Quantifying earthworm soil ingestion from changes in vertical bulk density profiles

IF 3.7 2区 农林科学 Q1 ECOLOGY European Journal of Soil Biology Pub Date : 2023-12-12 DOI:10.1016/j.ejsobi.2023.103574
M. Larsbo , J. Koestel , E.J. Krab , J. Klaminder
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Abstract

Soil mixing by earthworms can have a large impact on the fate of nutrients and pollutants and on the soil's ability to sequester carbon. Nevertheless, methods to quantify earthworm ingestion and egestion under field conditions are largely lacking. Soils of the Fennoscandian tundra offer a special possibility for such quantifications, as these soils commonly lack burrowing macrofauna and exhibit a well-defined O horizon with low bulk density on top of a mineral soil with higher density. Since ingestion-egestion mixes the two soil layers, the temporal changes in the bulk density profile of such soils may be useful for estimating field ingestion rates. In this study, we applied a model for earthworm burrowing through soil ingestion to observed changes in soil densities occurring in a mesocosm experiment carried out in the arctic during four summers with intact soil. The earthworms present in the mesocosms were Aporrectodea trapezoides, Aporrectodea tuberculata, Aporrectodea rosea, Lumbricus rubellus and Lumbricus Terrestris (fourth season only). We show that changes in soil density profiles can indeed be used to infer earthworm ingestion rates that are realistic in comparison to literature values. Although uncertainties in parameter values were sometimes large, the results from this study suggest that soil turnover rates and endogeic earthworm soil ingestion rates in tundra heath and meadow soils may be as high as those reported for temperate conditions. Such large ingestion rates can explain observed large morphological changes in arctic soils where dispersing earthworms have resulted in complete inmixing of the organic layer into the mineral soil. Our approach is applicable to soil profiles with marked vertical differences in bulk density such as the soils of the Fennoscandian tundra where earthworms are currently dispersing into new areas and to layered repacked soil samples that are incubated in the field.

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根据垂直容重剖面的变化量化蚯蚓对土壤的摄取量
蚯蚓对土壤的混合会对养分和污染物的归宿以及土壤固碳的能力产生巨大影响。然而,目前还缺乏在野外条件下量化蚯蚓摄食和排泄的方法。芬诺斯康达苔原的土壤为此类量化提供了特殊的可能性,因为这些土壤通常缺乏穴居大型动物,并在密度较高的矿质土壤上呈现出体积密度较低的界限分明的 O 层。由于摄食-消化作用会使两个土层混合,因此这类土壤容重剖面的时间变化可能有助于估算野外摄食率。在这项研究中,我们将蚯蚓通过土壤摄食穴居的模型应用于在北极地区进行的一个中型宇宙实验中观察到的土壤密度变化。在中观模型中出现的蚯蚓有 Aporrectodea trapezoides、Aporrectodea tuberculata、Aporrectodea rosea、Lumbricus rubellus 和 Lumbricus Terrestris(仅第四季)。我们的研究表明,土壤密度剖面的变化确实可以用来推断蚯蚓的摄食率,与文献值相比,这种推断是符合实际的。虽然参数值的不确定性有时很大,但这项研究的结果表明,苔原石楠和草甸土壤的土壤周转率和内生蚯蚓的摄食率可能与温带条件下的报道一样高。如此大的摄取率可以解释在北极土壤中观察到的巨大形态变化,在这些土壤中,分散的蚯蚓导致有机层与矿质土壤完全混合。我们的方法适用于容积密度存在明显垂直差异的土壤剖面,例如芬诺斯坎迪亚苔原的土壤,蚯蚓目前正在向新的区域分散,我们的方法也适用于在野外培养的分层重新包装的土壤样本。
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来源期刊
European Journal of Soil Biology
European Journal of Soil Biology 环境科学-生态学
CiteScore
6.90
自引率
0.00%
发文量
51
审稿时长
27 days
期刊介绍: The European Journal of Soil Biology covers all aspects of soil biology which deal with microbial and faunal ecology and activity in soils, as well as natural ecosystems or biomes connected to ecological interests: biodiversity, biological conservation, adaptation, impact of global changes on soil biodiversity and ecosystem functioning and effects and fate of pollutants as influenced by soil organisms. Different levels in ecosystem structure are taken into account: individuals, populations, communities and ecosystems themselves. At each level, different disciplinary approaches are welcomed: molecular biology, genetics, ecophysiology, ecology, biogeography and landscape ecology.
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