Litter Chemistry Is a Main Driver of Inorganic Nitrogen in Disturbed Soils in the Arid Patagonian Monte

IF 3.6 2区农林科学 Q2 ENVIRONMENTAL SCIENCES

Land Degradation & Development Pub Date : 2024-10-26 DOI:10.1002/ldr.5360

Tomás Bosco, Mónica B. Bertiller, Hebe Saraví Cisneros, Analía L. Carrera

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Abstract

Changes in plant cover and soil characteristics induced by grazing may affect litter quality and nitrogen (N) release under varying abiotic conditions. Our study was focused on the importance of litter chemistry as a main driver of inorganic N (ammonium‐N: NH4+‐N and nitrate‐N: NO3−‐N) release to soil. Both inorganic N forms are important components for N availability to plants and soil processes, and the long‐term conservation of soil‐N fertility. We analyzed the effect of secondary compounds and the C/N ratio in litter under varying soil water, and UV exposure on soil inorganic N (NH4+‐N and NO3−‐N) in Patagonian Monte degraded soils. We hypothesized that secondary compounds and C/N ratio in litter are main drivers of soil inorganic N under varying abiotic conditions. We conducted a microcosm experiment (13 months) using intact upper soil blocks from denuded soil areas. Surface soils were added with shrub (SL), and mixed grass and shrub (GSL) litter with high versus low secondary metabolites concentration and low vs. high C/N ratio, respectively. Microcosms were maintained under ambient and reduced UV exposure, and high and low soil water. We used microcosms without litter as controls. Monthly, we assessed NH4+‐N and NO3−‐N concentrations in upper and sub‐superficial soils. Litter chemistry interacting with abiotic factors did not significantly influence soil NH4+‐N at any soil depth while litter chemistry was a main driver of NO3−‐N in upper soil. SL enhanced NO3−‐N in upper soil compared with GSL independently of abiotic factors. In upper soils without litter and in those with GSL, the highest NO3−‐N concentration occurred mostly under high soil water and exposition to UV. We concluded that litter chemistry was a main driver of soil N fertility in disturbed rangelands. Shrub litter may enhance N fertility (NO3−‐N) in degraded soils.

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垃圾化学是巴塔哥尼亚蒙特干旱地区受干扰土壤中无机氮的主要驱动因素

在不同的非生物条件下，放牧引起的植被和土壤特性的变化可能会影响枯落物的质量和氮（N）的释放。我们的研究重点是枯落物化学性质作为无机氮（铵-N：NH4+-N 和硝-N：NO3--N）向土壤释放的主要驱动因素的重要性。这两种形式的无机氮都是植物和土壤过程获得氮以及长期保持土壤氮肥的重要组成部分。我们分析了在不同土壤水分和紫外线照射条件下，次生化合物和枯落物中的碳/氮比对巴塔哥尼亚蒙特退化土壤中无机氮（NH4+-N 和 NO3--N）的影响。我们假设，在不同的非生物条件下，次生化合物和枯落物中的 C/N 比是影响土壤无机氮的主要因素。我们利用来自退化土壤地区的完整上层土块进行了一次微观世界实验（13 个月）。在表层土壤中添加了灌木（SL）和草灌木混合（GSL）枯落物，这些枯落物的次生代谢物浓度有高有低，碳氮比也有高有低。在环境紫外线照射和减少紫外线照射以及土壤水分高低的条件下维持微生态系统。我们使用不含垃圾的微生态系统作为对照。我们每月评估上层和下层土壤中的 NH4+-N 和 NO3-N 浓度。枯落物化学与非生物因素的相互作用对任何土壤深度的土壤NH4+-N都没有显著影响，而枯落物化学则是上层土壤NO3--N的主要驱动因素。与GSL相比，SL能提高上层土壤中的NO3-N，而与非生物因素无关。在没有枯落物的上层土壤和有GSL的土壤中，NO3-N的最高浓度主要出现在土壤水分较高和紫外线照射的情况下。我们的结论是，枯落物化学是扰动牧场土壤氮肥力的主要驱动因素。灌木枯落物可能会提高退化土壤的氮肥量（NO3--N）。

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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.