Irrigation in the Earth system
暂无分享,去创建一个
S. Seneviratne | B. Cook | R. Mahmood | J. Keune | Fei Chen | W. Dorigo | L. Brocca | N. Mueller | J. Polcher | T. Yokohata | J. Santanello | N. Hanasaki | Y. Wada | J. Jägermeyr | P. Vahmani | D. Niyogi | V. Mishra | L. Zappa | C. Massari | L. Chen | D. Lombardozzi | Deepti Singh | W. Thiery | M. Lo | Yi Yao | Y. Pokhrel | D. Ryu | Y. Satoh | L. Sloat | S. Jasechko | Sam S. Rabin | M. Nocco | A. Jones | Andrew Bell | S. McDermid | Hyungjun Kim | Meha Jain | Patricia Lawston-Parker
[1] Intergovernmental Panel on Climate Change. Climate Change 2021 – The Physical Science Basis , 2023 .
[2] Dr. Kirstin K. Holsman. Climate Change 2022 – Impacts, Adaptation and Vulnerability , 2023 .
[3] S. Ricci,et al. Implementation and sensitivity analysis of the Dam-Reservoir OPeration model (DROP v1.0) over Spain , 2023, Geoscientific Model Development.
[4] C. Albergel,et al. Implementation of a new crop phenology and irrigation scheme in the ISBA land surface model using SURFEX_v8.1 , 2022, Geoscientific Model Development.
[5] D. Lawrence,et al. Implementation and Evaluation of Irrigation Techniques in the Community Land Model , 2022, Journal of Advances in Modeling Earth Systems.
[6] J. Abatzoglou,et al. Snowmelt risk telecouplings for irrigated agriculture , 2022, Nature Climate Change.
[7] F. Chéruy,et al. The Role of Irrigation Expansion on Historical Climate Change: Insights From CMIP6 , 2022, Earth's Future.
[8] D. Ryu,et al. Possible Increase of Air Temperature by Irrigation , 2022, Geophysical Research Letters.
[9] G. Lannoy,et al. Challenges and benefits of quantifying irrigation through the assimilation of Sentinel-1 backscatter observations into Noah-MP , 2022, Hydrology and Earth System Sciences.
[10] Jens A. de Bruijn,et al. Coupling a large-scale hydrological model (CWatM v1.1) with a high-resolution groundwater flow model (MODFLOW 6) to assess the impact of irrigation at regional scale , 2022, Geoscientific Model Development.
[11] W. Dorigo,et al. How accurately can we retrieve irrigation timing and water amounts from (satellite) soil moisture? , 2022, Int. J. Appl. Earth Obs. Geoinformation.
[12] Zhenzhong Zeng,et al. How does irrigation alter the water, carbon, and nitrogen budgets in a large endorheic river basin? , 2022, Journal of Hydrology.
[13] A. Mondal,et al. Limited influence of irrigation on pre-monsoon heat stress in the Indo-Gangetic Plain , 2022, Nature Communications.
[14] Qisheng Feng,et al. Optimizing Wheat Yield, Water, and Nitrogen Use Efficiency With Water and Nitrogen Inputs in China: A Synthesis and Life Cycle Assessment , 2022, Frontiers in Plant Science.
[15] A. Porporato,et al. The delusive accuracy of global irrigation water withdrawal estimates , 2022, Nature Communications.
[16] H. Pelgrum,et al. A novel evapotranspiration based irrigation quantification method using the hydrological similar pixels algorithm , 2022, Agricultural Water Management.
[17] H. Biemans,et al. South Asian agriculture increasingly dependent on meltwater and groundwater , 2022, Nature Climate Change.
[18] Ximing Cai,et al. Domestic Groundwater Depletion Supports China's Full Supply Chains , 2022, Water Resources Research.
[19] T. Oki,et al. Irrigated cropland expansion exacerbates the urban moist heat stress in northern India , 2022, Environmental Research Letters.
[20] S. Seneviratne,et al. Agricultural management effects on mean and extreme temperature trends , 2022, Earth System Dynamics.
[21] B. Lankford,et al. Large variations in global irrigation withdrawals caused by uncertain irrigation efficiencies , 2022, Environmental Research Letters.
