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Publication DateYangtze River Academic, ISSN 1673-9221, 2006, Volume 4, p. 143
Chen Ran | transgression | fiction | Mian Mian | female sexuality | female body | Chinese literature | 2000-2099 | feminism | Wei Hui | moral values | criticism | women writers | Lin Bai
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Loading RightsWater Resources Research, ISSN 0043-1397, 04/2017, Volume 53, Issue 4, pp. 2786 - 2812
Reservoirs are fundamental human‐built infrastructures that collect, store, and deliver fresh surface water in a timely manner for many purposes. Efficient...
climate indices | reservoir inflow | Trinity Lake | Danjiangkou Reservoir | data mining | artificial intelligence | rating curve uncertainty | Iber model | LEVEL OBSERVATIONS | CALIBRATION | RADAR IMAGERY | FLOOD INUNDATION MODELS | rainfall-runoff | LATERAL-INFLOW | WATER RESOURCES | RATING CURVES | SHALLOW-WATER EQUATIONS | LISFLOOD-FP model | ENVIRONMENTAL SCIENCES | flood inundation modeling | hydraulics | SENSITIVITY-ANALYSIS | UNCERTAINTY | DISTRIBUTED MODELS | LIMNOLOGY | Climate | Stream flow | Policies | Monthly | Intelligence | Methodology | Climatic conditions | Southern Oscillation | Data mining | Regressions | Case studies | Seasonal forecasts | Mathematical models | Seasons | Statistical analysis | Artificial neural networks | Data processing | El Nino phenomena | Hydrology | Neural networks | Surface water | El Nino-Southern Oscillation event | Reservoirs | Headwaters | Inflow | Artificial intelligence
climate indices | reservoir inflow | Trinity Lake | Danjiangkou Reservoir | data mining | artificial intelligence | rating curve uncertainty | Iber model | LEVEL OBSERVATIONS | CALIBRATION | RADAR IMAGERY | FLOOD INUNDATION MODELS | rainfall-runoff | LATERAL-INFLOW | WATER RESOURCES | RATING CURVES | SHALLOW-WATER EQUATIONS | LISFLOOD-FP model | ENVIRONMENTAL SCIENCES | flood inundation modeling | hydraulics | SENSITIVITY-ANALYSIS | UNCERTAINTY | DISTRIBUTED MODELS | LIMNOLOGY | Climate | Stream flow | Policies | Monthly | Intelligence | Methodology | Climatic conditions | Southern Oscillation | Data mining | Regressions | Case studies | Seasonal forecasts | Mathematical models | Seasons | Statistical analysis | Artificial neural networks | Data processing | El Nino phenomena | Hydrology | Neural networks | Surface water | El Nino-Southern Oscillation event | Reservoirs | Headwaters | Inflow | Artificial intelligence
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Loading RightsHydrological Processes, ISSN 0885-6087, 12/2013, Volume 27, Issue 26, pp. 3941 - 3948
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Loading RightsHydrology and Earth System Sciences, ISSN 1027-5606, 01/2017, Volume 21, Issue 1, pp. 169 - 181
On the Tibetan Plateau, the limited ground-based rainfall information owing to a harsh environment has brought great challenges to hydrological studies....
INTERPOLATION | DISCHARGE | GEOSCIENCES, MULTIDISCIPLINARY | MODELS | DATA ASSIMILATION SYSTEM | CHINA | RESOLUTION | GLOBAL PRECIPITATION | WATER RESOURCES | OPTIMIZATION | SATELLITE PRECIPITATION RETRIEVALS | GAUGE | Usage | Neural networks | Environmental aspects | Climatic changes | Observations | Rain and rainfall | Streamflow | ENVIRONMENTAL SCIENCES
INTERPOLATION | DISCHARGE | GEOSCIENCES, MULTIDISCIPLINARY | MODELS | DATA ASSIMILATION SYSTEM | CHINA | RESOLUTION | GLOBAL PRECIPITATION | WATER RESOURCES | OPTIMIZATION | SATELLITE PRECIPITATION RETRIEVALS | GAUGE | Usage | Neural networks | Environmental aspects | Climatic changes | Observations | Rain and rainfall | Streamflow | ENVIRONMENTAL SCIENCES
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Loading RightsWater Resources Research, ISSN 0043-1397, 12/2016, Volume 52, Issue 12, pp. 9511 - 9521
The performance of a nonlinear formulation of the complementary principle for evaporation estimation was investigated in 241 catchments with different climate...
