Abstract
Ecosystems may occupy functionally distinct alternative states, some of which are more or less desirable from a management standpoint. Transitions from state to state are usually associated with a particular trigger or sequence of triggers, such as the addition or subtraction of a disturbance. Transitions are often not linear, rather it is common to see an abrupt transition come about even though the trigger increases only incrementally; these are examples of threshold behaviors. An ideal monitoring program, such as the National Park Service’s Inventory and Monitoring Program, would quantify triggers, and be able to inform managers when measurements of a trigger are approaching a threshold so that management action can avoid an unwanted state transition. Unfortunately, both triggers and the threshold points at which state transitions occur are generally only partially known. Using case studies, we advance a general procedure to help identify triggers and estimate where threshold dynamics may occur. Our procedure is as follows: (1) Operationally define the ecosystem type being considered; we suggest that the ecological site concept of the Natural Resource Conservation Service is a useful system, (2) Using all available a priori knowledge to develop a state-and-transition model (STM), which defines possible ecosystem states, plausible transitions among them and likely triggers, (3) Validate the STM by verifying the existence of its states to the greatest degree possible, (4) Use the STM model to identify transitions and triggers likely to be detectable by a monitoring program, and estimate to the greatest degree possible the value of a measurable indicator of a trigger at the point that a state transition is imminent (tipping point), and values that may indicate when management intervention should be considered (assessment points). We illustrate two different methods for attaining these goals using a data-rich case study in Canyonlands National Park, and a data-poor case study in Wupatki National Monument. In the data-rich case, STMs are validated and revised, and tipping and assessment points are estimated using statistical analysis of data. In the data-poor case, we develop an iterative expert opinion survey approach to validate the degree of confidence in an STM, revise the model, identify lack of confidence in specific model components, and create reasonable first approximations of tipping and assessment points, which can later be refined when more data are available. Our goal should be to develop the best set of models possible given the level of information available to support decisions, which is often not much. The approach presented here offers a flexible means of achieving this goal, and determining specific research areas in need of study.
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Acknowledgments
This work was supported by funding from the US Geological Survey (Status and Trends of Biological Resources Program and Southwest Biological Science Center), the NPS Northern and Southern Colorado Plateau I&M programs, and The Nature Conservancy of Utah, with additional assistance and cooperation from Canyonlands National Park and the Bureau of Land Management. We thank Lisa Thomas and Dusty Perkins of the NPS for their interest and support of this effort. We especially thank Steve Cinnamon formerly of the NPS, Billy Cardasco of Babbit Ranches, Dr. Christoper McGlone of the Ecological Restoration Institute, Dr. Matthew Loeser of Yakima Valley Community College, and Kirsten Ironside, Monica McTeague, and Dr. Kathryn Thomas of the US Geological Survey for devoting valuable time to expert opinion questionnaires. Drs. Chris Lauver, Brandon Bestelmeyer, Jayne Belnap, and Craig D. Allen contributed original ideas and feedback on this project. We thank Glenn Guntenspergen for constructive comments that improved this chapter.
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Bowker, M., Miller, M., Garman, S., Belote, T. (2014). Applying Threshold Concepts to Conservation Management of Dryland Ecosystems: Case Studies on the Colorado Plateau. In: Guntenspergen, G. (eds) Application of Threshold Concepts in Natural Resource Decision Making. Springer, New York, NY. https://doi.org/10.1007/978-1-4899-8041-0_7
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