Wheat straw mulch improves summer maize productivity and soil properties

Authors

  • Mehmood Ali Noor Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Key Laboratory of Crop Physiology and Ecology, Ministry of Agriculture, Beijing https://orcid.org/0000-0003-2459-2357
  • Muhammad Mohsin Nawaz Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Key Laboratory of Crop Physiology and Ecology, Ministry of Agriculture, Beijing https://orcid.org/0000-0002-9941-9834
  • Wei Ma Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Key Laboratory of Crop Physiology and Ecology, Ministry of Agriculture, Beijing
  • Ming Zhao Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Key Laboratory of Crop Physiology and Ecology, Ministry of Agriculture, Beijing

DOI:

https://doi.org/10.4081/ija.2020.1623

Keywords:

Crop residue, mulching, maize yield, soil temperature, soil moisture.

Abstract

Highlights
- Wheat straw mulch improved maize grain yield by approx. 18% mainly by increased kernel numbers per ear.
- Maize growth attributes and SPAD values were improved under mulch treatment compared to no-mulch.
- Straw mulching helped in maintaining comparatively higher soil moisture content (~2%) and reduced the soil temperature (~1.72°C) during the crop growth period.

 

Crop residue mulch in agricultural systems preserves soil health and improves crop productivity through its moderating influence on soil temperature regime and enhanced moisture retention. Therefore, a field experiment was conducted to determine the changes in soil properties and grain yield of irrigated summer maize in response to wheat straw mulching in the Northern maize region in China. The treatments investigated were: i) application of wheat straw mulch (5000 kg ha–1); and ii) no-mulch application (control). Maize growth and yield attributes were determined during various growth stages, and soil hydro-thermal properties were recorded for two depths (0-15 and 15-30 cm). Straw mulch increased the yield by 18% and also increased total dry biomass yield by 20%, compared to no-mulch. Yield increment was attributed to the increased number of ears per area and kernels number per ear. The effect on thousand kernels weight was found non-significant. Vigorous maize growth was observed under straw mulch treatment, having greater leaf area index, unit leaf rate, leaf area duration, and crop growth rate. Similarly, the dry matter partitioning for maize kernels was greater in mulch treatment. At the late reproductive stages (R3 and R5), SPAD values for ear and below-ear leaves were higher under mulch treatment. Straw mulch decreased the daytime soil temperature by 1.9 and 1.5°C on average for 0-15 and 15-30 cm soil layers, respectively. Whereas, the soil moisture content increased about 2.5% (0-15 cm) and 3% (15- 30 cm) under the mulch treatment. In crux, leftover crop residue application as mulch in irrigated maize could be a sustainable agronomic option to increase the crop productivity.

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References

Acharya CL, Bandyopadhyay KK, Hati KM, 2018. Mulches: role in climate resilient agriculture, reference module in earth systems and environmental sciences. Available from: krishi.icar.gov.in

Akhtar K, Wang W, Ren G, Khan A, Feng Y, Yang G, 2018. Changes in soil enzymes, soil properties, and maize crop productivity under wheat straw mulching in Guanzhong, China. Soil Till. Res. 182:94-102.

An T, Schaeffer S, Li S, Fu S, Pei J, Li H, Zhuang J, Radosevich M, Wang J, 2015. Carbon fluxes from plants to soil and dynamics of microbial immobilisation under plastic film mulching and fertilizer application using 13C pulse-labeling. Soil Biol. Biochem. 80:53-61.

Bavougian CM, Read PE, 2018. Mulch and groundcover effects on soil temperature and moisture, surface reflectance, grapevine water potential, and vineyard weed management. PeerJ 6:e5082.

Bu L-D, Liu J-L, Zhu L, Luo S-S, Chen X-P, Li S-Q, Lee Hill R, Zhao Y, 2013. The effects of mulching on maize growth, yield and water use in a semi-arid region. Agric. Water Manag. 123:71-8.

Chang L, Han F, Chai S, Cheng H, Yang D, Chen Y, 2020. Straw strip mulching affects soil moisture and temperature for potato yield in semiarid regions. Agron. J. 112:1126-39.

Deng H-L, Xiong Y-C, Zhang H-J, Li F-Q, Zhou H, Wang Y-C, Deng Z-R, 2019. Maize productivity and soil properties in the Loess Plateau in response to ridge-furrow cultivation with polyethylene and straw mulch. Sci. Rep. 9.

