Global ETD Search

251	Incidence of Invasive Plant Species in Water Level Managed and Unmanaged Wetlands in Northern Ohio Denham, Scott T., II 12 June 2013 (has links) No description available. Wildlife Management Plant Biology Ecology Conservation Botany Invasive species reference wetland wetland management hydrologic regime
252	Direct and Indirect Effects of Invasive Cirsium arvense on Pollination in Southern Appalachian Floral Communities Daniels, Jesse 01 December 2018 (has links) (PDF) Invasive plants can alter pollination dynamics in invaded communities by disrupting patterns of pollinator visitation, pollen transfer dynamics (conspecific [CP] and heterospecific [HP]), and reproductive success. The direction of invasive effects (competitive, neutral, and facilitative) may be partially determined by spatial scale and species’ floral traits. Here, we investigated pollinator visitation, CP and HP receipt, and pollen tube growth for species in a C. arvense present community and non-present community at two scales. At the community-level, the effect of C. arvense on pollinator visitation varied among species. Floral symmetry seemed to explain this variation. At the floral neighborhood-level, we found competitive effects for pollinator visits and mixed effects on CP deposition. The overall structure of plant-plant HP deposition networks was slightly altered. We observed lower average centrality across shared species in the C. arvense present community suggesting C. arvense had subverted their roles as pollen donors. Cirsium arvense invasive species network pollen deposition pollen tube growth pollinator visitation Biology
253	Patterns of distribution and dispersion of Silver Carp in an oxbow lake Besson, Jordan 12 May 2023 (has links) (PDF) Oxbow lakes are highly productive waterbodies that host multiple life stages of many freshwater aquatic species. Oxbow lakes also provide habitat to Silver Carp (Hypophthalmichthys molitrix), which has enabled populations to grow and expand within the United States. Silver Carp are undesirable because they can compete for resources with native fishes. My goal was to identify patterns of distribution and dispersion of Silver Carp in Moon Lake, Mississippi, to assist and inform precise harvesting of fish. I implanted thirty-five adult Silver Carp with acoustic tags that I released into Moon Lake. I observed that Silver Carp were disproportionately found in locations where water depths ranged from 2.0-5.9 m during all seasons, despite the availability of locations with shallower and deeper water. Silver Carp did aggregate in the wintertime (December-February) in comparison to all other seasons. This information about depth distributions and seasonal aggregations can inform removal programs. fisheries invasive species Silver Carp Mississippi Alluvial Valley oxbow lake habitat use
254	An Invasive Species Reduces Aquatic Insect Flux to Terrestrial Food Webs Merkley, Steven S. 11 July 2011 (has links) (PDF) Although it is well documented how introduced species can negatively affect native species, we only poorly understand how they may alter ecosystem functions. We investigated how an invasive fish affected the flux of aquatic insects to terrestrial food webs using mesocosms in a desert spring ecosystem. We compared aquatic insect emergence between alternative community states with monocultures and polycultures of two native species of fish, least chub (Iotichthys phlegethontis) and Utah chub (Gila atraria) plus, introduced western mosquitofish (Gambusia affinis). We tested three hypotheses: (1) aquatic insect biomass will be greater than terrestrial insect biomass and thus, constitute a vital source of energy for terrestrial consumers (2) invasive mosquitofish will negatively impact the biomass of emerging aquatic insects, and (3) terrestrial consumers will negatively respond to decreased emerging aquatic insect biomass. Aquatic insects represented 79% of the flying insect community, and treatments with mosquitofish significantly reduced emergent aquatic insect biomass by 60% relative to the control without mosquitofish. Behavioral traits of invasive species are important, because mosquitofish most heavily affected insects that emerged during the day. Also, spiders that build horizontal webs were negatively correlated with decreasing aquatic insect biomass. Invasive mosquitofish can achieve very dense populations because of their high intrinsic rate of population increase, which can significantly disrupt the flow of energy between aquatic and terrestrial ecosystems, thereby reducing the energy available for terrestrial consumers. invasive species ecosystem function aquatic-terrestrial linkages insect emergence desert springs Gambusia affinis Biology
