,杨丹,董一帆,等. 测定冲沟沟床植被对径流消能及拦沙效应的模拟试验装置,2013.08.21.
[9] 熊东红,李佳佳,董一帆,等. 一种基于信息熵理论的冲沟沟头活跃度评价方法.2012.12.19.
[10] 熊东红,龙翼,严冬春,等. 一种测定地表入渗速率的方法,2012.10.10.
[11] 熊东红,苏正安,翟娟,等. 一种小型冲沟沟头形态及侵蚀量的监测方法,2012.09.12.
[12] 赵伟,付浩,熊东红,等. 一种基于时序遥感观测数据的人工林种植时间自动检测方法,2021.11.02.
[13] 苏正安,熊东红,董一帆,等. 防治干热河谷矿山排土场水土流失的植被配置方法,2015.07.27.
[14] 苏正安,熊东红,董一帆,等. 一种原态原位冲沟系统冲刷小区,2014.08.20.
[15] 苏正安,熊东红,董一帆,等. 一种测量不同水力坡降的稳流装置,2014.02.26.
[16] 苏正安,董一帆,熊东红,等. 一种准确计算具有水涮窝的冲沟沟头沟壁形态变化的方法,2012.11.12.
