目前发表论文70余篇,其中SCI/EI论文24篇(SCI检索18篇,EI检索6篇);参编专著1部;授权发明专利9项、实用新型专利9项;获得省部级科技进步二等奖1项、三等奖1项。代表性论文(带*为通讯作者)如下:
[1] Dan Yang, Donghong Xiong*, Baojun Zhang, 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 [J]. Catena,2017,152: 299-310.
[2] Baojun Zhang, Donghong Xiong*, Zhengan Su et al. Effects of initial step height on the headcut erosion of bank gullies: a case study using a 3D photo-reconstruction method in the dry-hot valley region of Southwest China [J]. Physical Geography,2016,37(6): 409-429.
[3] Zhengan Su, Donghong Xiong*, Yifan Dong, et al. Hydraulic properties of concentrated flow of a bank gully in the dry-hot valley region of southwest China [J]. Earth Surface Processes and Landforms,2015, 40: 1351-1363.
[4] Dan Yang, Donghong Xiong*, Min Guo, et al. Impact of grass belt position on the hydraulic properties of runoff in gully beds in the Yuanmou Dry-hot valley region of Southwest China [J]. Physical Geography, 2015, 36(5): 408–425.
[5] Zhengan Su, Donghong Xiong*, Yifan Dong, et al. Influence of bare soil and cultivated land use types upstream of a bank gully on soil erosion rates and energy consumption for different gully erosion zones in the dry-hot valley region, Southwest China. Natural Hazards, 2015, 79:S183-S202.
[6] Zhengan Su, Donghong Xiong*, Yifan Dong, et al. Simulated headward erosion of bank gullies in the Dry-hot Valley Region of southwest China, Geomorphology, 2014, 204: 532-541
[7] Yifan Dong, DonghongXiong*, Zheng’an Su, et al. The distribution of and factors influencing the vegetation in a gully in the Dry-hot Valley of southwest China. Catena, 2014,116:60-67
[8] Yifan Dong, DonghongXiong*, Zheng’an Su, et al. Critical topographic threshold of gully erosion in Yuanmou Dry-hot Valley in Southwestern China. Physical Geography.2013, 34 (1) :50-59.
[9] XIONG Donghong, YAN Dong-chun, LONG Yi, et al. Simulation of Morphological Development of Soil Cracks in Yuanmou Dry-hot Valley Region, Southwest China. Chinese Geographical Science, 2010, 20 (2): 112-122.
[10] XIONG Donghong, LONG Yi, YAN Dongchun, et al. Surface Morphology of Soil Crack in Yuanmou Dry-hot Valley Region, Southwest China. Journal of Mountain Science, 2009, 6 (4) : 373-379.
[11] XIONG Dong-hong, ZHOU Hong-yi, YANG Zhong, et al. Slope Lithologic Property, Soil Moisture Condition and Revegetation in Dry-hot Valley of Jinsha River, Chinese Geographical Sciences, 2005, 15 (2):186-192.
[12] YANG Zhong, XIONG Donghong, ZHOU Hongyi, ZHANG Xinbao. 2003. Rainfall infiltration on hilly slopes under various lithology and its effect on tree growth in the dry-hot valley, Science in China Ser. E, 46:110-119.
[13] 张宝军, 熊东红*, 杨丹, 等. 跌水高度对元谋干热河谷冲沟沟头侵蚀产沙特征的影响初探[J]. 土壤学报, 2017, 54(1): 48-59.
[14] 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[J]. 生态学报, 2017, DOI号:10.5846/stxb201610202146.
[15] 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[J]. 水土保持学报, 2016, 30(2): 111-116.
[16] 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 [J].农业工程学报, 2015, 31(15): 124-132.
[17] 熊东红, 杨丹, 李佳佳, 等. 元谋干热河谷区退化坡地土壤裂缝形态发育的影响因子[J]. 农业工程学报, 2013, 29(1): 102-108.
[18] 熊东红, 杨丹, 翟娟, 等. 元谋干热河谷冲沟沟头径流水动力学特性及产沙效应初探[J]. 水土保持学报, 2012, 26(6): 52-56.