性别

男

工作单位

中国科学院

职称/职务

研究员

主要研究方向

土壤侵蚀过程水动力学机制，植被恢复与土壤侵蚀水土流失效益评估

工作年限（从事该领域研究的起始时间）

4年（起始：2021）

论文著作

[1]《土壤分离过程对植被恢复的响应与机理》，科学出版社，2020年（参编）

[2]《黄土高原“7.26”特大暴雨洪水与水土保持 效益综合考察报告》，科学出版社，2020年（参编）

[3]Wang, JF, Yang YF, Liu GB*, Wang B*, Zhang FB, Fang NF (2023) "Effects of two typical herbaceous root types on the soil detachment process at the species level" Science of the Total Environment 859: 160196.

[4]Liu JX*, Wang B, Duan XW (2022) "Temporal variation in soil detachment process under litter incorporation effects in the Loess Plateau of China" Catena 215: 106358.

[5]Li PP, Wang B, Yang YF*, Liu GB (2022) "Effects of vegetation near-soil-surface factors on runoff and sediment reduction in typical grasslands on the Loess Plateau" Journal of Arid Land 14(3): 325-340.

[6]Wang, JF, Yang YF*, Wang B, Liu GB, Li JM (2022) "Soil detachment caused by flowing water erosion in six typical herbaceous plant root systems on the Loess Plateau, China" Biosystems engineering 217: 56-67.

[7]Yang YF, Shen LL, Wang B* (2022) "How is the precipitation distributed vertically in mountain areas in arid region of Northwest China?" Journal of Geographical Science 32(2): 241-258.

[8]Liu JX, Wang B, Duan XW, Yang YF*, Liu GB (2022) "Seasonal variation in soil erosion resistance to overland flow in gully-filled farmland on the Loess Plateau, China" Soil & Tillage Research 218: 105297.

[9]Wang B, Li PP, Huang CH, Liu GB, Yang YF* (2021) "Effects of root morphological traits on soil detachment for ten herbaceous species in the Loess Plateau" Science of the Total Environment 754: 142304.

[10]Dang XH*, Sui BY, Gao SW, Liu GB, Wang T, Wang B, Ning DH, Bi W (2020) "Regions and Their Typical Paradigms for Soil and Water Conservation in China" Chinese Geographical Science 30(4):643-664.

[11]Yang YF, Wu J, Bai L, Wang B* (2020) "Reliability of Gridded Precipitation Products in the Yellow River Basin, China" Remote sensing 12: 374.

[12]Liu JX, Liu GB, Flanagan DC, Wang B*, Wang ZY, Xiao J (2020) "Effects of soil-incorporated plant litter morphological characteristics on the soil detachment process in grassland on the Loess Plateau of China" Science of the Total Environment 705: 134651.

[13]Yang YF, Bai L, Wang B, Wu J, Fu SH* (2019) "Reliability of the global climate models during 1961-1999 in arid and semiarid regions of China" Science of the Total Environment 667:271-286.

[14]Wang B*, Zhang GH, Yang YF, Li PP, Liu JX (2018) "Response of soil detachment capacity to plant root and soil properties in typical grasslands on the Loess Plateau" Agriculture, ecosystems & environment 266: 68-75.

[15]Wang B*, Zhang GH, Yang YF, Li PP, Liu JX (2018) "The effects of varied soil properties induced by natural grassland succession on the process of soil detachment" Catena 166: 192-199.

[16]Wang B*, Zhang GH (2017) "Quantifying the binding and bonding effects of plant roots on soil detachment by overland flow in 10 typical grasslands on the Loess Plateau" Soil Science Society of America Journal 81(6): 1567-1576.

[17]Ren ZP*, Zhu LJ, Wang B, Cheng SD (2016) "Soil hydraulic conductivity as affected by vegetation restoration age on the Loess Plateau, China" Journal of Arid Land Journal of Arid Land 8(4): 546-555.