[22] V. Larson,et al. Representing surface heterogeneity in land-atmosphere coupling in E3SMv1 single-column model over ARM SGP during summertime , 2022, Geoscientific Model Development.
[23] L. Brocca,et al. Double-scale analysis on the detectability of irrigation signals from remote sensing soil moisture over an area with complex topography in central Italy , 2022, Advances in Water Resources.
[24] L. Leung,et al. Representing Global Soil Erosion and Sediment Flux in Earth System Models , 2021, Journal of Advances in Modeling Earth Systems.
[25] Atul K. Jain,et al. Climate impacts on global agriculture emerge earlier in new generation of climate and crop models , 2021, Nature Food.
[26] Gabrielle J. M. De Lannoy,et al. A Review of Irrigation Information Retrievals from Space and Their Utility for Users , 2021, Remote. Sens..
[27] R. Mahmood,et al. Minimizing trade-offs for sustainable irrigation , 2021, Nature Geoscience.
[28] S. Kanae,et al. Toward hyper-resolution global hydrological models including human activities: application to Kyushu Island, Japan , 2021, Hydrology and Earth System Sciences.
[29] Zeno F. Levy,et al. Critical Aquifer Overdraft Accelerates Degradation of Groundwater Quality in California's Central Valley During Drought , 2021, Geophysical Research Letters.
[30] N. Hanasaki,et al. Global bioenergy with carbon capture and storage potential is largely constrained by sustainable irrigation , 2021, Nature Sustainability.
[31] Hanan G. Jacoby,et al. Efficient Irrigation and Water Conservation , 2021 .
[32] Y. Wada,et al. Intense agricultural irrigation induced contrasting precipitation changes in Saudi Arabia , 2021, Environmental Research Letters.
[33] P. S. Brahmanand,et al. Sustainable intensification for a larger global rice bowl , 2021, Nature Communications.
[34] V. Mishra,et al. Causes and implications of groundwater depletion in India: A review , 2021 .
[35] R. Vautard,et al. Pathways and pitfalls in extreme event attribution , 2021, Climatic Change.
[36] Claas Nendel,et al. Detection and Quantification of Irrigation Water Amounts at 500 m Using Sentinel-1 Surface Soil Moisture , 2021, Remote. Sens..
[37] Andrew D. Jones,et al. Will Anthropogenic Warming Increase Evapotranspiration? Examining Irrigation Water Demand Implications of Climate Change in California , 2021, Earth's Future.
[38] D. Gerten,et al. Global scenarios of irrigation water abstractions for bioenergy production: a systematic review , 2021 .
[39] Hong Xuan Do,et al. Globally observed trends in mean and extreme river flow attributed to climate change , 2021, Science.
[40] D. Lawrence,et al. Simulating the Impact of Global Reservoir Expansion on the Present‐Day Climate , 2021, Journal of Geophysical Research: Atmospheres.
[41] P. Ciais,et al. Global irrigation contribution to wheat and maize yield , 2021, Nature Communications.
[42] Balwinder-Singh,et al. Groundwater depletion will reduce cropping intensity in India , 2021, Science Advances.
[43] T. Harter,et al. Effect of Groundwater Age and Recharge Source on Nitrate Concentrations in Domestic Wells in the San Joaquin Valley. , 2021, Environmental science & technology.
[44] I. Daliakopoulos,et al. Long-term monitoring of soil bulk density and erosion rates in two Prunus Persica (L) plantations under flood irrigation and glyphosate herbicide treatment in La Ribera district, Spain. , 2021, Journal of environmental management.
[45] T. Stacke,et al. Global terrestrial water storage and drought severity under climate change , 2021, Nature Climate Change.
[46] G. Moore,et al. Anomalous collapses of Nares Strait ice arches leads to enhanced export of Arctic sea ice , 2021, Nature communications.
[47] D. Lawrence,et al. A machine learning approach to emulation and biophysical parameter estimation with the Community Land Model, version 5 , 2020, Advances in Statistical Climatology, Meteorology and Oceanography.
[48] Red Willow Coleman,et al. Comparison of Thermal Infrared-Derived Maps of Irrigated and Non-Irrigated Vegetation in Urban and Non-Urban Areas of Southern California , 2020, Remote. Sens..
