St. Augustinegrass remains resilient under certain irrigation and fertilization restrictions, with or without soil humectants July 7, 2026
Phosphate mineral weathering by carboxylic acids is driven by functional group composition and orientation July 2, 2026
St. Augustinegrass remains resilient under certain irrigation and fertilization restrictions, with or without soil humectants July 7, 2026
Phosphate mineral weathering by carboxylic acids is driven by functional group composition and orientation July 2, 2026
HomePublicationsCSA NewsIssuesCSA News: Volume 65, Issue 12Large soil invertebrates may improve water capture in drylands October 22, 2020 A soil monolith that will be sorted for visible soil organisms that may be important for soil function. Photo by Courtland Kelly. In an article recently published in the Soil Science Society of America Journal, researchers from Colorado State University surveyed soil macrofauna from a 32-year crop rotation study with different amounts of fallow in rotation. The trial compared three no-till crop rotations and a conservation grassland treatment that was planted at the start of the experiment.Earthworms and ants were the most abundant organisms in both row-cropped and grassland treatments; earthworm densities ranged from 74 to 340 m–2, and ants and other arthropods ranged from 48 to 660 m–2. Overall, soil macrofauna were positively related to metrics of water capture, including soil aggregate stability and infiltration.As precipitation patterns become more unpredictable and extreme, effective capture of that moisture is critical for crop success. Often overlooked, soil organisms may help build agroecosystem resiliency, highlighting the importance of farming for soil organisms as well as crops.Dig deeperKelly, C., Schipanski, M., Kondratieff, B., Sherrod, L., Schneekloth, J., & Fonte, S.J. (2020). The effect of dryland cropping system intensity on soil function and associated changes in macrofauna communities. Soil Science Society of America Journal, 84. https://doi.org/10.1002/saj2.20133 More science Back to issue Back to home Text © . The authors. CC BY-NC-ND 4.0. Except where otherwise noted, images are subject to copyright. Any reuse without express permission from the copyright owner is prohibited.Share this:Send Message Related articles St. Augustinegrass remains resilient under certain irrigation and fertilization restrictions, with or without soil humectants July 7, 2026 Mohanty named Distinguished Professor July 6, 2026 Phosphate mineral weathering by carboxylic acids is driven by functional group composition and orientation July 2, 2026 Recent articles St. Augustinegrass remains resilient under certain irrigation and fertilization restrictions, with or without soil humectants July 7, 2026 Mohanty named Distinguished Professor July 6, 2026 Phosphate mineral weathering by carboxylic acids is driven by functional group composition and orientation July 2, 2026
St. Augustinegrass remains resilient under certain irrigation and fertilization restrictions, with or without soil humectants July 7, 2026
Phosphate mineral weathering by carboxylic acids is driven by functional group composition and orientation July 2, 2026
St. Augustinegrass remains resilient under certain irrigation and fertilization restrictions, with or without soil humectants July 7, 2026
Phosphate mineral weathering by carboxylic acids is driven by functional group composition and orientation July 2, 2026