evaporation | complementary principle | BALANCE APPROACH | ENVIRONMENTAL SCIENCES | ADVECTION-ARIDITY MODEL | EVAPOTRANSPIRATION | SURFACE | WATER RESOURCES | LIMNOLOGY | HYDROLOGY | WATER | FOREST | Estimates | Water | Climate | Methodology | Catchments | Regional analysis | Monsoons | Evaporation | Water balance | Aridity index | Calibration | Catchment areas | Coastal zone | Environments | Analogs | Meteorological data | Mathematical analysis | Catchment area | Aridity | Evaporation estimation | Nonlinearity | Mathematical models | Drying
evaporation | complementary principle | BALANCE APPROACH | ENVIRONMENTAL SCIENCES | ADVECTION-ARIDITY MODEL | EVAPOTRANSPIRATION | SURFACE | WATER RESOURCES | LIMNOLOGY | HYDROLOGY | WATER | FOREST | Estimates | Water | Climate | Methodology | Catchments | Regional analysis | Monsoons | Evaporation | Water balance | Aridity index | Calibration | Catchment areas | Coastal zone | Environments | Analogs | Meteorological data | Mathematical analysis | Catchment area | Aridity | Evaporation estimation | Nonlinearity | Mathematical models | Drying
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Loading RightsREMOTE SENSING, ISSN 2072-4292, 08/2018, Volume 10, Issue 8, p. 1316
The sparse rain gauge networks over the Tibetan Plateau (TP) cause challenges for hydrological studies and applications. Satellite-based precipitation datasets...
STREAMFLOW SIMULATIONS | DISTRIBUTED HYDROLOGICAL MODEL | WEATHER RADAR | precipitation datasets | MOUNTAINOUS BASINS | PASSIVE MICROWAVE | remote sensing | YANGTZE-RIVER | ANALYSIS TMPA | ERROR PROPAGATION | Tibetan Plateau | satellite precipitation | SENSITIVITY-ANALYSIS | RAINFALL | hydrological models | Temporal distribution | Stream flow | Parameter estimation | Snow | Water runoff | Consistency | Pixels | Remote sensing | Gauges | Hydrologic cycle | Precipitation | Water storage | Rain | Accuracy | Topography | Hydrologic models | Evaluation | Sensitivity analysis | Computer simulation | Soil moisture | Stream discharge | Rainfall | Evaporation | Calibration | Rivers | River basins | Estimates | Hydrology | Hydrologic data | Satellites | Runoff | Data sets | Vegetation
STREAMFLOW SIMULATIONS | DISTRIBUTED HYDROLOGICAL MODEL | WEATHER RADAR | precipitation datasets | MOUNTAINOUS BASINS | PASSIVE MICROWAVE | remote sensing | YANGTZE-RIVER | ANALYSIS TMPA | ERROR PROPAGATION | Tibetan Plateau | satellite precipitation | SENSITIVITY-ANALYSIS | RAINFALL | hydrological models | Temporal distribution | Stream flow | Parameter estimation | Snow | Water runoff | Consistency | Pixels | Remote sensing | Gauges | Hydrologic cycle | Precipitation | Water storage | Rain | Accuracy | Topography | Hydrologic models | Evaluation | Sensitivity analysis | Computer simulation | Soil moisture | Stream discharge | Rainfall | Evaporation | Calibration | Rivers | River basins | Estimates | Hydrology | Hydrologic data | Satellites | Runoff | Data sets | Vegetation
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Loading RightsWater Resources Research, ISSN 0043-1397, 12/2016, Volume 52, Issue 12, pp. 9511 - 9521
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Loading RightsJournal of Hydrology, ISSN 0022-1694, 11/2018, Volume 566, pp. 743 - 755
Accurate quantification of large-scale evapotranspiration (ET) has an important scientific and practical significance. In this study, three global...
Uncertainty | Water balance | China | Evapotranspiration | Assessment | PERFORMANCE | WATER RESOURCES | WATER-BALANCE METHOD | MODEL | TERRESTRIAL EVAPOTRANSPIRATION | MODIS | GRACE SATELLITES | EVAPORATION | ENGINEERING, CIVIL | GEOSCIENCES, MULTIDISCIPLINARY | BASIN-SCALE EVAPOTRANSPIRATION | LAND EVAPOTRANSPIRATION | CLIMATE | Water balance (Hydrology) | Hydrologic cycle
Uncertainty | Water balance | China | Evapotranspiration | Assessment | PERFORMANCE | WATER RESOURCES | WATER-BALANCE METHOD | MODEL | TERRESTRIAL EVAPOTRANSPIRATION | MODIS | GRACE SATELLITES | EVAPORATION | ENGINEERING, CIVIL | GEOSCIENCES, MULTIDISCIPLINARY | BASIN-SCALE EVAPOTRANSPIRATION | LAND EVAPOTRANSPIRATION | CLIMATE | Water balance (Hydrology) | Hydrologic cycle
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Loading RightsHydrological Processes, ISSN 0885-6087, 12/2013, Volume 27, Issue 26, pp. 3941 - 3948
Reference evapotranspiration (ET0) is an important element in the water cycle that integrates atmospheric demands and surface conditions, and analysis of...
