Soil Systems (Jun 2019)

Erosion Induced Heterogeneity of Soil Organic Matter in Catenae from the Baltic Sea Catchment

  • Gerald Jandl,
  • Christel Baum,
  • Goswin Heckrath,
  • Mogens H. Greve,
  • Arno Kanal,
  • Ülo Mander,
  • Barbara Maliszewska-Kordybach,
  • Jacek Niedzwiecki,
  • Kai-Uwe Eckhardt,
  • Peter Leinweber

DOI
https://doi.org/10.3390/soilsystems3020042
Journal volume & issue
Vol. 3, no. 2
p. 42

Abstract

Read online

Soil organic matter (SOM) is unevenly distributed in arable fields in undulated landscapes, but the chemical composition resulting from their turnover, transport and deposition processes is insufficiently known. Therefore, we aimed at disclosing the molecular-chemical composition of SOM in four different catenae at shoulderslope, backslope and footslope positions in arable fields in the Baltic Sea catchment, Europe. The backslope positions always had the lowest organic C-contents (Corg) (1.6…11.8 g·kg−1) and C-stocks (3.8…8.5 kg·m−2) compared to the shoulderslopes and footslopes (1.7…17.7 g·Corg·kg−1, 5.4…15 kg·Corg·m−2). In the SOM-poor backslope positions, the organic matter was characterized by relatively high proportions of carbohydrates, phenols + lignin monomers, alkylaromatic compounds, N-compounds and amides, indicating intensive microbial decomposition. By contrast, the footslopes had the largest Corg-contents (9.3…16.5 g·kg−1) and C-stocks (8.9…15 kg·m−2) in the catenae and particular enrichments in lipids, lignin dimers, sterols and free fatty acids. These relatively stabile SOM compound classes are interpreted as leftovers from erosive downslope transport and concurrent microbial decomposition, e.g., they are pronounced at backslope positions, followed by restricted microbial decomposition. This heterogeneous SOM distribution calls for an adapted soil management that reduces erosion and places amendments to field areas, such as the shoulderslope and backslope.

Keywords