An in-depth study of the spatiotemporal variation characteristics and driving factors of ecosystem service values in the Liaohe River Delta is of great significance to its ecological environment governance and protection. Based on the land use data of the Liaohe River Delta for seven periods from 1990 to 2020, the ecosystem service value (ESV) was evaluated according to the equivalent factor coefficient correction method, establishing models for estimating the value of ecosystem services; the spatial and temporal evolution characteristics of the ESV in the study area were comprehensively analyzed; and the driving influencing factors and mechanisms of the ESV were explored. The results showed that:① From 1990 to 2020, the most common land use type in the Liaohe River Delta was cultivated land, and the areas of forest land, wetland, and unutilized land showed a decreasing trend; grassland, water, and construction land showed an increasing trend; and the area of cultivated land was basically unchanged during the 30 year period. ② In terms of the temporal evolution, the ESV in the study area showed a trend of first decreasing, then increasing, and then decreasing. In terms of the spatial distribution of ESV, the total value of ecosystem services as a whole showed a spatial divergence pattern of a high value in the southwest and low value in the northeast. ③ The sensitivity index of all land use types in the Liaohe River Delta was less than 1, indicating that the ESV was inelastic. ④ The value of ecosystem services in the Liaohe River Delta showed positive spatial coherence. On the whole, the Liaohe River Delta was dominated by HH and LL clusters, with HL clusters mostly distributed at the boundaries of LL clusters and LH clusters distributed at the boundaries of HH clusters. ⑤ Among the factors influencing the evolution of ESV in the Liaohe River Delta, DEM had the least influence, and HAI had the greatest influence on the ESV, followed by precipitation. The interaction results of all influencing factors had an enhancing effect on the spatial distribution of the ESV, among which HAI and precipitation had the strongest interaction effect, reaching 95.58%.
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