蔡崇法

長期從事土壤侵蝕與水土保持研究工作，主要研究南方主要土壤的侵蝕機理、過程和預測，在土壤結構與侵蝕相互關係、基於GIS和遙感的土壤侵蝕預測與區域危害評價、區域發展與土壤侵蝕防控、耕地質量評價與管理、農業面源污染控制、坡地農林複合系統的結構與功能等方面做了大量的研究工作，主持國家自然基金重點項目、科技專項計劃課題等國家級研究課題20多項。在Soil & Tillage Research、Geoderma、Agriculture Ecosystems & Environment、Soil Science Society of America Journal、Journal of Hydrology等國內外重要學術刊物上發表論文共230餘篇，其中SCI收錄78篇。已指導博士30名，碩士70名。

2001-至今，華中農業大學資源與環境學院教授

2011-2016，農業部長江中下游耕地保育重點實驗室主任

2002-2010，華中農業大學資源與環境學院院長

1997-2001，華中農業大學資源與環境學院副教授

1991-1996，華中農業大學資源與環境學院講師

2002-2003，美國農業部國家泥沙實驗室（NSL）訪問學者、博士後

1994-1998，華中農業大學，土壤學，博士

1983-1986，華中農業大學，土壤學，碩士

1979-1983，華中農學院，土壤農化，學士

本科生：水土保持前沿、資源環境學導論、土壤調查與評價、土壤地理、地理信息系統原理、林業土壤學

碩士生：土壤地理、水土保持專題

博士生：資源環境信息研究進展、高級土壤學（部分）

Journal of Soil and Water Conservation副主編

先後擔任《土壤學報》、《華中農業大學學報》（自科版）、《中國水土保持科學》、《水土保持學報》、《土壤》、《水土保持通報》、《亞熱帶水土保持》編委

中國土壤學會常務理事

中國環境資源與生態保育學會常務理事

中國水土保持學會理事

中國地理學會教育專業委員會委員

中國自然資源學會農業資源專業委員會委員

教育部高等學校地理科學類專業指導委員會委員

全國土壤質量標準化技術委員會委員

教育部高等學校水土保持與荒漠化防治專業教材編寫指導委員會委員

農業部耕地質量建設與管理專家指導組成員

黃土高原土壤侵蝕與旱地農業國家重點實驗室學術委員會委員

紅壤野外科學觀測研究國家站學術委員會委員

湖北省土壤肥料學會理事長

湖北省水土保持學會副理事長

1. 花崗岩風化巖區崩崗形成機理研究（國家自然科學基金重點項目）

2. 紅壤團聚體穩定性與坡面侵蝕過程（國家自然科學基金重點項目）

3. 地帶性土壤團聚體抗侵蝕穩定性及其與鐵鋁氧化物（國家自然科學基金面上項目）

4. 等高綠籬對淺溝流及泥沙淤積過程的影響（國家自然科學基金面上項目）

5. 等高綠籬-坡地農林複合系統分組間養分競爭特性（國家自然科學基金面上項目）

6. 農林複合系統養分流失規律研究（國家自然科學基金面上項目）

7. 農業面源和重金屬污染管理決策系統研發（國家重點研發計劃）

8. 長江流域水土保持動態監測協作項目：丹江口庫區、湘資沅澧等重點治理區等水土流失動態監測遙感解譯（部委級科研項目）

9. 江西省土系、湖北省土系調查（科技部基礎專項）

10. 南方紫色砂頁岩區坡耕地水土流失綜合治理試驗觀測項目（部委級科研項目）

11. 亞熱帶農林複合生態模式及效益研究（中央高校基本科研業務費項目）

12. 紅壤水土流失阻控技術研究（國家科技支撐計劃課題）

13. 南方紅壤和紫色土丘陵區土壤侵蝕過程及影響因子定量評價（973計劃）

14. 三峽庫區節水技術研究與示範（科技部三峽專項863）

15. 南方紅壤帶北部低丘崗農林複合發展模式與技術研究（國家“十五”攻關）

16. 紅壤侵蝕與紅壤結構變化的相互作用機理與調控（973計劃）

17. 土壤侵蝕與環境生態（湖北省創新羣體）

參加完成的科研項目，先後獲得湖北省科技進步二等獎、國家科技進步二等獎、湖北省科技成果推廣二等獎、江西省科技進步二等獎、長江水利委員會科技進步二等獎、中國科學院科技進步二等獎、全國農牧漁業豐收獎二等獎、教育部自然科學獎二等獎等十多項。

[1] Wei YJ, Wu XL, Xia JW, Zeng RB, Cai CF, Wang TW. Dynamic study of infiltration rate for soils with varying degrees of degradation by water erosion[J]. International Soil and Water Conservation Research, 2019, 7(2): 167-175.