[49] T. Rahman,et al. Multi-level determinants of crop choice to water stress in smallholder irrigation system of Central Nepal , 2020, Climate and Development.
[50] D. Lawrence,et al. Representing Intercell Lateral Groundwater Flow and Aquifer Pumping in the Community Land Model , 2020, Water Resources Research.
[51] R. Lecerf,et al. Narrowing uncertainties in the effects of elevated CO2 on crops , 2020, Nature Food.
[52] A. Anctil,et al. Trends in Water Use, Energy Consumption, and Carbon Emissions from Irrigation: Role of Shifting Technologies and Energy Sources. , 2020, Environmental science & technology.
[53] K. Calvin,et al. Harmonization of global land use change and management for the period 850–2100 (LUH2) for CMIP6 , 2020, Geoscientific Model Development.
[54] I. Fung,et al. Potential for sustainable irrigation expansion in a 3 °C warmer climate , 2020, Proceedings of the National Academy of Sciences.
[55] J. Venot,et al. A scale-based framework to understand the promises, pitfalls and paradoxes of irrigation efficiency to meet major water challenges , 2020, Global Environmental Change.
[56] M. Huber,et al. Moist heat stress extremes in India enhanced by irrigation , 2020, Nature Geoscience.
[57] O. Naidenko,et al. Health and economic impact of nitrate pollution in drinking water: a Wisconsin case study , 2020, Environmental Monitoring and Assessment.
[58] R. B. Jackson,et al. Peak grain forecasts for the US High Plains amid withering waters , 2020, Proceedings of the National Academy of Sciences.
[59] L. Leung,et al. Global Irrigation Characteristics and Effects Simulated by Fully Coupled Land Surface, River, and Water Management Models in E3SM , 2020, Journal of Advances in Modeling Earth Systems.
[60] W. Lucht,et al. Irrigation of biomass plantations may globally increase water stress more than climate change , 2020, Nature Communications.
[61] Xuesong Zhang,et al. Effects of Irrigation on Water, Carbon, and Nitrogen Budgets in a Semiarid Watershed in the Pacific Northwest: A Modeling Study , 2020, Journal of Advances in Modeling Earth Systems.
[62] R. Myneni,et al. Attribution of Land‐Use/Land‐Cover Change Induced Surface Temperature Anomaly: How Accurate Is the First‐Order Taylor Series Expansion? , 2020, Journal of Geophysical Research: Biogeosciences.
[63] B. Cook,et al. Effect of irrigation on humid heat extremes , 2020, Environmental Research Letters.
[64] Luca Brocca,et al. Exploiting High-Resolution Remote Sensing Soil Moisture to Estimate Irrigation Water Amounts over a Mediterranean Region , 2020, Remote. Sens..
[65] P. Döll,et al. The global water resources and use model WaterGAP v2.2d: model description and evaluation , 2020, Geoscientific Model Development.
[66] R. Seager,et al. Divergent Regional Climate Consequences of Maintaining Current Irrigation Rates in the 21st Century , 2020, Journal of Geophysical Research: Atmospheres.
[67] A. Ducharne,et al. Divergent effects of climate change on future groundwater availability in key mid-latitude aquifers , 2020, Nature Communications.
[68] D. Gerten,et al. Global scenarios of irrigation water use for bioenergy production: a systematic review , 2020 .
[69] Fei Chen,et al. Joint Modeling of Crop and Irrigation in the central United States Using the Noah‐MP Land Surface Model , 2020, Journal of Advances in Modeling Earth Systems.
[70] F. Alcon,et al. Water use indicators and economic analysis for on-farm irrigation decision: A case study of a super high density olive tree orchard , 2020, Agricultural Water Management.
[71] Philip B. Stark,et al. Five ways to ensure that models serve society: a manifesto , 2020, Nature.
[72] N. Diffenbaugh,et al. Attributing Extreme Events to Climate Change: A New Frontier in a Warming World , 2020, One Earth.
[73] P. D’Odorico,et al. Global agricultural economic water scarcity , 2020, Science Advances.
[74] A. Saltelli,et al. Current Models Underestimate Future Irrigated Areas , 2020, Geophysical Research Letters.
[75] J. Jägermeyr. Agriculture's Historic Twin-Challenge Toward Sustainable Water Use and Food Supply for All , 2020, Frontiers in Sustainable Food Systems.
