Potential Soil Loss from Erosion on Arable Lands in the European Part of Russia. Maltsev, K. A. & Yermolaev, O. P. 52(12):1588–1597.
Potential Soil Loss from Erosion on Arable Lands in the European Part of Russia [link]Paper  doi  abstract   bibtex   
Quantitative assessment of the potential soil loss on arable lands in the European part of Russia (4~million km2) was performed at the regional level of generalization corresponding to the scale of 1 : 500\,000. Mathematical modeling based on the use of the equation for calculating potential soil loss from erosion developed in the research Laboratory of Soil Erosion and Channel Processes of Moscow State University was applied for this purpose in combination with geoinformation technologies. The calculations were performed for a raster model of representation of spatial data, including slope gradients, slope lengths, soil properties, rainstorm precipitation, layer of snowmelt runoff, intra-annual distribution of rainfall, and land use types. New data were obtained on the erosional soil loss during the periods of snowmelt runoff and rainstorm runoff and on the total annual loss. An electronic map of erosional soil loss on the arable lands of the European part of Russia was developed. The average soil losses reach 11 t/ha per year under black fallow and 3 t/ha per year under crops with their soil-protective capacity. About a half of the territory is located under conditions of the potential soil loss of less than 0.5 t/ha per year, whereas soil loss of 10 to 15 t/ha per year predominates on the rest of the territory. The rates of soil erosion on arable lands in the European part of Russia decrease from the taiga-forest to the steppe landscape zones. The belt of maximum erosion intensity extends in the sublatitudinal direction within the subzone of mixed and broadleaved forests with a very high percent of plowed land. In addition, potential soil loss from water erosion was determined for 50 subjects of the Russian Federation in the studied area for black fallow and agrocenoses.
@article{maltsevPotentialSoilLoss2019,
  title = {Potential Soil Loss from Erosion on Arable Lands in the {{European}} Part of {{Russia}}},
  author = {Maltsev, K. A. and Yermolaev, O. P.},
  date = {2019-12-01},
  journaltitle = {Eurasian Soil Science},
  volume = {52},
  pages = {1588--1597},
  issn = {1556-195X},
  doi = {10.1134/S106422931912010X},
  url = {https://doi.org/10.1134/S106422931912010X},
  urldate = {2020-01-09},
  abstract = {Quantitative assessment of the potential soil loss on arable lands in the European part of Russia (4~million km2) was performed at the regional level of generalization corresponding to the scale of 1 : 500\,000. Mathematical modeling based on the use of the equation for calculating potential soil loss from erosion developed in the research Laboratory of Soil Erosion and Channel Processes of Moscow State University was applied for this purpose in combination with geoinformation technologies. The calculations were performed for a raster model of representation of spatial data, including slope gradients, slope lengths, soil properties, rainstorm precipitation, layer of snowmelt runoff, intra-annual distribution of rainfall, and land use types. New data were obtained on the erosional soil loss during the periods of snowmelt runoff and rainstorm runoff and on the total annual loss. An electronic map of erosional soil loss on the arable lands of the European part of Russia was developed. The average soil losses reach 11 t/ha per year under black fallow and 3 t/ha per year under crops with their soil-protective capacity. About a half of the territory is located under conditions of the potential soil loss of less than 0.5 t/ha per year, whereas soil loss of 10 to 15 t/ha per year predominates on the rest of the territory. The rates of soil erosion on arable lands in the European part of Russia decrease from the taiga-forest to the steppe landscape zones. The belt of maximum erosion intensity extends in the sublatitudinal direction within the subzone of mixed and broadleaved forests with a very high percent of plowed land. In addition, potential soil loss from water erosion was determined for 50 subjects of the Russian Federation in the studied area for black fallow and agrocenoses.},
  keywords = {~INRMM-MiD:z-LNVNVG68,empirical-equation,erosivity,europe,russia,soil-erosion,soil-erosion-by-snowmelt-runoff,soil-loss,soil-resources},
  langid = {english},
  number = {12}
}

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