生态环境学报2026,Vol.35Issue(2):245-255,11.DOI:10.16258/j.cnki.1674-5906.2026.02.008
结合生态系统服务的南疆盐碱地土壤质量评价
Soil Quality Assessment of Saline-alkali Land in Southern Xinjiang Combined with Ecosystem Services
摘要
Abstract
Soil is the fundamental medium of terrestrial ecosystems and a key element in maintaining vegetation growth,nutrient cycling,and ecological stability.It not only provides support and water and nutrient sources for plant roots,but also serves as an important carrier for biogeochemical cycles and energy conversion.The changes in soil quality directly affect the productivity,structural stability,and response capacity of the ecosystem to external disturbances.In recent years,the saline-alkali land problem,which is widespread in arid and semi-arid areas,has become a major environmental obstacle restricting regional ecological restoration,agricultural production,and sustainable land use.The accumulation of salt could damage soil structure,inhibit microbial activity,and reduce nutrient availability,thereby leading to soil degradation,restricted vegetation growth,and a decline in ecosystem function.In this context,scientifically assessing the soil quality of saline-alkali land,identifying key limiting factors,and revealing their ecological regulation mechanisms are of great theoretical and practical significance for formulating land improvement measures,enhancing ecosystem service functions,and promoting regional ecological restoration.However,traditional soil quality assessment systems often relied solely on physical,chemical,and biological indicators,focusing on the quantitative characterization of internal soil properties,while neglecting the role of soil as a core component of the ecosystem in maintaining ecological services such as the carbon cycle,water retention,and habitat supply.This single-dimensional assessment method was difficult to comprehensively reflect the ecological essence of soil functions and their response characteristics to environmental changes.Therefore,constructing a comprehensive soil quality assessment framework that could take ecosystem service functions into account is of significant scientific value for revealing the mechanism of ecological degradation in saline-alkali land and promoting sustainable land management in arid areas.In this study,the Kekeya saline-alkali land in southern Xinjiang was selected as the study area.Ecosystem services,including habitat quality,carbon sequestration capacity,soil retention,and water yield services,were introduced into the regional soil quality evaluation system,and the physical,chemical,biological,and ecological attributes of the soil were comprehensively considered.Based on the analysis of each index,the minimum data set for soil quality assessment was constructed using principal component analysis and correlation screening.The magnitude and spatial distribution of the soil quality index(SQI)were calculated and revealed,and the interrelationship between soil quality and vegetation characteristic index was explored.The specific research results showed that:1)the spatial distribution of regional habitat quality services and carbon sequestration capacity services was relatively similar.In the regions with relatively high vegetation coverage in the central area,the habitat quality and carbon sequestration values were relatively high,while in the unused land,they were relatively low.Soil retention service was relatively high in low-lying areas and relatively low in flat areas.The distribution of regional water production service shared certain similarities with the distribution of precipitation,generally showing a higher distribution in the west and a lower distribution in the east.In addition,the average total amount of total soluble salts in the regional soil was 56.73 g·kg-1,and the average pH value was 8.20,indicating a relatively strong soil salinity and alkalinity.The soil moisture content in the region was less than 20%,and the overall situation was relatively dry.The diversity of soil bacteria in the region was approximately 10 times that of fungi.It was indicated that in the saline-alkali land of arid regions,the diversity of soil bacteria was much higher than that of fungi.2)Among all the indicators,the correlation coefficient between the soil organic matter and the total humus carbon was the highest.The cumulative contribution rate of the principal components reached 82.36%.The minimum dataset for soil quality assessment included carbon sequestration,soil retention,water yield,bulk weight,porosity,total nitrogen,potassium,pH,organic matter,and dissolved organic carbon ten indicators.Among them,the weight of organic matter was the highest(0.120),followed by total nitrogen(0.116),while the lowest weight was that of soil retention(0.085).It was indicated that soil organic matter and total nitrogen in the region were the main controlling factors of soil quality.Through calculation,it was found that the SQI in the region was generally low,with an average value of 0.28 and generally ranging from 0.20 to 0.30.The soil quality was relatively high in the middle,while it was relatively low in the west and east.3)The spatial differentiation of various vegetation indicators in the region was also quite obvious.Among them,SQI had the most significant correlation with vegetation coverage(r=0.501).However,SQI did not show a significant correlation with other vegetation structure indices.It indicated that vegetation coverage could sensitively reflect changes in soil quality,while the response of vegetation community structure was relatively lagging.In addition,the spatial distribution of high SQI areas and high coverage areas in the region was also relatively consistent,revealing the positive feedback mechanism between soil and vegetation coverage.Vegetation improved the microclimate,promoted leaching of salts,and enhanced soil fertility,while the improved soil in turn promoted the recovery and stability of vegetation.In summary,in this study,a new framework for comprehensive evaluation of soil quality in saline-alkali land that integrates ecosystem services was established.Based on the traditional physical,chemical and biological index systems,it systematically introduces key ecosystem services such as habitat quality,carbon sequestration capacity,soil retention,and water yield,achieving a transformation from single element evaluation to comprehensive characterization of multi-dimensional ecological processes.The results clarify the dominant role of organic matter and total nitrogen in the evolution of soil quality,reveal the interaction mechanism among soil physical and chemical properties and ecological services,and elucidate the feedback relationship between soil quality improvement and vegetation restoration.This framework not only enriches the theoretical system of soil quality assessment in saline-alkali land,but also provides operational technical paths and scientific basis for the sustainable land use,ecosystem health assessment,and restoration of degraded ecosystems in arid and semi-arid areas.It has significant practical significance for the construction of regional ecological security patterns and the high-quality development of oasis ecosystems.关键词
生态系统服务/盐碱地/土壤质量评价/主成分分析/最小数据集/植被特征Key words
ecosystem services/saline-alkali land/soil quality assessment/principal component analysis/minimum data set/vegetation characteristics分类
农业科技引用本文复制引用
崔丽洋,张磊,贾夏,赵永华,穆琪,司绍诚..结合生态系统服务的南疆盐碱地土壤质量评价[J].生态环境学报,2026,35(2):245-255,11.基金项目
南疆阿克苏柯柯牙一带生态修复支撑调查(DD20230701503) (DD20230701503)
国家自然科学基金联合重点项目(U23A2061) (U23A2061)
陕西省科技创新团队(2024RS-CXTD-55) (2024RS-CXTD-55)
