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Managing Forests and Water for People under a Changing Environment

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Forests cover 30% of the Earth’s land area, or nearly four billion hectares. Enhancing the benefits and ecosystem services of forests has been increasingly recognized as an essential part of nature-based solutions for solving many emerging global environmental problems today. A core science supporting forest management is understanding the interactions of forests, water, and people. These interactions have become increasingly complex under climate change and its associated impacts, such as the increases in the intensity and frequency of drought and floods, increasing population and deforestation, and a rise in global demands for multiple ecosystem services including clean water supply and carbon sequestration. Forest watershed managers have recognized that water management is an essential component of forest management. Global environmental change is posing more challenges for managing forests and water toward sustainable development. New science on forest and water is critically needed across the globe. The International Forests and Water Conference 2018, Valdivia, Chile (http://forestsandwater2018.cl/), a joint effort of the 5th IUFRO International Conference on Forests and Water in a Changing Environment and the Second Latin American Conference on Forests and Water provided a unique forum to examine forest and water issues in Latin America under a global context. This book represents a collection of some of the peer-reviewed papers presented at the conference that were published in a Special Issue of Forests.

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Keywords

  • afforestation
  • agricultural lands
  • aquatic-riparian ecosystems
  • Cambodia
  • catchment management
  • Chile
  • Climate Change
  • community drinking-water
  • compound wildfire-water risk
  • connectivity
  • density management harvest
  • dissolved organic matter
  • drinking-water security
  • ecohydrology
  • Ecosystem services
  • Forest
  • forest and water policy
  • forest ecosystem management
  • forest hydrology
  • forest operations
  • forest plantation
  • forest plantations
  • forest watersheds
  • forestry
  • Forests
  • global change
  • grassland
  • heat: moisture index
  • hydrological modeling
  • hydrology
  • land use and land cover change
  • Land use change
  • load
  • Loess Plateau
  • Mekong
  • multi-criteria analysis
  • native forest
  • native forests
  • NDC
  • Nenjiang River
  • nutrient concentrations
  • Oregon
  • participatory monitoring
  • post-fire hydrology
  • precipitation gradient
  • restoration strategy
  • Rhyacotriton
  • riparian buffer zones
  • riparian vegetation
  • SDGs
  • shrubland
  • social capital
  • soil moisture
  • source water protection
  • streamside native buffer
  • sustainability
  • SWAT model
  • timber harvesting
  • US Pacific Northwest
  • Water Governance
  • water management
  • water provision
  • Water quality
  • Water Supply
  • Watershed management
  • wetland
  • “Forests to Faucets”

Links

DOI: 10.3390/books978-3-03928-824-3

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