Browsing by Subject "Invasive species"
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Item Open Access A Rapid Assessment Protocol for the Identification of Invasive Species in the Albemarle-Pamlico National Estuary(2013-04-26) Diaz, MarthaThe Albemarle-Pamlico Estuarine System (APES) is the second largest estuary in the continental U.S. comprising 3,000 square miles of open water and a wide variety of physical and chemical characteristics. These characteristics allow for a highly diverse community composition, but also make APES a favorable host for the settlement and propagation of invasive species. In an effort to gain information regarding the invasive species already existing in APES, the Albemarle-Pamlico National Estuary Partnership would like to conduct an annual rapid assessment survey of the estuary. This rapid assessment protocol outlines suggested sampling sites within brackish and saline areas of the estuary for fouling, intertidal and benthic habitats. In addition, a directory of potential samplers, field forms, a sample database, and a trip budget were developed as part of this protocol.Item Open Access Gobbling Up Habitat? Impact of Wild Turkeys on Native Bird Habitat Selection(2008-04-25T15:38:25Z) Gillingham, AngelaThe wild turkey (Meleagris gallopavo) is an invasive species currently causing heated debate in California. Not only is there a question as to whether or not the bird is actually invasive, as a very similar species of wild turkey was present in California about 10,000 years ago, but there is considerable dissent over whether or not turkeys actually cause any ecological damage. I conducted this study under the auspices of the California State Department of Parks and Recreation (DPR) in order to address the potential impact of wild turkeys on habitat selection in native ground-dwelling avifauna, using the California quail (Callipepla californica) as the basis for comparison. Results show that both turkeys and quail are significantly selective about their preferred habitat types (p < .01). Results also demonstrate that turkeys and quail are coexisting within the same macrohabitat types without significant detrimental effects on either bird. The birds utilize very different microhabitat types, and given the size difference between them, it is highly unlikely that turkeys will begin to occupy the dense, bushy vegetation preferred by quail. Turkeys also appear to have narrower preferences for both microhabitat and macrohabitat than quail, and are therefore limited in the areas they can colonize. There is a great deal of dietary overlap, however both birds have such diverse feeding preferences that barring any extraordinary environmental disasters, it is also unlikely that turkeys will monopolize available food sources.Item Open Access Invasive Exotic Plants of the Eno River Watershed(2010-04-30T20:02:44Z) Starke, LesleyInvasive exotic species are an international threat to biodiversity. Management of invasive species is divided into three approaches: prevention of introduction outside of native range; eradication of invasions; and containment and control strategies. Prevention is unfortunately limited by accurate predictions and border control measures which are difficult to implement. Similarly, eradication is made difficult due to the fast acting and aggressive behavior of many invasive species, some of which are naturalized for many years before control measures are implemented. This leaves containment and control as management strategies for many managers today. Land protection groups in the United States including non-profit land trusts and governmental agencies – local to national -- address invasive species on nearly all protected lands. I have consulted with the Eno River Association of Durham and Orange counties in North Carolina to address the management of three invasive plant species of concern: tree of heaven (Ailanthus altissima), Chinese privet (Ligustrum sinense), and multiflora rose (Rosa multiflora). After assembling an observational data set of these three species, I used Maxent, a maximum entropy based machine-learning software, to model the potential distribution of each species within the Eno River watershed. Distributions of all three species were best predicted by soil type and distance to rivers. Properties of the Eno River State Park master plan -- a land protection priority list for the Eno River Association and the Eno River State Park -- were analyzed and ranked for the total area and the percent coverage of invasive plants from the modeled distributions.Item Open Access INVASIVE SPECIES MANAGEMENT PLAN FOR FALLNG CREEK CAMP, TUXEDO, NORTH CAROLINA(2007-05) Garrett, Laura L.The primary objective of this document is to suggest adaptive management techniques for controlling or eradicating priority invasive species on the property. Adaptive management implies that management should be viewed as experimental and includes the ability to learn from past actions and then change the goals and practices to better fit the newly acquired knowledge. An additional objective is to provide an invasive species camper education and participation handbook to be used by the FCC staff in future