TY - JOUR
T1 - A multi-objective optimization approach for harnessing rainwater in changing climate
AU - Meng, Ling Yu
AU - Tian, Zhan
AU - Fan, Dong Li
AU - van de Ven, Frans H.M.
AU - Sun, Laixiang
AU - Ye, Qing Hua
AU - Sun, San Xiang
AU - Liu, Jun Guo
AU - Nougues, Laura
AU - Rooze, Daan
PY - 2024
Y1 - 2024
N2 - As the world grapples with the profound impacts of climate change, water scarcity has become a pressing issue. However, there is a shortage of in-depth research on the trade-offs between water resource dependence and the economic, ecological, and social needs of arid and semi-arid regions like Lanzhou, China. Flower cultivation in Lanzhou relies heavily on the Yellow River, often overlooking the potential of natural rainfall. Here we first calibrated a water balance model through artificial precipitation experiments in a Soil and Water Conservation Demonstration Park in Lanzhou. We then developed a multi-objective optimization model to balance the cost-benefit considerations of various plausible measures across economic, ecological, and social dimensions in the searching for solutions that are more adaptable to climate change and local development needs. Model simulations show that the solutions we designed can effectively manage water-shortage days, significantly reduce Yellow River water extraction, and improve cost-effectiveness, meeting 66%–80% of water needs for flower cultivation in the studied park. The findings highlight the potential of rainwater collection and utilization solutions to mitigate water scarcity in arid and semi-arid cities, thereby enriching water resource management.
AB - As the world grapples with the profound impacts of climate change, water scarcity has become a pressing issue. However, there is a shortage of in-depth research on the trade-offs between water resource dependence and the economic, ecological, and social needs of arid and semi-arid regions like Lanzhou, China. Flower cultivation in Lanzhou relies heavily on the Yellow River, often overlooking the potential of natural rainfall. Here we first calibrated a water balance model through artificial precipitation experiments in a Soil and Water Conservation Demonstration Park in Lanzhou. We then developed a multi-objective optimization model to balance the cost-benefit considerations of various plausible measures across economic, ecological, and social dimensions in the searching for solutions that are more adaptable to climate change and local development needs. Model simulations show that the solutions we designed can effectively manage water-shortage days, significantly reduce Yellow River water extraction, and improve cost-effectiveness, meeting 66%–80% of water needs for flower cultivation in the studied park. The findings highlight the potential of rainwater collection and utilization solutions to mitigate water scarcity in arid and semi-arid cities, thereby enriching water resource management.
KW - Arid and semi-arid regions
KW - Climate change adaptation
KW - Multi-objective decision making
KW - Rainwater harvesting
KW - Rainwater resource utilization
UR - http://www.scopus.com/inward/record.url?scp=85202971803&partnerID=8YFLogxK
U2 - 10.1016/j.accre.2024.08.006
DO - 10.1016/j.accre.2024.08.006
M3 - Article
AN - SCOPUS:85202971803
SN - 1674-9278
JO - Advances in Climate Change Research
JF - Advances in Climate Change Research
ER -