Plastic mulching enhances maize yield and water productivity by improving root characteristics, green leaf area, and photosynthesis for different cultivars in dryland regions

IF 5.9 1区 农林科学 Q1 AGRONOMY
Lihong Wu , Hao Quan , Lina Wu , Xi Zhang , Dianyuan Ding , Hao Feng , Kadambot H.M. Siddique , De Li Liu , Bin Wang
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Abstract

Uneven precipitation during the growing season and frequent seasonal droughts on the Loess Plateau in Northwest China adversely affect crop production and water use efficiency. While plastic mulching (PM) has been used to alleviate water stress, few studies have examined the traits maize cultivars need to adapt to the altered water environment under PM and achieve high yields. A two-year field experiment was conducted to assess the root characteristics and aboveground growth traits of three widely used high-yielding maize cultivars—Zhengdan 958 (ZD), Huanong 138 (HN), Heboshi 122 (HBS)—under no mulching (NM) and PM conditions. Among the three cultivars, HBS had the highest root system indices—root length density (RLD), root surface area density (RSD), and root biomass—in the topsoil (0–40 cm), followed by ZD and HN under both NM and PM conditions. Under NM, HBS_NM treatment exhibited strong water absorption, improving photosynthesis and yield, making it suitable for drought conditions. Under PM, topsoil moisture increased significantly, with root system indices increasing by 22.5–36.1 % for RLD, 30.2–36.1 % for RSD, and 25.2–36.5 % for root biomass across the cultivars compared to NM. While ZD_PM did not have the highest root system indices under PM, it exhibited higher green leaf area index (4.5–7.5 %), chlorophyll content (2.8–8.6 %), and photosynthetic rate (6.0–14.5 %), resulting in the highest aboveground biomass and yield among the treatments. These findings suggest ZD is better adapted to the enhanced soil moisture under PM. Future research should focus on breeding genotypes that thrive under PM conditions, emphasizing traits such as larger leaf areas and higher photosynthetic rates to boost crop productivity in rainfed areas.
塑料地膜覆盖通过改善干旱地区不同栽培品种的根系特征、绿叶面积和光合作用,提高玉米产量和水分生产率
中国西北黄土高原生长季节降水不均,季节性干旱频繁,对作物产量和水分利用效率产生了不利影响。虽然塑料地膜覆盖(PM)已被用于缓解水分胁迫,但很少有研究探讨玉米栽培品种适应PM下改变的水分环境并获得高产所需的性状。我们进行了一项为期两年的田间试验,以评估三个广泛使用的高产玉米栽培品种--正单 958(ZD)、华农 138(HN)和冀单 122(HBS)--在无覆膜(NM)和有覆膜(PM)条件下的根系特征和地上部生长性状。在这三个栽培品种中,HBS 在表土(0-40 厘米)中的根系指数--根长密度(RLD)、根表面积密度(RSD)和根生物量最高,其次是 ZD 和 HN。在 NM 条件下,HBS_NM 处理表现出较强的吸水性,提高了光合作用和产量,适合干旱条件。在 PM 条件下,表土水分显著增加,与 NM 相比,各栽培品种的根系指数 RLD 增加了 22.5-36.1%,RSD 增加了 30.2-36.1%,根系生物量增加了 25.2-36.5%。虽然在 PM 条件下 ZD_PM 的根系指数不是最高的,但它的绿叶面积指数(4.5-7.5 %)、叶绿素含量(2.8-8.6 %)和光合速率(6.0-14.5 %)都较高,因此其地上生物量和产量在各处理中最高。这些研究结果表明,在 PM 条件下,ZD 能更好地适应增强的土壤水分。未来的研究重点应是培育在可吸入颗粒物条件下生长旺盛的基因型,强调更大的叶面积和更高的光合速率等性状,以提高雨养地区的作物产量。
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来源期刊
Agricultural Water Management
Agricultural Water Management 农林科学-农艺学
CiteScore
12.10
自引率
14.90%
发文量
648
审稿时长
4.9 months
期刊介绍: Agricultural Water Management publishes papers of international significance relating to the science, economics, and policy of agricultural water management. In all cases, manuscripts must address implications and provide insight regarding agricultural water management.
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