黄土塬区不同玉米品种间作的竞争力表现

Competitiveness of intercropped maize cultivars in the Loess Plateau, China

  • 摘要: 为探明不同玉米品种间作下植株对资源的竞争力变化, 以及竞争对植株生长和产量的影响, 本文利用紧凑型玉米品种"郑单958"和半紧凑型玉米品种"沈单16号", 在两个密度(低密度: 45 000株·hm-2, 高密度: 75 000株·hm-2)条件下进行隔行间作田间试验, 测定了不同玉米品种茎叶干物质积累量、株高、穗位高度和根系干物质量及收获期产量和产量构成因素的变化。研究结果表明: 随着生育期的延伸, 玉米茎叶比呈先增加而后逐渐稳定的变化趋势; 茎叶比在营养生长阶段呈明显增长, 灌浆期后间作竞争明显降低了茎叶比; 低密度间作茎叶比有所增加, 高密度间作茎叶比显著降低, "郑单958"表现突出。间作栽培下根冠比随间作密度的增加显著降低, 低密度间作处理之间根冠比差异显著。穗位比、收获指数随间作密度的增加而增加, 穗位比在低密度间作时显著低于单作, 高密度间作时显著增加, "沈单16号"变化较明显; 间作收获指数较单作明显增加, 且随间作密度的增加而增加, "郑单958"变化不稳定, 低密度间作时较单作显著增加, "沈单16号"具有稳定而明显的变化。品种间作竞争可以改变间作种群的产量构成, 穗长和穗粗明显减小, 秃尖长明显缩短。竞争系数具有品种差异, "郑单958"强于"沈单16号"。说明品种间作竞争具有提高玉米产量的能力, 有效利用竞争效应, 有可能实现高效利用资源和发掘玉米增产潜力。

     

    Abstract: The competitive expression of intercropped maize cultivars with different characteristics for water, nutrient, dry matter partitioning and yield factors were studied in an experiment in the Loess Plateau region of China. To determine the competitiveness of intercropped maize cultivars with regards to growth and yield formation, two maize cultivars (compact cultivar "ZD958" and semi-compact cultivar "SD16") were intercropped in alternative rows under two densities (45 000 plants·hm-2, 75 000 plants·hm-2) conditions. The dynamic changes in dry matter of different plant organs, plant height, ear height, grain yield and yield components were investigated. The results showed that stem to leaf ratio (SLR) increased during vegetative growth and decreased after grain filling due to competition between cultivars. Intercropping increased SLR under low planting density, while significant decreased SLR under high planting density. This was more evident under high density intercropping, especially for "ZD958". Root to shoot ratio (RSR) limited redundant root growth, thereby saved resources. The RSR decrease was clear under intercropped treatments with significant differences between the low and high intercropping density. Two different cultivars with special morphology under intercropping conditions had root and canopy structures favorable for higher grain yield. With increasing intercropping density, spike to height ratio (SHR) and harvest index (HI) significantly increased. Meantime the decrease in SHR under low density of intercropping was more obvious than that of monocropping. Also SHR increased markedly under high intercropping density. The changes for "ZD958" were especially obvious. These evidences showed that intercropping improved the productive potential of maize. The structural factors of yield varied with significant decreases in spike length and thickness. However, the obvious shrinking of the length of bald needles suggested high grain pollination ratio. Finally, the analysis of competitive ratio (CR) showed that "ZD958" was more competitive than "SD16" under intercropping conditions. However, both "ZD958" and "SD16" showed distinct features which were mutually complementary for resources utilization. Intercrop competition was therefore an effective cultivation strategy for high productivity and beneficial competition among cultivars that increased water and nutrient use efficiency.

     

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