A test of activated carbon and soil seed enhancements for improved sub-shrub and grass seedling survival with and without herbicide application

Authors: Svejcar, Lauren; MARTYN, TRACE - Oregon State University; Edlund, Hayley; Davies, Kirk

Submitted to: Plants
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 10/17/2024
Publication Date: 11/1/2024
Citation: Svejcar, L.N., Martyn, T.E., Edlund, H.R., Davies, K.W. 2024. A test of activated carbon and soil seed enhancements for improved sub-shrub and grass seedling survival with and without herbicide application. Plants. 13(21). Article 3074. https://doi.org/10.3390/plants13213074.
DOI: https://doi.org/10.3390/plants13213074

Interpretive Summary: Effectively restoring degraded dryland areas that are invaded with exotic species is a major challenge to land managers globally. We tested seed ameliorations that seek to increase the resilience of seeded species in restoration efforts of these ecosystems. We found positive evidence for the effectiveness of the seed ameliorations. This research provides evidence that seed ameliorations may be a useful treatment for land managers and could become a tool in the toolbox of management options available for restoring degraded lands.

Technical Abstract: Re-establishing native plants while controlling invasive species is a challenge for many dryland restoration efforts globally. Invasive plants often create highly competitive environments so controlling them is necessary for effective establishment of native species. In the sagebrush steppe of the United States, invasive annual grasses are commonly controlled with herbicide treatments. However, the same herbicides that control invasive annual grasses also impact the native species being planted. As such, carbon-based seed technologies to protect native seeds from herbicide applications are being trialed. In addition to controlling invasive species, ensuring good seed-to-soil contact is important for effective establishment of native species. In this grow room study, we explored the impact of different seed ameliorations when no herbicide was applied and when herbicide was applied. We selected two native species that are important to the sagebrush steppe for this study—the sub-shrub Krascheninnikovia lanata and the perennial bunchgrass Pseudoroegneria spicata—and used three different seed ameliorations—seed pelleting with local soil alone, local soil plus activated carbon and activated carbon alone—to ensure both greater seed-to-soil contact and protection against herbicides. Shoot and root biomass data were collected eight weeks after planting. We found that when herbicide was not applied, K. lanata had the strongest response to the soil alone amelioration, while P. spicata had the strongest response to the activated carbon alone amelioration. However, when herbicide was applied, K. lanata performed best with the soil plus activated carbon treatments, with an average 1500% increase in biomass, while P. spicata performed best with the activated carbon alone treatments, with an over 4000% increase in biomass, relative to bare seed. The results from our study indicate that there is a positive effect of local soils and activated carbon as seed ameliorations, and further testing in the field is needed to understand how these ameliorations might perform in actual restoration scenarios.