summers or other programs.Item Open Access INVASIVE WEEDS IN GLACIER NATIONAL PARK: HABITAT, VECTORS OF SPREAD, AND AREAS AT GREATEST RISK OF INVASION(2009-04-24T18:03:26Z) Adams, AshleyNon-native invasive species have significantly changed the composition and ecosystem function of many North American landscapes. Currently, invasive species are recognized as the second greatest destroyer of biological diversity, superseded only by direct habitat destruction and consequent fragmentation from human development. Glacier National Park, an international Biosphere Reserve and World Heritage Site, is threatened by the encroachment of numerous noxious non-native invasive plant species. Prevention, early detection, and immediate action against invasive weed species in their initial establishment phases are paramount in reducing this threat. To facilitate strategic management actions, this study developed two maximum entropy invasive species distribution models for Glacier National Park. The first model was based entirely on environment variables associated with habitat, while the second model added environmental variables associated with vectors of spread to the environmental variables associated with habitat. The rationale behind the nested model approach was to determine invasion potential based on high quality invasive species habitat followed by invasion potential based on vectors of spread (keeping the relative influence of habitat constant). The two model results were then overlain to evaluate which areas were most susceptible to establishment of invasive species, the spatial distribution of these areas, and the locations with maximum potential for tactical management to prevent further invasive species spread. The analysis produced 10 nested species distribution model sets: a set for each of the 9 virulent priority invasive species individually and a set for all invasive species combined. For all invasive plant species combined, it was found that 30,928 acres (7.6%) of Glacier National Park had high quality invasive species habitat but lower invasion potential, 6,071 acres (1.5%) had high invasion potential but lower quality habitat, and 20,648 hectares (5.1%) had both high potential for invasion and high quality habitat. The latter was considered the area at greatest risk of invasion. The most influential vectors of spread were roads and trails, and the most important environmental factors were elevation, alluvial soils, slope, and forest land cover. Together, these findings and their spatial distributions allow Glacier National Park to prioritize invasive species monitoring, prevention and treatment.Item Open Access Livestock as a potential biological control agent for an invasive wetland plant(PeerJ, 2014) Silliman, BR; Mozdzer, T; Angelini, C; Brundage, JE; Esselink, P; Bakker, JP; Gedan, KB; van de Koppel, J; Baldwin, AHInvasive species threaten biodiversity and incur costs exceeding billions of US$. Eradication efforts, however, are nearly always unsuccessful. Throughout much of North America, land managers have used expensive, and ultimately ineffective, techniques to combat invasive Phragmites australis in marshes. Here, we reveal that Phragmites may potentially be controlled by employing an affordable measure from its native European range: livestock grazing. Experimental field tests demonstrate that rotational goat grazing (where goats have no choice but to graze Phragmites) can reduce Phragmites cover from 100 to 20% and that cows and horses also readily consume this plant. These results, combined with the fact that Europeans have suppressed Phragmites through seasonal livestock grazing for 6,000 years, suggest Phragmites management can shift to include more economical and effective top-down control strategies. More generally, these findings support an emerging paradigm shift in conservation from high-cost eradication to economically sustainable control of dominant invasive species.Item Open Access Long-term changes in community composition and exotic species invasion in a restored wetland in North Carolina(2012-04-26) Edwards, Tiffany AraWetland systems are highly productive and provide an estimated $33 trillion per year in ecosystem services. However, wetland ecosystems are one of the most anthropogenically altered natural systems in the United States, with an estimated 342,700 acres of tidal and freshwater wetlands drained and developed in North Carolina alone. Wetland restoration is a growing industry in the United States, but parameters of restoration success are often poorly defined with few clear baselines available for comparison. One commonly used metric is the persistence of planted vegetation and species diversity. This study surveys a restored wetland in Durham, North Carolina to determine whether the site has successfully maintained robust species diversity seven years after restoration. Particularly, this study investigates whether increased species diversity has successfully resisted invasion by Japanese Stiltgrass (Microstegium vimineum). The first goal was to determine whether plots with higher species diversity had less Microstegium biomass. The second goal was to find what the changes in plant community dynamics