Plant Soil Environ., 2018, 64(7):330-337 | DOI: 10.17221/96/2018-PSE

Wheat straw mulching with fertilizer nitrogen: An approach for improving soil water storage and maize crop productivityOriginal Paper

Kashif AKHTAR1,2, Weiyu WANG1, Ahmad KHAN2, Guangxin REN*,1, Muhammad Zahir AFRIDI2, Yongzhong FENG1, Gaihe YANG1
1 College of Agronomy, Northwest A&F University, Yangling, Shaanxi, P.R. China
2 Department of Agronomy, Faculty of Crop Production Sciences, University of Agriculture, Peshawar, Pakistan

Field studies using wheat straw mulching effects on soil water storage and maize development were conducted in China. The studies contained four treatments during three years (2014-2016): CK (no straw and no nitrogen); N (no straw mulching with 172 kg N/ha); HS + N (half straw mulching at the rate of 2500 kg/ha with 172 kg N/ha), and FS + N (full straw mulching at the rate of 5000 kg/ha with 172 kg N/ha). The FS + N treatment significantly increased soil water storage in a drought period during crop growth stages and promoted plant growth along with increased evapotranspiration. The FS + N treatment increased the soil water storage (26.5, 19.9 and 11.1 mm), grain yield (28.7, 6.93 and 2.4%), and water use efficiency (26.6, 6.64 and 2.40%) compared to CK, N and HS + N, respectively. In conclusion, compared to N, HS + N or FS + N increased the biomass (11 and 19%) and water use efficiency (4 and 5%), respectively, and are considered beneficial in Guanzhong, China. Mulching levels were superior to N and compensated the wheat nitrogen requirements. Thus, further studies with minimum fertilizer nitrogen for an environmentally friendly and effective approach are recommended in semiarid regions of China.

Keywords: semi-arid region; Zea mays L.; rainfall; soil temperature; crop yield

Published: July 31, 2018  Show citation

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AKHTAR K, WANG W, KHAN A, REN G, AFRIDI MZ, FENG Y, YANG G. Wheat straw mulching with fertilizer nitrogen: An approach for improving soil water storage and maize crop productivity. Plant Soil Environ.. 2018;64(7):330-337. doi: 10.17221/96/2018-PSE.
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