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Frequent, low-intensity wildfires were once widespread across the Southeast US, which led to a reduction in unchecked vegetation growth that provided fuel for high-intensity fires. Both intentional and unintentional fire suppression and land-use changes have reduced many of these wildfires and the fire-adapted habitats in the region over time. This loss of frequent low-intensity wildfires on the landscape also increases the severity of wildfires due to fuel buildup and the encroachment of woody species. The remaining habitats and their native species (many of which are of conservation concern) are now almost completely dependent on prescribed burns for their persistence and survival. Successful application of fire...
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The objective of this project is to map the supply of ecosystem services (where natural ecosystems have the capacity to provide a certain product or service that could be of use to people), use of those services (where people or other entities that use the product or service exist), and the condition of ecosystems providing these services over time. The resulting datasets were used to generate metrics for pilot ecosystem accounts for the southeast – part of natural capital accounts that assess ecosystems’ contributions to the economy in order to help governments better understand their reliance on natural systems and manage natural resources to ensure their benefits are sustained into the future. These data were...
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In the northern Gulf of Mexico, mangrove forests have been expanding their northern range limits in parts of Texas, Louisiana, and north Florida since 1989. In response to warming winter temperatures, mangroves, which are dominant in warmer climates, are expected to continue migrating northward at the expense of salt marshes, which fare better in cooler climates. The ecological implications and timing of mangrove expansion is not well understood, and coastal wetland managers need information and tools that will enable them to identify and forecast the ecological impacts of this shift from salt marsh to mangrove-dominated coastal ecosystems. To address this need, researchers will host workshops and leverage existing...
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Climate change is expected to worsen the harmful effects of invasive species on native wildlife. This presents a growing conservation challenge for invasive species managers in the southeastern United States where thousands of invasive species exist. While many of these invasive species currently have relatively small ranges in the southeastern U.S., climate change may allow them to expand into new regions. To effectively plan and respond to the redistribution of invasive species, it is crucial to coordinate existing information and identify future information needs across regional boundaries. The ultimate goal of this project is to improve invasive species management in the face of climate change by establishing...
Abstract (from Environmental Entomology) An insect species’ geographic distribution is probably delimited in part by physiological tolerances of environmental temperatures. Gloomy scale (Melanaspis tenebricosa (Comstock)) is a native insect herbivore in eastern U.S. forests. In eastern U.S. cities, where temperatures are warmer than nearby natural areas, M. tenebricosa is a primary pest of red maple (Acer rubrum L.; Sapindales: Sapindaceae) With warming, M. tenebricosa may spread to new cities or become pestilent in forests. To better understand current and future M. tenebricosa distribution boundaries, we examined M. tenebricosa thermal tolerance under laboratory conditions. We selected five hot and five cold experimental...
Abstract (from MDPI ) Sleeper species are innocuous native or naturalized species that exhibit invasive characteristics and become pests in response to environmental change. Climate warming is expected to increase arthropod damage in forests, in part, by transforming innocuous herbivores into severe pests: awakening sleeper species. Urban areas are warmer than natural areas due to the urban heat island effect and so the trees and pests in cities already experience temperatures predicted to occur in 50–100 years. We posit that arthropod species that become pests of urban trees are those that benefit from warming and thus should be monitored as potential sleeper species in forests. We illustrate this with two case...
Abstract (from SpringerLink) Predation by natural enemies is important for regulating herbivore abundance and herbivory. Theory predicts that complex habitats support more natural enemies, which exert top-down control over arthropods and therefore can reduce herbivory. However, it is unclear if theory developed in other more natural systems similarly apply to predation by vertebrate and invertebrate natural enemies across urban habitats of varying complexity. We used plasticine caterpillar models to assess risk of predation by birds and insects, collected leaf-feeding arthropods, and measured herbivory in willow oak trees (Quercus phellos) in two seasons to determine how predation influenced herbivory across urban...
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The fast pace of change in coastal zones, the trillions of dollars of investment in human communities in coastal areas, and the myriad of ecosystem services natural coastal environments provide makes managing climate-related risks along coasts a massive challenge for all of the U.S. coastal states and territories. Answering questions about both the costs and the benefits of alternative adaptation strategies in the near term is critical to taxpayers, decision-makers, and to the biodiversity of the planet. There is significant public and private interest in using ecosystem based adaptation approaches to conserve critical significant ecosystems in coastal watersheds, estuaries and intertidal zones and to protect man-made...
