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"Endangered ecosystems Northeastern States."
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Historical changes in northeastern US bee pollinators related to shared ecological traits
Pollinators such as bees are essential to the functioning of terrestrial ecosystems. However, despite concerns about a global pollinator crisis, long-term data on the status of bee species are limited. We present a long-term study of relative rates of change for an entire regional bee fauna in the northeastern United States, based on >30,000 museum records representing 438 species. Over a 140-y period, aggregate native species richness weakly decreased, but richness declines were significant only for the genus Bombus . Of 187 native species analyzed individually, only three declined steeply, all of these in the genus Bombus . However, there were large shifts in community composition, as indicated by 56% of species showing significant changes in relative abundance over time. Traits associated with a declining relative abundance include small dietary and phenological breadth and large body size. In addition, species with lower latitudinal range boundaries are increasing in relative abundance, a finding that may represent a response to climate change. We show that despite marked increases in human population density and large changes in anthropogenic land use, aggregate native species richness declines were modest outside of the genus Bombus . At the same time, we find that certain ecological traits are associated with declines in relative abundance. These results should help target conservation efforts focused on maintaining native bee abundance and diversity and therefore the important ecosystems services that they provide.
Journal Article
Science Priorities for Offshore Wind and Fisheries Research in the Northeast U.S. Continental Shelf Ecosystem: Perspectives from Scientists at the National Marine Fisheries Service
Offshore wind development (OWD) is set to expand rapidly in the United States as a component of the nation's effort to combat climate change. Offshore wind development in the United States is slated to begin in the Greater Atlantic region, where it is expected to interact with ocean ecology, human dimensions, fisheries data collections, and fisheries management. Understanding these interactions is key to ensuring the coexistence of offshore wind energy with sustainable fisheries and a healthy marine ecosystem. These anticipated interactions compelled the authors, all fisheries scientists or managers at National Oceanic and Atmospheric Administration (NOAA) Fisheries who are actively engaged in offshore wind science to identify scientific research priorities for OWD in the Northeast U.S. Continental Shelf ecosystem, specifically in support of NOAA Fisheries' role as the nation's leading steward of marine life. We extracted and analyzed OWD research needs from existing scientific documents and used this information as the basis to develop a list of priorities that align with five major OWD science themes that are of high interest to NOAA Fisheries. These NOAA Fisheries themes include supporting the regulatory process; mitigating the impacts to NOAA Fisheries' surveys; advancing science to understand interactions with NOAA Fisheries trust resources, the marine ecosystem, and fishing industries/communities; advancing the science of mitigation for NOAA Fisheries trust resources and fishing industries/communities; and advancing data management methods. The areas identified as research priorities will support the coexistence of offshore wind and sustainable fisheries and inform the development of NOAA Fisheries' science plan for offshore wind in the Northeast U.S. Continental Shelf ecosystem as well as cross‐sectoral science planning efforts at the regional, national, and international levels.
Journal Article
Resident status influences perceptions about beach resource valuation and restoration
Sandy beaches represent typical destinations for recreation and tourism worldwide, as well as being a lifestyle for people living along the shore. In the Northeastern United States coastal environments are build-up and overexploited, threatening both ecosystem integrity and coastal communities. Following hurricane Sandy, the US government funded a number of restoration projects aimed at increasing resiliency of coastal ecosystems and human communities. In light of this, research about human perceptions and concerns during a restoration project was conducted to assist in planning and decision making for continued beach restoration and management, including monitoring avian resources. Objectives were to determine if there were differences among permanent coastal residents, part-time residents (summer), and non-residents (tourists) concerning visitation to the beach, knowledge about the restoration project, birds using the beach, and ratings of ecological resources and beach management options. There were no differences in knowledge of the bird species that were endangered nor in the conservation projects aimed at protecting birds as a function of resident status. People were aware of the roped-off nesting areas, but less aware of the conservation areas or even stewards on the beach. However, permanent residents were significantly more aware of the protective signage and that dogs were not allowed on the beach than others. Less than half of the people knew about the recent restoration project, and part-time residents were more aware of building up the dunes and creating nesting habitat, and less aware of dredging, beach replenishment and habitat restoration than other types of residents. When asked to rate different protection values, there were no differences for protecting the environment, but non-residents rated protecting birds, protecting endangered species, and providing conservation information to the public higher than others, and part-time residents rated predator control higher than others. This information can be used to target different segments of the beach-using community, particularly to residents on the importance of their local beach to protection of the environment, endangered species, and birds.
