Seeding Evaluation and Experimental Design Strategies (SEEDS) for Restoration

Seeding Planting Monitoring Graphic

Evaluating basin wildrye seed sources across provisional seed zones, native forb sowing depth on species performance and improving the accuracy of collection site and seed lot identification for big sagebrush

Jensen, S.L. 2020. Evaluating basin wildrye seed sources across provisional seed zones, native forb sowing depth on species performance and improving the accuracy of collection site and seed lot identification for big sagebrush. Provo, UT: Brigham Young University. Dissertation. 83 p.

Temporal and spatial factors influence native forb emergence more than sowing depth

Jensen, S.; Christensen, W.F.; Roundy, B.; Anderson, V.J.; Kitchen, S.G.; Allphin, L. 2022. Temporal and spatial factors influence native forb emergence more than sowing depth. Rangeland Ecology and Management. 83: 41-49.

Revegetation equipment catalog

Revegetation equipment catalog. Shaw, N.L.; Gucker, Corey, L., Weidemann, H. ed. Rangeland Technology and Equipment Council.  Texas A&M University, USDI Bureau of Land Management, USDA Forest Service, Rocky Mountain Research Station, Rangeland Technology Equipment Council.

Native wildflower seed production with limited subsurface drip irrigation

Shock, C.C.; Feibert, E.B.G.; Saunders, L.D.; Shaw, N.L. 2009. Native wildflower seed production with limited subsurface drip irrigation. Corvallis, OR: Oregon State University, Malheur Experiment Station. Special Report 1094: 157-176.

Native wildflower seed production with limited subsurface drip irrigation

Shock, C.C.; Feibert, E.B.G.; Saunders, L.D.; Shaw, N.L. 2010. Native wildflower seed production with limited subsurface drip irrigation. Corvallis, OR: Oregon State University, Malheur Experiment Station. Annual Report 2009: 193-209.

Emergence of native plant seeds in response to seed pelleting, planting depth, scarification and soil anti-crusting treatment

Shock, C.; Feibert, E.; Saunders, L.; Shaw, N. 2010. Emergence of native plant seeds in response to seed pelleting, planting depth, scarification and soil anti-crusting treatment. Corvallis, OR: Oregon State University, Malheur Experiment Station. Annual Report 2009, OSU Department of Crop and Soil Science Ext/Crs 131: 218-222.

Operational success of direct surface seeding strategies for establishment of Intermountain West native plants

Shock, C.C.; Feibert, E.B.G.; Parris, C.A.; Saunders, L.D.; Shaw, N.L. 2011. Operational success of direct surface seeding strategies for establishment of Intermountain West native plants. Corvallis, OR: Oregon State University, Malheur Experiment Station. Annual Report 2010, Ext/CrS 132: 179-185.

Evaluation of seed scarification for the establishment of three Intermountain West native legumes

Shock, C.; Feibert, E.; Parris, C.; Saunders, L.; Johnson, D.; Bushman, S.; Shaw, N. 2012. Evaluation of seed scarification for the establishment of three Intermountain West native legumes. Corvallis, OR: Oregon State University, Malheur Experiment Station. Malheur Experiment Station Annual Report 2011, Department of Crop and Soil Science Ext/CrS 141: 136-138.

Direct surface seeding systems for successful establishment of native wildflowers

Shock, C.; Feibert, E.; Saunders, L.: Shaw, N. 2013. Direct surface seeding systems for successful establishment of native wildflowers. Corvallis, OR: Oregon State University, Malheur Experiment Station. Ext/CrS 149: 159-165.