have been over time. Then, the current plant community was analyzed by comparing the persistence and abundance of the originally planted species with new species that have invaded subsequent to restoration. The third and final goal was to determine whether edge effects are affecting the community composition. The results indicate that there was no statistically significant difference in Microstegium biomass weights between the four diversity treatments of 0, 1, 4 or 8 planted species. A total of 40 species including Microstegium were found in the plots, including 32 new species, eight of which were invasive species and four were obligate wetland species. A comparison of species importance by plot presence and total biomass indicated that Microstegium was by far the most abundant species at the site, but many originally planted species and new native species have persisted and spread. Edge effects were evident, although not statistically significant, for new non-invasive species. It appears that edge effects are not strongly influencing the spread of Microstegium. This study contains several suggestions for further study and Microstegium management strategies, including the selection of competitive native species, prioritizing active restoration over natural species recruitment, and continued monitoring over time.Item Open Access Mapping 21st Century Maritime Silk Road and its Impact to Marine Ecosystems(2020-04-23) Wang, HanyuBallast water release, a mean to transmit invasive species across long distance via shipping, poses significant threat to healthy marine ecosystems by introducing novel pathogens and bringing the bio-invasion problem. As an environmental stressor caused from shipping, its impact should be incorporated into the goal of sustainable marine transportation so that ecosystems already suffered from higher risk of bio-invasion issue can take strict and necessary actions to protect themselves. In order to take account of shipping’s environmental footprint, a geospatial analysis of recent global shipping network would be necessary, especially under the effect of a mega-size trading and transportation network proposed by and centered at China, which is the Belt and Road Initiative with a marine component called 21st Century Maritime Silk Road. This study analyzes and maps out shipping dynamics from 2013 to 2018 under the effect of Belt and Road Initiative in order to identify the locations of most threatened marine ecosystems after acknowledging the importance of negative environmental impact from shipping activities. The Introduction section of this paper explains the significance, origin, and background of 21st Century Maritime Silk Road, being as a marine component of Belt and Road Initiative (BRI) and involving controversies from political, financial, and environmental perspectives. The section provides some data and literature review to emphasize the expansive influence and substantial trading amount associated with Maritime Silk Road which is made up of vast shipping network. Also, Large Marine Ecosystems (LMEs) are introduced to be the unit of analysis for this study and their already vulnerable situations under rising human pressure are illustrated because industries like fishery, tourism and energy are active in LMEs due to their proximity to the coast and rich biological productivity. The bio-invasion issue brought from shipping is depicted while some past studies that used spatial modeling to assess regional risks are presented. The Methods section is composed of data collection and data processing parts. The data collection started from world ports selection based on their involvement with BRI and a total of 63 world ports were identified as BRI ports for this study. Then, 6-year-shipping data from 2013 to 2018 between these 63 ports were obtained from the Global Fishing Watch database. LME shapefile was retrieved from the LMEs of the World website. Maritime Mobile Service Identities (MMSI) were used to filter our unidentifiable ships in the raw shipping dataset. For the data processing part, Microsoft Excel and Python were adopted to extract, organize, and filter data in order to map out shipping dynamic in certain years and around China, as a center of the network. ArcGIS Pro was used for the final data visualization to show a variety of shipping networks and the gradient of risks for LMEs across the global ocean. The Results section showcases the 21st Century Maritime Silkroad with selected 63 ports. It includes shipping framework in both the global scale and shipping networks centered around China from 2013 to 2018. This section also presents two maps showing the degree of riskiness from bio-invasion threat for 22 LMEs that are associated with all the BRI ports. After analyzing 22,877 trips in 6 years, the North Sea, represented by Rotterdam port at Netherland, and ports around South Asia, represented by Laem Chabang port at Thailand, carried the most frequent shipping connections to China from 2013 to 2018. Two LMEs including South China Sea and North Sea were likely to be exposed to most novel pathogens since they had the highest variety of connecting destinations and external LMEs. This study mainly