Louisa Evers scite author profile

This report is one of a set of periodic reports produced by the Northwest Forest Plan (the Plan) interagency monitoring program. These reports attempt to answer questions about the effectiveness of the Plan using the latest monitoring methods and research results. The reports focus on establishing baseline information from 1994, when the Plan was approved, and reporting changes that have occurred since then. The series includes late-successional and old-growth forests, northern spotted owl (Strix occidentalis caurina) population and habitat, marbled murrelet (Brachyramphus marmoratus) population and habitat, watershed condition, government-to-government tribal relationships, socioeconomic conditions, and project implementation. These monitoring reports are also intended to identify potential issues and to recommend solutions for future adaptive management changes and, as noted in the first reporting cycle, to resolve information management issues that inevitably surface during these analyses.

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The ecology, history, ecohydrology, and management of pinyon and juniper woodlands in the Great Basin and Northern Colorado Plateau of the western United States

Miller¹,

Chambers²,

Evers³

et al. 2019

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Effects of Changing Climate on the Hydrological Cycle in Cold Desert Ecosystems of the Great Basin and Columbia Plateau

Snyder

Evers

Chambers

et al. 2019

Rangeland Ecology & Management

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Research and development supporting risk-based wildfire effects prediction for fuels and fire management: status and needs

Hyde

Dickinson

Bohrer

et al. 2013

Int. J. Wildland Fire

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Wildland fire management has moved beyond a singular focus on suppression, calling for wildfire management for ecological benefit where no critical human assets are at risk. Processes causing direct effects and indirect, long-term ecosystem changes are complex and multidimensional. Robust risk-assessment tools are required that account for highly variable effects on multiple values-at-risk and balance competing objectives, to support decision making. Providing wildland fire managers with risk-analysis tools requires a broad scientific foundation in fire behaviour and effects prediction as well as high quality computer-based tools and associated databases. We outline a wildfire riskassessment approach, highlight recent developments in fire effects science and associated research needs, and recommend developing a comprehensive plan for integrated advances in wildfire occurrence, behaviour and effects research leading to improved decision support tools for wildland fire managers. We find that the current state of development in fire behaviour and effects science imposes severe limits on the development of risk-assessment technology. In turn, the development of technology has been largely disconnected from the research enterprise, resulting in a confusing array of ad hoc tools that only partially meet decision-support needs for fuel and fire management. We make the case for defining a common riskbased analytic framework for fire-effects assessment across the range of fire-management activities and developing a research function to support the framework.

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Bioenergy harvest, climate change, and forest carbon in the Oregon Coast Range

et al. 2015

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Forests provide important ecological, economic, and social services, and recent interest has emerged in the potential for using residue from timber harvest as a source of renewable woody bioenergy. The long-term consequences of such intensive harvest are unclear, particularly as forests face novel climatic conditions over the next century. We used a simulation model to project the long-term effects of management and climate change on above-and belowground forest carbon storage in a watershed in northwestern Oregon. The multi-ownership watershed has a diverse range of current management practices, including little-to-no harvesting on federal lands, short-rotation clear-cutting on industrial land, and a mix of practices on private nonindustrial land. We simulated multiple management scenarios, varying the rate and intensity of harvest, combined with projections of climate change. Our simulations project a wide range of total ecosystem carbon storage with varying harvest rate, ranging from a 45% increase to a 16% decrease in carbon compared to current levels. Increasing the intensity of harvest for bioenergy caused a 2-3% decrease in ecosystem carbon relative to conventional harvest practices. Soil carbon was relatively insensitive to harvest rotation and intensity, and accumulated slowly regardless of harvest regime. Climate change reduced carbon accumulation in soil and detrital pools due to increasing heterotrophic respiration, and had small but variable effects on aboveground live carbon and total ecosystem carbon. Overall, we conclude that current levels of ecosystem carbon storage are maintained in part due to substantial portions of the landscape (federal and some private lands) remaining unharvested or lightly managed. Increasing the intensity of harvest for bioenergy on currently harvested land, however, led to a relatively small reduction in the ability of forests to store carbon. Climate change is unlikely to substantially alter carbon storage in these forests, absent shifts in disturbance regimes.

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Louisa Evers

Northwest Forest Plan—the first 15 years (1994–2008): status and trends of northern spotted owl populations and habitats

The ecology, history, ecohydrology, and management of pinyon and juniper woodlands in the Great Basin and Northern Colorado Plateau of the western United States

Effects of Changing Climate on the Hydrological Cycle in Cold Desert Ecosystems of the Great Basin and Columbia Plateau

Research and development supporting risk-based wildfire effects prediction for fuels and fire management: status and needs

Bioenergy harvest, climate change, and forest carbon in the Oregon Coast Range

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