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States in the Southeastern Association of Fish and Wildlife Agencies (SEAFWA) region have faced challenges when trying to develop regional plans or actions for many conservation issues. Leadership in many SEAFWA states is hesitant to approach the topic of climate change at all, let alone engage in multi-state efforts to mitigate climate impacts. Recent Southeast Climate Adaptation Science Center (SE CASC) supported research surveyed agency directors and supervisory boards, and discovered their primary concerns revolved around agency budgets, “R3” efforts (i.e., to recruit, retain, and reactivate hunters and anglers), and public outreach to maintain social relevance. Another project supported by the SE CASC and the...
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The populations of many forest birds have declined in recent decades due to loss of habitat area and degradation of habitat quality. Past land management has left the landscape of the heavily forested Appalachian Mountains with too little old growth as well as too few young, regenerating forests. This change in habitat structure has led to the listing of several forest birds as Species of Greatest Conservation Need. Active management is needed to maintain habitat for these species, but climate change may alter the kinds of management that are effective. Climate change is likely to affect forest structure – and bird habitat suitability – because of shifts in temperature, precipitation, and disturbance. While current...
Abstract (from USGS): Adapting cultural resources to climate-change effects challenges traditional cultural resource decision making because some adaptation strategies can negatively affect the integrity of cultural resources. Yet, the inevitability of climate-change effects—even given the uncertain timing of those effects—necessitates that managers begin prioritizing resources for climate-change adaptation. Prioritization imposes an additional management challenge: managers must make difficult tradeoffs to achieve desired management outcomes related to maximizing the resource values. This report provides an overview of a pilot effort to integrate vulnerability (exposure and sensitivity), significance, and use potential...
Abstract (from ScienceDirect): Natural resource plans play a critical role in guiding the sustainable management of forest ecosystems. However, little is known about the quality of management plans. In this study, we evaluated and compared the quality of 35 management plans from federal, state, and nongovernment groups managing longleaf pine ecosystems in the Southeast United States. We developed a plan evaluation tool consisted of five components: (1) Problem and Objective Statement, (2) Fact Base, (3) Actions and Implementation, (4) Integration with Other Plans, and (5) Stakeholder Participation, to examine to what extent plans incorporated planning best practices. We tested a hypothetical model for understanding...
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Coastal ecosystems are uniquely vulnerable to changes in the quantity and quality of freshwater discharge. With a warming climate, changes in freshwater discharge into estuaries will interact with rising sea levels. Coastal natural resource managers need guidance on the potential impacts and vulnerabilities to better manage the risks to aquatic species and habitats and to mitigate species decline or collapse resulting from changes in freshwater availability. This project will inform resource managers on the development of management plans that protect coastal ecosystems and species while accounting for changes in freshwater availability under climate uncertainty. To achieve this, the proposed project has three objectives....
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Coastal marshes are vital habitats that protect and support our coastal communities and economies by providing protection from storm surge, filtering pollutants, and providing recreational opportunities. Rising sea levels threaten marshes and jeopardize the benefits they provide to human communities and ecosystems. To preserve these benefits, coastal resource managers need to understand how marshes will change in the short- and long-term in response to rising sea levels. Scientific models provide resource managers with an effective way to visualize and understand these changes, but the numerous choices of marsh models currently available can be overwhelming to coastal managers. The similarities and differences...
Urbanization represents an unintentional global experiment that can provide insights into how species will respond and interact under future global change scenarios. Cities produce many conditions that are predicted to occur widely in the future, such as warmer temperatures, higher carbon dioxide (CO2) concentrations and exacerbated droughts. In using cities as surrogates for global change, it is challenging to disentangle climate variables—such as temperature—from co-occurring or confounding urban variables—such as impervious surface—and then to understand the interactive effects of multiple climate variables on both individual species and species interactions. However, such interactions are also difficult to replicate...
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Arguably the most direct, intense, and long-lasting modification that humans can make to a landscape is converting rural lands to urbanized areas. As human populations grow, the demand for urbanized areas will increase, and scientists can help natural resource managers plan for these changes by creating models that predict potential patterns of future urbanization. The Southeast U.S. is experiencing particularly rapid population growth, as a favorable winter climate has drawn millions to the region from other areas of the country over the past several decades. However, the Southeast is also at risk from the effects of climate change, particularly along its vast coastline, where over a quarter of the region’s population...
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The pine rockland ecosystem is found only in south Florida and the Bahamas and provides important habitat for numerous rare and endemic plants and animals. These include 18 species that are already federally listed as threatened or endangered and four other species petitioned for listing that are scheduled for development of Species Status Assessments (SSAs). Today, south Florida’s pine rockland ecosystem represents less than 3 percent of its original extent. Threats such as saltwater intrusion from hurricanes and sea-level rise pose the greatest risk to the longevity of this ecosystem. For the U.S. Fish and Wildlife Service to make decisions about the potential listing of a species, they must be able to forecast...