provides a baseline for future analysis on how shipping would be affected under the influence of BRI, consequently creating more expansive environmental footprint to our marine ecosystems. Future studies can include an ecological and human health risk assessment to capture local community’s risk from invasive species so that both the marine and coastal regimes can be taken account into when designing for sustainable maritime transportation.Item Open Access POLICY AND MANAGEMENT OPTIONS FOR INVASIVE INDO-PACIFIC LIONFISH IN U.S. WATERS(2011-04-29) Schram, JonathanThe Indo-Pacific lionfish (Pterois miles and P. volitans) is now one of the most notorious marine finfish invasions in history. With established populations ranging from North Carolina, U.S.A, to the Atlantic coast of South America and the Gulf of Mexico, invasive lionfish have the potential to seriously hamper rebuilding efforts for domestic and international fisheries, negatively impact marine ecotourism, limit marine ornamental aquarium trade profits, and adversely affect human health. Considering that current lionfish management practices in U.S. waters are minimal at best, there is a need to identify and analyze additional management options aimed at controlling local densities of lionfish, and ultimately mitigate the ecological and economic impact of this invasion. This masters project describes the progress of current lionfish management efforts and legislation within the United States. Policy and management options for invasive lionfish at the state, territorial, and federal levels are described, and analyses of lionfish management practices conducted by different managerial authorities were assessed. A review is also provided federal laws that pertain to the lionfish invasion. Options for specific lionfish management approaches within state and territorial jurisdictional waters are presented, and an evaluation of the benefits and challenges behind these options is provided. This policy review indicates that although current lionfish management within U.S. state and federal waters is lacking, several management options are available for future implementation. Options yet to be implemented include creating an Aquatic Nuisance Species (ANS) Task Force approved lionfish control plan for coordination of lionfish control efforts in specific locations such as marine protected areas. Additional future efforts could include development of incentive-based control strategies such as a lionfish fishery; however taking such action may illicit undesirable economic dependency on an environmentally harmful species. This analysis reveals the inherent complexity of addressing management of invasive species, which in the case of invasive lionfish spans local, state, territorial, federal, and international jurisdictions.Item Open Access Quantifying Emerald Ash Borer Induced Ash Mortality & Assessing Ash Reintroduction Strategies in the Duke Forest(2023-12-15) Kolarova, AndreaThe Emerald Ash Borer (Agrilus planipennis), or EAB, is a non-native invasive pest responsible for the widespread loss of millions of ash trees (genus Fraxinus) in the United States. Initially detected near Detroit, Michigan, in 2002, this wood-boring beetle has since expanded its range to thirty-six states, including North Carolina. Observational evidence suggests A. planipennis began impacting ash trees in the Duke Forest as early as 2017. This project serves as the first organized survey of ash decline and mortality in the Duke Forest, quantifying the current extent of EAB damage. Additionally, plot samples from select hardwood covertypes were used to model ash regeneration strategies and inform reintroduction recommendations. Although damage from A. planipennis is ongoing and a strategy for landscape-level protection of mature ash has not been developed, the results from this project assist the Duke Forest in understanding current conditions and will inform future reintroduction efforts.Item Open Access Systematics and Ecology of Truffles (Tuber)(2009) Bonito, Gregory MichaelThe truffle genus Tuber (Ascomycota, Pezizales, Tuberaceae) produces underground mushrooms widely sought as edible fungi. Tuber species are distributed throughout Northern hemisphere forests and form obligate ectomycorrhizal symbiosis with trees within the Pinaceae, Fagaceae, Betulaceae, and Juglandaceae.
The transition to a truffle form (from an epigeous form) has occurred independently, multiple times in both the Ascomycetes and Basidiomycetes. One instance has given rise to the Tuberaceae, which is composed entirely of obligate ectomycorrhizal species. Attempts to cultivate European truffle species T. melanosporum, T. aestivum, and T. borchii are underway in North America and other parts of the world and have been met with mixed success.
The overarching goal of my dissertation is to address the systematics, ecology, and biogeography of Tuber within a phylogenetic framework. Multiple loci were sequenced from Tuber ascoma collected worldwide including ectomycorrhizae, though an emphasis was placed on sampling taxon within North American. Maximum likelihood, maximum parsimony, and Bayesian inference were used for phylogenetic reconstructions.