[76] S. Ying,et al. Irrigation and Greenhouse Gas Emissions: A Review of Field-Based Studies , 2020, Soil Systems.
[77] Rosie A. Fisher,et al. Perspectives on the Future of Land Surface Models and the Challenges of Representing Complex Terrestrial Systems , 2020, Journal of Advances in Modeling Earth Systems.
[78] L. Jarlan,et al. Detection of irrigation events on maize plots using sentinel-1 soil moisture products , 2020 .
[79] J. Santanello,et al. Impacts of Irrigation on Summertime Temperatures in the Pacific Northwest , 2020, Earth Interactions.
[80] D. Lawrence,et al. Plant Growth Nullifies the Effect of Increased Water‐Use Efficiency on Streamflow Under Elevated CO2 in the Southeastern United States , 2020, Geophysical Research Letters.
[81] K. Bradbury,et al. Groundwater Model Simulations of Stakeholder‐Identified Scenarios in a High‐Conflict Irrigated Area , 2020, Ground water.
[82] T. Franz,et al. Anthropogenic hydrometeorological changes at a regional scale: observed irrigation–precipitation feedback (1979–2015) in Nebraska, USA , 2020, Sustainable Water Resources Management.
[83] E. Fischer,et al. Warming of hot extremes alleviated by expanding irrigation , 2020, Nature Communications.
[84] Chao Di,et al. U1 snRNP regulates cancer cell migration and invasion in vitro , 2020, Nature Communications.
[85] J. Hopmans. Transdisciplinary soil hydrology , 2020, Vadose Zone Journal.
[86] K. AchutaRao,et al. A modelling exploration of the sensitivity of the India’s climate to irrigation , 2019, Climate Dynamics.
[87] V. Mishra,et al. Observational Evidence of Irrigation Influence on Vegetation Health and Land Surface Temperature in India , 2019, Geophysical Research Letters.
[88] Jeffrey A. Cardille,et al. Mapping three decades of annual irrigation across the US High Plains Aquifer using Landsat and Google Earth Engine , 2019, Remote Sensing of Environment.
[89] A. Ito,et al. MIROC-INTEG1: A global bio-geochemical land surface model with human water management, crop growth, and land-use change , 2019 .
[90] Scientific,et al. The United Nations World Water Development Report 2019 , 2019, The United Nations World Water Development Report.
[91] T. Oki,et al. The Water Planetary Boundary: Interrogation and Revision , 2019, One Earth.
[92] M. Bierkens,et al. Environmental flow limits to global groundwater pumping , 2019, Nature.
[93] Maoyi Huang,et al. Choice of Irrigation Water Management Practice Affects Indian Summer Monsoon Rainfall and Its Extremes , 2019, Geophysical Research Letters.
[94] A. O'Geen,et al. Deep soil inventories reveal that impacts of cover crops and compost on soil carbon sequestration differ in surface and subsurface soils , 2019, Global change biology.
[95] Atul K. Jain,et al. Increased atmospheric vapor pressure deficit reduces global vegetation growth , 2019, Science Advances.
[96] E. Davidson,et al. A World of Cobenefits: Solving the Global Nitrogen Challenge , 2019, Earth's future.
[97] Christopher J Kucharik,et al. Observation of irrigation‐induced climate change in the Midwest United States , 2019, Global change biology.
[98] Julie B. Zimmerman,et al. Flexibility and intensity of global water use , 2019, Nature Sustainability.
[99] K. Guan,et al. Are we approaching a water ceiling to maize yields in the United States? , 2019, Ecosphere.
[100] Keith Beven,et al. Towards a methodology for testing models as hypotheses in the inexact sciences , 2019, Proceedings of the Royal Society A.
[101] F. Comín,et al. Water resources and nitrate discharges in relation to agricultural land uses in an intensively irrigated watershed. , 2019, The Science of the total environment.
[102] J. Famiglietti,et al. Identifying Climate-Induced Groundwater Depletion in GRACE Observations , 2019, Scientific Reports.
[103] R. Mahmood,et al. Irrigation impacts on minimum and maximum surface moist enthalpy in the Central Great Plains of the USA , 2019, Weather and Climate Extremes.
