任伟, 赵鑫, 黄收兵, 周楠, 王若男, 陶洪斌, 王璞. 不同密度下增施有机肥对夏玉米物质生产及产量构成的影响[J]. 中国生态农业学报(中英文), 2014, 22(10): 1146-1155. DOI: 10.13930/j.cnki.cjea.140647
引用本文: 任伟, 赵鑫, 黄收兵, 周楠, 王若男, 陶洪斌, 王璞. 不同密度下增施有机肥对夏玉米物质生产及产量构成的影响[J]. 中国生态农业学报(中英文), 2014, 22(10): 1146-1155. DOI: 10.13930/j.cnki.cjea.140647
REN Wei, ZHAO Xin, HUANG Shoubing, ZHOU Nan, WANG Ruonan, TAO Hongbin, WANG Pu. Effects of application of organic fertilizer under different planting densities on dry matter production and yield formation of summer maize[J]. Chinese Journal of Eco-Agriculture, 2014, 22(10): 1146-1155. DOI: 10.13930/j.cnki.cjea.140647
Citation: REN Wei, ZHAO Xin, HUANG Shoubing, ZHOU Nan, WANG Ruonan, TAO Hongbin, WANG Pu. Effects of application of organic fertilizer under different planting densities on dry matter production and yield formation of summer maize[J]. Chinese Journal of Eco-Agriculture, 2014, 22(10): 1146-1155. DOI: 10.13930/j.cnki.cjea.140647

不同密度下增施有机肥对夏玉米物质生产及产量构成的影响

Effects of application of organic fertilizer under different planting densities on dry matter production and yield formation of summer maize

  • 摘要: 本研究在夏玉米季适当降低种植密度并连续两年施用有机肥, 旨在了解黄淮海地区夏玉米群体物质累积和产量构成对有机肥施用量和种植密度的响应, 从而降低倒伏风险, 确保稳产、高产。试验采用随机区组设计, 设高、中、低3个种植密度, 分别为90 000株·hm-2、75 000株·hm-2和60 000株·hm-2, 3个种植密度下设不同的有机肥施用量处理, 其中高密度下设30 m3·hm-2一种施肥量, 中密度下设30 m3·hm-2一种施肥量, 低密度下设0 m3·hm-2、30 m3·hm-2和45 m3·hm-2 3种施肥量。研究结果表明: 施用有机肥可以有效改善土壤肥力。施用有机肥第1年, 在中、低密度下对玉米干物质生产、群体生长速率和产量构成均产生一定的促进作用, 但效果不显著。施用有机肥第2年, 低密度下玉米群体衰老速率减缓, 叶面积指数和棒三叶叶绿素相对含量在生育后期均维持在较高水平, 花后群体生长速率维持在较高水平, 且与中高密度无显著差异, 群体花后生物量增加幅度最大, 成熟期地上部总生物量显著提高甚至接近中高密度。低密度下施用有机肥后穗粒数和千粒重均大幅度提高, 从而有效补偿了低密度下穗数的不足, 最终低密度下施用45 m3·hm-2有机肥处理产量达10 838 kg·hm-2, 与中、高密度下施用30 m3·hm-2有机肥处理的产量11 080 kg·hm-2和11 202 kg·hm-2基本持平且差异不显著。由此可见, 通过适度降低密度并增施有机肥能够有效合理地调控群体花前花后生长, 避免前期旺长和后期早衰, 实现保穗保花增重增产的目的。

     

    Abstract: A 2-year field experiment was conducted during summer maize seasons at Wuqiao Experimental Station, Hebei Province. In the experiment, different amounts of organic fertilizers were continuous applied for 2 years of 2011 and 2012 during summer maize seasons based on plant densities. The aim of the experiment was to analyze the effects of organic fertilizer on dry matter production and yield formation of summer maize at low planting density in order to reduce lodging while achieving stable and/or high yield. The randomized block design was used with two factors (plant density and amount of organic fertilizer). Three planting densities - 90 000 plants·hm-2 (D1), 75 000 plants·hm-2 (D2) and 60 000 plants·hm-2 (D3) were set in the experiment. While one amount of organic fertilizer of 30 m3·hm-2 (O1) was applied under D1 and D2, three amounts of organic fertilizer of 0 m3·hm-2 (O0), 30 m3·hm-2 (O1), 45 m3·hm-2 (O2) were applied under D3. The results showed that the application of organic fertilizer effectively improved soil fertility. The application of organic fertilizer in 2011 improved dry matter production, crop growth rate and crop yield under D3. However, the improvements in these crop variables were not significant. In the second year of organic fertilization (which was in 2012), senescence delayed and leaf area index together with relative chlorophyll content at late growth stage maintained high values under 60 000 plants·hm -2 planting density. Total dry matter production at maturity stage under 60 000 plants·hm -2 planting density significantly improved to almost similar levels to that under 75 000 plants·hm-2 and 90 000 plants·hm-2 planting densities. In addition, dry matter production and crop growth rate under planting density of 60 000 plants·hm-2 both improved after anthesis by organic fertilization. Both the crop parameters maintained high levels similar to those under planting densities of 75 000 plants·hm-2 and 90 000 plants·hm-2. Both kernel number per ear and thousand kernel weight under planting density of 60 000 plants·hm-2 significantly increased by the application of organic fertilizer, which effectively compensated for low ear number at low planting density. Crop yield under low density (60 000 plant·hm-2) plus 45 m3·hm-2 organic fertilizer (D3O2) was 10 838 kg·hm-2, which was similar to that under planting densities of 75 000 plants·hm-2 and 90 000 plants·hm-2 (11 080 kg·hm-2 and 11 202 kg·hm-2). It was concluded that low planting density in combination with the application of organic fertilizer effectively regulated both pre-anthesis and post-anthesis dry matter production, delayed leaf senescence, increased dry matter production after anthesis, suppressed excessive growth and increased crop yield.

     

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