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Capstone Projects

Management of Sierra Nevada Red Foxes (Vulpes vulpes necator) in the Sierra Nevada and Cascade Mountains

Thu, 05/03/2018 - 10:32
Abstract: Sierra Nevada red foxes (Vulpes vulpes necator) are one of three subspecies of montane red fox that exist from 1,200 m to 3,600 m in elevation throughout the Sierra Nevada and Cascade mountain ranges. California and Oregon are thought to contain the 7 remaining populations of SNRF, with other potential populations existing in these states as well as Nevada. The International Union for Conservation of Nature (IUCN) Red List of Threatened Species has lowland red fox species (Vulpes vulpes) listed as a species of least concern, leaving this subspecies neglected with respect to management. It is estimated that fewer than 50 individuals exist in the wild, leaving extinction as a possible outcome in the near future. With current population estimations being based upon camera sightings and genetic evidence, a need for management is imperative. Depletion of high elevation heterogeneous habitat, competition, predation, disease, and climate change act as potential threats to the remaining populations of Sierra Nevada red foxes. A scarce amount of data has been produced regarding their distribution, ecology, and behavior, making it difficult to develop a detailed plan to revive their species. They are a native species, however, that possess much value. Their extinction could lead to an ecological imbalance with respect to predators, prey, and the native flora that inhabit mountainous ecosystems. Their revival may lead to incorporation into local zoos and the dissolving of the red fox trapping ban in California, offering room for economic growth. Indigenous people of California, Oregon, and possibly Nevada may also gain aesthetic pleasure by viewing these foxes in nature if populations were to increase. Further regulation from these three states would provide rules and guidelines regarding the well-being of these foxes should their populations exhibit this increase. With these concepts in mind, the goals are to educate the people of California, Oregon, and Nevada on the current state of Sierra Nevada red foxes while striving to produce healthy and stable populations. Obtaining more accurate estimations of their total population by camera trapping and scat sampling will be essential for this claim. Radio tracking efforts will also help to fill in the ecological data gaps that exist. Gaining knowledge on diseases, restoring alpine habitat by mitigating overgrazing and conducting controlled burns, and eliminating coyotes will aid in the production of healthy and stable populations. This management plan focuses on a combination of these objectives and corresponding actions in order to meet the overall goals in an efficient and timely manner.
Access: Yes
Literary Rights: On
Major: Fisheries and Wildlife Science
Year: 2018
File Attachments: Nardelli_5_2.docx
Authors: Dave Nardelli

Managing Raccoons (Procyon lotor) to Benefit Allegheny Woodrats (Neotoma magister) in New York, New Jersey, and Pennsylvania.

Thu, 05/03/2018 - 10:45
Abstract: Raccoons (Procyon lotor) are a generalist species whose populations are on the rise throughout the United States. Raccoons are well known for carrying rabies, mange, and many other diseases that can be transmitted to other species. However, it’s the lesser known raccoon round worm (Baylisascaris procyonis) that is having a dramatic effect in the Northeastern United States. The adult worms reside in the small intestine of the raccoon and the eggs are passed in its feces which is then transferred to a new host. The round worms are not fatal to raccoons but can be to other species. One of those species, the Allegheny woodrat (Neotoma magister) collects the feces of other animals to eat the seeds out of it, meaning when they collect raccoon feces they are susceptible to contracting raccoon round worm. The Alleghany woodrat is endangered in New York state and threatened in New Jersey (Sheldon 2004). Therefore, it has become necessary to manage raccoons, the host of the round worm, in a way that will benefit the Allegheny wood rat. This includes decreasing raccoon populations, deworming raccoons, and getting the public more involved with the management of raccoons. If all of this were completed then the Allegheny wood rat would be much more stable and possibly able to recolonize the habitat it’s been extirpated from.
Access: Yes
Literary Rights: On
Major: Fisheries and Wildlife Science
Year: 2018
File Attachments: Davies 5.3.18.docx
Authors: Liam Davies

Rock Pigeons of Portland, Oregon: 10 Year Management Plan (2018-2028)