[2] Wei YJ, Wu XL, Xia JW, Miller GA, Cai CF, et al. The effect of water content on the shear strength characteristics of granitic soils in South China[J]. Soil & Tillage Research, 2019, 187:50-59.

[3] Xia JW, Cai CF, Wei YJ, Wu XL. Granite residual soil properties in collapsing gullies of south China: spatial variations and effects on collapsing gully erosion[J]. Catena, 2019, 174:469-477.

[4] Wu XL, Wei YJ, Wang JG, Xia JW, Cai CF, et al. Effects of soil type and rainfall intensity on sheet erosion processes and sediment characteristics along the climatic gradient in central-south China[J]. Science of the Total Environment, 2018, 621: 54-66.

[5] Wei YJ, Wu XL, Li XY, Xia JW, Cai CF, et al. A Novel and Facile Method for Characterizing Shrinkage Geometry along the Granitic Soil Profile [J]. Soil Science Society of America Journal, 2018, 82: 20-30.

[6] Wu XL, Wei YJ, Wang JG, Cai CF, et al. RUSLE erodibility of heavy-textured soils as affected by soil type, erosional degradation, and rainfall intensity: A field simulation [J]. Land Degradation & Development, 2018, 29(3), 408-421.

[7] Deng YS, Duan XQ, Ding SW, Cai CF, Chen JZ. Suction stress characteristics in granite red soils and their relationship with the collapsing gully in south China[J]. Catena, 2018, 171:505-522.

[8] Xia D, Zhao BQ, Liu DX, Deng YS, Cheng H, Yan YJ, Ding SW, Cai CF. Effect of soil moisture on soil disintegration characteristics of different weathering profiles of collapsing gully in the hilly granitic region, South China [J]. Plos One, 2018, 13(12).

[9] Shao Y, Cai CF, Zhang HT, Fu W, Zhong XM, Tang S. Controlling factors of soil selenium distribution in a watershed in Se-enriched and longevity region of South China[J]. Environmental Science and Pollution Research, 2018, 25(20):20048-20056.

[10] Luo Y, Li S, Tan WF, Qiu GH, Liu F, Cai CF. PREPUBLICATION: Oxidation and catalytic oxidation of dissolved sulfide by manganite in aqueous systems [J]. Clays and Clay Minerals, 2017, 65(5):299-309.

[11] Wu XL, Wei YJ, Wang JG, Xia JW, Cai CF, et al. Effects of erosion degree and rainfall intensity on erosion processes for Ultisols derived from quaternary red clay [J]. Agriculture, Ecosystems & Environment, 2017, 249: 226-236.

[12] Wu XL, Wei YJ, Wang JG, Wang D, Cai CF, et al. Effects of soil physicochemical properties on aggregate stability along a weathering gradient [J]. CATENA, 2017, 156: 205-215.

[13] Wang JG, Yu B, Yang W, Cheng JN, Song YR, Cai CF. The abrasion of soil aggregate under different artificial rough beds in overland flow [J]. Catena, 2017, 155:183-190.

[14] Deng YS, Cai CF, Xia D, Ding SW, Chen J. Fractal features of soil particle size distribution under different land-use patterns in the alluvial fans of collapsing gullies in the hilly granitic region of southern China [J]. Plos One, 2017, 12(3): e0173555.

[15] Deng YS, Cai CF, Xia D, Ding SW, Chen JZ, Wang TW. Soil Atterberg limits of different weathering profiles of the collapsing gullies in the hilly granitic region of southern China[J]. Solid Earth, 2017, 8(2):499-513.

[16] Ye C, Guo ZL, Li ZX, Cai CF. The effect of Bahiagrass roots on soil erosion resistance of Aquults in subtropical China [J]. Geomorphology, 2017, 285: 82-93.

[17] Guo ZL, Ma MJ, Cai CF, Wu YW. Combined effects of simulated rainfall and overland flow on sediment and solute transport in hillslope erosion [J]. Journal of Soils and Sediments, 2017: 1-13.

[18] Zhang Y, Wang TW, Cai CF, et al. Landscape pattern and transition under natural and anthropogenic disturbance in an arid region of northwestern China[J]. International Journal of Applied Earth Observation and Geoinformation, 2016, 44: 1-10.

