2025-05-15 長崎大学
図1 分析フレームワーク
<関連情報>
- https://www.nagasaki-u.ac.jp/ja/science/science457.html
- https://www.sciencedirect.com/science/article/abs/pii/S0308521X26001344
日本の熊本地域における窒素負荷の時間的・空間的分解分析および窒素負荷生産性の地域格差:対数平均ディヴィジア指数と加重タイル指数を用いた行政区分に基づくアプローチ Temporal and spatial decomposition analysis of nitrogen load and regional disparity of nitrogen load productivity in the Kumamoto area in Japan: An administrative-division-based approach using the Logarithmic Mean Divisia Index and the weighted Theil index
Zhuolin Li, Kei Nakagawa, Hidemichi Fujii, Takahiro Hosono, Ronny Berndtsson
Agricultural Systems Available online: 27 April 2026
DOI:https://doi.org/10.1016/j.agsy.2026.104766
Highlights
- Nitrogen load and nitrogen load productivity were analyzed at the administrative division level.
- The Logarithmic Mean Divisia Index was applied to identify drivers for nitrogen load.
- The weighted Theil index was used to trace regional disparity shifts in nitrogen load productivity.
- Six agricultural development patterns were classified for tailored nitrogen management strategies.
Abstract
Context
Nitrate contamination of groundwater, driven by human activities such as agriculture and urbanization, poses a significant global challenge.
Objective
We aimed to identify the major drivers of nitrogen load (nitrogen pollution generation potential) and quantify spatial disparities in nitrogen load productivity across administrative divisions in the Kumamoto area from 1960 to 2020 under evolving agricultural policies and market dynamics.
Methods
We applied the Logarithmic Mean Divisia Index decomposition and weighted Theil index to systematically examine nitrogen load dynamics and regional disparities in the Kumamoto area from 1960 to 2020. Focusing on crop production and farm animals, the analysis identified nitrogen intensity, scale, and structural changes as key driving indicators of nitrogen load, tracing their temporal evolution under shifting agricultural policies and market forces.
Results and conclusions
We show that (1) from 1960 to 1985, scale was the dominant driver of changes in staple crop production and farm animals. After 1985, farmland contraction and a decreasing number of farm animals allowed structural changes to become the primary determinant, indicating a shift toward high-quality agriculture. (2) Simultaneously, the weighted Theil index reveals that as regional specialization in crop production intensified, disparity shifted from within-to between-region. (3) Finally, by categorizing six development patterns at the administrative division level for a small watershed, this study exposes the limitations of one-size-fits-all policy and stresses the need for tailored strategies to enhance nitrogen load productivity.
Significance
We offer region-specific recommendations for advancing sustainable nitrogen management and strengthening agricultural resilience.
