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- Water footprints and crop water use of 175 individual crops . . . - Nature
To provide an update and methodological enhancement of existing WF datasets, we apply a global process-based crop model to quantify consumptive WFs of 175 individual crops at a 5 arcminute
- Evolution of global water footprints of crop production in 1990–2019
In this study, we provide the first detailed analysis of the new WF dataset by Mialyk et al [23] focusing on recent trends in crop WFs and underlying physical and socio-economic drivers We start by describing global trends in consumptive unit WFs of crops (uWF) and WFs of crop production (pWF)
- Oleksandr Mialyk - Google Scholar
Deficit Irrigation Toolbox: A new tool to improve crop water productivity and food security under limited water resources Complementary strengths of water footprint and life cycle assessments in
- Historical simulation of maize water footprints with a new global . . .
Historical simulation of maize water footprints with a new global gridded crop model ACEA Oleksandr Mialyk, Joep F Schyns, Martijn J Booij, and Rick J Hogeboom
- Oleksandr Mialyk - University of Twente Research Information
Since childhood, I’ve been closely connected to farming and water management The passion for both topics eventually brought me to the University of Twente, where I am researching complex cross-disciplinary interactions between global water resources, agrifood systems, climate change, and society
- Water footprints and crop water use of 175 individual crops for 1990 . . .
To provide an update and methodological enhancement of existing WF datasets, we apply a global process-based crop model to quantify consumptive WFs of 175 individual crops at a 5 arcminute resolution over the 1990–2019 period
- Evolution of global water footprints of crop - ProQuest
Mialyk, Oleksandr 1 ; Booij, Martijn J; Schyns, Joep F; Berger, Markus 1 Multidisciplinary Water Management group, Faculty of Engineering Technology, University of Twente , Enschede, The Netherlands
- Water footprints and crop water use of 175 individual crops for 1990 . . .
To provide an update and methodological enhancement of existing WF datasets, we apply a global process-based crop model to quantify consumptive WFs of 175 individual crops at a 5 arcminute
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