[19] Wu XL, Cai CF, Wang J, Wei YJ, Wang S. Spatial variations of aggregate stability in relation to sesquioxides for zonal soils, South-central China [J]. Soil and Tillage Research, 2016, 157: 11-22.

[20] Wei YJ, Wu XL, Xia JW, Shen X, Cai CF. Variation of Soil Aggregation along the Weathering Gradient: Comparison of Grain Size Distribution under Different Disruptive Forces[J]. Plos One, 2016, 11(8): e0160960.

[21] Xia D, Ding SW, Long L, Deng YS, Wang QX, Wang SL, Cai CF. Effects of collapsing gully erosion on soil qualities of farm fields in the hilly granitic region of South China[J]. Journal og Integrative Agriculture, 2016, 15(12):2873-2885.

[22] Xia D, Deng YS, Wang SL, Ding SW, Cai CF. Fractal features of soil particle-size distribution of different weathering profiles of the collapsing gullies in the hilly granitic region, south China [J]. Natural Hazards, 2015, 79(1): 455-478.

[23] Ma RM, Cai CF, Li ZX, et al. Evaluation of soil aggregate microstructure and stability under wetting and drying cycles in two Ultisols using synchrotron-based X-ray micro-computed tomography [J]. Soil and Tillage Research, 2015, 149: 1-11.

[24] Ma RM, Cai CF, Wang JG, Wang TW, et al. Partial least squares regression for linking aggregate pore characteristics to the detachment of undisturbed soil by simulating concentrated flow in Ultisols (subtropical China) [J]. Journal of Hydrology, 2015, 524: 44-52.

[25] Wei YJ, Wu XL, Cai CF. Splash erosion of clay–sand mixtures and its relationship with soil physical properties: The effects of particle size distribution on soil structure [J]. Catena, 2015, 135: 254-262.

[26] Guo ZL, Zhao SH, Jiang J, Cai CF. Nitrogen mineralization controlled by N/P ratio of plant residues from riparian buffer strip[J]. European Journal of Soil Biology, 2015, 67: 5-11.

[27] Zhang Y, Li CG, Wang TW, Cai CF, Bao YZ. County-level patterns of cropland and their relationships with socio-economic factors in northwestern China[J]. Agriculture, Ecosystems & Environment, 2015, 203: 11-18.

[28] Rahman MR, Shi ZH, Cai CF. Assessing regional environmental quality by integrated use of remote sensing, GIS, and spatial multi-criteria evaluation for prioritization of environmental restoration [J]. Environmental monitoring and assessment, 2014, 186(11): 6993-7009.

[29] Wang JG, Li ZX, Cai CF, Yang W, Ma RM, Zhang GB. Effects of stability, transport distance and two hydraulic parameters on aggregate abrasion of Ultisols in overland flow [J]. Soil & Tillage Research, 2013, 126: 134-142.

[30] Liu G, Liu PL, Yang MY, Cai CF, et al. The significance and relationships among substitutive climatic proxies in the Holocene at the middle Loess Plateau in China [J]. Environmental earth sciences, 2013, 70(7): 2997-3004.

[31] Li ZX, Yang W, Cai CF, et al. Aggregate Mechanical Stability and Relationship With Aggregate Breakdown Under Simulated Rainfall [J]. Soil Science, 2013, 178(7): 369-377.

[32] Wang JG, Li ZX, Cai CF, Yang W, Ma RM, Zhang GB. Predicting physical equations of soil detachment by simulated concentrated flow in Ultisols (subtropical China) [J]. Earth Surface Processes and Landforms, 2012, 37: 633-641.

[33] Wang JG, Li ZX, Cai CF, Yang W. Effects of transport distance and flow discharge of overland flow on destruction of Ultisol aggregates [J]. Particuology, 2012, 10: 607-613.

[34] Yang W, Li ZX, Cai CF, Guo ZL, Chen JZ, Wang JG. Mechanical properties and soil stability affected by fertilizer treatments for an Ultisol in subtropical China [J]. Plant and Soil. 2012. DOI 10.1007/s11104-012-1266-8.

[35] Yang W, Li ZX, Cai CF, Wang JG, Hua ZG. Tensile strength and friability of Ultisols in sub-tropical China and effects on aggregate breakdown under simulated rainfall [J]. Soil Science. 2012, 177(6):377-383.