[104] Harsh L. Shah,et al. Strong Influence of Irrigation on Water Budget and Land Surface Temperature in Indian Subcontinental River Basins , 2019, Journal of Geophysical Research: Atmospheres.
[105] Bruno Basso,et al. Addressing Challenges for Mapping Irrigated Fields in Subhumid Temperate Regions by Integrating Remote Sensing and Hydroclimatic Data , 2019, Remote. Sens..
[106] P. Dirmeyer,et al. Global observed and modelled impacts of irrigation on surface temperature , 2019, International Journal of Climatology.
[107] E. Rappin. The Great Plains Irrigation Experiment (GRAINEX) , 2019, Bulletin of the American Meteorological Society.
[108] Nans Addor,et al. Legacy, Rather Than Adequacy, Drives the Selection of Hydrological Models , 2019, Water Resources Research.
[109] D. Lawrence,et al. Utilizing SMAP Soil Moisture Data to Constrain Irrigation in the Community Land Model , 2018, Geophysical Research Letters.
[110] Luca Brocca,et al. How much water is used for irrigation? A new approach exploiting coarse resolution satellite soil moisture products , 2018, Int. J. Appl. Earth Obs. Geoinformation.
[111] B. Cook,et al. Distinct Influences of Land Cover and Land Management on Seasonal Climate , 2018, Journal of geophysical research. Atmospheres : JGR.
[112] K. Frieler,et al. Spatial variations in crop growing seasons pivotal to reproduce global fluctuations in maize and wheat yields , 2018, Science Advances.
[113] D. Tilman,et al. Sustainable intensification of high-diversity biomass production for optimal biofuel benefits , 2018, Nature Sustainability.
[114] H. Malano,et al. Irrigation-Induced Land–Atmosphere Feedbacks and Their Impacts on Indian Summer Monsoon , 2018, Journal of Climate.
[115] S. Hamilton,et al. The greenhouse gas cost of agricultural intensification with groundwater irrigation in a Midwest U.S. row cropping system , 2018, Global change biology.
[116] S. Al-Rubaye. Agricultural Irrigation Pricing: Review of Theories and Practices , 2018, Irrigation and Drainage.
[117] R. Grafton,et al. The paradox of irrigation efficiency , 2018, Science.
[118] Jinming Feng,et al. Simulating the Impacts of Irrigation and Dynamic Vegetation Over the North China Plain on Regional Climate , 2018, Journal of Geophysical Research: Atmospheres.
[119] Martha C. Anderson,et al. Groundwater Withdrawals Under Drought: Reconciling GRACE and Land Surface Models in the United States High Plains Aquifer , 2018, Water Resources Research.
[120] P. Peylin,et al. Assimilation of river discharge in a land surface model to improve estimates of the continental water cycles , 2018, Hydrology and Earth System Sciences.
[121] S. Seneviratne,et al. Potential of global land water recycling to mitigate local temperature extremes , 2018, Earth System Dynamics.
[122] K. Calvin,et al. Integrated human-earth system modeling—state of the science and future directions , 2018, Environmental Research Letters.
[123] A. Swann. Plants and Drought in a Changing Climate , 2018, Current Climate Change Reports.
[124] T. Evans,et al. Exploring the Influence of Smallholders' Perceptions Regarding Water Availability on Crop Choice and Water Allocation Through Socio‐Hydrological Modeling , 2018 .
[125] D. Wang,et al. Agroecosystem tradeoffs associated with conversion to subsurface drip irrigation in organic systems , 2018 .
[126] Andrew E. Suyker,et al. Improving maize growth processes in the community land model: Implementation and evaluation , 2018 .
[127] W. Mauser,et al. A global approach to estimate irrigated areas – a comparison between different data and statistics , 2018 .
[128] J. Szilágyi. Anthropogenic Hydrological Cycle Disturbance at a Regional Scale: State-Wide Evapotranspiration Trends (1979-2015) Across Nebraska, USA , 2018 .
[129] Sujong Jeong,et al. Irrigation enhances local warming with greater nocturnal warming effects than daytime cooling effects , 2018 .
[130] Richard Fuchs,et al. Models meet data: Challenges and opportunities in implementing land management in Earth system models , 2017, Global change biology.
