不同生产条件下留茬高度对水稻秸秆可收集量的影响

Effect of stubble height on collectable amount of rice straw under different cultivation patterns

  • 摘要: 研究水稻不同留茬高度下秸秆资源可收集量与还田量是开展水稻秸秆资源合理开发利用的基础。本文通过对江苏省境内推广的主栽水稻品种进行调查研究, 将秸秆从基部向上依次截成长度为5 cm、10 cm、5 cm、5 cm 和剩余部分5 段, 对穗部单独脱粒处理, 分别进行烘干称重, 在此基础上分析了品种类型、种植方式和产量水平对水稻秸秆资源产生量及不同留茬高度下的秸秆可收集量的影响。结果表明: 水稻秸秆量多少表现为粳型稻>籼型稻, 机插秧>人工栽插>直播>抛秧, 高产水平>低产水平的特征; 相同留茬高度下, 水稻秸秆可收集量占秸秆总量的比例在不同产量水平之间和不同品种类型之间差异不显著, 而在不同种植方式之间存在较大差异, 以抛秧稻的秸秆可收集比例最低。不同生产条件下, 水稻秸秆可收集比例随留茬高度改变而改变, 在低留茬条件下, 其变化幅度较小, 高留茬条件下, 变化幅度相应增大。在留茬5 cm 时, 其变幅为0.815~0.868; 在留茬15 cm 时, 变幅为0.668~0.732; 在留茬20 cm 时, 变幅为0.600~0.669; 在留茬25 cm 时,变幅为0.533~0.618。水稻秸秆产生量分别受品种类型、种植方式及产量水平的影响, 在留茬高度一致的条件下, 水稻秸秆可收集比例受种植方式的影响最大, 而产量水平与品种类型对其影响不显著。

     

    Abstract: There has been a significant inconsistency in research results regarding the effects of stubble height on collectable amounts of rice straw under different cultivation patterns. This study was therefore investigated 23 rice cultivars (including 19 Japonica rice and 4 Indica rice) with desirable yield and widely cultivated in Jiangsu Province. The effects of varietal genotype, planting pattern and yield on resource availability and collectable amount of rice straw under different stubble heights (5 cm, 15 cm, 20 cm and 25 cm) were determined. The results showed that straw amounts of Japonica rice were 11.4% higher than that of Indica rice. The amounts of straw from Japonica and Indica rice were 7 874.17 kg·hm-2 and 7 066.83 kg·hm-2, respectively. For different planting patterns, mechanical transplanting yielded the highest amount of rice straw. Hand planting ranked the second, and parachute transplanting had the least straw yield. The yield of rice straw for mechanical transplanting was 34.2%, 23.7% and 18.5% higher than those of parachute transplanting, direct seeding and hand planting, respectively. The collectable amount of rice straw in high yield field was more than that in low yield field. However, no significant difference was noted between high and low yield fields. There were no significant differences in straw/grain ratios for yields with 6 750~9 000 kg·hm-2. However, significant differences existed among fields with grain yields below 9 000 kg·hm-2 and above 9 000 kg·hm-2. Under similar stubble height, the effects of yield levels and varieties on ratio of collectable straw to total straw were insignificant. However, there were significant differences among different planting patterns, and parachute transplanting exhibited the least collectable straw ratio. Under different cultivation patterns, the variation in collectable straw ratio changed with increasing stubble height. Collectable straw ratio was 0.815~0.868 for 5 cm stubble height, 0.668~0.732 for 15 cm stubble height, 0.600~0.669 for 20 cm stubble height, and 0.533~0.618 for 25 cm stubble height. In conclusion, collectable rice straw ratio under the same stubble height was mainly driven by planting pattern. Yield and varietal differences had little effect on collectable rice straw ratio. It suggested that collectable amounts of rice straw should be estimated based on planting pattern, and the stubble height.

     

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