Dong H, Li W, Wei T, Zhang D, 2009. Early plastic mulching increases stand establishment and lint yield of cotton in saline fields. Field Crops Res. 111:269-75.

Dong QG, Yang Y, Yu K, Feng H, 2018. Effects of straw mulching and plastic film mulching on improving soil organic carbon and nitrogen fractions, crop yield and water use efficiency in the Loess Plateau, China. Agric. Water Manag. 201:133-43.

Dlamini P, Ukoh IB, van Rensburg LD, du Preez CC, 2016. Reduction of evaporation from bare soil using plastic and gravel mulches and assessment of gravel mulch for partitioning evapotranspiration under irrigated canola. Soil Res. https://doi.org/10.1071/SR16098

Fan Y, Ding R, Kang S, Hao X, Du T, Tong L, 2017. Plastic mulch decreases available energy and evapotranspiration and improves yield and water use efficiency in an irrigated maize cropland. Agric. Water Manage. 179:122-31.

Fourie JC, Freitag K, 2010. Soil management in the Breede River Valley wine grape region, South Africa. 2. Soil temperature. South Afr. J. Enol. Viticult. 31:165-8.

Gholamhoseini M, Dolatabadian A, Habibzadeh F, 2019. Ridgeâ€furrow planting system and wheat straw mulching effects on dryland sunflower yield, soil temperature, and moisture. Agron. J. 111:3383-92.

Hunt R, 1990. Basic growth analysis: plant growth analysis for beginners. Unwin Hyman, London, UK.

Immirzi B, Santagata G, Vox G, Schettini E, 2009. Preparation, characterisation and field-testing of a biodegradable sodium alginate-based spray mulch. Biosyst. Engine. 102:461-72.

Jin H, Qingjie W, Hongwen L, Lijin L, Huanwen G, 2009. Effect of alternative tillage and residue cover on yield and water use efficiency in annual double cropping system in North China Plain. Soil Till. Res. 104:198-205.

Li R, Hou X, Jia Z, Han Q, Yang B, 2012. Effects of rainfall harvesting and mulching technologies on soil water, temperature, and maize yield in Loess Plateau region of China. Soil Res. 50.

Li S, Li Y, Lin H, Feng H, Dyck M, 2018a. Effects of different mulching technologies on evapotranspiration and summer maize growth. Agric. Water Manag. 201:309-18.

Li Z, Lai X, Yang Q, Yang X, Cui S, Shen Y, 2018b. In search of long-term sustainable tillage and straw mulching practices for a maize-winter wheat-soybean rotation system in the Loess Plateau of China. Field Crop Res. 217:199-210.

Liu CA, Jin SL, Zhou LM, Jia Y, Li FM, Xiong YC, Li XG, 2009. Effects of plastic film mulch and tillage on maize productivity and soil parameters. Eur J. Agron. 31:241-9.

Liu Z, Gao J, Gao F, Liu P, Zhao B, Zhang J, 2019. Late harvest improves yield and nitrogen utilisation efficiency of summer maize. Field Crops Res. 232:88-94.

Montgomery E, 1911. Correlation studies in corn, Vol. 24. pp. 108â€159 in Annual Report No. 24 of Nebraska Agricultural 566 Experiment Station, Lincoln, NE, USA.

Naab JB, Mahama GY, Koo J, Jones JW, Boote KJ, 2015. Nitrogen and phosphorus fertilisation with crop residue retention enhances crop productivity, soil organic carbon, and total soil nitrogen concentrations in sandy-loam soils in Ghana. Nutr Cycl Agroecosys 102:33-43.

Qin W, Chi B, Oenema O, 2013. Long-term monitoring of rainfed wheat yield and soil water at the loess plateau reveals low water use efficiency. PLoS One 8:e78828.

Ritchie S, Hanway J, Benson G, 1993. How a corn plant develops. Spec. Rep. Iowa State Univ. Coop. Ext. Serv., Ames. Special Report. 38. Available from: https://lib.dr.iastate.edu/specialreports/38

Sartore L, Schettini E, de Palma L, Brunetti G, Cocozza C, Vox G, 2018. Effect of hydrolyzed protein-based mulching coatings on the soil properties and productivity in a tunnel greenhouse crop system. Sci. Total Environ. 645:1221-9.

