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Within the time frame of the longevity of tree species, climate change will change faster than the ability of natural tree migration. Migration lags may result in reduced productivity and reduced diversity in forests under current management and climate change. We evaluated the efficacy of planting climate-suitable tree species (CSP), those tree species with current or historic distributions immediately south of a focal landscape, to maintain or increase aboveground biomass, productivity, and species and functional diversity. We modeled forest change with the LANDIS-II forest simulation model for 100 years (2000–2100) at a 2-ha cell resolution and five-year time steps within two landscapes in the Great Lakes region...
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Within the time frame of the longevity of tree species, climate change will change faster than the ability of natural tree migration. Migration lags may result in reduced productivity and reduced diversity in forests under current management and climate change. We evaluated the efficacy of planting climate-suitable tree species (CSP), those tree species with current or historic distributions immediately south of a focal landscape, to maintain or increase aboveground biomass, productivity, and species and functional diversity. We modeled forest change with the LANDIS-II forest simulation model for 100 years (2000–2100) at a 2-ha cell resolution and five-year time steps within two landscapes in the Great Lakes region...
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Researchers assessed how an expansion of forest reserves and climate-adaptive management may improve ecological connectivity and resilience under different climate scenarios. Resilience is measured as the capacity for these systems to maintain extant forest communities and aboveground live biomass. Forest landscape change was simulated via a spatially explicit forest ecosystem model, LANDIS-II. Simulations covered areas in northern Minnesota and northern lower Michigan that represent northern Great Lakes forest types. Restoring and maintaining ecological connectivity is one of the primary climate change adaptation strategies available to land managers, in addition to silvicultural practices. This study is...
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Land managers and resource and conservation professionals across political and organizational boundaries (e.g. state and federal agencies, non-governmental organizations, private landowners) often lack a common framework for planning and coordinated decision-making on a regional scale. We created and implemented such a framework and demonstrated its application through Story Maps, an interactive web-based communication tool. Story Maps facilitate collective understanding and decision-making by displaying interactive maps and spatial data with narrative text and multimedia. We developed a framework for coordinated development of Story Maps, integrating both the Ecosystem Services and Human Well-Being frameworks used...
Forest-dominated landscapes provide a wide range of ecosystem services to many different sectors of society, including forest products (e.g., timber), recreational opportunities and support of tourism, carbon sequestration, and habitat for fish and wildlife and other biodiversity. However, many forests and embedded aquatic systems in the Northwoods are in degraded condition due to land and resource management decisions, impacts of over-abundant deer populations, and the spread of nonnative forest pests and pathogens that have led to “surprise” losses of key tree species. The long-term viability of these vast expanses of forest-dominated systems has great potential to be further compromised as climatic changes...
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Land managers and resource and conservation professionals across political and organizational boundaries (e.g. state and federal agencies, non-governmental organizations, private landowners) often lack a common framework for planning and coordinated decision-making on a regional scale. We created and implemented such a framework and demonstrated its application through Story Maps, an interactive web-based communication tool. Story Maps facilitate collective understanding and decision-making by displaying interactive maps and spatial data with narrative text and multimedia. We developed a framework for coordinated development of Story Maps, integrating both the Ecosystem Services and Human Well-Being frameworks used...
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Climate change is expected to drastically change the environmental conditions which forests depend. Lags in tree species movements will likely be outpaced by a more rapidly changing climate. This may result in species extirpation, a change in forest structure, and a decline in resistance and resilience (i.e., the ability to persist and recover from external perturbations, respectively). In the northern Great Lakes region of North America, an ecotone exists along the boreal-temperate transition zone where large changes in species composition exist across a climate gradient. Increasing temperatures are observed in the more southern landscapes. As climate change is expected to substantially affect mid-continental landscapes,...
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The emerald ash borer (EAB) poses a tremendous threat to ash forest habitats across the upper Great Lakes. Of particular concern is the impact EAB will have on the ecology and functioning of black ash ( Fraxinus nigra) forested wetlands, which cover over 500,000 ha in Michigan, Minnesota, and Wisconsin and represent the region’s most common ash forest habitat. Black ash often occurs in relatively pure stands on poorly drained sites where it serves as a foundation species exerting a strong control over ecosystem structure and functioning. Correspondingly, extirpation of this species by EAB could have negative cascading effects, including dramatic rises in water tables and shifts in vegetation composition towards...
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Northern Great Lakes forests represent an ecotone in the boreal–temperate transition zone and are expected to change dramatically with climate change. Managers are increasingly seeking adaptation strategies to manage these forests. We explored the efficacy of two alternative management scenarios compared with business-as-usual (BAU) management: expanding forest reserves meant to preserve forest identity and increase resistance, and modified silviculture meant to preserve forest function and increase adaptive capacity. Our study landscapes encompassed northeastern Minnesota and northern Lower Michigan, which are predicted to experience significant changes in a future climate and represent a gradient of latitude,...
