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X-ORIGINAL-URL:https://cfwe.auburn.edu
X-WR-CALDESC:Events for College of Forestry, Wildlife and Environment
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DTSTART:20210314T080000
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DTSTART:20211107T070000
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BEGIN:VEVENT
DTSTART;TZID=America/Chicago:20210331T080000
DTEND;TZID=America/Chicago:20210331T090000
DTSTAMP:20260515T022251
CREATED:20210319T175020Z
LAST-MODIFIED:20210319T213026Z
UID:7761-1617177600-1617181200@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar:  Diego Gomez Maldonado
DESCRIPTION:Ph.D. Seminar: Diego Gomez Maldonado\, Maj. Prof\, Dr. Maria Soledad Peresin \nTitle: Development of bio-based systems as pollutants removal for water remediation \nLocation: Dixon Executive Conference Room\, 3315 \nDate: Wednesday\, March 31\, 2021 \nTime: 8 a.m. \nAbstract: \nCellulose nanofibril were used as scaffolds for the development of adsorbents for pollutants; in particular\, the cyanotoxin microcystin-LR. The adsorbents were modified to capture the toxin with the inclusion of β-cyclodextrin. The first approach tested was the direct adsorption onto the surface of the fibrils and evaluated on thin films by Quartz Crystal Microbalance with Dissipation monitoring and in bulk by the generation aerogels from the modified fibrils which adsorption was followed by High-Pressure Liquid Chromatography. The adsorption occurred in both levels\, with better results in surface level; interestingly the adsorption was limited by the density of crosslinking of the cyclodextrin and the salinity of the media carrying the microcystin. \nThe second approach was the generation of an active coating with oriented β-cyclodextrin immobilized on chitosan. The coating of nanocellulose fibers was done by the passive method of immersion of the material to coat into a solution with a strong ion presence. Moreover\, the adsorption of the cyanotoxin was achieved on thin films as followed on the Quartz Crystal Microbalance. The coating was also tested on 3D structures generated by both typical approaches for nanostructured materials: nanocellulose beads from a bottom-up technique and delignified wood (nanowood) from a top-down. On the tested systems the successful coating was confirmed by different spectroscopic and chromatographic techniques. Furthermore\, the adsorption of the toxin was successful only on the coated materials\, demonstrating that the coating not only modified the surface area but also added the aimed activity to remove pollutants such as microcystin-LR.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-diego-gomez-maldonado/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20190718T080000
DTEND;TZID=America/New_York:20190718T100000
DTSTAMP:20260515T022251
CREATED:20190716T135431Z
LAST-MODIFIED:20190716T144620Z
UID:6102-1563436800-1563444000@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Natascha Ivy-Israel
DESCRIPTION:Ph.D. Seminar: Natascha Ivy-Israel\, Maj. Prof\, Dr. Steve Ditchkoff \nTitle: How does the major histocompatibility complex influence reproductive success in white-tailed deer (Odocoileus virginianus)? \nLocation: Dixon Executive Conference Room\, 3315 \nDate: Thursday\, July 18\, 2019 \nTime: 8 a.m. \nAbstract: \nMajor histocompatibility complex (MHC) gene products can influence sexual selection through their impact on the vertebrate immune system. Individuals with greater MHC diversity are generally believed to have more effective immune systems\, thereby allowing these individuals to allocate more resources towards growth and reproduction. However\, maximum MHC diversity may be too costly for the individual\, suggesting that maximum diversity is not always optimal. This research examined how MHC diversity\, measured as pairwise allelic distances between two unlinked MHC type II loci (exon 2 for the classical antigen-binding protein MHC-DRB\, exon 2 for the accessory protein MHC-DOB) influenced morphology (Chapter 2)\, annual reproductive success (Chapter 3)\, and pre- and post-copulatory selection (Chapter 4) in an enclosed white-tailed deer (Odocoileus virginianus) population in Alabama. To generate these allelic distances\, we first sequenced the second exons of MHC-DRB and MHC-DOB on the MiSeq platform (Chapter 1). Since studies conducted with domestic ruminants found a unique MHC II gene structure in which MHC-DRB and MHC-DOB were separated by a recombination hotspot due to an ancestral chromosomal inversion\, we also assessed the degree of linkage between these loci in white-tailed deer.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-natascha-ivy-israel/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20190402T090000
