Effects of Ridge-Furrow System Combined with Different Degradable Mulching Materials on Soil Water Conservation and Crop Production in Semi-Humid Areas of China.

In China, the ridge-furrow water conservation planting (RC) system is advantageous for improving crop yields and rainwater use efficiency. In RC planting system, plastic film-mulched ridges are employed for water harvesting while the furrows serve as infiltration and planting belts. To optimize the RC system and to overcome problems due to the lack of water in semi-humid areas at risk of drought, we mulched the furrows with 8% biodegradable film (RC_SB), liquid film (RC_SL), or no mulching in the furrows (RC_SN), while conventional flat planting (CF) was employed as the control. After 4 year (2007-2010) consecutive field study, the results showed that the soil water storage level in the 0-100 cm layer with four treatments was ranked as follow: RC_SB > RC_SL > RC_SN > CF, while the RC_SB and RC_SL were 26.3 and 12.2mm greater than RC_SN, respectively. Compared with CF, the average soil temperature was significantly (P < 0.05) higher by 3.1, 1.7, and 1.5°C under the RC planting treatments (RC_SB, RC_SL, and RC_SN) during each year, respectively. The average ET rate of RC treatments were all lower than CF in each experimental year, and the average decreased by 8.0% (P < 0.05). The average yields with RC_SB, RC_SL, and RC_SN increased by 2,665, 1,444, and 1,235 kg ha^-1, respectively, and the water use efficiency (WUE) increased by 51.6, 25.6, and 21.1%, compared with CF. RC_SB obtained the highest economic benefit, the average net income was higher than CF by 4,020 Yuan ha^-1. In conclusion, we found that RC planting with biodegradable film mulching in the furrows is the best cultivation pattern in the semi-humid areas of China in terms of both environmental and economic benefits. [ABSTRACT FROM AUTHOR]