reference evapotranspiration | Northwest China | wind speed | surface air temperature | Reference evapotranspiration | Surface air temperature | Wind speed | PENMAN-MONTEITH | SOLAR-RADIATION | WATER RESOURCES | PAN EVAPORATION | POTENTIAL EVAPOTRANSPIRATION | BALANCE
reference evapotranspiration | Northwest China | wind speed | surface air temperature | Reference evapotranspiration | Surface air temperature | Wind speed | PENMAN-MONTEITH | SOLAR-RADIATION | WATER RESOURCES | PAN EVAPORATION | POTENTIAL EVAPOTRANSPIRATION | BALANCE
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Loading RightsHydrological Processes, ISSN 0885-6087, 09/2019
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Loading RightsJournal of Geophysical Research: Atmospheres, ISSN 2169-897X, 10/2016, Volume 121, Issue 20, pp. 12,180 - 12,197
The Global Land Data Assimilation System (GLDAS) project estimates long‐term runoff based on land surface models (LSMs) and provides a potential way to solve...
Tibetan Plateau | streamflow simulation | land surface model | model evaluation | GLDAS | UNITED-STATES | MISSISSIPPI RIVER-BASIN | GLOBAL VEGETATION MODELS | SOIL-MOISTURE | WATER-BALANCE | COMMUNITY CLIMATE MODEL | BASEFLOW SEPARATION | DATA ASSIMILATION SYSTEM | GENERAL-CIRCULATION MODELS | HYDROLOGICAL MODELS | METEOROLOGY & ATMOSPHERIC SCIENCES | Stream flow | Simulation | Runoff | River basins | Parametrization | Mosaics | Partitioning | Computer simulation | Water runoff | Land
Tibetan Plateau | streamflow simulation | land surface model | model evaluation | GLDAS | UNITED-STATES | MISSISSIPPI RIVER-BASIN | GLOBAL VEGETATION MODELS | SOIL-MOISTURE | WATER-BALANCE | COMMUNITY CLIMATE MODEL | BASEFLOW SEPARATION | DATA ASSIMILATION SYSTEM | GENERAL-CIRCULATION MODELS | HYDROLOGICAL MODELS | METEOROLOGY & ATMOSPHERIC SCIENCES | Stream flow | Simulation | Runoff | River basins | Parametrization | Mosaics | Partitioning | Computer simulation | Water runoff | Land
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Loading RightsJournal of Geophysical Research: Atmospheres, ISSN 0148-0227, 03/2012, Volume 117, Issue D6, p. n/a
The Danjiangkou Reservoir is the headwater source of the central route of China's South to North Water Diversion Project (SNWDP). Average annual streamflow...
China's south to north water diversion project | climatic variation | human activities | streamflow | UNITED-STATES | VARIABILITY | RIVER-BASIN | IMPACT | PRECIPITATION | MISSISSIPPI RIVER | LAND-USE | PAN EVAPORATION | RUNOFF | METEOROLOGY & ATMOSPHERIC SCIENCES | TRENDS | Hydrology | Climate | Precipitation | Stream flow | Water supply
China's south to north water diversion project | climatic variation | human activities | streamflow | UNITED-STATES | VARIABILITY | RIVER-BASIN | IMPACT | PRECIPITATION | MISSISSIPPI RIVER | LAND-USE | PAN EVAPORATION | RUNOFF | METEOROLOGY & ATMOSPHERIC SCIENCES | TRENDS | Hydrology | Climate | Precipitation | Stream flow | Water supply
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Loading RightsJournal of Water Resources Planning and Management, ISSN 0733-9496, 02/2020, Volume 146, Issue 2
AbstractHydropower release decision making relies on multisource information, such as climate conditions, downstream water quality, inflow and storage,...
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Loading RightsJournal of Hydrometeorology, ISSN 1525-755X, 3/2016, Volume 17, Issue 3, pp. 811 - 828
In this study, hydrological drought in the Yangtze River basin (YRB) is characterized based on Gravity Recovery and Climate Experiment (GRACE) total water...
