期刊
CHILEAN JOURNAL OF AGRICULTURAL RESEARCH
卷 83, 期 5, 页码 510-524出版社
INST INVESTIGACIONES AGROPECUARIAS - INIA
DOI: 10.4067/S0718-58392023000500510
关键词
Crop yield; plant-growth-promoting bacteria; soil salinity; tolerant rice cultivar; water deficit
The primary risk to rice production is salinity intrusion and water scarcity, resulting in a shortage of irrigation water and reduced yields. This study compares the effects of alternate wetting and drying (AWD) vs. continuous flooding (CF) and microbe application on rice yields under different levels of soil salinity. The AWD method significantly reduces water usage and improves water productivity compared to CF, making it a promising approach for small farmers in lowland areas with slight salinity. Rating: 7.5
Primary risk to rice (Oryza sativa L.) production is salinity intrusion and water scarcity, leading to a shortage of irrigation water and yield reduction. We examine the impact's effects of alternate wetting and drying (AWD) vs. continuous flooding (CF) and microbe application on yields of three rice cultivars (Ciherang, Inpari 34 Salin Agritan, Inpari 35 Salin Agritan) grown under slight and moderate soil salinity in the dry season (DS) 2017 and 2018. Under slight soil salinity, AWD and CF had nonsignificant difference in grain yield. Under a moderate soil salinity level, there was a substantial decrease in grain yield (8.2%), number of productive tillers, seeds panicle-1, and weight of 1000 grains with the plants grown under AWD. Increased soil salinity levels resulted in lower yield reduction with microbial than without microbial treatments. 'Ciherang' showed superiority over 'Inpari 34' and 'Inpari 35' under AWD at slight soil salinity. However, the yield reduction in the moderate salinity level was more remarkable for 'Ciherang' (18.1%) than 'Inpari 34' and 'Inpari 35' (9.7%) as salinity-tolerant varieties. The AWD used almost one-third less irrigation supplement than CF. This greatly assists small farmers in reducing the additional cost of pumping water. On average, AWD improved total water productivity by 32.7% under slight and 20.4% under moderate soil salinity over CF. Here, we lay out the potential for small farmers in slight salinity lowlands areas of the northern coast of Java to apply AWD during the DS. Farmers could manage water efficiently to prevent further yield loss and improve farm profitably.
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