Effects of micro-sprinkler irrigation and topsoil compaction on winter wheat grain yield and water use efficiency in the Huaibei Plain, China

doi:10.1016/j.jia.2025.02.020

Journal of Integrative Agriculture

2025, Vol. 24

Issue (8): 2974-2988 DOI: 10.1016/j.jia.2025.02.020

Special Focus: Innovative Pathways to Sustainable Wheat Production

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Effects of micro-sprinkler irrigation and topsoil compaction on winter wheat grain yield and water use efficiency in the Huaibei Plain, China

Jinpeng Li¹, Siqi Wang¹, Zhongwei Li¹, Kaiyi Xing¹, Xuefeng Tao¹, Zhimin Wang², Yinghua Zhang², Chunsheng Yao^1#, Jincai Li^1#

¹College of Agronomy, Anhui Agricultural University, Hefei 230036, China

²College of Agronomy and Biotechnology, China Agricultural University, Beijing 100193, China

Highlights
● Compared with rain-fed (RF) and conventional irrigation (CI), micro-sprinkler irrigation (MI) simultaneously improved the grain yield (GY) and water use efficiency (WUE) of winter wheat.
● MI enhanced the leaf stress resistance to delay senescence and strengthened root vigor during grain filling.
● Topsoil compaction after wheat sowing only increased the GY and WUE under RF conditions.

Abstract
References

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摘要

提高淮北平原冬小麦的产量（GY）和水分利用效率（WUE）至关重要。然而，微喷灌和播后镇压对小麦产量和水分利用效率的影响尚不清楚。因此，本研究于2021-2023年冬小麦生长季开展了为期两年的大田试验，共设置六个处理：雨养（RF）、常规灌溉（CI）和微喷灌（MI），以及三种灌溉方式下播种后镇压处理（RFC、CIC和MIC）。试验结果表明，与CI和RF相比，微喷灌显著提高了小麦GY，平均增产幅度分别为17.9%和42.1%。MI产量提高是由于其显著增加了穗数、穗粒数和粒重。MI处理下冬小麦花后旗叶叶绿素含量显著高于CI和RF处理，RF下叶绿素含量最低。这是因为MI显著提高了旗叶花后过氧化氢酶和过氧化物酶活性，降低丙二醛含量。与RF和CI相比，MI显著促进了花后干物质转运和积累及其对籽粒产量的贡献率。此外，MI显著促进了小麦根系生长，且灌浆期根系活力显著高于CI和RF处理。在2021-2022年，MI和RF的WUE之间无显著差异，但在2022-2023年，RF的WUE显著低于MI。然而，与CI相比，MI的WUE显著提高，两年平均提高了15.1%和17.6%。在雨养条件下，播后镇压显著提高了小麦GY和WUE，这主要是由于播后镇压显著增加穗数和干物质积累量。综上所述，在淮北平原地区，雨养条件下采用播后镇压可以作为一种提高小麦产量和水分利用效率的有效措施；而采用微喷灌可同时实现该地区小麦高产和水分高效利用的生产目标。

Abstract

Increasing the grain yield (GY) and water use efficiency (WUE) of winter wheat in the Huaibei Plain (HP), China are essential. However, the effects of micro-sprinkler irrigation and topsoil compaction after wheat seed sowing on the GY and WUE are unclear. Therefore, a two-year field experiment was conducted during the 2021–2023 winter wheat growing seasons with a total six treatments: rain-fed (RF), conventional irrigation (CI) and micro-sprinkler irrigation (MI), as well as topsoil compaction after seed sowing under these three irrigation methods (RFC, CIC, and MIC). The results in the two years indicated that MI significantly increased GY compared to CI and RF, by averages of 17.9 and 42.1%, respectively. The increase in GY of MI was due to its significant increases in the number of spikes, kernels per spike, and grain weight. The chlorophyll concentration in flag leaves of MI after the anthesis stage maintained higher levels than with CI and RF, and was the lowest in RF. This was due to the dramatically enhanced catalase and peroxidase activities and lower malondialdehyde content under MI. Compared with RF and CI, MI significantly promoted dry matter remobilization and production after anthesis, as well as its contribution to GY. In addition, MI significantly boosted root growth, and root activity during the grain-filling stage was remarkably enhanced compared to CI and RF. In 2021–2022, there was no significant difference in WUE between MI and RF, but the WUE of RF was significantly lower than that of MI in 2022–2023. However, the WUE in MI was significantly improved compared to CI, and it increased by averages of 15.1 and 17.6% for the two years. Topsoil compaction significantly increased GY and WUE under rain-fed conditions due to improved spike numbers and dry matter production. Overall, topsoil compaction is advisable for enhancing GY and WUE in rain-fed conditions, whereas micro-sprinkler irrigation can be adopted to simultaneously achieve high GY and WUE in the HP.

