秸秆带状覆盖对西南旱地高粱根区土壤水温及产量的影响

doi:10.13287/j.1001-9332.202510.029

摘要/Abstract

摘要： 为解决西南旱地高粱季高温干旱胁迫导致的低产问题,于2021—2022年在贵州省典型旱作雨养农业区,设置地膜带状垄覆垄播(RFM)、玉米整秆带状覆盖双35 cm结构单行种植(SMN)和玉米整秆带状覆盖双70 cm结构双行种植(SMW)处理,以传统露地平作为对照(CK),研究了带状覆盖对高粱根区土壤水温动态和籽粒产量的影响。结果表明:与CK相比,3种带状覆盖处理下10和20 cm深度土壤含水量两年度平均分别提高29.8%和27.1%,且SMN和SMW的保墒效果与RFM相当。SMN和SMW普遍降低了各生育时期地温,全生育期5～20 cm地温平均下降1.3 ℃,土壤有效积温平均减少78.3 ℃,全生育期平均延长7 d;而RFM主要在拔节前和成熟期有显著增温效应,抽穗至灌浆期无显著差异,全生育期5～20 cm地温平均增加0.9 ℃,生育期平均缩短6 d。SMN和SMW土壤温度日变幅显著降低0.7～3.4 ℃,与CK和RFM相比形成了较稳定的热环境。SMN、SMW和RFM均显著增加了高粱穗粒数和单株地上部生物量,产量分别较CK显著增加16.0%～31.0%、13.0%～25.6%和22.5%～50.4%。综上,玉米整秆带状覆盖在保持增产优势的同时,解决了地膜覆盖在盛夏导致的极端高温和干旱胁迫问题,且具有更高的秸秆利用率和更低的生产成本,其中SMN效果更好,适宜作为西南旱地高粱绿色生产栽培技术。

关键词: 地膜带状覆盖, 玉米整秆带状覆盖, 土壤水温, 旱地高粱, 籽粒产量

Abstract: To address the low-yield of sorghum caused by high temperature and drought stress during the growing season in the drylands of Southwest China, we conducted a field experiment in a typical rain-fed dry farming area of Guizhou Province from 2021 to 2022. The treatments included ridge planting with plastic film mulching strips only on the ridges (RFM), single-row planting with a double-35 cm structure under whole maize straw strip mulching (SMN), and double-row planting with a double-70 cm structure under whole maize straw strip mulching (SMW), with conventional flat open-field planting as the control (CK). We investigated the effects of strip mulching on the dynamics of soil moisture and temperature in the root zone and grain yield of sorghum. The results showed that the three strip mulching treatments significantly increased soil water content in the 10 cm and 20 cm depths by 29.8% and 27.1% over the two years, respectively. SMN and SMW exhibited moisture preservation effects comparable to RFM. SMN and SMW generally reduced soil temperature across growth stages, with an average decrease of 1.3 ℃ in the 5-20 cm soil layer during the entire growth period. The effective accumulated soil temperature decreased by an average of 78.3 ℃, while the whole growth period was prolonged by an average of 7 days. In contrast, RFM showed significant warming effects mainly before jointing and at maturity stages. The average soil temperature in the 5-20 cm layer was increased by 0.9 ℃ under RFM, and the growth period was shortened by 6 days. SMN and SMW significantly reduced the diurnal soil temperature amplitude by 0.7-3.4 ℃, forming a more stable thermal environment compared to CK and RFM. SMN, SMW, and RFM all significantly increased the grains number per spike and the aboveground biomass per sorghum plant, with grain yields being increased by 16.0%-31.0%, 13.0%-25.6%, and 22.5%-50.4%. In conclusion, while maintaining the yield-increasing advantage, whole maize straw strip mulching resolved the problems of extreme high temperature and drought stress caused by plastic film mulching in midsummer. Furthermore, it featured a higher straw utilization rate and lower production costs. SMN performed the best and would be suitable for application as a green production and cultivation technology for sorghum in the drylands of Southwest China.

Key words: plastic film mulching strip, whole maize straw strip mulching, soil water-temperature, dryland sorghum, grain yield

陈玉章, 莫畏, 刘鑫, 李瑞, 王力成, 龚利娟, 吴松果. 秸秆带状覆盖对西南旱地高粱根区土壤水温及产量的影响[J]. 应用生态学报, 2025, 36(10): 2978-2988.

CHEN Yuzhang, MO Wei, LIU Xin, LI Rui, WANG Licheng, GONG Lijuan, WU Songguo. Effects of straw strip mulching on soil water-temperature in root zone and grain yield of sorghum in southwest dryland, China[J]. Chinese Journal of Applied Ecology, 2025, 36(10): 2978-2988.

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