Cropping systems with perennial vegetation and livestock integration promote soil health

Abigail J. Augarten; Lindsay Chamberlain Malone; Gregory S. Richardson; Randall D. Jackson; Michel A. Wattiaux; Shawn P. Conley; Amber M. Radatz; Eric T. Cooley; Matthew D. Ruark

doi:10.1002/ael2.20100

Agricultural & Environmental Letters (Jun 2023)

Cropping systems with perennial vegetation and livestock integration promote soil health

Abigail J. Augarten,
Lindsay Chamberlain Malone,
Gregory S. Richardson,
Randall D. Jackson,
Michel A. Wattiaux,
Shawn P. Conley,
Amber M. Radatz,
Eric T. Cooley,
Matthew D. Ruark

Affiliations

Abigail J. Augarten: Department of Soil Science University of Wisconsin‐Madison Madison WI USA
Lindsay Chamberlain Malone: Department of Agronomy University of Wisconsin‐Madison Madison WI USA
Gregory S. Richardson: Department of Soil Science University of Wisconsin‐Madison Madison WI USA
Randall D. Jackson: Department of Agronomy University of Wisconsin‐Madison Madison WI USA
Michel A. Wattiaux: Department of Animal and Dairy Sciences University of Wisconsin‐Madison Madison WI USA
Shawn P. Conley: Department of Agronomy University of Wisconsin‐Madison Madison WI USA
Amber M. Radatz: Discovery Farms University of Wisconsin‐Madison Division of Extension Green Bay WI USA
Eric T. Cooley: Discovery Farms University of Wisconsin‐Madison Division of Extension Green Bay WI USA
Matthew D. Ruark: Department of Soil Science University of Wisconsin‐Madison Madison WI USA

DOI: https://doi.org/10.1002/ael2.20100
Journal volume & issue: Vol. 8, no. 1
pp. n/a – n/a

Abstract

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Abstract Soil health can differ across cropping systems because of variation in edaphic and management factors. We evaluated how biological indicators of soil health (soil organic matter [SOM], permanganate oxidizable carbon [POXC], mineralizable carbon [MinC], autoclaved‐citrate‐extractable [ACE] protein, and potentially mineralizable nitrogen [PMN]) compared across four common Wisconsin cropping systems: grazed cool‐season pastures, forage‐based rotations that included perennial legumes or grasses, annual rotations receiving manure, and annual rotations receiving synthetic fertilizers. Biological indicators of soil health were up to 195% greater in pastures than other cropping systems. MinC, POXC and PMN were 10%–90% greater in forage‐based rotations than annual cropping systems, but only MinC and POXC were greater in annual systems with manure compared to those without manure by 35% and 7%, respectively. Perennial vegetation and livestock integration offer the greatest potential to increase biological indicators of soil health in agricultural lands.

Published in Agricultural & Environmental Letters

ISSN: 2471-9625 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Agriculture; Geography. Anthropology. Recreation: Environmental sciences
Website: https://acsess.onlinelibrary.wiley.com/journal/24719625

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