农业机械对化肥施用影响的路径及效果研究

Influence pathways and effects of agricultural mechanization on the application of chemical fertilizers

  • 摘要: 实现农业绿色生产有赖于小农户生产方式的转变。相比以往研究多聚焦于人工施肥, 本研究关注农户使用机械后, 通过机械搭配使用化肥对化肥施用量以及施肥均匀度的影响。利用2017年中国农村家庭追踪调查(CRHPS)数据, 通过最小二乘估计法(OLS)以及处理效应模型探讨农业机械化对小麦化肥使用影响, 并关注到不同机械使用来源化肥施用差异。研究结果表明: 整体而言, 使用机械并不会降低小麦化肥使用量, 但能够缩小农户间施肥差异。分环节来看, 只有机播环节能够降低化肥施用量以及施肥不均等, 这主要是因为小麦在机播环节施肥占比较高。区分农户农业机械使用来源差异后, 发现相比农户自购机械, 购买机械服务每公顷能够减少150.45 kg化肥施用量并提升施肥均匀度。其中, 购买机播服务同自购机械播种相比, 每公顷能降低213.45 kg施肥量并提升0.32个单位施肥均匀度。此外, 农户采用机播可使每公顷化肥投入下降283.95元, 购买机械服务则可使每公顷化肥投入平均下降394.50元, 购买机播服务能降低352.80元。这说明, 农业机械化能够实现化肥减量并降低农户间施肥不均等, 且主要通过服务外包实现。本文结论有助于扩展理解农业机械化与现代农业之间的关系, 从而为我国农业绿色转型以及可持续发展提供有力支撑。

     

    Abstract: Achieving green agricultural production depends on changes in smallholder farmers’ production methods. Compared with previous studies that focused on manual fertilizer application, this study focused on the effect of machinery use and use links on fertilizer application and uniformity among farmers. Using data from the 2017 China Rural Household Panel Survey (CRHPS), the impact of agricultural mechanization on fertilizer application in wheat was explored through ordinary least squares (OLS) method, as well as treatment effect models, with attention to differences in fertilizer application across sources of machinery use. The results show that the use of machinery does not reduce fertilizer use in wheat but can reduce inter-farmer fertilizer application differences. Only machine sowing decreased fertilizer application and uniformity, mostly because wheat has a higher fertilizer application rate at sowing. After separating the various sources of farm machinery use, it is discovered that using machinery services rather than buying machinery equipment reduces the amount of fertilizer applied per hectare by 150.45 kg, and increases fertilizer uniformity. For instance, compared with purchasing machine equipment, the purchase of machine services lowered fertilizer application by 213.45 kg per hectare and increased fertilizer application uniformity by 0.32 units per hectare during seeding. Additionally, farmers can cut their fertilizer input by 283.95 ¥∙hm−2 by adopting machine sowing. Purchasing machinery services can lower fertilizer input by 394.50 ¥∙hm−2, especially during seeding the input was decreased by 352.80 ¥∙hm−2. This suggests that agricultural mechanization can achieve fertilizer reduction and reduce inequality in fertilizer application among farmers, mainly through outsourcing. The findings of this study can help expand our understanding of the relationship between agricultural mechanization and modern agriculture and can also provide strong support for the green transformation and sustainable development of agriculture in China.