DTEND;TZID=America/New_York:20190402T100000
DTSTAMP:20260515T022251
CREATED:20190319T160600Z
LAST-MODIFIED:20190319T161250Z
UID:5940-1554195600-1554199200@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Anna Tucker
DESCRIPTION:Ph.D. Seminar: Anna Tucker\, Maj. Prof\, Dr. Conor McGowan \nTitle: Evaluating the role of migratory stopover in the annual cycle of Arctic-breeding shorebirds \nLocation: Dixon Executive Conference Room\, 3315 \nDate: Tuesday\, April 2\, 2019 \nTime: 9 a.m. \nAbstract: \nMigratory animals are declining worldwide\, and for many species there are multiple threats to population stability from throughout the annual cycle.  Animals performing long-distance migrations use stopover sites en route to replenish fat stores need to complete their journey. The congregation of individuals at migratory stopover sites affords an opportunity to track population health\, particularly for species that are highly mobile and difficult to study at other times of year. However\, analysis of these data presents several challenges due to the flow-through nature of stopover and uncertainties about how stopover site conditions influence both demographics and migratory behaviors. Here\, I explore the use of quantitative methods and hierarchical modeling to lend clarity to our understanding of the role of stopover in the annual cycle of migratory birds\, considering both an ecological perspective on the direct and indirect effects of stopover on demographics and migratory behavior\, and a statistical perspective on advancing new and existing modeling frameworks for analyzing complex mark-recapture datasets.  Using counts\, trapping\, and mark-resight monitoring data collected for three species of Arctic-breeding shorebirds in Delaware Bay\, USA\, I evaluate the ways that stopover site conditions and phenology of resource availability influence the timing and rate of mass gain during stopover\, variation in site use among years\, and population vital rates. Disentangling these responses is important for understanding how populations respond to changes in stopover conditions\, and how to interpret changes in stopover passage population size. Understanding the relative role of stopover in the context of the annual cycle is important for informing conservation strategies that will be most effective at halting declines and promoting population stability.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-anna-tucker/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20190402T090000
DTEND;TZID=America/New_York:20190402T100000
DTSTAMP:20260515T022251
CREATED:20190319T160417Z
LAST-MODIFIED:20190328T162255Z
UID:5939-1554195600-1554199200@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Rongting Xu
DESCRIPTION:Ph.D. Seminar: Rongting Xu\, Maj. Prof\, Dr. Hanqin Tian \nTitle:  Anthropogenic and Natural Disturbances of the Nitrogen Cycle at Multiple Scales from Local to Global: A Modeling Investigation of Nitrous Oxide and Ammonia Emissions \nLocation: Conference Hall\, Room 1101A \nDate: Tuesday\, April 2\, 2019 \nTime: 9 a.m. \nAbstract:
URL:https://cfwe.auburn.edu/event/ph-d-seminar-rongting-xu/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20181127T080000
DTEND;TZID=America/New_York:20181127T093000
DTSTAMP:20260515T022251
CREATED:20181024T204252Z
LAST-MODIFIED:20181025T123806Z
UID:3417-1543305600-1543311000@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Marissa "Jo" Daniel
DESCRIPTION:Ph.D. Seminar: Marissa Jo. Daniel\, Maj. Prof\, Dr. Tom Gallagher \nTitle: A New Era for Forest Operations in the Southeastern Region of the United States \nLocation: 3315 Dixon Conference Room \nDate: Tuesday\, November 27\, 2018 \nTime: 8:00 a.m. \nAbstract: \nForest operations in the southeastern region of the United States has remained relatively unchanged since the inception of conventional mechanized equipment. As new technologies are developed\, new operational techniques emerge that have the potential to replace today’s standard practices.  While many of these practices have been studied elsewhere around the world\, few have been researched for their applicability in the southeast. \nThree separate studies were conducted. The first\, used both a modeling tool as well as a field study to analyze altering establishment spacing\, harvesting frequency\, and harvesting machines to determine if an increase in sawtimber volumes were seen from these changes.  