Keywords: winter wheat micro-sprinkler grain yield root distribution water utilization

Received: 14 August 2024 Online: 17 February 2025 Accepted: 06 January 2025

Fund:

We sincerely appreciate funding from the Scientific Research Program of the Higher Educational Institutions in Anhui Province, China (2023AH050986), the Natural Science Foundation of Anhui Province, China (240805MC063), the National Natural Science Foundation of China (32172119), and the Talent Introduction Project of Anhui Agricultural University, China (rc312212 and yj2019-01).

About author: Jinpeng Li, E-mail: jinpeng0103@126.com; #Correspondence Chunsheng Yao, E-mail: chunsheng@ahau.edu.cn; Jincai Li, E-mail: ljc5122423@126.com

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Jinpeng Li, Siqi Wang, Zhongwei Li, Kaiyi Xing, Xuefeng Tao, Zhimin Wang, Yinghua Zhang, Chunsheng Yao, Jincai Li. 2025. Effects of micro-sprinkler irrigation and topsoil compaction on winter wheat grain yield and water use efficiency in the Huaibei Plain, China. Journal of Integrative Agriculture, 24(8): 2974-2988.

Ahmad A, Aslam Z, Ahmad M, Zulfiqar U, Yaqoob S, Hussain S, Niazi N K, Din K U, Gastelbondo M, Al-Ashkar I, Elshikh M S. 2024. Vermicompost application upregulates morpho-physiological and antioxidant defense to conferring drought tolerance in wheat. Plant Stress, 11, 100360.

Atkinson B S, Sparkes D L, Mooney S J. 2009. The impact of soil structure on the establishment of winter wheat (Triticum aestivum). European Journal of Agronomy, 30, 243–257.

Bengough A G, McKenzie B M, Hallett P D, Valentine T A. 2011. Root elongation, water stress, and mechanical impedance: A review of limiting stresses and beneficial root tip traits. Journal of Experimental Botany, 62, 59–68.

Cai B, Wang F H, Zhang B, Feng B, Si J S, Li D S, Wang Z S, Li H W. 2019. Effects of pre-winter compaction and irrigation on photosynthetic characteristics and chloroplast ultrastructure of flag leaf at grain filling stages of winter wheat. Journal of Triticeae Crops, 39, 73–81. (in Chinese)

Cui X J, Wang Z W, Zhuang T F, Sun J Q, Song Y H. 2023. Improving wheat seedling quality through deep ploughing and soil compaction at sowing in lime concretion black soil. PLoS ONE, 18, 0288459.

Dang H K, Cao C Y, Zheng C L, Ma J Y, Guo L, Wang Y N, Li W, Li K J. 2016. Effects of pre-sowing irrigation and post-sowing soil compaction on water use and growth of winter wheat. Chinese Journal of Eco-Agriculture, 24, 1071–1079. (in Chinese)

Dar E A, Brar A S, Mishra S K, Singh K B. 2017. Simulating response of wheat to timing and depth of irrigation water in drip irrigation system using CERES-Wheat model. Field Crops Research, 214, 149–163.

Eugenio F C, Dani O. 1999. Root distribution and water uptake patterns of corn under surface and subsurface drip irrigation. Plant and Soil, 206, 123–136.

Fan Y H, Lv Z Y, Qin B Y, Yang J H, Ren K M, Liu Q X, Jiang F L, Zhang W J, Ma S Y, Ma C X, Huang Z L. 2022. Night warming at the vegetative stageimproves pre-anthesis photosynthesis and plant productivity involved in grain yieldof winter wheat. Plant Physiology and Biochemistry, 186, 19–30.

Feng S W, Gu S B, Zhang H B, Wang D. 2017. Root vertical distribution is important to improve water use efficiency and grain yield of wheat. Field Crops Research, 214, 131–141.

Fichtner F, Dissanayake I M, Lacombe B, Barbier F. 2021. Sugar and nitrate sensing: A multi-billion-year story. Trends in Plant Science, 26, 352–374.

Gao Z, Liang X, Lin S, Zhao X, Zhang L, Zhou L, Shen S, Zhou S. 2017. Supplemental irrigation at tasseling optimizes water and nitrogen distribution for high-yield production in spring maize. Field Crops Research, 209, 120–128.

