Effect of Detritus Manipulation on Different Organic Matter Decompositions in Temperate Deciduous Forest Soils

Zsolt Kotroczó,Csaba Varga,Tamás Kocsis,Borbála Biró,Katalin Juhos,Sándor Attila Pabar,István Fekete

doi:10.3390/f11060675

Zsolt Kotroczó, Csaba Varga + Show 5 more

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https://doi.org/10.3390/f11060675

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Abstract

Soil organic matter supply is mainly derived from plant litter. The early stages of litter degradation is a very dynamic process. Thus, its study is important for understanding litter degradation and the control factors of different biomes and ecosystems. In the frame of the Síkfőkút DIRT (Detritus Input and Removal Treatments) Project, the effect of organic matter treatment was studied on the rate of decomposition of organic matter by applying different kinds of organic materials (leaf and wood litter, green and rooibos tea material, and cellulose cotton wool). During long-term experiments, we intended to investigate how the different organic matter manipulations changed by the soil microbial community and how it affects the degradation of different quality organic matter in the soil. The important main purpose of the research was to investigate litter degradation and its main regulators, contributing to both current and future climate scenarios. According to our results, in the case of litter-doubling treatments, we experienced a greater loss of organic matter compared to the weight of the litter bags placed in the soil of organic matter-withdrawal treatments. Furthermore, based on our results, we found that the decomposition rate is influenced by litter quality (leaf and cellulose wool) that is to be decomposed and by the applied litter treatments depending on the time allowed for decomposition. A drier climate by slowing down the degradation processes and by increasing the proportion of recalcitrant molecules in the detritus may increase the turnover time, which may lead to an increase in soil organic carbon (SOC).

Highlights

Numerous literatures and research report that our soils are degraded due to inappropriate land use in recent decades [1,2,3]
We assume that the faster decomposition in soils with balanced moisture and temperature is due to the higher activity of the persistently formed microbial community in contrast to the withdrawal treatments, where the soil surface is more exposed and the moisture and temperature conditions change under more extreme conditions
As a conclusion of our research, we can say that the fragmentation of the studied organic substances and the resistance of the compounds that make them up fundamentally influence the rate of degradation

Summary

Introduction

Numerous literatures and research report that our soils are degraded due to inappropriate land use in recent decades [1,2,3]. Climate change has a significant impact and contributes significantly to the current state of soils. A serious problem is the drastic reduction of soil organic matter for the reasons mentioned above. Soil’s variable organic matter supply, quality and quantity determine the physical and chemical properties of soils and their biological properties [4,5]. Organic materials in the soil undergo constant transformation. These changes in soils are all effects that have an impact on the short-term and on the long-term future of agriculture [8,9]

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