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Researchers assessed how an expansion of forest reserves and climate-adaptive management may improve ecological connectivity and resilience under different climate scenarios. Resilience is measured as the capacity for these systems to maintain extant forest communities and aboveground live biomass. Forest landscape change was simulated via a spatially explicit forest ecosystem model, LANDIS-II. Simulations covered areas in northern Minnesota and northern lower Michigan that represent northern Great Lakes forest types. Restoring and maintaining ecological connectivity is one of the primary climate change adaptation strategies available to land managers, in addition to silvicultural practices. This study is...
Forest-dominated landscapes provide a wide range of ecosystem services to many different sectors of society, including forest products (e.g., timber), recreational opportunities and support of tourism, carbon sequestration, and habitat for fish and wildlife and other biodiversity. However, many forests and embedded aquatic systems in the Northwoods are in degraded condition due to land and resource management decisions, impacts of over-abundant deer populations, and the spread of nonnative forest pests and pathogens that have led to “surprise” losses of key tree species. The long-term viability of these vast expanses of forest-dominated systems has great potential to be further compromised as climatic changes...
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The emerald ash borer (EAB) poses a tremendous threat to ash forest habitats across the upper Great Lakes. Of particular concern is the impact EAB will have on the ecology and functioning of black ash ( Fraxinus nigra) forested wetlands, which cover over 500,000 ha in Michigan, Minnesota, and Wisconsin and represent the region’s most common ash forest habitat. Black ash often occurs in relatively pure stands on poorly drained sites where it serves as a foundation species exerting a strong control over ecosystem structure and functioning. Correspondingly, extirpation of this species by EAB could have negative cascading effects, including dramatic rises in water tables and shifts in vegetation composition towards...
thumbnail
Within the time frame of the longevity of tree species, climate change will change faster than the ability of natural tree migration. Migration lags may result in reduced productivity and reduced diversity in forests under current management and climate change. We evaluated the efficacy of planting climate-suitable tree species (CSP), those tree species with current or historic distributions immediately south of a focal landscape, to maintain or increase aboveground biomass, productivity, and species and functional diversity. We modeled forest change with the LANDIS-II forest simulation model for 100 years (2000–2100) at a 2-ha cell resolution and five-year time steps within two landscapes in the Great Lakes region...


    map background search result map search result map Scenarios for forest reserve expansion and adaptive management under alternative climate change scenarios in the northern Great Lakes Quantifying and mitigating the impacts of emerald ash borer on black ash forests in the upper Great Lakes region Supporting Conservation and Decision-Making in the Northwoods: Mapping Forest Values, Services, and Threats Report: Quantifying and mitigating the impacts of emerald ash borer on black ash forests in the upper Great Lakes region Report: Supporting Conservation and Decision-Making in the Northwoods: Mapping Forest Values, Services, and Threats Dissertation: Resistance and Resilience of Northern Great Lakes Forests to the Effects of Climate Change Publication: Climate-suitable planting as a strategy for maintaining forest productivity and functional diversity Publication: Measuring and managing resistance and resilience under climate change in northern Great Lake forests Publication: Climate change effects on northern Great Lake (USA) forests: A case for preserving diversity Publication: Effects of alternative forest management on biomass and species diversity in the face of climate change in the northern Great Lakes region Report: Scenarios for forest reserve expansion and adaptive management under alternative climate change scenarios in the northern Great Lakes Supporting Conservation and Decision-Making in the Northwoods: Mapping Forest Values, Services, and Threats Report: Supporting Conservation and Decision-Making in the Northwoods: Mapping Forest Values, Services, and Threats Report: Scenarios for forest reserve expansion and adaptive management under alternative climate change scenarios in the northern Great Lakes Scenarios for forest reserve expansion and adaptive management under alternative climate change scenarios in the northern Great Lakes Dissertation: Resistance and Resilience of Northern Great Lakes Forests to the Effects of Climate Change Publication: Climate-suitable planting as a strategy for maintaining forest productivity and functional diversity Publication: Measuring and managing resistance and resilience under climate change in northern Great Lake forests Publication: Climate change effects on northern Great Lake (USA) forests: A case for preserving diversity Publication: Effects of alternative forest management on biomass and species diversity in the face of climate change in the northern Great Lakes region Quantifying and mitigating the impacts of emerald ash borer on black ash forests in the upper Great Lakes region Report: Quantifying and mitigating the impacts of emerald ash borer on black ash forests in the upper Great Lakes region