Results depicted a minimum increase of 15 green tons per acre for sawtimber using one or more of the above mentioned techniques for the modeling tool.  The field study demonstrated an additional 10 green tons per acre of biomass material could be harvested by altering establishment spacing. \nThe second assessed the prospective production and cost increases of using tracked processors either in the woods in conjunction with conventional harvesting equipment or on a centralized logging depot where one processor would merchandize multiple logger’s trees.  The study also compared the difference in an experienced operator versus an inexperienced operator.  Results showed that at the end of the machines depreciated life\, year 5\, a logger could expect to pay $1.93 per green ton to own and operate the processor.  At the end of year 10\, the actual life of the machine\, they would expect to pay $1.75 per green ton.  An overall gain in productivity was realized in both operators\, with the experienced operator producing 14 additional green tons per productive machine hour. \nThe final study evaluated the differences in total stem value when merchandizing with a tracked processor versus a knuckle-boom loader.  Results determined when diameter and total lengths were visually estimated\, a significant difference in total value occurred\, however once these two variables were adjusted to match the tracked processors more accurate measurements\, no difference in value was seen even though there was still a difference in how the wood was merchandized.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-marissa-jo-daniel/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20180411T090000
DTEND;TZID=America/New_York:20180411T100000
DTSTAMP:20260515T022251
CREATED:20180405T145450Z
LAST-MODIFIED:20181024T204739Z
UID:3231-1523437200-1523440800@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Rasika Ramesh
DESCRIPTION:Ph.D. Seminar: Rasika Ramesh\, Maj. Prof\, Dr. Latif Kalin \nTitle: Understanding wetland hydrology and water quality through data/process based modelling \nLocation: Classroom 1207 \nDate: Wednesday\, April 11\, 2018 \nTime: 9:00 a.m. \nAbstract: \nRapid coastal development has led to loss/alteration of wetlands\, streams\, riparian vegetated areas and headwater areas that buffer coastal waterways from pollution. Small wetlands\, besides being easily altered\, have also shown to have higher capacity for nonpoint source amelioration. Consequently\, the protection and restoration of small wetlands and their vegetated buffer systems are critical in regulating flows and enhancing water quality on the landscape. This requires good understanding of their functionality so that appropriate steps can be taken for their management and preservation. This study evaluates headwater slope wetlands in Alabama’s coastal plain using field data and process-based modeling\, as well as improves existing relationships describing sediment removal by vegetated buffers through data-based modeling. Very little data exists for headwater slope wetlands (groundwater-fed wetlands above and alongside 1st order streams) in the region; to address this knowledge gap we observed hydrology and dissolved inorganic nitrogen (DIN) trends in select wetlands\, addressed challenges associated with modeling their hydrology and lastly\, identified nitrogen inputs pertinent to predicting nitrate export through a sensitivity analysis. Delineated watersheds were small (<2 sq km); flashy flows followed level of urbanization in the watershed\, with the least altered wetland having stable and damped flows. Despite watershed alterations\, wetlands still showed DIN load reductions ranging from 9% to 50%. One of the study wetlands showed unusually large flows\, indicating the presence of a larger ground watershed relative to the extent the delineated surficial watershed; a common issue in coastal plain regions where topography is flat and water tables are shallow. Using this as a case study\, we investigated different approaches of modelling flow using popular watershed model SWAT (Soil and Watershed Assessment Tool) as a simpler alternative to complex groundwater models. Since flows in SWAT are limited by watershed precipitation\, simulated flows were several times smaller in magnitude than observed flows. Calibration approaches involved manual amplification of baseflow with a multiplier (ENASH = 0.66)\, tweaking parameter RCHRGE_DP to allow extra water to be added to the system (ENASH = 0.75)\, and incorporating ANN (Artificial Neural Network) with SWAT to further improve calibration performance (ENASH = 0.88). These approaches provide managers and modelers useful tools to navigate similar flow calibration challenges in other groundwater dominant watersheds. Since data for models aimed at understanding wetland function are especially scarce for smaller wetlands (e.g.