Thu, 05/03/2018 - 12:56
Abstract: Rock pigeons (Columba livia) of the family Columbidae are urban exploiters with a worldwide distribution. Pigeons commonly present a management issue in urban areas due to their high density and opportunistic feeding habits. Rock pigeons are not protected under the Migratory Bird Treaty Act as they are non-migratory however, their versatile nature as wild, feral, and domestic stock tends to lead to their exclusion from hunting seasons and similar legislation. Property damage caused by pigeons in Portland is intensified in areas where the birds roost such as the site of a deconstruction grant program where roosting pigeons caused irreparable damage to over 66% of previously recoverable siding material. The view of pigeons as a nuisance by residents and the potential for disease transmission to people add to human-pigeon conflict within Portland. At its current trajectory, the rock pigeon population of Portland, Oregon will continue to rise above the social carrying capacity until it reaches the biological caring capacity. The goal of this management plan is to reduce human-pigeon conflict in Portland, Oregon. This goal requires a reduction in the population size of pigeons in the city, a reduction in pigeon related damages to public and private property, a decrease in disease transmission potential of the pigeon population, and offering a controlled opportunity for human pigeon interaction.
Access: Yes
Literary Rights: Off
Major: Fisheries and Wildlife Science
Year: 2018
File Attachments: Hill_2018.05.03
Authors: Kaiden Jenna Hill

Management Plan to Increase King Rail (Rallus elegans) Populations in the Northeastern United States (2019-2034)

Fri, 05/04/2018 - 19:00
Abstract: King rails (Rallus elegans) live in freshwater marshlands and rice field habitats. These habitats are often associated with food sources and nesting cover. Diet consists of 58% animal matter ranging from small crustaceans to fish and frogs. Nests are placed in large clumps of grass throughout dense vegetation, or in a tussock. Outside the nesting and breeding season, rails found in the northeastern United States migrate south in search of food opportunities. With only 10% of natural wetlands remaining from destruction and alterations in farming techniques, major threats associated with king rail populations have rose. King rails are listed as near threatened throughout the United States and under no protection aside from the Migratory Bird Act. The IUCN Red List reported that the current population trend is decreasing at rate of 30% over 14 years. Based on population models, survival within the fledgling stage is the key factor to focus on during conservation practices. The goal of this plan is to increase the population from its current state to a sustainable level for maximum viewing and ecological stability throughout the northeastern states of Maryland, Delaware and New Jersey within the next 15 years. The objectives to reach this goal include: find population estimates to better assess the species abundance of king rails, obtain lands for king rails species to inhabit, decrease the amount of selected marshland being restructured, and increase the fledgling stage survival rate of king rails. King rails are an understudied species that deserve conservation help to ensure survival.
Access: Yes
Literary Rights: Off
Major: Fisheries and Wildlife Science
Year: 2018
File Attachments: King_2018_05_03.docx
Authors: Kyle King

Management Plan to Increase Nesting Success of Northern Pintails (Anas acuta) in the Prairie Pothole Region of North Dakota

Mon, 05/07/2018 - 17:36
Abstract: Once one of the most abundant ducks in North America, northern pintails have significantly declined since the 1960s when populations reached about 10 million. Over the past 40 years they have declined 78%, or about 2.4% per year between 1966 and 2015, due to expanding agricultural activity in their prairie pothole breeding grounds. In 2009 that the pintail population was estimated at 3.2 million, which is substantially below the 5.6 million population goal set by the North American Waterfowl Management Plan. The northern pintail population is substantially impacted by drought; and a loss of grasslands and wetland habitat in the prairie pothole region. Without proper breeding habitat pintails migrate further north to the Artic lowland tundra, where wetland conditions are more stable. However, when large numbers breed in these regions fewer young are produced. As a result, the prairies are where the fate of the pintail population lies. Throughout North America the northern pintail is listed as a migratory bird species where it is protected under the Migratory Bird Treaty Act and receives some management under the North American Waterfowl Management Plan. In North Dakota, the northern pintail is listed as a level II species of concern and there it receives management under the State Wildlife Action Plan, but because it is only a level II species it does not receive the management until all actions are covered for level I species. However, due to the species large geographic range and large worldwide population estimate it is listed as a species of Least Concern with a declining population on the International Union for Conservation of Species (IUCN) Red List of threatened species. The goals of this plan are to increase the abundance and distribution of northern pintails in North Dakota over the next 10 years and to provide information that leads to greater public involvement for the management of the species in North Dakota. The objectives to achieve these goals include: mitigation of agricultural impacts on nests, reductions of egg, hatchling, and hen predation via predator exclusion, increase in nesting habitat via Farm Bill practices and State Wildlife Grants, and the education of the public about the nesting requirements of northern pintails and the potential impacts of agriculture as well management practices to avoid these impacts. Based on population modeling, egg, hatchling, and hen survival is the key factor to focus on when managing for this species. An increase of about 50% nest success (eggs) and reduced predation rate on hatchlings and hens should result in a positive population trend, yielding a population of 6.7 million in 10 years, with a greater than 50% increase being more favorable to the overall goals and objectives. Northern pintails are a game species that needs management action in breeding areas to ensure their survival and growth for the enjoyment of current and future generations.
Access: Yes
Literary Rights: On
Major: Fisheries and Wildlife Science
Year: 2018
Authors: Joseph K Roberts

