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Forum: Critical Decision Dates for Drought Management in Central and Northern Great Plains Rangelands
- Smart, Alexander J., Harmoney, Keith, Scasta, J. Derek, Stephenson, Mitchell B., Volesky, Jerry D., Vermeire, Lance T., Mosley, Jeffrey C., Sedivec, Kevin, Meehan, Miranda, Haigh, Tonya, Derner, Justin D., McClaran, Mitchel P.
- Rangeland ecology & management 2019
- costs and returns, data collection, decision making, drought, ecological site descriptions, ecosystems, financial economics, forage, forage production, growing season, growth curves, humans, managers, prediction, ranching, rangeland soils, rangelands, remote sensing, spring, uncertainty, Alberta, Great Plains region, Kansas, Montana, Nebraska, North Dakota, South Dakota, Wyoming
- Ranchers and other land managers of central and northern Great Plains rangelands face recurrent droughts that negatively influence economic returns and environmental resources for ranching enterprises. Accurately estimating annual forage production and initiating drought decision-making actions proactively early in the growing season are both critical to minimize financial losses and degradation to rangeland soil and plant resources. Long-term forage production data sets from Alberta, Kansas, Montana, Nebraska, North Dakota, South Dakota, and Wyoming demonstrated that precipitation in April, May, and June (or some combination of these months) robustly predict annual forage production. Growth curves from clipping experiments and ecological site descriptions (ESDs) indicate that maximum monthly forage growth rates occur 1 mo after the best spring month (April to June) precipitation prediction variable. Key for rangeland managers is that the probability of receiving sufficient precipitation after 1 July to compensate for earlier spring precipitation deficits is extremely low. The complexity of human dimensions of drought decision-making necessitates that forage prediction tools account for uncertainty in matching animal demand to forage availability, and that continued advancements in remote sensing applications address both spatial and temporal relationships in forage production to inform critical decision dates for drought management in these rangeland ecosystems.