Li J P, Huang J Y, Wang K K, Li Z W, Li X Y, Li J C, Song Y H. 2022. Effect of different irrigation and management practices and soil compaction after sowing on dry matter accumulation and yield of wheat. Journal of Triticeae Crops, 42, 1518–1526. (in Chinese)

Li J P, Wang Y Q, Zhang M, Liu Y, Xu X X, Lin G, Wang Z M, Yang Y M, Zhang Y H. 2019a. Optimized micro-sprinkling irrigation scheduling improves grain yield by increasing the uptake and utilization of water and nitrogen during grain filling in winter wheat. Agricultural Water Management, 211, 59–69.

Li J P, Wang Z M, Yao C S, Zhang Z, Liu Y, Zhang Y H. 2021. Micro-sprinkling irrigation simultaneously improves grain yield and protein concentration of winter wheat in the North China Plain. The Crop Journal, 9, 1397–1407.

Li J P, Xu X X, Lin G, Wang Y Q, Liu Y, Zhang M, Zhou J Y, Wang Z M, Zhang Y H. 2018. Micro-irrigation improves grain yield and resource use efficiency by co-locating the roots and N-fertilizer distribution of winter wheat in the North China Plain. Science of the Total Environment, 643, 367–377.

Li J P, Zhang Z, Liu Y, Xu X X, Yao C S, Song W Y, Xu X X, Zou X N, Gao Y M, Wang Z M, Sun Z C, Zhang Y H. 2019b. Effects of micro-sprinkling with different irrigation amount on grain yield and water use efficiency of winter wheat in the North China Plain. Agricultural Water Management, 224, 105736.

Li Z W, Liu H L, Wang K K, Yao C S, Wang Z M, Zhang Y H, Li J C, Song Y H, Li J P. 2025. Micro-sprinkling irrigation and topsoil compaction improve seedling quality of winter wheat in the Huaibei Plain of China. Plant and Soil, 507, 967–984.

Liu H, Colombi T, Jäck O, Keller T, Weih M. 2022. Effects of soil compaction on grain yield of wheat depend on weather conditions. Science of the Total Environment, 807, 150763.

Liu S K, Lin X, Wang W Y, Zhang B J, Wang D. 2022. Supplemental irrigation increases grain yield, water productivity, and nitrogen utilization efficiency by improving nitrogen nutrition status in winter wheat. Agricultural Water Management, 264, 107505.

Liu X W, Feike T, Shao L W, Sun H Y, Chen S Y, Zhang X Y. 2016. Effects of different irrigation regimes on soil compaction in a winter wheat–summer maize cropping system in the North China Plain. Catena, 137, 70–76.

Liu Y, Liao Y C, Liu W Z. 2021. High nitrogen application rate and planting density reduce wheat grain yield by reducing filling rate of inferior grain in middle spikelets. The Crop Journal, 9, 419–426.

Ma S T, Wang T C, Ma S C. 2022. Effects of drip irrigation on root activity pattern, root-sourced signal characteristics and yield stability of winter wheat. Agricultural Water Management, 271, 107783.

Mansoor S, Wani O A, Lone J K, Manhas S, Kour N, Alam P, Ahmad A, Ahmad P. 2022. Reactive oxygen species in plants: From source to sink. Antioxidants, 11, 225.

Mehrabi F, Sepaskhah A R, Ahmadi S H. 2021. Winter wheat root distribution with irrigation, planting methods, and nitrogen application. Nutrient Cycling in Agroecosystems, 119, 231–245.

Ohkubo Y, Tanaka M, Tabata R, Ogawa-Ohnishi M, Matsubayashi Y. 2017. Shoot-to-root mobile polypeptides involved in systemic regulation of nitrogen acquisition. Nature Plants, 3, 17029.

Patel S K, Mani I, Sundaram P K. 2020. Effect of subsoil compaction on rooting behavior and yields of wheat. Journal of Terramechanics, 92, 43–50.

Rajanna G A, Dass A, Singh V K, Choudhary A K, Venkatesh P, Babu S, Upadhyay P K, Sannagoudar M S, Ajay B C, Reddy V K. 2024. Soil moisture dynamics, rooting traits, crop and water productivity of wheat under different tillage, irrigation and nutrition conditions. Farming System, 2, 100087.