[131] Volker Wulfmeyer,et al. Land–Atmosphere Interactions: The LoCo Perspective , 2017, Bulletin of the American Meteorological Society.
[132] Niels Drost,et al. PCR-GLOBWB 2: a 5 arcmin global hydrological and water resources model , 2017, Geoscientific Model Development.
[133] Jeffrey Sayer,et al. Agriculture production as a major driver of the Earth system exceeding planetary boundaries , 2017 .
[134] A. Ruane,et al. Representing agriculture in Earth System Models: Approaches and priorities for development , 2017, Journal of advances in modeling earth systems.
[135] N. Holbrook,et al. Global Relationships between Cropland Intensification and Summer Temperature Extremes over the Last 50 Years , 2017 .
[136] J. Pal,et al. Deadly heat waves projected in the densely populated agricultural regions of South Asia , 2017, Science Advances.
[137] T. Phillips,et al. Compounding Impacts of Human-Induced Water Stress and Climate Change on Water Availability , 2017, Scientific Reports.
[138] D. Gerten,et al. Reconciling irrigated food production with environmental flows for Sustainable Development Goals implementation , 2017, Nature Communications.
[139] Maoyi Huang,et al. Significant impacts of irrigation water sources and methods on modeling irrigation effects in the ACME Land Model , 2017 .
[140] M. Rodell,et al. Assessment of Irrigation Physics in a Land Surface Modeling Framework using Non-Traditional and Human-Practice Datasets. , 2017, Hydrology and earth system sciences.
[141] Naota Hanasaki,et al. A global hydrological simulation to specify the sources of water used by humans , 2017 .
[142] M. Rodell,et al. Benefits and pitfalls of GRACE data assimilation: A case study of terrestrial water storage depletion in India , 2017, Geophysical research letters.
[143] S. Frolking,et al. The use and re-use of unsustainable groundwater for irrigation: a global budget , 2017 .
[144] B. Linquist,et al. Rice yields and water use under alternate wetting and drying irrigation: A meta-analysis , 2017 .
[145] S. Seneviratne,et al. Can climate‐effective land management reduce regional warming? , 2017 .
[146] S. Seneviratne,et al. Present‐day irrigation mitigates heat extremes , 2017 .
[147] D. Fangueiro,et al. Effect of tillage and water management on GHG emissions from Mediterranean rice growing ecosystems. , 2017 .
[148] B. Wardlow,et al. Remotely sensed high resolution irrigated area mapping in India for 2000 to 2015 , 2016, Scientific Data.
[149] Hoshin Vijai Gupta,et al. Impact of Irrigation over the California Central Valley on Regional Climate , 2016 .
[150] P. Milly,et al. Potential evapotranspiration and continental drying , 2016 .
[151] Carol X. Song,et al. Global Gridded Crop Model evaluation: benchmarking, skills, deficiencies and implications , 2016 .
[152] Andrew D. Jones,et al. The Land Use Model Intercomparison Project (LUMIP) contribution to CMIP6:rationale and experimental design , 2016 .
[153] Ximing Cai,et al. An overview of water reallocation and the barriers to its implementation , 2016 .
[154] Rachel E. Paul,et al. Intensifying drought eliminates the expected benefits of elevated carbon dioxide for soybean , 2016, Nature Plants.
[155] Patrick S. Ward,et al. Increased water charges improve efficiency and equity in an irrigation system , 2016 .
[156] G. Ban-Weiss,et al. Climatic consequences of adopting drought‐tolerant vegetation over Los Angeles as a response to California drought , 2016 .
[157] B. Das,et al. Greenhouse gas emission from direct seeded paddy fields under different soil water potentials in Eastern India , 2016 .
[158] James S. Famiglietti,et al. Fate of Water Pumped from Underground and Contributions to Sea Level Rise , 2016 .
[159] Hyungjun Kim,et al. Recent progresses in incorporating human land–water management into global land surface models toward their integration into Earth system models , 2016 .
[160] Stefan Hagemann,et al. Asian irrigation, African rain: Remote impacts of irrigation , 2016 .
[161] N. Moore,et al. Effects of Irrigation on Summer Precipitation over the United States , 2016 .
[162] Steffen Fritz,et al. Land management: data availability and process understanding for global change studies , 2016, Global change biology.
