Yellow River Basin Management under Pressure: Present State, Restoration and Protection II

© 2024 by the authors; CC BY-NC-ND license

human–water relationship discipline; the Yellow River Basin; complexity of human–water relationship; solutions to difficult problems; water distribution scheme; human–water relationship science; vegetation cover; GIMMS NDVI; MOD13A3; residual analysis; Yellow River Basin (YRB); Yellow River Basin; carbon dioxide emissions; rationalization of industrial structure; advancement of industrial structure; impact mechanism; scenario simulation; Yellow River Basin (Henan section); transformation of land use; landscape pattern; driving force; geographic detector; mainstream and branches; stochastic evolutionary game; Yellow River Basin; watershed ecological compensation; heavy metal pollution assessment; PMF model; driving factors; RDA; the Yellow River receiving area; agricultural water use; Yellow River Basin; super-SBM model; spatial econometric model; water medium; numerical simulation; model test; fluid–solid coupling; drift ice; water diversion tunnel; impact effects; landfill; groundwater contamination; water quality; human health risks; numerical groundwater simulation; the Yellow River Basin; climate change; natural runoff; precipitation; transboundary river; water distribution; Yellow River basin; harmony theory; water resource allocation; human–water harmony theory; inexact fuzzy multi-objective programming (IFMOP); Binzhou; groundwater level; electrical conductivity; spatio-temporal analysis; Yellow River Delta; seawater intrusion; streamflow prediction; Gaussian process regression; cooperation search algorithm; artificial intelligence; machine learning; runoff; sediment load; hydrologic regime; change trend; influence factors; Yellow River; permafrost hydrology; the headwaters of the yellow river (HWYR); discharge and runoff; random forest (RF); support vector machine (SVM); open channel flow; weirs; bridges; backwater height; Saint-Venant equations; sustainability; emergy water ecological footprint; water ecological economic system; Yellow River Basin; land use transfer matrix; GeoDetector; landscape pattern change; driving factors; Yellow River Basin in Henan Province; depth to groundwater; trend analysis; scenario analysis; water-saving threshold; n/a