Remans T, Nacry P, Pervent M, Filleur S, Diatloff E, Mounier E, Tillard P, Forde B G, Gojon A. 2006. The Arabidopsis NRT1.1 transporter participates in the signaling pathway triggering root colonization of nitrate-rich patches. Proceedings of the National Academy of Sciences of the United States of America, 103, 19206–19211.

Ru C, Hu X T, Chen D Y, Wang W E, Zhen J B. 2023. Photosynthetic, antioxidant activities, and osmoregulatory responses in winter wheat differ during the stress and recovery periods under heat, drought, and combined stress. Plant Science, 327, 111557.

Sabatino L, Consentino B B, Rouphael Y, Baldassano S, Pasquale C D, Ntatsi G. 2023. Ecklonia maxima-derivate seaweed extract supply as mitigation strategy to alleviate drought stress in chicory plants. Scientia Horticulturae, 312, 111856.

Shang Y Q, Wang S, Lin X, Gu S B, Wang D. 2023. Supplemental irrigation at jointing improves spike formation of wheat tillers by regulating sugar distribution in ear and stem. Agricultural Water Management, 279, 108160.

Shen G Y, Yang X W, Zhou S M, Mei J J, Yang X W, Pen H Y, Jiang X, He D X. 2019. Impacts of soil tillage techniques on seedling quality,root function and grain weight in wheat. Scientia Agriculturae Sinica, 52, 2042–2055. (in Chinese)

Shi W J, Yin X Y, Struik P C, Solis C, Xie F M, Schmidt R C, Huang M, Zou Y B, Ye C R, Jagadish S V K. 2017. High day-and night-time temperatures affect grain growth dynamics in contrasting rice genotypes. Journal of Experimental Botany, 68, 5233–5245.

Shi Y, Yu Z W, Man J G, Ma S Y, Gao Z Q, Zhang Y L. 2016. Tillage practices affect dry matter accumulation and grain yield in winter wheat in the North China Plain. S oil and Tillage Research, 160, 73–81.

Sun Z C, Zhang Y H, Zhang Z, Gao Y M, Yang Y M, Han M K, Wang Z M. 2019. Significance of disposable presowing irrigation in wheat in increasing water use efficiency and maintaining high yield under winter wheat–summer maize rotation in the North China Plain. Agricultural Water Management, 225, 105766.

Thapa S, Jessup K E, Pradhan G P, Rudd J C, Liu S, Mahan J R, Devkota R N, Baker J A, Xue Q. 2018. Canopy temperature depression at grain filling correlates to winter wheat yield in the U.S. Southern High Plains. Field Crops Research, 217, 11–19.

Wang C Y, Liu W X, Li Q X, Ma D Y, Lu H F, Feng W, Xie Y X, Zhu Y J, Guo T C. 2014. Effects of different irrigation and nitrogen regimes on root growth and its correlation with above-ground plant parts in high-yielding wheat under field conditions. Field Crops Research, 165, 138–149.

Wang X, Shi Y, Guo Z J, Zhang Y L, Yu Z W. 2015. Water use and soil nitrate nitrogen changes under supplemental irrigation with nitrogen application rate in wheat field. Field Crops Research, 183, 117–125.

Wu X, Tang Y, Li C, McHugh A D, Li Z, Wu C. 2018. Individual and combined effects of soil waterlogging and compaction on physiological characteristics of wheat in southwestern China. Field Crops Research, 215, 163–172.

Xu C L, Tao H B, Tian B J, Gao Y B, Ren J H, Wang P. 2016. Limited-irrigation improves water use efficiency and soil reservoir capacity through regulating root and canopy growth of winter wheat. Field Crops Research, 196, 268–275.

Xu X X, Zhang M, Li J P, Liu Z Q, Zhao Z G, Zhang Y H, Zhou S L, Wang Z M. 2018. Improving water use efficiency and grain yield of winter wheat by optimizing irrigations in the North China Plain. Field Crops Research, 221, 219–227.

Xu Y N, Wu Y, Han Y, Song J Q, Zhang W Y, Han W, Liu B H, Bai W B. 2024. Effect of chemical regulators on the recovery of leaf physiology, dry matter accumulation and translocation, and yield-related characteristics in winter wheat following dry-hot wind. Journal of Integrative Agriculture, 23, 108–121.

Yao C S, Li J P, Zhang Z, Liu Y, Wang Z M, Sun Z C, Zhang Y H. 2023a. Improving wheat yield, quality and resource utilization efficiency through nitrogen management based on micro-sprinkler irrigation. Agricultural Water Management, 282, 108277.