Special Topic: An Investigation of Long Term Monitoring of Fishes in Two Aquatic Ecosystems

Fri, 05/11/2018 - 10:06
Abstract: Lower St. Regis Lake Abstract Long-term ecological research is important in understanding how fish communities change over time. The objective of this study was to determine how fish communities in Lower St. Regis Lake have changed. From 2004 - 2017 fisheries students at Paul Smith’s College have conducted lake surveys on Lower St. Regis Lake using standardized sampling protocols. This study showed shifts in fish community composition, changes in size structure, and variable body condition. As Lower St. Regis Lake changes, continued long-term ecological research will provide an opportunity for students monitor and study factors that may be effecting fish populations and communities. Smitty Creek Abstract Long term ecological monitoring of streams provides an effective means to evaluate changing habitat conditions on fish population dynamics. Our objective was to use long-term data from four tributaries in Smitty Creek Watershed to explore the relationship of age-0 brook trout densities to regional weather conditions. Catch data of age 0 brook trout was collected during the fall from 2004 to 2017. Average monthly precipitation and temperature data was taken from the Lake Clear regional weather station. Of four streams, Little Aldo showed correlation of age-0 brook trout with the precipitation and temperature data. Future work should include improved instrumentation within the reaches and the use of site-specific data.
Access: Yes
Literary Rights: On
Major: Fisheries and Wildlife Science
Year: 2018
File Attachments: Final Capstone West St. Cyr
Authors: Taylor West, Joe St. Cyr

Product Feasibility Plan:Little ADK

Fri, 04/28/2017 - 10:35
Abstract: Little ADK’s is a take-home wilderness experience for children between the ages of 4-11. This is an oyster mushroom growing kit that will help a child bring the magic and wonders of the Adirondacks back home, outside the Blue Line (the term used to define the Adirondack Park Preserve.). This pod-based garden system allows children, as well as adults, the opportunity to grow their very own Adirondack native plants. Little ADK’s also comes with an informational booklet and an educational coloring book describing the importance and beauty of the Adirondack Park. Little ADK will be marketed to tourist within the Park as well as to native wilderness lovers. Those purchasing the product can feel environmentally conscientious as Little ADK’s donates 10% of profits toward the preservation of the Adirondack Mountains.
Access: Yes
Literary Rights: Off
Major: Entrepreneurial Business Studies
Year: 2017
Authors: Joshua R. Clemens

Comparison of Cyprinid Composition and Abundance in Relation to Microhabitat Characteristics within Heron Marsh, in the Adirondack Park, NY

Mon, 04/24/2017 - 15:47
Abstract: Cyprinids are susceptible to local, watershed, and regional extirpation within the United States. Habitat alterations, non-indigenous species introductions, changes in water quality, and anthropogenic barriers have resulted in a decrease in overall cyprinid biodiversity. The objectives of this study are (1) to establish baseline water quality characteristics among sites in summer and fall, 2016, (2) to compare minnow densities to percent macrophyte cover among trap sites for common species, and (3) to compare 2016 minnow densities by species and combined with 2014 and 2012 density estimates. Heron Marsh is a shallow marsh located with the Adirondack Park, NY, that supports a wide variety of fishes in the Cyprinidae family. Baseline water quality was collected using an YSI meter, cyprinid densities were estimated using galvanized steel minnow traps, and macrophyte cover data was estimated using a 21-point grid system for trap sites within the marsh. Water quality monitoring will help assess changes in the marsh over time due to global warming. More minnow trap sites must be established to determine if there is a relationship between macrophyte cover and cyprinid abundance. This will allow the statistical power of our tests to become robust to assumptions that were otherwise violated. Cyprinid biodiversity and abundance were highest amongst the upper region of the marsh for most years. This suggests that the upper region of the marsh may be a sanctuary or refuge for certain cyprinid species.
Access: Yes
Literary Rights: On
Major: Fisheries and Wildlife Science
Year: 2017
File Attachments: Kuryla_Capstone paper.docx
Authors: Jake E Kuryla

