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Soil Water Erosion

Soil Water Erosion

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The purpose of this book is to provide novel results related to soil water erosion that could help landowners and land-users, farmers, politicians, and other representatives of our global society to protect and, if possible, improve the quality and quantity of our precious soil resources. Published papers on the topics are related to new ways of mapping, maps with more detailed input data, maps about areas that have never been mapped before, sediment yield estimations, modelling sheets and gully erosion, USLE models, RUSLE models, dams which stop sediment runoff, sediment influx, solute transport, soil detachment capacities, badland morphology, freeze-thaw cycles, armed conflicts, use of rainfall simulators, rainfall erosivity, soil erodibility, etc.

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Keywords

  • area–slope approach
  • Armed Conflict
  • badlands
  • Chenab river
  • comparability
  • connection degree
  • connection mode
  • Czech Republic
  • dynamic erosion model
  • Emilia Apennines (Northern Italy)
  • event scale
  • field measurement
  • freeze-thaw cycles
  • GIS
  • gully geometry
  • gully head-cuts
  • History of engineering & technology
  • hydraulic parameter
  • infiltration
  • Iran
  • Irrigation
  • land cover change
  • Land management
  • Land use change
  • loamy soil
  • loess
  • Loess Plateau
  • machine learning modeling
  • meltwater flow
  • modeling
  • morphological changes
  • multiple-tracer experiments
  • n/a
  • Northern Al-Kabeer river Syria
  • overland flow
  • PCA analysis
  • precipitation amounts
  • preferential flow
  • protection forest
  • R-factor
  • radar climatology
  • RADKLIM
  • rain gauge
  • rainfall intensity
  • rainfall simulation
  • Remote sensing
  • residential areas
  • runoff
  • runoff and sediment yield
  • RUSLE
  • RUSLE (Revised Universal Soil Loss Equation)
  • sediment
  • sediment connectivity
  • sediment flux
  • sediment yield
  • soil detachment capacity
  • Soil erosion
  • soil loss
  • soil property
  • solute transport
  • stable gully
  • Technology, engineering, agriculture
  • Technology: general issues
  • total soil loss
  • USLE
  • WaTEM/SEDEM
  • water erosion model
  • Watershed
  • watershed characteristics

Links

DOI: 10.3390/books978-3-0365-3241-7

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