Source or decomposition of soil organic matter: what is more important with increasing forest age in a subalpine setting?

IF 2.7 3区 农林科学 Q2 ECOLOGY
T. C. Speckert, G. Wiesenberg
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Abstract

Afforestation has been the dominant land-use change in the Swiss Alps during the last decades which has not only the potential to increase soil organic carbon sequestration, but it has also the potential to alter soil organic matter (SOM) dynamics through the vegetation shift and change in organic matter (OM) input into soils. The effects of afforestation on SOM dynamics, however, are still not fully understood as specific sources of OM and modifications of soil processes influencing decomposition and preservation remain largely unknown on alpine to subalpine slopes. Within this study we aimed to identify the potential sources and the decomposition of OM in a subalpine afforestation chrono-sequence (0–130 years) with Norway spruce (Picea abies L.) on a former pasture by using a multi-proxy molecular marker approach. We observed that leaf-derived OM plays an essential role in the pasture areas, while root-derived OM only plays a minor role in pasture and forest areas. Needle-derived OM represents the dominant source of SOM with increasing forest age, while understory shrubs and moss also contribute to the OM input in younger forest stand ages. However, needle litter and buildup of organic layers and subsequently less input of fresh OM from organic horizons to mineral soil can result in increased OM decomposition in mineral soils rather than contributing to additional SOM stabilization in mineral soils. This was most pronounced in the oldest forest stand (130-year-old) in the investigated afforestation sequence, particularly in deeper soil horizons (10–45 cm). Thereby, our study provides new insights into SOM dynamics following afforestation, especially with respect to the long-term SOM sequestration potential of afforestation of subalpine pasture soils.
土壤有机物质的来源还是分解:在亚高山环境中,随着森林年龄的增加,哪个更重要?
在过去的几十年里,造林一直是瑞士阿尔卑斯山主要的土地利用变化,这不仅有可能增加土壤有机碳的固存,而且还有可能通过植被的转移和土壤有机质输入的变化来改变土壤有机质(SOM)动态。然而,造林对土壤有机质动态的影响尚不完全清楚,因为在高寒至亚高寒斜坡上,土壤有机质的具体来源和影响分解和保存的土壤过程的改变在很大程度上仍然未知。本研究旨在利用多代理分子标记方法,确定亚高山前牧场上挪威云杉(Picea abies L.)造林时间序列(0-130年)中OM的潜在来源和分解。我们发现,在牧区,叶源性有机质起主要作用,而在牧区和林区,根源性有机质只起次要作用。随着林龄的增加,针叶有机质的输入占主导地位,而林下灌木和苔藓在林龄较低的林龄也对有机质的输入有贡献。然而,针状凋落物和有机层的堆积以及随后从有机层向矿物土壤输入的新鲜有机质的减少可能导致矿物土壤中有机质分解增加,而不是有助于矿物土壤中额外的SOM稳定。这在调查造林序列中最古老的林分(130年)中最为明显,特别是在较深的土壤层(10-45 cm)中。因此,我们的研究为造林后土壤中SOM的动态变化提供了新的见解,特别是在亚高山牧场土壤中造林的长期SOM封存潜力方面。
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
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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