Ecosphere (Mar 2023)

The influence of inherent soil factors and agricultural management on soil organic matter

  • Gregory S. Richardson,
  • Matthew D. Ruark,
  • Timothy Radatz,
  • Amber Radatz,
  • Eric Cooley,
  • Erin M. Silva,
  • Abigail J. Augarten,
  • Jun Zhu,
  • Chelsea H. Zegler

DOI
https://doi.org/10.1002/ecs2.4459
Journal volume & issue
Vol. 14, no. 3
pp. n/a – n/a

Abstract

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Abstract The accumulation of soil organic matter (SOM) is vital to the agronomic and environmental functioning of agroecosystems, yet the relative influence of inherent soil properties and agricultural management practices on SOM dynamics are not often addressed in individual studies. Using a network of 218 operating farm fields across Wisconsin and southern Minnesota, USA, this research employs single variable analysis (ANOVA and regression) and regression tree analysis to assess the effects of soil properties (texture, drainage class, and pH) and management variables related to crop rotation, tillage, cover cropping, and manure application on SOM, as well as total organic carbon (TOC) and total nitrogen (TN) in the upper 15 cm. Single variable analysis revealed that greater SOM, TOC, and TN were associated with poorly drained soil, tile‐drained fields, high clay content soil, and high biomass crop rotations. SOM and TOC were strongly related (R2 = 0.71), but different regression trees were produced; SOM was most influenced by clay content, while TOC was most influenced by drainage class. Future assessment for the building of SOM or TOC should be conducted with drainage and texture class categories and on a regional basis, given that these factors influence the practices that occur within landscapes. A rapid building of datasets through unstructured sampling, including an abundance of metadata, should be a research priority in agricultural science to identify practices to build SOM on a regional basis.

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