@article { author = {Coles, Neil and Stanton, David and Baek, Chun}, title = {A Review on Surface Enhanced Experimental Catchments to Improve Farm Water Security and Resilience in a Drying Climate in Southwestern Australia}, journal = {Water Productivity Journal}, volume = {1}, number = {3}, pages = {13-24}, year = {2021}, publisher = {Veresk Ettesal}, issn = {2717-3062}, eissn = {2821-1103}, doi = {10.22034/wpj.2021.262528.1021}, abstract = {In this paper, the evolution of runoff enhancement treatments on both natural and artificial (or roaded) catchments used for rainfall harvesting to supply small on-farm dams in south-western Australia is reviewed. Over the last seven decades, various experimental treatments and approaches to enhance water shedding or harvesting techniques have been tested and adapted across this region to account for variations in slope, soil type and rainfall distribution. These adaptations are vital to maintain water harvesting efficiency and water security in a drying climate and enable farmers to continue to produce crops and support livestock effectively while increasing their climate resilience. As such, water security is one of the most important components of any agricultural enterprise. The treatments or sealants evaluated, varied in their capacity, cost, durability or water shedding capability, to provide a robust response to changes experienced in rainfall patterns, their intensity and frequency due to climate change. This review has highlighted the potential to use various surface treatments to increase the water harvesting efficiency from different landscapes in semi-arid or dryland agricultural areas in southwestern Australia.}, keywords = {Artificial Catchments,Australia,Climate Resilience,Dryland Agriculture,Rainfall,water harvesting,Water security}, url = {https://www.waterproductivity.net/article_125908.html}, eprint = {https://www.waterproductivity.net/article_125908_44acc69c0a7b22e845f3e22bb4dd732d.pdf} }