\, headwater slope wetlands)\, optimizing data collection to include only those most valuable for model predictions is a pressing need. Taking the case of nitrate\, we conducted a sensitivity analysis to assess if detailing surface inputs of organic nitrogen and ammonia (whose fluxes are linked with nitrate) were necessary to predict nitrate export from study headwater slope wetlands. Nitrate export\, modelled by model WetQual\, showed negligible sensitivity to organic nitrogen and ammonia inputs. Perhaps low residence times in study headwater slope wetlands\, which are typically gaining wetlands with no depressional storage\, afforded too little time for N transformations to effect nitrate export leading us to conclude that organic nitrogen and ammonia input data at high resolution are not as important as detailing nitrate inputs in low residence time\, groundwater interacting wetlands such as headwater slope wetlands. Wetland management also involves revitalizing streamside vegetation which are crucial in mitigating nonpoint pollution\, such as sediment pollution. With the objective of improving existing relationships describing sediment removal\, we compiled data from 54 studies (including online BMP database) concerning sediment trapping by vegetated buffers and recorded buffer characteristics (such as buffer width\, slope\, area\, vegetation type\, sediment and runoff loading\, runoff rates\, residence time\, roughness and sediment removal efficiency). An exponential regression model best described the relationship between sediment removal efficiency and volume ratio\, residence time and width further increased (R2 = 40.5%). This model was compared with performances derived from applying other sediment reduction regression models reported in literature namely those in White and Arnold (2009)\, Liu et al. (2008) and Zhang et al. (2010) to our database. Of these\, only the model presented by White and Arnold (2009) was statistically significant presumably because of the inclusion of runoff reduction in their study. The results of this study point towards the importance of considering flow in buffer design.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-rasika-ramesh/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171205T133000
DTEND;TZID=America/New_York:20171205T143000
DTSTAMP:20260515T022251
CREATED:20171101T155748Z
LAST-MODIFIED:20171101T155844Z
UID:3067-1512480600-1512484200@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Micah Fern
DESCRIPTION:Forestry Ph.D. Seminar: Micah Fern\, Maj. Prof\, Dr. Becky Barlow \nTitle: Assessment and Synthetization of Extension Needs Encompassing the Economic and Ecological Impacts of Wild Hogs Among Young Pine Plantations \nLocation: 3315 Dixon Executive Conference Room \nDate: Tuesday\, December 5\, 2017 \nTime: 1:30 – 2:30 p.m. \nAbstract: \nThe southeastern United States has recently seen its first increases in Longleaf pine (Pinus palustris Mill.) acreage after more than four centuries of decline thanks to ongoing restoration efforts. Connecting existing longleaf landscapes across this species’ native range depends largely on the successfully establishment of plantations on non-industrial private lands. As in Alabama\, the majority of forest lands in southeastern states are owned by non-industrial private landowners. Seedling depredation by wild hogs (Sus scrofa) poses a threat to longleaf restoration efforts especially in young forest plantations. Improving the knowledge base of wild hogs among young forest plantations will help guide better management decisions for non-industrial private landowners and resource professionals. This dissertation addresses extensions needs for information regarding wild hogs and explores the relationship between wild hogs and young forest plantations from two perspectives. \nFirst\, an extension publication was created to synthesize and organize resource material pertaining to wild hogs in order to supplement the nine year gap since the last published bibliography. Second\, a mail survey was conducted among non-industrial private landowners in Alabama to gain an understanding about wild hog damage and control in forest plantations. Findings were used to further explore the economics of wild hog damage and control for a stand level model utilizing longleaf. Third\, a field study was performed to determine wild hog’s preference among seedling species and to observe ecological factors influencing seedling depredation.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-micah-fern/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20171026T093000