255	Usage and Development of Molecular Markers for Investigation of the Population and Ecological Genetics of <em>Bromus tectorum</em> L. Merrill, Keith R. 16 March 2011 (has links) (PDF) This thesis includes two studies: The first examined patterns of neutral genetic diversity within Bromus tectorum L. across the IMW region, and uses patterns of microsatellite (SSR) genotype distribution to make inferences about the respective roles of adaptively significant genetic variation, adaptive phenotypic plasticity, and facultative outcrossing in the ongoing invasion and recent range expansion of B. tectorum. It has been previously demonstrated that, due to extremely low outcrossing rates, it is possible to characterize individual genotypes of this species using four SSR loci. We sampled 20 individuals from each of 96 B. tectorum populations (classified by region and habitat) from throughout the IMW and used these SSR markers to characterize each individual. We found 131 four-locus SSR genotypes; however, the 14 most common genotypes collectively accounted for 79.2% of the individuals sampled. Individuals with certain SSR genotypes sorted strongly into warm or salt desert habitats (stringent habitats) and flowered earlier than individuals with genotypes from more mesic habitats, providing evidence of adaptively significant genetic variation associated with these genotypes. Other SSR genotypes were found across a wide range of habitats though they tended to be less prevalent in stringent habitats, providing evidence that adaptive phenotypic plasticity may be important for the distribution of some common genotypes. We observed very few heterozygous individuals, consistent with the highly inbreeding reproductive strategy of B. tectorum. Because specialist genotypes dominating recently invaded areas within the IMW region contained unique alleles, they are not likely to have resulted from recombination, leading us to doubt the role of facultative outcrossing as a significant mechanism facilitating the current range expansion of B. tectorum in the IMW.Previous research investigating the population and ecological genetics of Bromus tectorum L. in the North American invaded range has relied on either allozyme or microsatellite (SSR) genetic analyses, both of which have proven to have shortcomings. In order to overcome the issues associated with these other marker types, in the second study of this thesis we developed single nucleotide polymorphism (SNP) markers for B. tectorum by 1) obtaining normalized cDNA, 2) sequencing normalized cDNA using 454 sequencing, 3) aligning resultant contigs and looking for SNPs, 4) designing assays for SNP validation and genotyping using KASPar, 5) converting working KASPar assays for use with the Fluidigm EP1 platform using the 96.96 Dynamic ArrayTM IFC. Sequencing resulted in 1258041 reads, which assembled into 65486 contigs (20782 large contigs exceeding 500 base pairs). Using selection criteria of at least 10x coverage and 30% of the minor allele, 3333 putative SNPs were identified. We developed KASP assays for 255 putative SNPs, which resulted in 101 working polymorphic assays. Ninety-six assays were then successfully converted for use with KASP on the Fluidigm EP1 genotyping platform using 96.96 dynamic arrays. Bromus tectorum cheatgrass ecological genetics inbreeding invasive species microsatellite SNP development cDNA pyrosequencing Animal Sciences
256	Spread of alien invasive plant species in Blekinge County, Sweden : Alien invasive plant species distance to buildings and preferences for different land use type / Invasiva växters spridning i Blekinge län, Sverige : Invasiva växters närhet till byggnader och preferens av olika typer av habitat Melkerson, Sandra January 2022 (has links) Invasive species are a threat to biodiversity, economy and human health. The distribution and spread of invasive species needs to be studied to make good management plans. Invasive plant species mostly came to Sweden as ornamental plants and later spread into the local fauna. This study aimed to investigate if observations of invasive plant species were still mainly near residental gardens, and if they were observed in a specific land use type. The analysis was made on four different invasive species (L. polyphyllus, I. glandulifera, H. mantegazzianum and R. japonica) in Blekinge County, Sweden. Species observations were obtained from the Swedish Agricultural University’s (SLU) species database “artportalen” on SLU:s “artdatabanken”. ArcGIS was used to measure the distance between species observations and the nearest buildings and identify the land use type for each point. Randomized points within Blekinge County were used as a comparison. The result showed a statistically significant difference in distance between the observed- and randomized points for all four species. (L. polyphyllus observed mean