Evaluation of Changes in Glomalin-Related Soil Proteins (GRSP) Content, Microbial Diversity and Physical Properties Depending on the Type of Soil as the Important Biotic Determinants of Soil Quality

Anna Gałązka,Jarosław Grządziel,Karolina Gawryjołek,Jacek Niedźwiecki

doi:10.3390/agronomy10091279

Abstract

The aim of the study was to evaluate the changes in glomalin-related soil proteins (GRSP) content, microbial diversity and soil physical quality depending on the type of soil measures of soil improvement and changes in soil health. The study was based on a 100-year stationary field microplot experiment where the soil profiles were collected with preserving the natural soil horizons. The microplot experiment was carried out on eight different soil types: Brunic Arenosol (Dystric I), Rendzic Leptosol, Fluvic Cambisol, Haplic Cambisol (Eutric), Gleyic Phaeozem, Brunic Arenosol (Dystric II), Haplic Cambisol (Eutric II) and Haplic Cambisol (Dystric). These soils are the most common types of agricultural soils in Poland. Relatively significant correlations with the soil quality, physical parameters and the glomalin-related soil proteins have been found. The study determined the total GRSP (T-GRSP) and easily extractable GRSP (EE-GRSP) levels in soils as well as the soil physical quality index and soil’s microbial biodiversity. The GRSP depended on the type of soil and correlated with S-Index and also was responsible for the unique chemical and physical properties of soils. Soils characterized by the highest T-GRSP content belonged to the group of very good and good soil physical quality characterized also by high biological activity, for which there were strong correlations with such parameters as dehydrogenase activity (DHA), microbial biomass content (MBC), microbial nitrogen content (MBN) and total bacteria number (B). The highest T-GRSP content and higher microbial diversity were found in Gleyic Phaeozem, Rendzic Leptosol and Fluvic Cambisol. The T-GRSP and EE-GRSP content were additionally correlated with the number of AMF spores. Very poor and poor soil physical quality according to S-Index characterized Brunic Arenosol (Dystric I) and Haplic Cambisol (Dystric). This research indicates that a specific edaphone of soil microorganisms and GRSP content may be of great importance when assessing a soil’s quality and improvements in soil health. The abundance of glomalin-producing fungi significantly affects the quality of the soil. This effect is particularly important for agricultural soils are threatened by ongoing land degradation.

Highlights

Organic matter (OM) and the products of its biochemical transformation have a favourable effect on a complex of soil properties that determine its fertility and productivity [1,2]
The readily dispersible clay (RDC)/total clay (TC) ratio was highest in Brunic Arenosol Dystric I (0.313) and lowest in Fluvic Cambisol
The Gleyic Phaeozem, Fluvic Cambisol and Rendzic Leptosol were characterized by high biological activity, for which there were strong correlations with such parameters as dehydrogenase activity (DHA), microbial biomass content (MBC), microbial nitrogen content (MBN), S-Index and total bacteria number (Figure 9)

Summary

Introduction

Organic matter (OM) and the products of its biochemical transformation have a favourable effect on a complex of soil properties that determine its fertility and productivity [1,2]. That is why it is so important to properly manage soil resources in the context of the proper functioning of ecosystems and the special protection of high-performance soils [3]. This is mainly due to the type of parent material of soils. Over 70% of Poland’s soils were mainly formed from Pleistocene sands, highly blurred and sorted by glacial waters [4]. In Poland, such soil types as Brunic Arenosol (Dystric I), Rendzic Leptosol, Fluvic Cambisol, Haplic Cambisol (Eutric), Gleyic Phaeozem, Brunic Arenosol (Dystric II), Haplic Cambisol (Eutric II)

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Conclusion