DTEND;TZID=America/New_York:20171026T103000
DTSTAMP:20260515T022251
CREATED:20171023T165900Z
LAST-MODIFIED:20171023T191630Z
UID:3045-1509010200-1509013800@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Charles Essien
DESCRIPTION:Forestry Ph.D. Seminar: Charles Essien\, Maj. Prof\, Dr. Brian Via \nTitle: Fundamental considerations and application of acoustics as a nondestructive evaluation technique for characterizing wood quality properties \nLocation: 3315 Dixon Executive Conference Room \nDate: Thursday\, October 26\, 2017 \nTime: 9:30 – 10:30 a.m.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-charles-essien/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Events,Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20170915T090000
DTEND;TZID=America/New_York:20170915T100000
DTSTAMP:20260515T022251
CREATED:20170707T194230Z
LAST-MODIFIED:20170912T182102Z
UID:2770-1505466000-1505469600@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Jennifer Price Tack
DESCRIPTION:Wildlife Ph.D. Seminar: Jennifer Price Tack\, Maj. Prof\, Dr. Conor McGowan \nTitle: Coyotes\, deer\, and hunters: applied ecology for informing deer and hunter management \nLocation: 3315 Dixon Executive Conference Room \nDate: Friday\, September 15\, 2017 \nTime: 9:00 – 10:00 a.m. \nAbstract: \nMy research was conducted to provide new methods and analyses to better inform management of white-tailed deer\, coyotes\, and hunters in Al In particular\, my research will support efforts of the Alabama Deer Management Steering Committee\, a committee comprised of individuals from the Alabama Department of Conservation and Natural Resources\, U.S.G.S. Fish and Wildlife Cooperative Research Unit and Auburn University researchers\, with the objective of managing white-tailed deer to meet multiple herd\, hunter\, and economic objectives. My first chapter introduces and tests AnimalFinder\, a program that reduces the cost and time associated with camera surveys by semi-automating the presence-absence identification of animals in time-lapse camera trap images. I then explore the relationship between predators and competitors\, and white-tailed deer fawn recruitment. My second chapter estimates coyote density and the influence of land cover at multiple sites across Alabama using spatial capture-recapture. In my third chapter\, I use the coyote density estimates\, along with camera survey data of wild pigs and deer\, to examine factors influencing fawn recruitment across 16 management areas in Alabama. Finally\, in my fourth chapter\, I introduce a novel approach for evaluating actions that wildlife management agencies can take to influence hunter recruitment\, retention\, reactivation\, and ultimately\, hunting license sale profits that are crucial for state agency-led wildlife conservation efforts. These research contributions have the potential to help state agencies better manage and monitor wildlife populations\, understand community dynamics\, and anticipate changes in hunter-generated conservation funds.
URL:https://cfwe.auburn.edu/event/ph-d-seminar-jennifer-price-tack/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20170725T083000
DTEND;TZID=America/New_York:20170725T093000
DTSTAMP:20260515T022251
CREATED:20170707T193912Z
LAST-MODIFIED:20170719T200219Z
UID:2769-1500971400-1500975000@cfwe.auburn.edu
SUMMARY:Ph.D. Seminar: Mehdi Rezaeianzadeh
DESCRIPTION:Forestry Ph.D. Seminar: Mehdi Rezaeianzadeh\, Maj. Prof\, Dr. Latif Kalin \nTitle: Wetland Hydrologic Modeling through Physically-based and Data-driven Approaches \nLocation: 3315 Dixon Executive Conference Room \nDate: Tuesday\, July 25\, 2017 \nTime: 8:30 – 9:30 a.m. \nAbstract:
URL:https://cfwe.auburn.edu/event/phd-seminar-mehdi-rezaeianzadeh/
LOCATION:College of Forestry\, Wildlife and Environment\, 602 Duncan Drive\, Auburn\, AL\, 36849\, United States
CATEGORIES:Main Calendar,PhD Seminars
ORGANIZER;CN="Audrey Grindle%2C Graduate Student Coordinator":MAILTO:apg0008@auburn.edu
END:VEVENT
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