distance 10.7 meters, randomized mean distance 46.7 meters. I. glandulifera observed mean distance 9.1 meters, randomized mean distance 47 meters. H. mantegazzianum observed mean distance 7.1 meters, randomized mean distance 44.5 meters. R. japonica observed mean distance 5.8 meters, randomized mean distance 46.8 meters.). There was also a statistically significant difference in land use type distribution between the invasive species and the randomized points. The most common land use type occupied by the invasive plants studied was open landscapes. This could also explain the proximity to buildings, since the species spread from gardens into open landscapes such as roadsides. It is also likely that soil that contained seeds and/or rhizomes was used in constructions, keeping the species close to buildings. In conclusion, it seems that invasive plant species are often found close to buildings and in open landscapes, which means observations and management should focus on these areas. / Invasiva arter är ett hot mot biologisk mångfald, ekonomi och människors hälsa. För att kunna skapa fungerande åtgärdsplaner behövs kunskap kring var de invasiva arterna finns och hur de sprider sig. Invasiva växter importerades främst till Sverige för att dekorera trädgårdar där de sedan spred sig ut i naturen. Syftet med den här studien var att se om invasiva växter fortfarande observeras i närheten av trädgårdar och om de hittas något speciellt habitat. Studien gjordes på fyra arter (L. polyphyllus, I. glandulifera, H. mantegazzianum and R. japonica) i Blekinge län. Data över observationer för de olika arterna hämtades hos Sveriges lantbruksuniversitet (SLU) via artportalen i deras artdatabank. För att mäta distansen mellan observationspunkterna och närmaste byggnad och för att se i vilket habitat de hittades användes ArcGIS. Som kontroll skapades slumpvisa punkter inom länet som användes som jämförelse. Resultatet visade att det fanns statistiskt signifikant skillnad i avståndet mellan de observerade punkterna och de slumpvisa punkterna hos alla fyra arterna. (L. polyphyllus observerade medeldistans 10,7 meter, randomiserade medeldistans 46,7 meter. I. glandulifera observerade medeldistans 9,1 meter, randomiserade medeldistans 47 meter. H. mantegazzianum observerade medeldistans 7,1 meter, randomiserade medeldistans 44,5 meter. R. japonica observerade medeldistans 5,8 meter, randomiserade medeldistans 46,8 meter.) Det var även en statistiskt signifikant skillnad i fördelningen av habitat mellan de fyra arterna och de slumpartade punkterna. Det vanligaste habitatet var öppna landskap vilket kan förklara att de fortfarande hittas i närheten av byggnader då de spred sig från trädgårdar i öppna landskap som diken. Frön och rhizomer kan också följa med jord som grävs upp för att användas vid nybyggnation och då växer nya plantor upp nära byggnader. Slutsatsen är att invasiva växter finns i närheten av byggnader och i öppna landskap och därför bör vidare observationer och åtgärdsplaner göras i dessa områden. invasive species land use sweden spread gardens invasiva arter habitat sverige spridning trädgårdar Ecology Ekologi
257	Evaluation of the three-dimensional patterns and ecological impacts of the invasive Old World climbing fern (Lygodium microphyllum) Maldonado, Alexis 01 January 2014 (has links) Invasion by non-native species has had significant ecological and economic impacts on a global scale. In the state of Florida, Old World climbing fern (Lygodium microphyllum) is an invasive plant listed by FLEPPC as a category one invader with significant ecological impacts that threaten native plant diversity. This species relies on existing vegetative structures for support to climb into the forest canopy and forms dense mats that cover tree crowns. This subsequently affects the resources available to other species present. Quantifying the structural changes due to the presence of this species has proved logistically difficult, especially on a large spatial scale. Airborne LiDAR (Light Detection And Ranging) technology is a form of remote sensing that measures the elevation of surfaces over a site. In this study I utilized LiDAR to calculate various forest structure metrics at Jonathan Dickinson State Park (JDSP) in Hobe Sound, Florida across various management frequencies and densities of Old World climbing fern. These data were used to quantify the degree to which this invasive species alters forest structure across these two gradients. I also recorded species composition in the field to relate how Old World climbing fern impacts native plant diversity. Structural measurements including average canopy height, height of median energy (HOME), rugosity, canopy openness, and vertical structural diversity (LHDI) were calculated for a total of three hundred 0.25ha sites stratified