[36] Wang XY, Li ZX, Cai CF, Shi ZH, Xu QX, Fu ZY. Effects of rock fragment cover on hydrological response and soil loss from Regosols in a semi-humid environment in South-West China [J]. Geomorphology, 2012, 151:234-242

[37] Fu ZY, Li ZX, Cai CF, Shi ZH, Xu QX, Wang XY. 2011. Soil thickness effect on hydrological and erosion characteristics under sloping lands: A hydropedological perspective [J]. Geoderma. DOI: 10.1016/j.geoderma.2011.08.013.

[38] Fu ZY, Li ZX, Cai CF, Shi ZH, Xu QX, Wang XY. 2011. Linking soil thickness and plot-scale hydrological processes on the sloping lands in the Three Gorges Area of China: A hydropedological approach [J]. Hydrological processes. DOI: 10.1002/hyp.8331.

[39] Shi ZH, Yan FL, Li L, Li ZX, Cai CF. 2010. Interrill erosion from disturbed and undisturbed samples in relation to topsoil aggregate stability in red soils from subtropical China [J]. Catena, 81: 240-248.

[40] Xu QX, Wang TW, Cai CF, Li ZX, Shi ZH. Effects of soil conservation on soil properties of citrus orchards in the Three Gorges Area, China [J]. Land Degradation and Development, 2010. DOI: 10.1002/ldr.1045.

[41] Yan FL, Shi ZH, Cai CF, Li ZX. Wetting rate and clay content effects on interrill erosion in Ultisols of southeastern China [J]. Pedosphere, 2010, 20(1):129–136.

[42] Guo ZL, Cai CF, Li ZX, Wang TW, Zheng MJ. Crop residue effect on crop performance, soil N₂O and CO₂ emissions in alley cropping systems in subtropical China [J]. Agroforestry systems, 2009, 76(1): 67-80.

[43] Li L, Shi ZH, Yin W, Zhu D, Sai LN, Cai CF, Lei AL. A fuzzy analytic hierarchy process (FAHP) approach to eco-environmental vulnerability assessment for the danjiangkou reservoir area, China [J]. Ecological Modelling, 2009, 220: 3439-3447.

[44] Rejaur RMD, Shi ZH, Cai CF. Soil erosion hazard evaluation—an integrated use of remote sensing, GIS and statistical approaches with biophysical parameters towards management strategies [J]. Ecological Modelling, 2009, 220: 1724-1734.

[45] Shi ZH, Chen LD, Fang NF, Qin DF, Cai CF. Research on the SCS-CN initial abstraction ratio using rainfall-runoff event analysis in the Three Gorges Area, China [J]. Catena, 2009, 77: 1-7.

[46] Shi ZH, Chen LD, Hao JP, Wang TW, Cai CF. The effects of land use change on environmental quality in the red soil hilly region, China: A case study in Xianning County [J]. Environmental Monitoring and Assessment, 2009, 150: 295-306.

[47] Zhu D, Wang TW, Cai CF, Li L, Shi ZH. Large-scale assessment of soil erosion using a neuro-fuzzy model combined with GIS: A case study of Hubei Province, China [J]. Land Degradation and Development, 2009, 20: 654-666.

[48] Guo ZL, Zhong C, Cai CF, Ding SW, Wang ZM. Nitrogen competition in contour hedgerow systems in subtropical China [J]. Nutrient cycling in agroecosystems, 2008, 81:71-83.

[49] Guo ZL, Cai CF, Li ZX, Wang TW, Zheng MJ. N₂O and CO₂ emissions from red soils followingland conversion in subtropical China [J]. EPPH, 2008, pp. 4015-4018.

[50] Yan FL, Shi ZH, Li ZX, Cai CF. Estimating interrill soil erosion from aggregate stability of Ultisols in subtropical China [J]. Soil & Tillage Research, 2008, 100: 34-41.

[51] Mushtak TJ, Shi ZH, Wang TW, Cai CF. Vegetation Change Prediction with Geo-Information Techniques in the Three Gorges Area of China[J]. Pedosphere, 2006, 16(4):457-467.

[52] 倪世民, 馮舒悦, 王軍光, 蔡崇法. 不同質地重塑土坡面細溝侵蝕形態與水力特性及產沙的關係[J]. 農業工程學報, 2018, 15: 149-156.

[53] 夏金文, 魏玉傑, 蔡崇法. 花崗岩風化土物理特徵曲線間的相關性研究[J]. 土壤學報, 2017, 54(03):581-589.

[54] 胡節, 吳新亮, 蔡崇法. 快速濕潤過程中鉀和鈣離子濃度對土壤團聚體穩定性的影響[J]. 農業工程學報, 2017, 33(22):175-182.

