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The immediate goal of this Special Issue was the characterization of land uses and occupations (LULC) in watersheds and the assessment of impacts caused by anthropogenic activities. The goal was immediate because the ultimate purpose was to help bring disturbed watersheds to a better condition or a utopian sustainable status. The steps followed to attain this objective included publishing studies on the understanding of factors and variables that control hydrology and water quality changes in response to human activities. Following this first step, the Special Issue selected work that described adaption measures capable of improving the watershed condition (water availability and quality), namely LULC conversions (e.g., monocultures into agro-forestry systems). Concerning the LULC measures, however, efficacy was questioned unless supported by public programs that force consumers to participate in concomitant costs, because conversions may be viewed as an environmental service.
Research & information: general --- flood vulnerability --- land use conflicts --- water management --- soil conservation --- spatial multi-criteria analysis --- geographic information system --- water pollution --- riparian forest --- environmental Law --- anthropogenic catchment --- watershed management --- land use policy --- changes in hydrological components --- effects of human activities --- LUCC --- WRUBAP --- Yiluo River --- SWAT --- water balance components --- Land Use and Land Cover changes --- wildfires --- afforestation --- n/a --- riparian buffer width --- landscape composition --- regression model --- interaction term --- Brazilian Forest Code --- farmland abandonment --- LULC changes --- climate change --- runoff/suspended sediment changes --- river morphology dynamics --- Italian Apennines --- water quality --- landscape metrics --- PLS-SEM --- scale --- season --- distance from pollution sources --- script files --- mean diurnal profile --- wavelet coherence --- groundwater recharge --- water resources management --- Conservative Use Potential --- river basin --- water balance --- lakes --- reservoirs --- Nenjiang watershed --- Landsat --- diurnal thermal profile --- urban tributaries --- wavelet --- covariance --- flow --- water discharge ecosystem services --- payments for environmental services --- land use
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The immediate goal of this Special Issue was the characterization of land uses and occupations (LULC) in watersheds and the assessment of impacts caused by anthropogenic activities. The goal was immediate because the ultimate purpose was to help bring disturbed watersheds to a better condition or a utopian sustainable status. The steps followed to attain this objective included publishing studies on the understanding of factors and variables that control hydrology and water quality changes in response to human activities. Following this first step, the Special Issue selected work that described adaption measures capable of improving the watershed condition (water availability and quality), namely LULC conversions (e.g., monocultures into agro-forestry systems). Concerning the LULC measures, however, efficacy was questioned unless supported by public programs that force consumers to participate in concomitant costs, because conversions may be viewed as an environmental service.
flood vulnerability --- land use conflicts --- water management --- soil conservation --- spatial multi-criteria analysis --- geographic information system --- water pollution --- riparian forest --- environmental Law --- anthropogenic catchment --- watershed management --- land use policy --- changes in hydrological components --- effects of human activities --- LUCC --- WRUBAP --- Yiluo River --- SWAT --- water balance components --- Land Use and Land Cover changes --- wildfires --- afforestation --- n/a --- riparian buffer width --- landscape composition --- regression model --- interaction term --- Brazilian Forest Code --- farmland abandonment --- LULC changes --- climate change --- runoff/suspended sediment changes --- river morphology dynamics --- Italian Apennines --- water quality --- landscape metrics --- PLS-SEM --- scale --- season --- distance from pollution sources --- script files --- mean diurnal profile --- wavelet coherence --- groundwater recharge --- water resources management --- Conservative Use Potential --- river basin --- water balance --- lakes --- reservoirs --- Nenjiang watershed --- Landsat --- diurnal thermal profile --- urban tributaries --- wavelet --- covariance --- flow --- water discharge ecosystem services --- payments for environmental services --- land use
Choose an application
The immediate goal of this Special Issue was the characterization of land uses and occupations (LULC) in watersheds and the assessment of impacts caused by anthropogenic activities. The goal was immediate because the ultimate purpose was to help bring disturbed watersheds to a better condition or a utopian sustainable status. The steps followed to attain this objective included publishing studies on the understanding of factors and variables that control hydrology and water quality changes in response to human activities. Following this first step, the Special Issue selected work that described adaption measures capable of improving the watershed condition (water availability and quality), namely LULC conversions (e.g., monocultures into agro-forestry systems). Concerning the LULC measures, however, efficacy was questioned unless supported by public programs that force consumers to participate in concomitant costs, because conversions may be viewed as an environmental service.