by invasion density and management frequency. Using a combination of univariate and multivariate statistical analyses I found that the presence of Old World Climbing fern altered the physical structure of the forest communities it invades. Higher percent cover of Old World climbing fern decreased structural diversity while increased management effort was found to mitigate those impacts. The management for Old World Climbing fern was also found to impact both species richness and diversity at JDSP. I also demonstrated that there were several species that were not found and others that were more common in the presence of Old World climbing fern and that there was a relationship between management and what species were present. The results show that both Old World climbing fern and the management practices used to control it have had significant ecological impacts on the natural communities in South Florida. Invasive species ecology remote sensing lidar old world climbing fern lygodium microphyllum biology ecology Biology
258	The Next "killer" Algae? Assessing And Mitigating Invasion Risk For Aquarium Strains Of The Marine Macroalgal Genus Chaetomorpha Odom, Rachel 01 January 2012 (has links) Biological invasions threaten the ecological integrity of natural ecosystems. Anthropogenic introductions of non-native species can displace native flora and fauna, altering community compositions and disrupting ecosystem services. One often-overlooked vector for such introductions is the release of aquarium organisms into aquatic ecosystems. Following detrimental aquarium-release invasions by the "killer alga" Caulerpa taxifolia, aquarium hobbyists and professions began promoting the use of other genera of macroalgae as "safe" alternatives. The most popular of these marine aquarium macroalgae, the genus Chaetomorpha, is analyzed here for invasion risk. Mitigation strategies are also evaluated. I found that the propensity for reproduction by vegetative fragmentation displayed by aquarium strains of Chaetomorpha poses a significant invasion threat—fragments of aquarium Chaetomorpha are able to survive from sizes as small as 0.5 mm in length, or one intact, live cell. Fragments of this size and larger are generated in large quantities in online and retail purchases of Chaetomorpha, and introduction of these fragments would likely result in viable individuals for establishment in a variety of geographic and seasonal environmental conditions. Mitigation of invasion risk was assessed in two ways—rapid response to a potential introduction by chemical eradication and prevention through safe hobbyist disposal. I tested the effectiveness of five chemicals used as algicides and found that acetic acid was highly effective at limiting survival and growth of aquarium Chaetomorpha. Chlorine bleach, copper sulfate and rock salt were effective at limiting growth but were inconsistent or ineffective in reducing survival of algal fragments. The algicide Sonar limited neither survival nor growth. If aquarium strains of iii Chaetomorpha are released, chemical eradication presents a viable management strategy, particularly through the use of acetic acid. A more cost-effective strategy, however, would be preventing introductions; thus safe alternatives to release were determined for hobbyist disposal of unwanted or excess aquarium Chaetomorpha. Here I present the minimum exposure durations necessary to induce full mortality of aquarium Chaetomorpha through boiling, microwaving, freezing, desiccation and exposure to freshwater. Hobbyist disposal by any of these methods would constitute safe alternatives to introduction of the alga into natural environments. Such preventative measures will inform outreach campaigns in order to limit the potential for aquarium-release introduction. Caulerpa taxifolia chaetomorpha aquarium dumping aquarium release macroalgae vegetative fragmentation invasive species Biology
259	Indirect Food Web Interactions: Sea Otter Predation Linked to Invasion Success in a Marine Fouling Community Jenkins, Maggie F 01 December 2018 (has links) (PDF) Humans have caused grave ecological and economic damage worldwide through the introduction of invasive species. Understanding the factors that influence community susceptibility to invasion are important for controlling further spread of invasive species. Predators have been found to provide biotic resistance to invasion in both terrestrial and marine systems. However, predators can also have the opposite effect, and facilitate invasion. Therefore, recovery or expansion of native predators could facilitate the spread of invasive species. Needles et al. (2015) demonstrated that the threatened southern sea otter (Enhydra lutris nereis) facilitated the invasion of an exotic bryozoan, Watersipora subatra. However, the