[163] N. Holbrook,et al. Cooling of US Midwest summer temperature extremes from cropland intensification , 2016 .
[164] Wolfgang Lucht,et al. Integrated crop water management might sustainably halve the global food gap , 2016 .
[165] S. Postel,et al. Water depletion: An improved metric for incorporating seasonal and dry-year water scarcity into water risk assessments , 2016 .
[166] Matthew F. McCabe,et al. ECOSTRESS: NASA's Next Generation Mission to Measure Evapotranspiration From the International Space Station , 2015, Water Resources Research.
[167] E. Davidson,et al. Managing nitrogen for sustainable development , 2015, Nature.
[168] Elfatih A. B. Eltahir,et al. Rainfall consistently enhanced around the Gezira Scheme in East Africa due to irrigation , 2015 .
[169] Qiuhong Tang,et al. A modeling study of irrigation effects on global surface water and groundwater resources under a changing climate , 2015 .
[170] Naota Hanasaki,et al. Modeling global water use for the 21st century : The Water Futures and Solutions (WFaS) initiative and its approaches , 2015 .
[171] P. Kyle,et al. 21st century United States emissions mitigation could increase water stress more than the climate change it is mitigating , 2015, Proceedings of the National Academy of Sciences.
[172] C. Weaver,et al. Observational Evidence that Great Plains Irrigation Has Enhanced Summer Precipitation Intensity and Totals in the Midwestern United States , 2015 .
[173] Wolfgang Lucht,et al. Water savings potentials of irrigation systems:: global simulation of processes and linkages , 2015 .
[174] M. Roderick,et al. On the assessment of aridity with changes in atmospheric CO2 , 2015 .
[175] S. Pincetl,et al. Are you watering your lawn? , 2015, Science.
[176] A. Franzluebbers,et al. Soil Degradation in India: Challenges and Potential Solutions , 2015 .
[177] R. DeFries,et al. Understanding the causes and consequences of differential decision-making in adaptation research: Adapting to a delayed monsoon onset in Gujarat, India , 2015 .
[178] S. Kanae,et al. Incorporation of groundwater pumping in a global Land Surface Model with the representation of human impacts , 2015 .
[179] Michael J. Puma,et al. Irrigation as an historical climate forcing , 2014, Climate Dynamics.
[180] Petra Döll,et al. A global data set of the extent of irrigated land from 1900 to 2005 , 2014 .
[181] Marc F. P. Bierkens,et al. Sustainability of global water use: past reconstruction and future projections , 2014 .
[182] Terri S. Hogue,et al. Incorporating an Urban Irrigation Module into the Noah Land Surface Model Coupled with an Urban Canopy Model , 2014 .
[183] Howard S. Wheater,et al. On inclusion of water resource management in Earth system models - Part 2: Representation of water supply and allocation and opportunities for improved modeling , 2014 .
[184] H. Wheater,et al. On inclusion of water resource management in Earth system models – Part 1: Problem definition and representation of water demand , 2014 .
[185] C. Müller,et al. The Global Gridded Crop Model Intercomparison: data and modeling protocols for Phase 1 (v1.0) , 2014 .
[186] C. Müller,et al. Constraints and potentials of future irrigation water availability on agricultural production under climate change , 2013, Proceedings of the National Academy of Sciences.
[187] Lara M. Kueppers,et al. Increased heat waves with loss of irrigation in the United States , 2013 .
[188] Juyoung Seo,et al. A record of N2O and CH4 emissions and underlying soil processes of Korean rice paddies as affected by different water management practices , 2013, Biogeochemistry.
[189] M. Bierkens,et al. Global modeling of withdrawal, allocation and consumptive use of surface water and groundwater resources , 2013 .
[190] Naota Hanasaki,et al. A global water scarcity assessment under Shared Socio-economic Pathways – Part 1: Water use , 2012 .
[191] S. Kanae,et al. A global water scarcity assessment under Shared Socio-economic Pathways – Part 2: Water availability and scarcity , 2012 .
[192] Armin Sethna. India (review) , 2012 .
[193] J. Bruinsma,et al. World agriculture towards 2030/2050: the 2012 revision , 2012 .
[194] E. Stehfest,et al. Harmonization of land-use scenarios for the period 1500–2100: 600 years of global gridded annual land-use transitions, wood harvest, and resulting secondary lands , 2011 .
