Sustainability, Journal Year: 2024, Volume and Issue: 16(19), P. 8618 - 8618
Published: Oct. 4, 2024
Regional socioeconomic development is intricately tied to reasonable land-use resources. Although many studies have analyzed carbon emissions, there a lack of analysis the concept intensity. Studying emission intensity (LUCEI) crucial for shaping effective land management strategies that support integrated sustainable society, economy, and environment. This study examines changes on Loess Plateau (LP) from 2000 2020. The coefficient method, spatial autocorrelation analysis, optimal parameters-based geographical detector model are used identify analyze clustering patterns influencing factors affecting LUCEI, which provides more in-depth insights LUCEI. results indicate: (1) Urban Grassland areas showed most significant growth, with expanding by 10,845.21 km2 Grasslands 7848.91 km2, respectively. expansion was mainly caused conversion Cropland, while primarily attributed decline in Barren. (2) average LUCEI LP climbed 0.38 0.73 2020, indicating 190.70% growth rate. (3) pattern remained stable but unevenly distributed, extensive High-High Low-Low clusters. (4) Socioeconomic had greater explanatory power than natural factors. not driven single factor, combined influence multiple interaction between nighttime light population density explained distribution strongly, q-value 0.928. findings underscore critical role dynamics LP. By linking changes, this offers concrete scientific guidance policymakers seeking balance practices. Based these results, we recommend developing appropriate urban plans optimize structures, enhance regional sequestration capacities, fully implement green transition requirements.
Language: Английский