underlying mechanism was not fully understood. We tested the hypothesis that sea otter predation on Romaleon antennarium crabs indirectly facilitated the abundance of W. subatra. To do this, we collected weekly data on sea otter foraging and quantified the abundance of crabs in the sea otter diet. We also conducted a caging experiment, where we experimentally manipulated crab densities and limited otter access using exclusion cages on pier pilings in Morro Bay, CA. We used photoQuad image processing software to calculate the abundance of W. subatra on PVC panels within each treatment group. We found that crabs were the second most abundant prey item in Morro Bay, comprising 25.1% of the otter diet. Through the caging experiment, we found that W. subatra abundance significantly increased as crab densities decreased. Our results indicated that sea otters indirectly facilitated the invasion of W. subatra by reducing R. antennarium crab densities and sizes. Removal of crabs may release W. subatra from the disturbance caused by crab foraging behavior. Understanding the impacts of top predators in invaded ecosystems has important management implications, as recovery of predator populations could unintentionally benefit some non-native species. Therefore, management should focus first on prevention and second on early detection and eradication of invasive species likely to benefit from predator recovery. invasive species marine fouling community trophic cascade facilitation indirect effects Biology
260	Control Method for Invasive Aquatic Species introduced via Ballast Water: Effects of Carbon Dioxide Supersaturation on Survivorship of Digesia tigrina (Planaria: Maculata) and Lirceus brachyurus (Isopoda: Crustacea) and Effect of High Hydrostatic Pressure Processing on Freely Suspended and Shellfish Associated T7 Bacteriophage Sheldon, Todd August 03 March 2005 (has links) Control Method for Invasive Aquatic Species introduced via Ballast Water: Effects of Carbon Dioxide Supersaturation on Survivorship of Digesia tigrina (Planaria: Maculata) and Lirceus brachyurus (Isopoda: Crustacea) Survivorship of an aquatic species of planaria (Digesia tigrina) and isopods (Lirceus barchyurus) to elevated levels of carbon dioxide (CO₂) was determined. Both planaria and isopods were exposed to levels of freshwater supersaturated with carbon dioxide, and percent mortality was calculated for various exposure durations, and at various pressure levels. The data collected were graphically analyzed to determine the time necessary to produce mortality in 50% (LT50) of any given sample of specimens tested at a certain pressure level. At 38.6 kPa, 103.4 kPa and 172.4 kPa, the LT50 for planaria was calculated to be 150.3 ± 10.1, 58.6 ± 11.1, and 27.8 ± 6.2 minutes, respectively. At 38.6 kPa, 103.4 kPa and 172.4 kPa , the LT50 for isopods was calculated to be 181.1 ± 52.5, 79.7 ± 21.9, and 40.5 ± 17.0 minutes, respectively. These results suggest that CO₂ supersaturation may be an easily applied, efficient method that would end the unwanted introduction of nonnative aquatic species to habitats via ballast water released from shipping vessels. Effect of High Hydrostatic Pressure Processing on Freely Suspended and Shellfish Associated T7 Bacteriophage The effectiveness of hydrostatic pressure processing (HPP) for inactivating viruses has only been evaluated in a limited number of studies and most of the work has been performed with freely suspended viruses. In this work, the inactivation of freely suspended, as well as shellfish associated bacteriophage T7, by HPP was studied. T7 was selected in hopes that it could potentially serve as a model for animal virus behavior. Both clams (Mercenaria mercenaria) and oysters (Crassostrea virginica) were homogeneously blended separately and inoculated with bacteriophage T7. The inoculated shellfish meat, as well as freely suspended virus samples, were subjected to HPP under the following conditions: 2, 4 and 6 min durations; 241.3, 275.8 and 344.7 Megapascals (MPa) pressure levels; and temperature ranges of 29.4 – 35, 37.8 – 43.3 and 46.1 – 51.7Ë C. Plaque forming unit (PFU) reductions of 7.8 log10 (100% inactivation) were achieved for freely suspended T7 at 344.7 MPa, 2 min and 37.8 – 43.3Ë C. At 46.1 – 51.7Ë C, T7 associated with either clams or oysters was inactivated at nearly 100% (> 4 log10) at all pressure levels and durations tested. The results indicated that T7 is readily inactivated by HPP under the proper conditions, may be protected or made more susceptible by shellfish meat, and may serve as a viable model for the response of several animal viruses to HPP. / Master of Science carbon dioxide T7 bacteriophage invasive species planaria and high pressure processing ballast shellfish

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