[195] Asad Sarwar Qureshi,et al. Water Management in the Indus Basin in Pakistan: Challenges and Opportunities , 2011 .
[196] Vicki L. Sauter,et al. Implementation and Evaluation , 2011 .
[197] J. Clarke,et al. What is a systematic review? , 2011, Evidence Based Nursing.
[198] M. Rodell,et al. Possible link between irrigation in the U.S. High Plains and increased summer streamflow in the Midwest , 2011 .
[199] Ying Sun,et al. Association between HLA-DRB1 alleles polymorphism and hepatocellular carcinoma: a meta-analysis , 2010, BMC gastroenterology.
[200] Hubert H. G. Savenije,et al. Length and time scales of atmospheric moisture recycling , 2010 .
[201] A. Robock,et al. Large-scale water cycle perturbation due to irrigation pumping in the US High Plains: A synthesis of observed streamflow changes , 2010 .
[202] S. Seneviratne,et al. Investigating soil moisture-climate interactions in a changing climate: A review , 2010 .
[203] Petra Döll,et al. Quantifying blue and green virtual water contents in global crop production as well as potential production losses without irrigation , 2010 .
[204] Changsheng Li,et al. Bi-criteria evaluation of the MIKE SHE model for a forested watershed on the South Carolina coastal plain , 2010 .
[205] Andreas Schumann,et al. Global irrigation water demand: Variability and uncertainties arising from agricultural and climate data sets , 2008 .
[206] R. Escorpizo,et al. Challenges and Opportunities , 1999, Deep Eutectic Solvents for Pretreatment of Lignocellulosic Biomass.
[207] Petra Döll,et al. Development and validation of the global map of irrigation areas , 2005 .
[208] D. Lawrence,et al. Regions of Strong Coupling Between Soil Moisture and Precipitation , 2004, Science.
[209] B. Dollery,et al. Water markets as a vehicle for reforming water resource allocation in the Murray‐Darling Basin of Australia , 2004 .
[210] Bertolt Brecht. The manifesto , 2002 .
[211] D. R. Nielsen,et al. Irrigation of Agricultural Crops , 1990 .
[212] D. Lobell,et al. The impact of groundwater depletion on agricultural production in India , 2021, Environmental Research Letters.
[213] R. Mahmood,et al. Influence of Irrigation on Diurnal Mesoscale Circulations: Results From GRAINEX , 2021 .
[214] Ronnie Abolafia-Rosenzweig,et al. Evaluation of SMAP/Sentinel 1 High-Resolution Soil Moisture Data to Detect Irrigation Over Agricultural Domain , 2021, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.
[215] H. Roth,et al. Water Use , 2021, The Green Building Materials Manual.
[216] Lifeng Luo,et al. Detecting irrigation extent, frequency, and timing in a heterogeneous arid agricultural region using MODIS time series, Landsat imagery, and ancillary data , 2018 .
[217] Kirsten,et al. The LoCo Perspective , 2018 .
[218] T. McVicar,et al. Hydrologic implications of vegetation response to elevated CO2 in climate projections , 2018, Nature Climate Change.
[219] J. Eom,et al. The Shared Socioeconomic Pathways and their energy, land use, and greenhouse gas emissions implications: An overview , 2017 .
[220] B. Edited,et al. The California nitrogen assessment: challenges and solutions for people, agriculture, and the environment. , 2016 .
[221] Luyssaert,et al. Land management : data availability and process understanding for global change studies , 2016 .
[222] S. Maris,et al. Influence of irrigation frequency on greenhouse gases emission from a paddy soil , 2015, Paddy and Water Environment.
[223] C. Vörösmarty,et al. Reconstructing 20 th century global hydrography : a contribution to the Global Terrestrial Network-Hydrology ( GTN-H ) , 2010 .
[224] A. McNeill,et al. Nitrogen in rainfed and irrigated cropping systems in the Mediterranean region. , 2009 .
[225] Yang Wei-we. A Review on , 2008 .
[226] Robert P. Dick,et al. CHALLENGES AND POTENTIAL SOLUTIONS , 2006 .
[227] An Overview of the , 2001 .
[228] J. D. Wallace. Global budget. , 1973, Canadian Medical Association journal.