Ahn S, Doerr S H, Douglas P, Bryant R, Hamlett C A E, McHale G, Newton M I, Shirtcliffe N J. 2013. Effects of hydrophobicity on splash erosion of model soil particles by a single water drop impact. Earth Surface Processes and Landforms, 38, 1225–1233.Allen B L, Mallarino A P. 2006. Relationships between extractable soil phosphorus and phosphorus saturation after long term fertilizer or manure application. Soil Science Society of America Journal, 70, 454–463.Benites V M, Machado P L, Fidalgo E C, Coelho M R, Madari B E. 2007. Pedotransfer functions for estimating soil bulk density from existing soil survey reports in Brazil. Geoderma, 139, 90–97.Börling K, Barberis E, Otabbong E. 2004. Impact of long-term inorganic phosphorus fertilization on accumulation, sorption and release of phosphorus in five Swedish soil profiles. Nutrient Cycling in Agroecosystems, 69, 11–21. Börling K, Otabbong E, Barberis E. 2001. Phosphorus sorption in relation to soil properties in some cultivated Swedish soils. Nutrient Cycling in Agroecosystems, 59, 39–46. Chaïrat C, Schott J, Oelkers E H, Lartigue J E, Harouiya N. 2007. Kinetics and mechanism of natural fluorapatite dissolution at 25°C and pH from 3 to 12. Geochimica et Cosmochimica Acta, 71, 5901–5912. Deng Y S, Ding S W, Cai C F, Lü G A, Xia D, Zhu Y. 2014. Spatial distribution of the collapsing alluvial soil physical properties in Southeastern Hubei. Scientia Agricultura Sinica, 47, 4850–4857. (in Chinese)Deng Y S, Xia D, Cai C F, Ding S W. 2016. Effects of land uses on soil physic-chemical properties and erodibility in collapsing-gully alluvial fan of Anxi County, China. Journal of Integrative Agriculture, 8, 1863–1873.Devau N, Hinsinger P, Le Cadre E, Colomb B, Gérard F. 2011. Fertilization and pH effects on processes and mechanisms controlling dissolved inorganic phosphorus in soils. Geochimica et Cosmochimica Acta, 75, 2980–2996. diCenzo P D, Luk S H. 1997. Gully erosion and sediment transport in a small subtropical catchment, South China. Catena, 29, 161–176.Gustafsson J P. 2001. Modeling competitive anion adsorption on oxide minerals and an allophone-containing soil. European Journal of Soil Science, 52, 639–653.Hajabbasi M A, Jalalian A, Karimzadeh H R. 1997. Deforestation effects on soil physical and chemical properties, Lordegan, Iran. Plant and Soil, 190, 301–308.Hiemstra T, Van Riemsdijk W H. 1999. Surface structural ion adsorption modeling of competitive binding of oxyanions by metal (hydr) oxides. Journal of Colloid and Interface Science, 210,182–193.Ioannou A, Dimirkou A. 1997. Phosphate adsorption an hematite, kaolinite, and kaolinite-hematite (k-h) systems as described by a constant capacitance model. Journal of Colloid and Interface Science, 192, 119–128.ISSCAS (Institute of Soil Science, Chinese Academy of Science). 1978. Physical and Chemical Analysis Methods of Soils. Shanghai Science and Technology Press, Shanghai, China. pp. 136–153, 169–176. (in Chinese)Kimoto A, Uchida T, Mizuyama T, Li C. 2002. Influences of human activities on sediment discharge from devastated weathered granite hills of southern China effects of 4-year elimination of human activities. Catena, 48, 217–233.Kroetsch D, Wang C. 2008. Particle size distribution. In: Carter M R, Gregorich E G, eds., Soil Sampling and Methods of Analysis. 2nd ed. Boca Raton CRC, USA. pp. 713–725.Lam K C, Leung Y F, Yao Q. 1997. Nutrient fluxes in the Shenchong Basin, Deqing County, South China. Catena, 29, 191–210.Lampurlanés J, Cantero-Martinez C. 2003. Soil bulk density and penetration resistance under different tillage and crop management systems and their relationship with barley root growth. Agronomy Journal, 95, 526–536.Lan H X, Hu R L, Yue Z Q, Lee C F, Wang S J. 2003. Engineering and geological characteristics of granite weathering profiles in South China. Journal of Asian Earth Sciences, 21, 353–364.Li Z W, Nie X D, Chen X L, Lu Y M, Jiang W G, Zeng G M. 2015. The effects of land use and landscape position on labile organic carbon and carbon management index in red soil hilly region, southern china. Journal of Mountain Science, 3, 626–636.Liang B, Lehmann J, Solomon D, Kinyangi J, Grossman J, O’neill B, Neves E G. 2006. Black carbon increases cation exchange capacity in soils. Soil Science Society of America Journal, 70, 1719–1730.Lin J S, Huang Y H, Wang M K, Jiang F S, Zhang X B, Ge H L. 2015. Assessing the sources of sediment transported in gully systems using a fingerprinting approach: An example from south-east china. Catena, 129, 9–17.Lopez M V. 1998. Wind erosion in agricultural soil: an example of limited supply of particles available for erosion. Catena, 33, 17–28.Luk S H, diCenzo P D, Liu X Z. 1997b. Water and sediment yield from a small catchment in the hilly granitic region, South China. Catena, 29, 177–189.Luk S H, Yao Q Y, Gao J Q, Zhang J Q, He Y G, Huang S M. 1997a. Environmental analysis of soil erosion in Guangdong Province: A Deqing case study. Catena, 29, 97–113. Ma X, Xu W N, Xia Z Y, Wang Y J, Guan S F, Zhang L L. 2015. The soil inorganic phosphorus distribution of vegetation-growing concrete substrate in the