ARTICLES | Hydrology | Physical Meteorology and Climatology | Hydrometeorology | ANOMALIES | DEPLETION | CHALLENGES | VARIABILITY | CLIMATE EXPERIMENT | MASS | EXTREMES | 3 GORGES DAM | GRAVITY RECOVERY | WATER STORAGE CHANGES | METEOROLOGY & ATMOSPHERIC SCIENCES | Geography | Laboratories | Spatial discrimination | High temperature | Recovery | Remote sensing | Limnology | Water storage | Precipitation | Droughts | High temperatures | Hydraulic engineering | Trends | Drought | Water shortages | Gravity | Distribution functions | Evaluation | Hydrologic studies | Time series | Artificial neural networks | Rainfall | Rivers | Recovery time | River basins | Hydrologic drought | Studies | Climate change | Hydrologic data | Neural networks | Storage conditions | Surface water | GRACE (experiment)
ARTICLES | Hydrology | Physical Meteorology and Climatology | Hydrometeorology | ANOMALIES | DEPLETION | CHALLENGES | VARIABILITY | CLIMATE EXPERIMENT | MASS | EXTREMES | 3 GORGES DAM | GRAVITY RECOVERY | WATER STORAGE CHANGES | METEOROLOGY & ATMOSPHERIC SCIENCES | Geography | Laboratories | Spatial discrimination | High temperature | Recovery | Remote sensing | Limnology | Water storage | Precipitation | Droughts | High temperatures | Hydraulic engineering | Trends | Drought | Water shortages | Gravity | Distribution functions | Evaluation | Hydrologic studies | Time series | Artificial neural networks | Rainfall | Rivers | Recovery time | River basins | Hydrologic drought | Studies | Climate change | Hydrologic data | Neural networks | Storage conditions | Surface water | GRACE (experiment)
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Loading RightsJournal of Geophysical Research: Atmospheres, ISSN 0148-0227, 12/2009, Volume 114, Issue D24, p. n/a
In many places around the world, panevaporation has been detected to decrease with the increase in temperature, which is known as the “panevaporation paradox.”...
Haihe River Basin | reference evapotranspiration | panevaporation trend | UNITED-STATES | PENMAN-MONTEITH | PAN EVAPORATION TRENDS | SENSITIVITY-ANALYSIS | REFERENCE EVAPOTRANSPIRATION | VARIABLES | DRY | MODEL | METEOROLOGY & ATMOSPHERIC SCIENCES | Earth | Climate change | Hydrology | Regions | Atmospheric sciences | Evapotranspiration | Climate | Wind speed | Vapor pressure | Derivatives | Trends | Solar radiation | Paradoxes | River basins
Haihe River Basin | reference evapotranspiration | panevaporation trend | UNITED-STATES | PENMAN-MONTEITH | PAN EVAPORATION TRENDS | SENSITIVITY-ANALYSIS | REFERENCE EVAPOTRANSPIRATION | VARIABLES | DRY | MODEL | METEOROLOGY & ATMOSPHERIC SCIENCES | Earth | Climate change | Hydrology | Regions | Atmospheric sciences | Evapotranspiration | Climate | Wind speed | Vapor pressure | Derivatives | Trends | Solar radiation | Paradoxes | River basins
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Loading RightsJournal of Hydrology, ISSN 0022-1694, 02/2018, Volume 557, pp. 291 - 304
Hydrological model parameters are typically calibrated by observed streamflow data. This calibration strategy is questioned when the simulated hydrological...
Parameterization | Hydrological simulations | GRACE | Hydrological model | MISSISSIPPI RIVER-BASIN | SMOS SOIL-MOISTURE | PARAMETER-ESTIMATION | UNGAUGED BASINS | WATER RESOURCES | PROCESS REPRESENTATION | ENGINEERING, CIVIL | GEOSCIENCES, MULTIDISCIPLINARY | CLIMATE EXPERIMENT | LAND-SURFACE MODEL | WATER STORAGE DATA | GRAVITY RECOVERY | DATA ASSIMILATION | Water balance (Hydrology) | Hydrologic cycle | Hydrology | Runoff | Analysis | Models | Streamflow
Parameterization | Hydrological simulations | GRACE | Hydrological model | MISSISSIPPI RIVER-BASIN | SMOS SOIL-MOISTURE | PARAMETER-ESTIMATION | UNGAUGED BASINS | WATER RESOURCES | PROCESS REPRESENTATION | ENGINEERING, CIVIL | GEOSCIENCES, MULTIDISCIPLINARY | CLIMATE EXPERIMENT | LAND-SURFACE MODEL | WATER STORAGE DATA | GRAVITY RECOVERY | DATA ASSIMILATION | Water balance (Hydrology) | Hydrologic cycle | Hydrology | Runoff | Analysis | Models | Streamflow
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