Impact of Grazing Duration and Environment on Soil Carbon in Reclaimed Uranium Mines Tailings: A Region Specific Study

IF 3.6 2区农林科学 Q2 ENVIRONMENTAL SCIENCES

Land Degradation & Development Pub Date : 2025-05-20 DOI:10.1002/ldr.5647

Chandan Shilpakar, Di Yang, David L. Holbrook, Urszula Norton, M. Anowarul Islam

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Abstract

Grassland ecosystems, which cover over one‐third of the Earth's land area, store 10%–30% of global soil carbon (C). However, these ecosystems face substantial impacts from human activities, including mining. This study investigates the spatial distribution of soil C and related environmental factors in reclaimed grasslands on former uranium mine sites in Wyoming. We hypothesized that grazing duration and environmental factors would influence soil C levels. Interactions between topography, vegetation diversity, soil properties, and soil C in the context of grazing management in both natural and reclaimed grasslands from a wide range of periods from 1 year to 100 years were analyzed using geographically weighted regression models. Data collected from 2022 to 2023 showed that total carbon was consistently higher in natural grasslands (1.2%–4.9%) than in reclaimed grasslands (0.8%–1.3%). Additionally, soil C was significantly higher in natural grasslands grazed for 1 year compared to those grazed for 100 years. In contrast, reclaimed grasslands had lower soil C in areas grazed for 1 year compared to those grazed for 7 or 14 years. The absolute values of coefficients from environmental covariates indicated that areas grazed for a shorter duration (~1 year) were more influenced by biotic and abiotic factors than areas grazed for longer periods (> 7 years). Our findings show moderate grazing increases the resiliency of grassland ecosystems when grazed 7 years or longer and acknowledge the roles of topographic, soil, and vegetative factors in enhancing soil C concentration and developing sustainable land management practices in rangeland conditions.

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放牧年限和环境对再生铀矿尾矿土壤碳的影响

草原生态系统覆盖了地球陆地面积的三分之一以上，储存了全球10%-30%的土壤碳(C)。然而，这些生态系统面临着包括采矿在内的人类活动的重大影响。研究了怀俄明州原铀矿废弃地复垦草地土壤C的空间分布特征及相关环境因子。我们假设放牧时间和环境因素会影响土壤C水平。利用地理加权回归模型分析了1 ~ 100年自然草地和复垦草地在放牧管理背景下的地形、植被多样性、土壤性质和土壤C之间的相互作用。2022 - 2023年的数据显示，天然草地的总碳含量（1.2%-4.9%）始终高于复垦草地（0.8%-1.3%）。放牧1年的天然草地土壤C含量显著高于放牧100年的天然草地。复垦草地放牧1年的土壤C值低于放牧7年和14年的土壤C值。环境协变量系数的绝对值表明，放牧时间较短（~1年）的地区受生物和非生物因素的影响大于放牧时间较长的地区(>；7年)。研究结果表明，适度放牧可增加草地生态系统在放牧7年或更长时间内的恢复力，并承认地形、土壤和植被因素在提高土壤C浓度和制定可持续土地管理措施方面的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Land Degradation & Development 农林科学-环境科学

CiteScore

7.70

自引率

8.50%

发文量

379

审稿时长

5.5 months

期刊介绍： Land Degradation & Development is an international journal which seeks to promote rational study of the recognition, monitoring, control and rehabilitation of degradation in terrestrial environments. The journal focuses on: - what land degradation is; - what causes land degradation; - the impacts of land degradation - the scale of land degradation; - the history, current status or future trends of land degradation; - avoidance, mitigation and control of land degradation; - remedial actions to rehabilitate or restore degraded land; - sustainable land management.