Yao C S, Ren J, Li H R, Zhang Z, Wang Z M, Sun Z C, Zhang Y H. 2023b. Can wheat yield, N use efficiency and processing quality be improved simultaneously? Agricultural Water Management, 275, 108006.

Yu C L, Mawodza T, Atkinson B S, Atkinson J A, Sturrock C J, Whalley R, Hawkesford M J, Cooper H, Zhang X X, Zhou H, Mooney S J. 2024. The effects of soil compaction on wheat seedling root growth are specific to soil texture and soil moisture status. Rhizosphere, 29, 100838.

Zadoks J C, Chang T T, Konzak C F. 1974. A decimal code for the growth stages of cereals. Weed Research, 6, 415–421.

Zhai L C, Lv L H, Dong Z Q, Zhang L H, Zhang J T, Jia X L, Zhang Z B. 2021. The water-saving potential of using micro-sprinkling irrigation for winter wheat production on the North China Plain. Journal of Integrative Agriculture, 20, 1687–1700.

Zhang L, Liu H H, Sun J Q, Li J C, Song Y H. 2018. Seedling characteristics and grain yield of maize grown under straw retention affected by sowing irrigation and splitting nitrogen use. Field Crops Research, 225, 22–31.

Zhang X X, Wang X L, Zhong J W, Zhou Q, Wang X, Cai J, Dai T B, Cao W X, Jiang D. 2016. Drought priming induces thermo-tolerance to post-anthesis high-temperature in offspring of winter wheat. Environmental and Experimental Botany, 127, 26–36.

Zhang X Y, Yuan X L. 1995. A field study on the relationship of soil water content and water uptake by winter wheat root system. Acta Agriculturae Boreali-Sinica, 10, 99–104. (in Chinese)

Zhang X Y, Zhang X Y, Liu X W, Shao L W, Sun H Y, Chen S Y. 2015. Incorporating root distribution factor to evaluate soil water status for winter wheat. Agricultural Water Management, 153, 32–41.

Zhang Y, Dai X L, Jia D Y, Li H Y, Wang Y C, Li C X, Xu H C, He M R. 2016. Effects of plant density on grain yield, protein size distribution, and breadmaking quality of winter wheat grown under two nitrogen fertilisation rates. European Journal of Agronomy, 73, 1–10.

Zhang Z, Huang J, Gao Y M, Liu Y, Li J P, Zhou X N, Yao C S, Wang Z M, Sun Z C, Zhang Y H. 2020. Suppressed ABA signal transduction in the spike promotes sucrose use in the stem and reduces grain number in wheat under water stress. Journal of Experimental Botany, 71, 7241–7256.

Zhang Z, Li Y J, Wu Y X, Zheng X Y, Guo X, Sun W, Sun Z C, Wang Z M, Zhang Y H. 2024. A dynamic regulation of nitrogen on floret primordia development in wheat. The Crop Journal, 12, 271–280.

Zhang Z, Yu Z W, Shi Y, Zhang Y L. 2023. Effects of micro-sprinkling with different irrigation levels on winter wheat grain yield and greenhouse gas emissions in the North China Plain. European Journal of Agronomy, 143, 126725.

Zhao J K, Xu X X, Qu W K, Liu S, Xu Y F, Meng F G, Jia J, Zhao C X. 2022. The effects of different irrigation and nitrogen fertilization on photosynthesis, protective enzyme activity of flag leaf and yield of drip-irrigated winter wheat. Journal of Irrigation and Drainage, 41, 43–51. (in Chinese)

Zhao K N, Wang H T, Wu J Z, Liu A K, Huang X L, Li G Q, Wu S W, Zhang J, Zhang Z W, Hou Y Q, Zhao Z M, Li S, Guo J H, Zhao W X, Li S J, Li W N, Huang M, Li Y J. 2023. One-off irrigation improves water and nitrogen use efficiency and productivity of wheat as mediated by nitrogen rate and tillage in drought-prone areas. Field Crops Research, 295, 108898.

Zheng X J, Yu Z W, Shi Y, Liang P. 2022. Differences in water consumption of wheat varieties are affected by root morphology characteristics and post-anthesis root senescence. Frontiers in Plant Science, 12, 814658.

Zhu Y G, Liu J, Li J Q, Xian L S, Chu J P, Liu H, Song J, Sun Y H, Dai Z M. 2023. Delayed sowing increased dry matter accumulation during stem elongation in winter wheat by improving photosynthetic yield and nitrogen accumulation. European Journal of Agronomy, 151, 127004.

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