Wildlife Habitat Conservation and Management of Invasive North American Beavers (Castor canadensis) in Southern Patagonia from 2017-2037

Tue, 04/25/2017 - 13:40
Abstract: Importing the incisor-toothed ecosystem engineers from Canada to the southernmost tip of South America seemed like an innovative idea in 1946. Since this early introduction by the Argentine Navy, this species has grown exponentially (5,000 times their initial population) to 35,000 and 50,000 in Tierra del Fuego. Their density (0.2–5.8 colonies/km2) in this geographic region is even higher than North America (0.08-1-4 colonies/km2). North American beaver (Castor canadensis) are notorious hydrologists and modify their habitat to construct dams, canals, and dens. This species presents ecological, economical, and socio-cultural detriments. These factors have the potential to migrate to northern territories with the beaver due to climatic conditions favoring the species propagation. This population’s exponential growth is deemed larger than predicted due to the lag in local inhabitants noticing the rodents’ presence. To address beaver management, Chile and Argentina are working together under a bi-national agreement. Their goal is to restore Southern Patagonian ecosystems with total eradication of invasive beavers. The 2017-2037 Southern Patagonian Beaver Management Plan identifies the following goals: 1) Decrease the population of North American beavers (Castor canadensis) in S. Patagonia. 2) Define beaver-absent areas near invaded territories that have the potential to become occupied by this plastic species in the near future due to similar habitat criteria. 3) Education, information, and outreach on S. Patagonia beaver management is improved. 4) Zoonotic implications of beaver are monitored, investigated and managed. Objectives for each of these goals are included within the management plan. Wildlife biologists, trappers, and public input are essential to this management plan. Surveys issued to trappers and citizens aid in monitoring of zoonotic diseases related to beavers as well as determine public opinion of this species. Trapping will continue to be integral in beaver management.
Access: Yes
Literary Rights: On
Major: Fisheries and Wildlife Science
Year: 2017
Authors: Emily Hill

Management Plan to Increase Gould’s Wild Turkey (Meleagris gallopavo mexicana) Population in New Mexico

Wed, 04/26/2017 - 20:57
Abstract: Gould’s wild turkeys (Meleagris gallopavo mexicana) are the largest subspecies of wild turkey in United States, but are also the most geographically restricted. In New Mexico, Gould’s populations occur in the Peloncillo, Animas and San Luis mountain ranges located in Hidalgo County, southwest New Mexico. This subspecies faces threats of habitat loss by several factors that including severe wildfires, competition with livestock grazing, lack of sustaining water sources. Gould’s wild turkeys are a popular United States subspecies for avid hunters seeking the completion of the Royal or Grand Slam wild turkey hunts. With the proper management, New Mexico could provide an increase of habitat for the Gould’s wild turkey. The overall goal of this management plan is to increase and maintain the Gould’s wild turkey population in southwest New Mexico to maximize hunting and recreational viewing opportunities. Objectives to be taken to achieve this goal includes: 1. Improvement and maintain the occupied and potential turkey habitat in their native range within 10 years. 2. Obtain suitable habitats through conservation easements within 5 years. 3. Increase and maintain a sustainable population within 10 years. 4. Gain landowner and volunteer participation through outreach and funding through partnerships with organizations within 10 years. The increase of Gould’s wild turkey populations will positively affect hunting and viewing opportunities and economics from higher populations of Gould’s wild turkey. This management plan will be implemented for the next 10 years, starting in 2018 and ending in 2028. Once this plan is complete, we will then assess the actions and implement further management needs for the future.
Access: Yes
Literary Rights: Off
Major: Fisheries and Wildlife Science
Year: 2017
File Attachments: Final.docx
Authors: Austin Cartwright