[55] 王小燕, 蔡崇法, 李鴻, 謝德體. 三峽庫區碎石含量對紫色土容重和孔隙特徵的影響[J]. 土壤學報, 2017, 54(02):379-386.

[56] 邵亞, 王毅偉, 蔡崇法, 楊順華, 張海濤. 西南典型岩溶區土壤硒空間分佈預測[J]. 農業工程學報, 2016, 32(22):178-183.

[57] 李雪垠, 李朝霞, 王天巍, 蔡崇法, 王小燕, 宋婧. 紫色土中礫石夾層對土壤水分入滲的影響[J]. 水科學進展, 2016, 27(5):662-669.

[58] 餘冰, 宋雲瑞, 程嘉寧, 王軍光, 蔡崇法, 段猷. 不同模擬糙度集中水流內紅壤團聚體剝蝕特徵研究[J].土壤學報, 2016, 53(4): 860-868.

[59] 鄧羽松, 丁樹文, 蔡崇法, 呂國安. 鄂東南崩崗剖面土壤水分特徵曲線及模擬[J]. 土壤學報, 2015, 53(2):355-364.

[60] 劉窯軍, 王天巍, 蔡崇法, 李朝霞, 李珩. 三峽庫區低等級土質道路侵蝕研究[J]. 水科學進展, 2015, 26(02):169-177.

[61] 魏玉傑, 吳新亮, 蔡崇法. 崩崗體剖面土壤收縮特性的空間變異性[J]. 農業機械學報, 2015, 46(06):153-159.

[62] 陳芳, 王碩, 吳新亮, 蔡崇法. 不同侵蝕程度下地帶性土壤的結構及滲透性能分析[J]. 農業工程學報, 2014, 30(22):137-146.

[63] 王小燕, 王天巍, 蔡崇法, 謝德體. 含碎石紫色土坡面降雨入滲和產流產沙過程[J]. 水科學進展, 2014, 25(02):189-195.

[64] 馬仁明, 蔡崇法, 李朝霞, 王軍光, 馮君園, 吳新亮, 朱惠榮. 前期土壤含水率對紅壤團聚體穩定性及濺蝕的影響[J]. 農業工程學報, 2014, 30(03):95-103.

[65] 張甘霖, 王秋兵, 張鳳榮, 吳克寧, 蔡崇法, 章明奎, 李德成, 趙玉國, 楊金玲. 中國土壤系統分類土族和土系劃分標準[J]. 土壤學報, 2013, 50(04):826-834.

[66] 陳俊傑, 孫莉英, 蔡崇法, 劉俊體, 蔡強國. 不同土壤坡面細溝侵蝕差異與其影響因素[J]. 土壤學報, 2013, 50(02):281-288.

[67] 王軍光, 李朝霞, 蔡崇法, 王玉華, 張國彪, 馬仁明. 坡面流水力學參數對團聚體剝蝕程度的定量影響[J]. 水科學進展, 2012, 23(04):502-508.

[68] 王軍光, 李朝霞, 蔡崇法, 楊偉, 馬仁明, 王天巍. 坡面水流中不同層次紅壤團聚體剝蝕程度研究[J]. 農業工程學報, 2012, 28(19):78-84.

[69] 張曉明, 丁樹文, 蔡崇法. 乾濕效應下崩崗區岩土抗剪強度衰減非線性分析[J]. 農業工程學報, 2012, 28(05):241-245.

[70] 王小燕, 李朝霞, 蔡崇法. 礫石覆蓋紫色土坡耕地水文過程[J]. 水科學進展, 2012, 23(01):38-45.

[71] 王軍光, 李朝霞, 蔡崇法, 楊偉, 馬仁明, 張國彪. 集中水流內紅壤分離速率與團聚體特徵及抗剪強度定量關係[J]. 土壤學報, 2011, 48(06):1133-1140.

[72] 付智勇, 李朝霞, 蔡崇法, 郭忠錄. 三峽庫區不同厚度紫色土坡耕地產流機制分析[J]. 水科學進展, 2011, 22(05):680-688.

[73] 程冬兵, 張平倉, 李亞龍, 蔡崇法. 紫色土典型三角形層狀剖面入滲模擬[J]. 水科學進展, 2010, 21(03):315-320.

[74] 徐勤學, 王天巍, 李朝霞, 蔡崇法, 史志華. 紫色土坡地壤中流特徵[J]. 水科學進展, 2010, 21(02):229-234.

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