disturbed engineering area. In: International Conference on Materials, Environmental and Biological Engineering (MEBE 2015). Atlantis Press, French. pp. 424–428.Mo J, Brown S, Peng S, Kong G. 2003. Nitrogen availability in disturbed, rehabilitated and mature forests of tropical China. Forest Ecology and Management, 175, 573–583.Van Noordwijk M, Widianto H M, Hairiah K. 1991. Old tree root channels in acid soils in the humid tropics: Important for crop production, water infiltration and nitrogen management. Plant and Soil, 134, 37–44.Park J H, Meusburger K, Jang I, Kang H, Alewell C. 2014. Erosion-induced changes in soil biogeochemical and microbiological properties in Swiss Alpine grasslands. Soil Biology & Biochemistry, 69, 382–392.Pizzeghello D, Berti A, Nardi S, Morari F. 2011. Phosphorus forms and P-sorption properties in three alkaline soils after long-term mineral and manure applications in north-eastern Italy. Agriculture Ecosystems & Environment, 141, 58–66.Pizzeghello D, Berti A, Nardi S, Morari F. 2014. Phosphorus-related properties in the profiles of three Italian soils after long-term mineral and manure applications. Agriculture Ecosystems & Environment, 189, 216–228. Reeves D W. 1997. The role of soil organic matter in maintaining soil quality in continuous cropping systems. Soil & Tillage Research, 43, 131–167.Reintam E, Trukmann K, Kuht J, Toomsoo A, Teesalu T, Koster T, Edesi L, Nugis E. 2008. Effect of Cirsium arvense L. on soil physical properties and crop growth. Agricultural and Food Science, 17, 153–164. Robertson G P, Sollins P, Ellis B G, Lajtha K. 1999. Exchangeable ions, pH, and cation exchange capacity. In: Robertson G P, Bledsoe C S, Coleman D C, Soilins P, eds., Standard Soil Methods for Long-Term Ecological Research. Oxford University Press, New York. pp. 106–114.Roth C H, Eggert T. 1994. Mechanisms of aggregate breakdown involved in surface sealing, runoff generation and sediment concentration on loess soils. Soil & Tillage Research, 32, 253–268.Scott Munro D, Huang L J. 1997. Rainfall, evaporation and runoff responses to hillslope aspect in the Shenchong Basin. Catena, 29, 131–144.Sheng J A, Liao A Z. 1997. Erosion control in South China. Catena, 29, 211–221.Sioh M, Woo M K, Lain K C. 1990. Soil nutrients in eroded granitic areas of South China. Physical Geography, 11, 260–276. Spiteri C, Slomp C P, Regnier P, Meile C, Van Cappellen P. 2007. Modeling the geochemical fate and transport of wastewater-derived phosphorus in contrasting groundwater systems. Journal of Contaminant Hydrology, 92, 87–108.Uchida T, Ohte N, Kimoto A, Mizuyama T, Li C. 2000. Sediment yield on a devastated hill in southern China: Effects of microbiotic crust on surface erosion process. Geomorphology, 32, 129–145. Wang B, Zheng F L, Römkens M J M, Darboux F. 2013. Soil erodibility for water erosion: A perspective and Chinese experiences. Geomorphology, 187, 1–10.Woo M K, Fang G, diCenzo P D. 1997a. The role of vegetation in the retardation of rill erosion. Catena, 29, 145–159. Woo M K, Huang L, Zhang S, Li Y. 1997b. Rainfall in Guangdong Province, South China. Catena, 29, 115–129. Woo M K, Luk S H. 1990. Vegetation effects on soil and water losses on weathered granitic hillslopes, south China. Physical Geography, 11, 1–16.Wu Z F, Wang J Z. 2000. Relationship between slope disintegration and rock-soil characteristics of granite weathering mantle in south China. Research of Soil Water Conservation, 14, 31–35. (in Chinese)Xia D, Deng Y S, Wang S L, Ding S W, Cai C F. 2015. Fractal features of soil particle-size distribution of different weathering profiles of the collapsing gullies in the hilly granitic region, south china. Natural Hazards, 79, 455–478.Xia Z Y, Xu W N, Wang J Z. 2009. Ecological characteristics of artificial vegetation communities on excavated slopes at the Xiangjiaba hydroelectric power station. Journal of Chongqing University (English Edition), 2, 75–81.Xu J. 1996. Benggang erosion: The influencing factors. Catena, 27, 249–263.Xu J, Zeng G. 1992. Benggang erosion in sub-tropical granite weathering crust geo-ecosystems: An example from guangdong province. In Walling D E, Davies T R, Hasholt B P, eds., Erosion, Debris Fows and Environment in Mountain Regions. IAHS Press Publication, UK. pp. 455–463.Zhang B, Yang Y S, Zepp H. 2004. Effect of vegetation restoration on soil and water erosion and nutrient losses of a severely eroded clayey Plinthudult in southeastern China. Catena, 57, 77–90.Zhang G L, Gong Z T. 2012. Soil Survey Laboratory Methods. Science Press, Beijing, China. pp. 8–30. (in Chinese)Zhang Y, Ding S W, Wei Y J, Wang Q X. 2015. Transfer rules of soil nutrients in collapsing pluvial fan. Transactions of the CSAM, 46, 216-222. (in Chinese)Zhao H L, Zhou R L, Zhang T H, Zhao X Y. 2006. Effects of desertification on soil and crop growth properties in Horqin sandy cropland of Inner Mongolia, north China. Soil & Tillage Research, 87, 175–185. Zhong B, Peng S, Zhang Q, Ma H, Cao S. 2013. Using an ecological economics approach to support the restoration of collapsing gullies in southern China. Land Use Policy, 32, 119–124. |