Journal Article
Can at‐risk species serve as effective conservation surrogates? Case study in northeastern US shrublands
Targeted, single‐species management and ecosystem‐based management are generally considered disparate conservation approaches. In imperiled ecosystems, these approaches may be complementary, when habitat management for targeted at‐risk species provides broad ecosystem benefits through an umbrella or surrogate species effect. In the northeastern United States, extensive management has been ongoing since 2011 to restore declining habitat for an at‐risk shrubland habitat specialist, the New England cottontail (Sylvilagus transitionalis), with the goal that other shrubland‐obligate wildlife will also benefit; yet, the efficacy of these efforts has not been evaluated. In this study, we assessed whether habitat management targeting New England cottontail provides conservation benefits for shrubland‐obligate birds. Specifically, we (1) identified shrubland‐obligate birds that are indicative of the microhabitat conditions and habitat types suitable for New England cottontails, and (2) determined microhabitat and patch‐level influences on shrubland bird occupancy at sites occupied by or managed for New England cottontail. Through avian point count surveys and indicator species analyses, we identified 12 shrubland‐obligate bird species on patches occupied by New England cottontail and in microhabitat conditions suitable for New England cottontail. Occupancy models for five shrubland bird species further identified species‐specific habitat associations. Generalized linear models showed that shrubland bird species richness was positively associated with herbaceous vegetation and low shrubs, indicating that shrublands managed for the purpose of cottontail colonization can also benefit a suite of shrubland birds before the habitat is dense enough to provide cover for cottontails. Our findings show that managing habitat for New England cottontail on a variety of site types can maintain a range of microhabitat conditions to support a high diversity of shrubland‐obligate birds. These findings provide evidence for broad ecosystem benefits of managing for New England cottontail and exemplify the value of at‐risk habitat specialists as conservation surrogates in imperiled ecosystems.
Journal Article
Mercury in bats from the northeastern United States
This study examines mercury exposure in bats across the northeast U.S. from 2005 to 2009. We collected 1,481 fur and 681 blood samples from 8 states and analyzed them for total Hg. A subset (n = 20) are also analyzed for methylmercury (MeHg). Ten species of bats from the northeast U.S. are represented in this study of which two are protected by the Endangered Species Act (ESA 1973) and two other species are pending review. There are four objectives in this paper: (1) to examine correlates to differences in fur–Hg levels among all of the sampling sites, including age, sex, species, and presence of a Hg point source; (2) define the relationship between blood and fur–Hg levels and the factors that influence that relationship including age, sex, species, reproductive status, and energetic condition; (3) determine the relationships between total Hg and MeHg in five common eastern bat species; and (4) assess the distribution of Hg across bat populations in the northeast. We found total blood and fur mercury was eight times higher in bats captured near point sources compared to nonpoint sources. Blood–Hg and fur–Hg were well correlated with females on average accumulating two times more Hg in fur than males. On average fur MeHg accounted for 86 % (range 71–95 %) of the total Hg in bat fur. Considering that females had high Hg concentrations, beyond that of established levels of concern, suggests there could be negative implications for bat populations from high Hg exposure since Hg is readily transferred to pups via breast milk. Bats provide an integral part of the ecosystem and their protection is considered to be of high priority. More research is needed to determine if Hg is a stressor that is negatively impacting bat populations.
Journal Article
A landscape index of ecological integrity to inform landscape conservation
ContextConservation planning is increasingly using “coarse filters” based on the idea of conserving “nature’s stage”. One such approach is based on ecosystems and the concept of ecological integrity, although myriad ways exist to measure ecological integrity.ObjectivesTo describe our ecosystem-based index of ecological integrity (IEI) and its derivative index of ecological impact (ecoImpact), and illustrate their applications for conservation assessment and planning in the northeastern United States.MethodsWe characterized the biophysical setting of the landscape at the 30 m cell resolution using a parsimonious suite of settings variables. Based on these settings variables and mapped ecosystems, we computed a suite of anthropogenic stressor metrics reflecting intactness (i.e., freedom from anthropogenic stressors) and resiliency metrics (i.e., connectivity to similar neighboring ecological settings), quantile-rescaled them by ecosystem and geographic extent, and combined them in a weighted linear model to create IEI. We used the change in IEI over time under a land use scenario to compute ecoImpact.ResultsWe illustrated the calculation of IEI and ecoImpact to compare the ecological integrity consequences of a 70-year projection of urban growth to an alternative scenario involving securing a network of conservation core areas (reserves) from future development.ConclusionsIEI and ecoImpact offer an effective way to assess ecological integrity across the landscape and examine the potential ecological consequences of alternative land use and land cover scenarios to inform conservation decision making.
Journal Article
The influence of biotic and abiotic factors on banded common loon (Gavia immer) reproductive success in a remote, mountainous region of the northeastern United States
Habitat degradation resulting from anthropogenic activities can threaten wildlife populations. Even wildlife existing in seemingly pristine areas are at risk of airborne pollutants and urban development. The common loon (Gavia immer), a top-trophic level predator in freshwater aquatic ecosystems, has previously experienced detrimental changes in reproductive success as a result of anthropogenic activities. However, long-term studies and large sample sizes are necessary to ascertain the impacts of various anthropogenic activities on this long-lived species. Using a multi-year dataset, we investigated the effects of multiple biotic and abiotic factors on the probability of adult male and female common loon hatching and fledging success. From 1998–2017, we banded individual loons, collected blood samples to assess mercury (Hg) exposure of the birds, and monitored their reproductive success. Adult female loon hatching success was negatively associated with the amount of rainfall received in a given year while fledging success was positively associated with the amount of shoreline development. Adult male loon hatching success was positively associated with the amount of shoreline development and fledging success was negatively associated with the number of other loon pairs on a lake.
Journal Article