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Effects of Land Use on the Ecohydrology of River Basin in Accordance with Climate Change

Effects of Land Use on the Ecohydrology of River Basin in Accordance with Climate Change

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Water deficit affects various regions of the world. Effective approach can be based on ecohydrological solutions and the design of blue–green infrastructure. In our scientific book, we focused on papers that consider water management and adaptation of urban and rural development areas to the progressive climate change. The Special Issue includes a drought-prone place (valleys in Mexico City), reflections on the state and water resources in Lithuania, and engineering and technical articles from China and Poland. In addition, one chapter is dedicated to grassland protection in mountainous areas.

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Keywords

  • artificial neural network (ANN)
  • attribution analysis
  • Biodiversity
  • Budyko hypothesis
  • catchment management
  • Climate Change
  • ditch subsidence
  • drainage ditches
  • drained peat soils
  • ecological status indicators
  • Economics
  • Economics, finance, business & management
  • empirical equations of peat subsidence
  • environmental change
  • Environmental economics
  • grazing management
  • high-nature-value farming
  • highland watercourse
  • historical political ecology
  • human activity
  • hydromorphological diversity
  • Irrigation
  • land cover
  • Mexico City
  • n/a
  • nutrient element
  • old field grassland
  • pedotransfer function
  • physiographic parameters of basins
  • Pollution
  • redundancy analysis (RDA)
  • Reference, information & interdisciplinary subjects
  • Research & information: general
  • Risk
  • Rosetta program
  • runoff variation
  • saturated hydraulic conductivity
  • sediment
  • Soil
  • soil moisture
  • source region of the Yangtze River
  • urban ecology
  • vegetation change
  • vegetation variation
  • Warta River
  • Water quality
  • water spatial policy
  • weather extremes

Links

DOI: 10.3390/books978-3-0365-5646-8

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