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Amphibians in the US Caribbean, like the well-known coquí frog, are particularly vulnerable to human-caused climate change. Coquí frogs are represented by 17 species across Puerto Rico and US Virgin Islands and include several mountainous and coastal species that are threatened by extreme heat and drying, loss of coastal freshwater marshes through saltwater intrusion, or both. Over the past decade, the Southeast Climate Adaptation Science Center has invested in several scientific investigations to understand how global climate change is likely to affect the local climate of the US Caribbean and how sensitive different coquí species are to changes in local climate and habitat conditions in Puerto Rico. This project...
Abstract (from Nature Communications): A major challenge in articulating human dimensions of climate change lies in translating global climate forecasts into impact assessments that are intuitive to the public. Climate-analog mapping involves matching the expected future climate at a location (e.g., a person’s city of residence) with current climate of another, potentially familiar, location - thereby providing a more relatable, place-based assessment of climate change. For 540 North American urban areas, we used climate-analog mapping to identify the location that has a contemporary climate most similar to each urban area’s expected 2080’s climate. We show that climate of most urban areas will shift considerably...
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Mangroves are forested tidal wetlands that occur in tropical, sub-tropical, and warm temperate coastal regions around the world. Mangroves occupy a significant area of coastlines globally and provide important ecosystem services to humans and wildlife. These services include aesthetic value, storm protection, food provisioning, recreation, critical wildlife habitat, and biological carbon sequestration. However, mangrove wetlands are being lost globally due to both human development and sea level rise. Since mangroves provide numerous services and protections to society, the influences of environmental change on these ecosystems need to be understood so that effective management action can be taken. This project...
map background search result map search result map Developing Future Habitat Condition Scenarios for Wildlife in the Imperiled Pine Rockland Ecosystem of South Florida Identifying the Ecological and Management Implications of Mangrove Migration in the Northern Gulf of Mexico Improving Scenarios of Future Patterns of Urbanization, Climate Adaptation, and Landscape Change in the Southeast Improving the Usability of Modeling Tools for Predicting Coastal Marsh Response to Sea Level Rise Evaluating Ecosystem-Based Adaptation Options for Coastal Resilience Science to Inform the Management of Mangrove Ecosystems Undergoing Sea Level Rise at Ding Darling National Wildlife Refuge, Sanibel Island, Florida Development of an Early Warning System to Identify Changing Prescribed Burn Opportunities Across Southeast US Fire-Adapted Habitats Informing Climate-Adaptive Forest Management for Breeding Bird Habitat in the Southern Appalachians Improving Support for Regional Conservation Efforts in the Region Managed by the Southeastern Association of Fish and Wildlife Agencies Future of Aquatic Flows: Exploring Changes in the Freshwater/Saltwater Interface and Related Impacts to Aquatic Species Advancing Climate Change Adaptation Strategies for High Elevation and Endangered Lowland Coquí Frogs in the U.S. Caribbean Mapping Ecosystem Services for Natural Capital Accounting Southeast Regional Invasive Species and Climate Change Management Network (SE RISCC) Science to Inform the Management of Mangrove Ecosystems Undergoing Sea Level Rise at Ding Darling National Wildlife Refuge, Sanibel Island, Florida Developing Future Habitat Condition Scenarios for Wildlife in the Imperiled Pine Rockland Ecosystem of South Florida Informing Climate-Adaptive Forest Management for Breeding Bird Habitat in the Southern Appalachians Improving the Usability of Modeling Tools for Predicting Coastal Marsh Response to Sea Level Rise Southeast Regional Invasive Species and Climate Change Management Network (SE RISCC) Identifying the Ecological and Management Implications of Mangrove Migration in the Northern Gulf of Mexico Mapping Ecosystem Services for Natural Capital Accounting Improving Scenarios of Future Patterns of Urbanization, Climate Adaptation, and Landscape Change in the Southeast Development of an Early Warning System to Identify Changing Prescribed Burn Opportunities Across Southeast US Fire-Adapted Habitats Improving Support for Regional Conservation Efforts in the Region Managed by the Southeastern Association of Fish and Wildlife Agencies Future of Aquatic Flows: Exploring Changes in the Freshwater/Saltwater Interface and Related Impacts to Aquatic Species Evaluating Ecosystem-Based Adaptation Options for Coastal Resilience