A taxonomic and phylogenetic overview of the family Tuberaceae is presented in Chapter 1. Tuber is resolved as monophyletic. In Chapter 2, through greater taxon sampling including epigeous and hypogeous Helvellaceae outgroups and related South American taxa, a resolved multi-gene phylogeny of the Tuberaceae and putative epigeous ancestor of Tuber is presented. A previously unknown South American lineage that contains both epigeous and hypogeous taxa is resolved as sister to the Tuberaceae. Chapter 3 is focused on issues of cryptic speciation and taxonomy within the Tuber gibbosum clade. The four species resolved in the Gibbosum clade appear to be endemic to the Pacific Northwest and associated primarily with Gymnosperms. Chapter 4 is a meta-analysis of all known Tuber ITS rDNA sequences (e.g. from Genbank and generated from herbarium collections) available at the time. These were placed within the Tuber phylogeny to assess species diversity, long-distance dispersal, and host associations. In total, 120 phylotypes were detected (based on a 96% similarity criterion). Tuber shows high levels of continental endemism. I hypothesize that species shared between continents and having low ITS variability (<1%) are the result of recent human-mediated introduction events. Chapters 5 and 6 are focused on the ectomycorrhizal ecology of the economic truffle T. lyonii, which is native to Eastern and Southern North America. There is a phenomenon of Tuber lyonii fruiting in pecan orchards. Pecans (Carya illinoinensis) are in the Juglandaceae, an understudied ectomycorrhizal plant family. I sampled the ectomycorrhizal communities of pecan orchards (associated with the production of the North American truffle species Tuber lyonii). In Chapter 5 I discuss four Tuber taxa discovered in these pecan orchards, their abundance and haplotype diversity. Chapter 6 examines the ectomycorrhizal communities across the five pecan orchards sampled. I show that multiple Tuber species, including Tuber lyonii, are dominant in the ectomycorrhizal community. Chapters 7 and 8 focus on black truffles in the Melanosporum clade. In Chapter 7 I document that Tuber indicum has been introduced into North America multiple times, and through ectomycorrhizal synthesis I demonstrate that this Asian species can associate readily with angiosperm and gymnosperm hosts endemic to North American. In Chapter 8 I describe a quick and reliable method for the determination of Tuber melanosporum. The method is based on direct PCR and species-specific primers and is very useful for rapid diagnostics. I have adapted this approach for other truffle and mushroom species.
Three major findings emerge from my dissertation research: 1) Tuber is more diverse than previously realized; 2) Tuber exhibits high levels of regional and continental endemism; 3) Taxonomic issues remain in many species complexes worldwide (including the Tuber candidum complex in North America, the Tuber excavatum complex in Europe, the Tuber indicum complex in Asia). Taxonomic challenges also remain regarding species known only from ectomycorrhizal or anamorphic states. The discovery of additional Tuber species is expected as the truffle flora of undersampled regions become better studied and incorporated into the Tuberaceae phylogeny.
Item Open Access Typha (Cattail) Invasion in North American Wetlands: Biology, Regional Problems, Impacts, Ecosystem Services, and Management(Wetlands, 2019-08-01) Bansal, S; Lishawa, SC; Newman, S; Tangen, BA; Wilcox, D; Albert, D; Anteau, MJ; Chimney, MJ; Cressey, RL; DeKeyser, E; Elgersma, KJ; Finkelstein, SA; Freeland, J; Grosshans, R; Klug, PE; Larkin, DJ; Lawrence, BA; Linz, G; Marburger, J; Noe, G; Otto, C; Reo, N; Richards, J; Richardson, C; Rodgers, LR; Schrank, AJ; Svedarsky, D; Travis, S; Tuchman, N; Windham-Myers, LTypha is an iconic wetland plant found worldwide. Hybridization and anthropogenic disturbances have resulted in large increases in Typha abundance in wetland ecosystems throughout North America at a cost to native floral and faunal biodiversity. As demonstrated by three regional case studies, Typha is capable of rapidly colonizing habitats and forming monodominant vegetation stands due to traits such as robust size, rapid growth rate, and rhizomatic expansion. Increased nutrient inputs into wetlands and altered hydrologic regimes are among the principal anthropogenic drivers of Typha invasion. Typha is associated with a wide range of negative ecological impacts to wetland and agricultural systems, but also is linked with a variety of ecosystem services such as bioremediation and provisioning of biomass, as well as an assortment of traditional cultural uses. Numerous physical, chemical, and hydrologic control methods are used to manage invasive Typha, but results are inconsistent and multiple methods and repeated treatments often are required. While this review focuses on invasive Typha in North America, the literature cited comes from research on Typha and other invasive species from around the world. As such, many of the underlying concepts in this review are relevant to invasive species in other wetland ecosystems worldwide.