Summers CG, Mitchell JP, Stapleton JJ, 2004. Management of Aphid-Borne viruses and Bemisia argentifolii (Homoptera: Aleyrodidae) in zucchini squash by using Uv reflective plastic and wheat straw mulches. Environ. Entomol. 33:1447-57.

Tang L, Ma W, Noor MA, Li L, Hou H, Zhang X, Zhao M, 2018. Density resistance evaluation of maize varieties through new “Density-Yield Model†and quantification of varietal response to gradual planting density pressure. Sci. Rep. 8.

Tao Z, Li C, Li J, Ding Z, Xu J, Sun X, Zhou P, Zhao M, 2015. Tillage and straw mulching impacts on grain yield and water use efficiency of spring maize in Northern Huang-Huai-Hai Valley. Crop J. 3:445-50.

Touchaleaume F, Martin-Closas L, Angellier-Coussy H, Chevillard A, Cesar G, Gontard N, Gastaldi E, 2016. Performance and environmental impact of biodegradable polymers as agricultural mulching films. Chemosphere 144:433-9.

Wang J, Wang E, Yang X, Zhang F, Yin H, 2012. Increased yield potential of wheat-maize cropping system in the North China Plain by climate change adaptation. Clim. Change 113:825-40.

Wang X, Fan J, Xing Y, Xu G, Wang H, Deng J, Wang Y, Zhang F, Li P, Li Z, 2019. The effects of mulch and nitrogen fertilizer on the soil environment of crop plants. Adv. Agron. 153:121-73.

Wang YP, Li XG, Zhu J, Fan CY, Kong XJ, Turner NC, Siddique KHM, F-M Li, 2016. Multi-site assessment of the effects of plastic-film mulch on dryland maize productivity in semiarid areas in China. Agric. For. Meteorol. 220:160-9.

Wu Y, Huang F, Zhang C, Jia Z, 2016. Effects of different mulching patterns on soil moisture, temperature, and maize yield in a semi-arid region of the Loess Plateau, China. Arid Land Res Manag. 30:490-504.

Xiao Y, 2012. The analysis of straw burning and use. J. Green Sci. Tech. 11:72-4.

Xiukang W, Zhanbin L, Yingying X, 2015. Effects of mulching and nitrogen on soil temperature, water content, nitrate-N content and maize yield in the Loess Plateau of China. Agric. Water Manag. 161:53-64.

Yin W, Zhao C, Chai Q, Guo Y, Feng F, Yu A, 2017. Effects of previous wheat straw on the yield of maize in the oasis irrigation region. Crop Sci. 57:3217.

Yin W, Zhao C, Chai Q, Guo Y, Feng F, Yu A, 2017. Effects of previous wheat straw on the yield of maize in the oasis irrigation region. Crop Sci. 57:3217.

Yu Y-Y, Turner NC, Gong Y-H, Li F-M, Fang C, Ge L-J, Ye J-S, 2018. Benefits and limitations to straw- and plastic-film mulch on maize yield and water use efficiency: A meta-analysis across hydrothermal gradients. Eur J. Agron. 99:138-47.

Zhang Q, Wang Z, Miao F, Wang G, 2017. Dryland maize yield and water-use efficiency responses to mulching and tillage practices. Agron. J. 109:1196.

Zhao J, Yang X, 2018. Average amount and stability of available agro-climate resources in the main maize cropping regions in China during 1981-2010. J. Meteorol. Res. 32:146-56.

Zhao J, Yang X, Sun S, 2018. Constraints on maize yield and yield stability in the main cropping regions in China. Eur J. Agron. 99:106-15.

Zhao W, Liu B, Zhang Z, 2010. Water requirements of maize in the middle Heihe River basin, China. Agric. Water Manage. 97:215-23.

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Published

13-10-2020

How to Cite

Noor, M. A., Nawaz, M. M., Ma, W., & Zhao, M. (2020). Wheat straw mulch improves summer maize productivity and soil properties. Italian Journal of Agronomy, 16(1). https://doi.org/10.4081/ija.2020.1623

Issue

Vol. 16 No. 1 (2021)

Section

Original Articles

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