The IWJV strives to make its science accessible, approachable, and technically applicable for our partners both in and out of the field. Our Intermountain Insights series takes relevant peer-reviewed science produced by the IWJV and partners and distills it into a format that emphasizes implications and applications.
Greater sandhill cranes rely on wetland habitat on private and public land throughout the West as they migrate to and from wintering and breeding grounds each fall and spring. New science from the Intermountain West Joint Venture (IWJV) identifies the landscapes and wetland sites most important to sustaining these seasonal migrations. The paper also documents how researchers identified and monitored landscape change in these wetland sites. The results paint the picture of an intricately connected network of habitat spread across the West—much of which is under threat from climate-change-associated drought and human development.
The ways in which the timing of water deliveries to agricultural wetlands is critical to the value of migratory waterbird habitat provided by these lands. Migration chronologies—or when birds move between nesting and wintering grounds—vary from species to species. Some birds, like northern pintails, arrive at stopover sites earlier than other species, requiring an earlier supply of water at those locales. How scientists, land managers, and water users track and respond to these variances is vitally important for wetland habitat conservation and the conservation of migratory waterbirds.
In order to monitor changes in the resiliency of wetland networks, IWJV scientist Patrick Donnelly partnered with scientists from the University of Montana, the U.S. Geological Survey, and the U.S. Fish and Wildlife Service’s Migratory Bird Program to look at surface water changes over 35 years in 26 key waterbird landscapes in the Intermountain West. The resulting science produced maps that will allow biologists and land managers to determine if individual wetlands are becoming drier, wetter, or have remained unchanged.
Source: Donnelly, J.P., King, S.L., Silverman, N.L., Collins, D.P., Carrera-Gonzalez, E.M., Lafón‐Terrazas, A., Moore, J.N. (2020). Climate and human water use diminish wetland networks supporting continental waterbird migration. Global Change Biology. https://doi.org/10.1111/gcb.15010
In the Intermountain West, where nearly 70 percent of emergent wet meadow resources occur on private lands, conservation of wildlife associated with those wet meadows on private lands and agriculture are inextricably linked. While past research has explored the hydrology and ecology of flood irrigation, and biological objectives have been established for waterfowl that rely on these working wet meadows, social science has lagged behind. Little has been known about rancher thoughts and experiences regarding flood irrigation and the factors influencing whether they will continue to flood irrigate. Through a social science research project, the IWJV and its partners sought to gain a deeper understanding of the human dimensions of this issue and how it can aid professionals in creating and adapting conservation solutions.
Source: Sketch, M., Dayer, A.A., & Metcalf, A.L. (2020). Western ranchers’ perspectives on enablers and constraints to flood irrigation. Rangeland Ecology and Management. https://doi.org/10.1016/j.rama.2019.12.003
Research led by the IWJV examines how a successful conservation effort known as the Bi-State Collaborative used the social-ecological systems (SES) approach to prevent an ESA listing of this specific sage grouse population. While no single case study can provide an exact formula for conservation success, this is a practical example of how the SES approach can help groups navigate tradeoffs between ecological and societal needs.