Spatial patterns and drivers of soil total nitrogen in anthropogenic shrub encroachment in desert steppe

环境科学 土壤碳 空间变异性 土壤科学 灌木 草地退化 氮气 土工试验 草原 生物量(生态学) 土壤水分 灌木丛 草原 生态系统 农学 生态学 化学 统计 生物 有机化学 数学
作者
Yanan Zhao,Zhili Li,Zhe Cao,MI Wen-bao,Hongmei Wang
出处
期刊:Frontiers in Environmental Science [Frontiers Media]
卷期号:10 被引量:3
标识
DOI:10.3389/fenvs.2022.1058344
摘要

Nitrogen is the most important driving factor in primary production and decomposition in arid and semi-arid ecosystems. The effects of shrub encroachment on nitrogen cycling have been investigated at the site scale but seldomly conducted at the landscape scale. Here, we selected 43 shrubland sites distributing across 3000 km 2 area in temperate desert grassland in eastern Yanchi County of Ningxia Hui Autonomous. We investigated the spatial heterogeneity and driving factors of soil total nitrogen (STN) at the landscape scale by using geostatistical analysis and the geographical detector method. Our results showed that the average soil total nitrogen decreased in the order of 0–5 cm (0.21 g kg −1 ) > 5–15 cm (0.19 g kg −1 ) > 15–40 cm (0.18 g kg −1 ). Geostatistical analysis showed that soil total nitrogen exhibited the strong spatial autocorrelation in the 0–5 and 5–15 cm soil layers and the moderate spatial autocorrelation in the 15–40 cm soil layer. Furthermore, the geographic detector method indicated that soil physicochemical properties exhibited the stronger effects than these of topographic and vegetation biomass in determining the spatial distribution of soil total nitrogen. Specifically, soil water content in the 0–20 cm soil layer explained 35% of variation in soil total nitrogen spatial pattern in the 0–5 cm soil layer, while soil organic carbon content in the 15–40 cm soil layer explained 64% and 45% of variation in soil total nitrogen spatial patterns in the 5–15 cm and 15–40 cm soil layers, respectively. It was concluded that soil water content and organic carbon content primarily drove the formation of soil total nitrogen spatial heterogeneity in shrubland at the landscape scale, indicating that anthropogenic shrub encroachment evidently affected soil water content and redistribution in dryland.
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