在热带安第斯山脉,垃圾混合物对分解的影响随森林演替而变化,并受时间和土壤动物群的影响

Pub Date : 2024-01-01 DOI:10.2478/foecol-2024-0001
Dennis Castillo-Figueroa
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引用次数: 0

摘要

在热带安第斯山脉等高度变化的地区,确定森林演替和土壤动物群对垃圾分解的非加成效应的影响,对于更真实地了解碳动态和养分循环至关重要。本文的目的是通过对安第斯山上游热带森林中的 1,344 个垃圾袋进行为期 18 个月的互移实验,分析不同土壤动物群处理(纳入大型动物群与排除大型动物群)和演替阶段(成熟林与次生林)之间垃圾混合物对分解作用的变化。通过 t 检验、线性回归和线性混合模型,我发现不同地点的垃圾混合物效应各不相同,并且在次生林中随着时间的推移而增加,直到有大型动物被排除在外的垃圾袋腐烂的那一年。成熟森林表现出强烈的拮抗效应,而在次生林中则观察到明显的协同效应。虽然土壤大型底栖动物并没有显著增加混合物中任何腐烂阶段的垃圾分解和协同效应,但土壤大型底栖动物很可能是通过土壤食物网中自上而下的效应来影响垃圾混合物的,而不是像热带低地生态系统中报道的那样直接影响垃圾的消耗。总之,这项研究支持了这样一种观点,即在热带安第斯高山森林中,垃圾混合物在不同地点表现出显著的差异性,会随着演替阶段的变化而变化,并根据腐烂阶段的不同而受到土壤动物的影响。
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Litter mixture effects on decomposition change with forest succession and are influenced by time and soil fauna in tropical mountain Andes
In highly transformed regions, such as the tropical Andes, identifying the influence of forest succession and soil fauna on non-additive effects of litter decomposition is crucial for gaining a more realistic understanding of carbon dynamics and nutrient cycles. The objective of this paper was to analyze the changes of litter mixture effects on decomposition between different soil fauna treatments (macrofauna inclusion vs macrofauna exclusion) and successional stages (mature forests vs secondary forests) in upper Andean tropical forests along time by using a reciprocal translocation experiment of 1,344 litterbags that ran for 18 months with six common native Andean species. Thought t-tests, linear regressions, and linear mixed models, I found that litter mixture effects vary among sites and increase with time in secondary forests until the year of decomposition in litterbags with macrofauna exclusion. Mature forests exhibited strong antagonistic effects, while pronounced synergistic effects were observed in secondary forests. Although soil macrofauna did not increase significantly litter decomposition and synergistic effects in the mixtures at any of the stages of decay, it is likely that soil macrofauna may impact litter mixtures through top-down effects within soil food webs, rather than exerting a direct effect in the litter consumption as has been reported in tropical lowland ecosystems. Overall, this study supports the idea that litter mixtures exhibit significant variability across sites, can change with successional stage, and are influenced by soil fauna depending on the stage of decay in tropical Andean montane forests.
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