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Past and present climate has shaped the valued ecosystems currently protected in parks and reserves, but future climate change will redefine these conditions. Continued conservation as climate changes will require thinking differently about resource management than we have in the past; we present some logical steps and tools for doing so. Three critical tenets underpin future management plans and activities: (1) climate patterns of the past will not be the climate patterns of the future; (2) climate defines the environment and influences future trajectories of the distributions of species and their habitats; (3) specific management actions may help increase the resilience of some natural resources, but fundamental changes in species and their environment may be inevitable. Science-based management will be necessary because past experience may not serve as a guide for novel future conditions. Identifying resources and processes at risk, defining thresholds and reference conditions, and establishing monitoring and assessment programs are among the types of scientific practices needed to support a broadened portfolio of management activities. In addition to the control and hedging management strategies commonly in use today, we recommend adaptive management wherever possible. Adaptive management increases our ability to address the multiple scales at which species and processes function, and increases the speed of knowledge transfer among scientists and managers. Scenario planning provides a broad forward-thinking framework from which the most appropriate management tools can be chosen. The scope of climate change effects will require a shared vision among regional partners. Preparing for and adapting to climate change is as much a cultural and intellectual challenge as an ecological challenge.

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Water treatment implications after the High Park Wildfire, Colorado

Writer

Hohner

Oropeza³

et al. 2014

Journal AWWA

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His research evaluates the relation between environmental processes and water infrastructure, both from the perspective of how watershed processes control source water quality and how wastewater effluent affects downstream ecological function. Writer has studied various types of watershed disturbances (e.g. floods, drought, wastewater) to evaluate their corresponding effects on water resources. Writer's research links engineering, chemistry, hydrology, and ecology to better understand the complexities of contaminant transport and its effect on aquatic ecosystems and water resources. He received his bachelor's degree from Brown University in Providence, R.I., and his master's and doctorate degrees from the University of Colorado at Boulder

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Characterization and spatial distribution of particulate and soluble carbon and nitrogen from wildfire-impacted sediments

et al. 2016

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Jill Oropeza

Drinking water treatment response following a Colorado wildfire

Options for National Parks and Reserves for Adapting to Climate Change

Water treatment implications after the High Park Wildfire, Colorado

Characterization and spatial distribution of particulate and soluble carbon and nitrogen from wildfire-impacted sediments

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