[18]Wang B, Zhang GH*, Shi YY, Li ZW, Shan ZJ (2015) "Effects of Near Soil Surface Characteristics on the Soil Detachment Process in a Chronological Series of Vegetation Restoration" Soil Science Society of America Journal 79(4): 1213-1222.

[19]Wang B, Zhang GH*, Zhang XC, Li ZW, Su ZL, Shi YY, Yi T (2014) "Effects of near soil surface characteristics on soil detachment by overland flow in a natural succession grassland" Soil Science Society of America Journal 78(2): 589-597.

[20]Wang B, Zhang GH*, Shi YY, Zhang XC (2014) "Soil detachment by overland flow under different vegetation restoration models in the Loess Plateau of China" Catena 116: 51-59.

[21]Wang B, Zhang GH*, Shi YY, Zhang XC, Ren ZP, Zhu LJ (2013) "Effect of natural restoration time of abandoned farmland on soil detachment by overland flow in the Loess Plateau of China" Earth Surface Processes and Landforms 38: 1725–1734.

[22]Wang B, Xue S, Liu GB*, Zhang GH, Li G, Ren ZP (2012). "Changes in soil nutrient and enzyme activities under different vegetations in the Loess Plateau area, Northwest China" Catena 92: 186-195.

[23]Wang B, Liu GB*, Xue S (2012) "Effect of black locust (Robinia pseudoacacia) on soil chemical and microbiological properties in the eroded hilly area of China's Loess Plateau" Environmental Earth Sciences 65(3): 597-607.

[24]Wang B, Liu GB*, Xue S, Zhu B (2011) "Changes in soil physico-chemical and microbiological properties during natural succession on abandoned farmland in the Loess Plateau" Environmental Earth Sciences 62(5): 915-925.

[25]淡彩虹, 许欢欢, 王兵*, 张慧妮, 李家明, 马金龙 (2023) "模拟降雨下前期含水量对黄绵土坡面产流产沙过程的影响" 水土保持学报37(1): 31-36.

[26]马金龙, 许欢欢, 王兵* (2022) "黄土高原坡耕地土壤物理结皮对坡面产流产沙过程的影响" 水土保持学报36(01): 45-49.

[27]张慧妮, 王兵*, 张宝琦, 韩剑桥, 许欢欢 (2022) "黄土丘陵区生物结皮对坡面流水动力特征的影响"水土保持通报42(02): 16-21.

[28]李家明, 汪建芳, 杨艳芬, 王兵* (2021) "人工降雨条件下植被盖度对黄土坡面养分随径流泥沙迁移影响的实验研究" 水土保持学报35(4): 7-13 .

[29]肖婧, 王兵* (2020) "黄土丘陵沟壑区坡面尺度撂荒草地入渗特征影响因素试验研究" 水科学进展 31(6): 820-831.

[30]李盼盼, 李彬彬, 王兵, 刘国彬* (2020) "模拟氮沉降对白羊草地群落特征及其坡面流水动力特性的影响" 农业工程学报 36(16): 52-61.

[31]许欢欢, 张宝琦, 汪建芳, 王兵* (2020) "黄土高原典型生物结皮对坡面产流产沙过程的影响" 水土保持通报 40(6): 8-13.

[32]张娜娜, 王兵*, 张宝琦, 李永宁 (2020) "地表糙度测定方法研究" 水土保持学报 34(01): 135-140+148.

[33]杨艳芬, 王兵*, 王国梁, 李宗善 (2019) "黄土高原生态分区及概况" 生态学报 39(20): 7389-7397.

[34]王忠禹, 刘国彬, 王兵*, 汪建芳, 肖婧, 李兆松 (2019) "黄土丘陵区典型植物枯落物凋落动态及其持水性特征" 生态学报 39(07): 2416-2425.

[35]李永宁, 王忠禹, 王兵*, 张宝琦, 张娜娜 (2019) "黄土丘陵区典型植被土壤物理性质差异及其对导水特性影响" 水土保持学报 33(6): 176-181.