Evaluating Strategies to Improve Water Availability and Lateral Root Growth of Plants Grown in the Rice-Growing Lowlands of the Lower Mekong Basin
Carlos Ballester,
John Hornbuckle,
Thavone Inthavong,
Vanndy Lim,
Jeffrey McCormick,
Anika Molesworth,
Chantha Oeurng,
Wendy Quayle,
Vang Seng,
Pheng Sengxua,
Vorachith Sihathep,
Veasna Touch,
Camilla Vote,
Philip Eberbach
Affiliations
Carlos Ballester
Centre for Regional and Rural Futures (CeRRF), Deakin University, Research Station Road, Griffith, NSW 2680, Australia
John Hornbuckle
Centre for Regional and Rural Futures (CeRRF), Deakin University, Research Station Road, Griffith, NSW 2680, Australia
Thavone Inthavong
Research Centre for Climate Change Resilience in Agriculture, National Agriculture and Forestry Research Institute, Nongviengkham Village, Xaythany District, Vientiane 0106, Laos
Vanndy Lim
Cambodian Agricultural Research and Development Institute (CARDI), National Road No 3, Sangkat Prateah Lang, Khan Kambol, Phnom Penh 12000, Cambodia
Jeffrey McCormick
School of Agricultural and Wine Sciences, Charles Sturt University, Locked Bag 588, Wagga Wagga, NSW 2678, Australia
Anika Molesworth
Centre for Regional and Rural Futures (CeRRF), Deakin University, Research Station Road, Griffith, NSW 2680, Australia
Chantha Oeurng
Institute of Technology of Cambodia (ITC), Russian Conf. Blvd., Phnom Penh 12000, Cambodia
Wendy Quayle
Centre for Regional and Rural Futures (CeRRF), Deakin University, Research Station Road, Griffith, NSW 2680, Australia
Vang Seng
Department of Agricultural Land Resources Management, General Directorate of Agriculture, No. 54B/49F, Street 395-656, Toeuk Laak 3, Tuol Kork, Phnom Penh 12158, Cambodia
Pheng Sengxua
Agricultural Land Use Planning Centre, Department of Agricultural Land Management, Ministry of Agriculture and Forestry, Vientiane 0101, Laos
Vorachith Sihathep
Phone Ngam Rice Research and Seed Multiplication Centre, Pakse 1600, Laos
Veasna Touch
Cambodian Agricultural Research and Development Institute (CARDI), National Road No 3, Sangkat Prateah Lang, Khan Kambol, Phnom Penh 12000, Cambodia
Camilla Vote
Graham Centre for Agricultural Innovation, Charles Sturt University, Pugsley Ave, Wagga Wagga, NSW 2678, Australia
Philip Eberbach
Graham Centre for Agricultural Innovation, Charles Sturt University, Pugsley Ave, Wagga Wagga, NSW 2678, Australia
Overcoming constraints that poorly structured lowland rice-growing soils of the Lower Mekong River Basin present for growing non-rice crops during the dry season would have a significant positive impact on the livelihood of smallholder farmers. This study investigated whether the use of soil organic amendments, bed architecture (conventional, flat and narrow) and water application methods (sprinkler, furrow and over-bed irrigation) could improve plant water availability in typical rice-growing soils of Cambodia and Laos by either improving the movement of water into beds or the growth of the root system. Five experiments were conducted over two dry seasons on peanut and maize grown in a bed/furrow system. Organic amendments assessed were rice straw, cow/goat manure, biochar, manure plus rice straw and biochar plus manure. Results showed that compared with conventional bed/furrow design, narrowing beds increased soil moisture availability for peanut, whilst higher grain yield and water productivity were achieved with sprinkler irrigation than furrow irrigation. Placing a layer of sub-surface straw within beds did not consistently enhance soil moisture or improve root development. The study showed that maize grown on soil amended with biochar plus cow manure under a furrow irrigation system and on rice straw under sprinkler irrigation produced yields above the average yield that models have simulated for maize grown on these soils. These findings present opportunities to enhance maize production on lowland soils across Cambodia and Laos. The contrary was observed for peanut production, which indicates that factors other than water might be detrimentally affecting crop yields.
