Biblio
“Increased Soil Temperature and Decreased Precipitation During Early Life Stages Constrain Grass Seedling Recruitment in Cold Desert Restoration”, Journal of Applied Ecology, vol. 56, no. 12, pp. 2609-2619, 2019.
, “Influence of temporal heterogeneity in nitrogen supply on competitive interactions in a desert shrub community”, Oecologia, vol. 1521411926978191118883633417831398580111803114594936714819371241452314173158, no. 4, pp. 721 - 727, 2007.
, “Leaf nitrogen productivity as a mechanism driving the success of invasive annual grasses under low and high nitrogen supply”, Journal of Arid Environments, vol. 72, no. 10, pp. 1775 - 1784, 2008.
, “Limiting medusahead invasion and impacts in the Great Basin”, Great Basin Factsheet, vol. 2, p. 3, 2015.
, “Linking nitrogen partitioning and species abundance to invasion resistance in the Great Basin”, Oecologia, vol. 156, no. 3, pp. 637 - 648, 2008.
, “Longer-Term Post-Fire Succession on Wyoming Big Sagebrush Steppe”, International Journal of Wildland Fire , p. A-K, 2020.
, “Management and Environmental Factors Associated with Simulated Restoration Seeding Barriers in Sagebrush Steppe”, Restoration Ecology, no. E13722, 2022.
, “Mineral Concentration Patterns among Our Major Rangeland Grasses”, Oregon Agricultural Experiment Station, SR 1057, 2006.
, “A New Perspective and Approach to Ecosystem Restoration: a Seed Enhancement Technology Guide and Case Study”, Restoration Ecology, 2022.
, “The Northern Great Basin: A Region of Continual Change”, Rangelands, vol. 37, no. 3, pp. 114 - 118, 2015.
, “Photosynthetic Resilience of Elymus elymoides and Pseudoroegneria spicata Seedlings Following Acute Water Stress”, Rangeland Ecology & Management, vol. 94, pp. 195 - 198, 2024.
, “Plant nitrogen capture in pulse-driven systems: interactions between root responses and soil processes”, Journal of Ecology, vol. 9413630141861457821823317571411911126438753115288111183162531134841459353118424720256422107214214518193601623216511130, no. 4, pp. 765 - 777, 2006.
, “Plant Recruitment in Drylands Varies by Site, Year, and Seeding Technique”, Restoration Ecology, vol. 31, no. 2, 2023.
, “Recovery of the Herbaceous Component of Degraded Sagebrush Steppe is Unimpeded by 75 years of Moderate Cattle Grazing”, Ecosphere, vol. 12, no. 3, pp. 1-20, 2021.
, “Sagebrush steppe recovery after fire varies by development phase of Juniperus occidentalis woodland”, International Journal of Wildland Fire, vol. 23, no. 1, p. 117, 2014.
, “Seasonal timing of N pulses influences N capture in a saltbush scrub community”, Journal of Arid Environments, vol. 67, no. 4, pp. 688 - 700, 2006.
, “Using Dynamic, Fuels-Based Fire Probability Maps to Reduce Large Wildfires in the Great Basin”, Rangeland Ecology & Management, vol. 89, pp. 33 - 41, 2023.
, “Vegetation Recovery and Fuel Reduction after Seasonal Burning of Western Juniper”, Fire Ecology, vol. 10, no. 3, pp. 27 - 48, 2014.
, “Where There's Smoke, There's Fuel: Dynamic Vegetation Data Improve Predictions of Wildfire Hazard in the Great Basin”, Rangeland Ecology & Management, vol. 89, pp. 20 - 32, 2023.
, “Wyoming Big Sagebrush Cover Types in Eastern Oregon: Ecological Potentials and Sage-grouse Guideline Habitat Requirements”, Oregon Agricultural Experiment Station, 2006.
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