Research & information: general --- flood vulnerability --- land use conflicts --- water management --- soil conservation --- spatial multi-criteria analysis --- geographic information system --- water pollution --- riparian forest --- environmental Law --- anthropogenic catchment --- watershed management --- land use policy --- changes in hydrological components --- effects of human activities --- LUCC --- WRUBAP --- Yiluo River --- SWAT --- water balance components --- Land Use and Land Cover changes --- wildfires --- afforestation --- riparian buffer width --- landscape composition --- regression model --- interaction term --- Brazilian Forest Code --- farmland abandonment --- LULC changes --- climate change --- runoff/suspended sediment changes --- river morphology dynamics --- Italian Apennines --- water quality --- landscape metrics --- PLS-SEM --- scale --- season --- distance from pollution sources --- script files --- mean diurnal profile --- wavelet coherence --- groundwater recharge --- water resources management --- Conservative Use Potential --- river basin --- water balance --- lakes --- reservoirs --- Nenjiang watershed --- Landsat --- diurnal thermal profile --- urban tributaries --- wavelet --- covariance --- flow --- water discharge ecosystem services --- payments for environmental services --- land use --- flood vulnerability --- land use conflicts --- water management --- soil conservation --- spatial multi-criteria analysis --- geographic information system --- water pollution --- riparian forest --- environmental Law --- anthropogenic catchment --- watershed management --- land use policy --- changes in hydrological components --- effects of human activities --- LUCC --- WRUBAP --- Yiluo River --- SWAT --- water balance components --- Land Use and Land Cover changes --- wildfires --- afforestation --- riparian buffer width --- landscape composition --- regression model --- interaction term --- Brazilian Forest Code --- farmland abandonment --- LULC changes --- climate change --- runoff/suspended sediment changes --- river morphology dynamics --- Italian Apennines --- water quality --- landscape metrics --- PLS-SEM --- scale --- season --- distance from pollution sources --- script files --- mean diurnal profile --- wavelet coherence --- groundwater recharge --- water resources management --- Conservative Use Potential --- river basin --- water balance --- lakes --- reservoirs --- Nenjiang watershed --- Landsat --- diurnal thermal profile --- urban tributaries --- wavelet --- covariance --- flow --- water discharge ecosystem services --- payments for environmental services --- land use
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Ecological protection and high-quality development in the basin of the Yellow River, known as China’s “Mother River” and “the cradle of Chinese civilization”, have been receiving increasing attention because of the important role they play in China’s economic and social development, and its cultural heritage. Under ongoing climate change and intense human activities, the Yellow River basin is facing crucial challenges, e.g., flooding, water security, water resource shortage, water pollution, and ecological environment degradation, which seriously affects the sustainable development of the regional economy and society. Meanwhile, significant differences in key characteristics across the upper, middle, and lower reaches call for joint management efforts, including integrated management, water conservancy, and ecological environment restoration. This Special Issue focusses on the current state, challenges, and suggestions relating to Yellow River basin management and sustainable development under pressure, aiming to help improve ecological protection and achieve high-quality development. The following topics, including the management, restoration and protection of the Yellow River basin, and harmonious regulation of the human–water relationship were systematically studied.
Business strategy --- Management of specific areas --- Gini coefficient --- fairness principle --- double-level --- water-saving potential --- Weihe River basin --- Budyko framework --- runoff changes --- climate change --- underlying surface parameters --- human activities --- Yellow River --- cultivated land --- Object-Oriented Feature Extraction --- wheat --- corn --- water use level --- SBM-DEA model --- window-DEA model --- economic and social development --- matching degree --- yellow river basin --- water–energy–food --- harmony equilibrium --- harmonious regulation --- the Yellow River --- bank collapse --- sediment transportation --- numerical simulation --- curved channel --- cohesive --- cross-sectional shape --- asymmetry --- water and sediment factor --- transverse distribution --- wandering river channel --- Wuliangsuhai Lake --- ecological water demand --- ecological water supplement --- ecological function --- heavy metals --- sediment interstitial water --- sediment --- chemical fraction --- ecological risk --- water quality characteristics --- cause --- groundwater --- middle and lower reaches of the Yellow River --- water rights allocation --- coordinated development --- water–ecology–energy–food --- emergy method --- Yinchuan city --- return period --- Pearson-III distribution --- “7.20” rainstorm --- Yiluo River basin --- Xiaohua section --- soil erosion --- influencing factors --- RUSLE --- the optimal parameters-based geographical detector --- scale effects --- the Yellow River Basin --- Sanhe region --- early sites --- spatial and temporal distribution --- human-territorial relationship --- GIS --- high-quality development --- environmental regulation --- local government competition --- panel threshold regression model --- Yellow River basin --- the ancient Yellow River distributary --- early settlements --- aggregation characteristics --- Zhengzhou --- n/a --- water-energy-food --- water-ecology-energy-food --- "7.20" rainstorm
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