间作条件下秸秆覆盖对玉米叶片光合特性和产量的影响

Effects of straw mulching on photosynthetic characteristics and yield of intercropped maize

  • 摘要: 为明确间作和秸秆覆盖结合在作物增产方面的效应, 采用双因素大田试验, 通过设置2种种植模式玉米单作(M)、玉米大豆间作(I)和4种秸秆覆盖水平0(S0)、4 000 kg·hm-2(S1)、8 000 kg·hm-2(S2)和12 000 kg·hm-2(S3), 研究秸秆覆盖和间作对玉米叶片生理特性和产量的影响。结果表明, 覆盖和间作有利于增加玉米叶片长、宽和单株绿叶面积, 其中覆盖处理S2和S3与不覆盖处理S0的差异显著, 且覆盖的效果大于间作。玉米叶片含水量基本不受间作影响, 但受覆盖的显著影响。间作和覆盖可增加叶片含氮量, 在单作下, S3比S0的叶片含氮量在灌浆期和成熟期分别增加25.6%和56.6%, 在间作下分别增加30.0%和42.9%, 且S3和S0间差异显著。覆盖和间作皆可增加叶片叶绿素含量, 且覆盖的效果大于间作, 但随覆盖水平提高覆盖的效果降低。覆盖和间作皆有利于改善玉米穗位叶的光合特性, 在S0下, 间作的光合速率、气孔导度和蒸腾速率在灌浆期和成熟期分别比单作增加13.1%、42.3%、39.3%和46.8%、31.2%、24.5%, 而胞间CO2浓度分别下降20.8%和18.4%, 且S0下单作、间作差异显著。玉米产量亦明显受到覆盖和间作的影响, 且受覆盖的影响更为明显。研究得出, 秸秆覆盖和间作在改善玉米叶片性状及生理特性和产量方面发挥着重要作用, 但覆盖的效果会随覆盖水平的提高而降低, 且间作的效果小于秸秆覆盖。

     

    Abstract: To deeply understand the effects of combined intercropping and straw mulching practices on crop yield improvement, a 2-factor filed experiment was carried out at the Red Soil Experimental Station of Jiangxi Agricultural University in Nanchang City, Jiangxi Province, China. The experimental design consisted of eight treatments (i.e., 2 × 4) with two planting patterns maize monoculture (M), maize/soybean intercropping (I) and four straw mulch levels 0 (S0), 4 000 kg·hm-2 (S1), 8 000 kg·hm-2 (S2) and 12 000 kg·hm-2 (S3). The study mainly investigated maize leaf traits, leaf physiological characteristics, photosynthetic characteristics and yield to learn the effects of different straw mulching levels and intercropping patterns on various maize traits. The results showed that mulching and intercropping increased maize leaf length, leaf width and green leaf area per plant. The difference between mulching treatments (S2 and S3 treatments) and non-mulching treatment (S0) was significant at P < 0.05. Moreover, the effects of straw mulching on the studied maize traits were more significant than those of intercropping. While maize leaf water content was little influenced by intercropping, it was significantly influenced by straw mulching. Intercropping and mulching increased leaf nitrogen content. Compared with S0 treatment, S3 treatment increased leaf nitrogen content by 25.6% and 56.6% under M treatment, and 30.0% and 42.9% under I treatment respectively at grain filling and maturity stages. The difference between S3 and S0 treatments was significant. Mulching and intercropping increased chlorophyll content in maize leaves and the effects of straw mulching were greater than those of intercropping. However, the effects of mulching decreased with increasing levels of straw mulching. Both mulching and intercropping enhanced photosynthetic characteristics of maize ear leaf. Compared with M treatment, I treatment respectively increased photosynthetic rate, stomatal conductance and transpiration rate by 13.1%, 42.3% and 39.3% at grain filling stage and 46.8%, 31.2% and 24.5% at maturity stage under S0 treatment. Concurrently, intercropping respectively reduced intercellular CO-2 concentration by 20.8% and 18.4% at grain filling and maturity stages of maize. The difference between monoculture and intercropping under S0 treatment was significant at P < 0.05. While maize yield was obviously influenced by both mulching and intercropping, the effect of straw mulching was greater than that of intercropping. The findings demonstrated that straw mulching and intercropping were critical for improving maize leaf traits, physiological characteristics and yield. However, the effect of straw mulching decreased with increasing levels of straw mulching, and the effect of intercropping was less obvious than that of straw mulching.

     

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