Cadaver imprint on soil chemistry and microbes - Knowns, unknowns, and perspectives

IF 2.1 Q3 SOIL SCIENCE Frontiers in soil science Pub Date : 2023-02-15 DOI:10.3389/fsoil.2023.1107432

S. Fiedler, K. Kaiser, B. Fournier

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Abstract

Cadaver-decomposition unleashes an ephemeral pulse of matter input that modifies microbial communities, as well as nutrient pools and fluxes. This leaves behind a measurable imprint on affected soils. However, the persistence of this imprint remains poorly understood. We define cadaver imprint persistence as the entire period between time of cadaver deposition and time when cadaver effects on microbial community structure and chemical indicators are no longer detectable. We present a brief overview of published results on the cadaver-induced changes in the bio-elements carbon, nitrogen and phosphorus, which regulate the structure and functions of the soil microbiome. Based on this, we identified conceptual and methodological gaps and biases and suggest potential research avenues to address them. This will help to better understand the relationships between cadaver-derived matter and microbial taxa and functions, as well as the role of cadaver-decomposition within and across ecosystems. The proposed future research on cadaver-derived imprint on soils has the potential to serve as a hub for connecting soil chemistry, microbial ecology, forensic sciences, and ecosystems science.

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土壤化学和微生物上的尸体印记-已知，未知和观点

尸体分解释放出短暂的物质输入脉冲，改变微生物群落，以及营养库和通量。这在受影响的土壤上留下了可测量的印记。然而，这种印记的持久性仍然知之甚少。我们将尸体印记持久性定义为从尸体沉积时间到尸体对微生物群落结构和化学指标的影响不再被检测到的整个时期。我们简要概述了尸体引起的生物元素碳、氮和磷的变化，这些生物元素调节着土壤微生物群的结构和功能。在此基础上，我们确定了概念和方法上的差距和偏差，并提出了解决这些问题的潜在研究途径。这将有助于更好地理解尸体衍生物质与微生物分类群和功能之间的关系，以及尸体分解在生态系统内部和跨生态系统中的作用。未来对土壤上尸体衍生印记的研究有可能成为连接土壤化学、微生物生态学、法医学和生态系统科学的枢纽。

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Frontiers in soil science

CiteScore

1.90

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0.00%

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