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Capstone Projects

Alumni Campground and the relationship with seasonal guests and wildlife

Tue, 12/17/2019 - 00:45
Abstract: For our capstone, we plan to focus on the wildlife and human interaction dynamics within Paul Smith’s College Alumni Campground. The objective of Owen’s section for capstone is too develop a ‘bear-awareness’ program for the Alumni Campground. Katie is looking into establishing a wildlife management plan of the campground correlating with the evidence of determining where there are patterns of travel within the campground of the local wildlife.
Access: Yes
Literary Rights: Off
Major: Natural Resources Conservation and Management
Year: 2019
File Attachments: Capstone Paper_3.docx
Authors: Owen Murray , Katie Reily

Lower St. Regis Lake Survey: A Comparative Study of Fish Population Structure and Function over Time

Thu, 12/13/2018 - 14:24
Abstract: Lake surveys are performed on bodies of water to provide a health analysis of fish populations over time. Lake surveys can be conducted in a variety of ways to attain specific data. Lower St. Regis Lake was surveyed to determine the fish community composition and to understand fish population traits. Using fyke nets placed at six predetermined locations for 24 hours, as well as fishing, we collected data for age, length (mm), weight (g), and parasites present. Data was analyzed in the lab using Excel to form graphs and tables to demonstrate our findings. Catch rates were lower compared to years before and comparing our data to New York State Department of Conservation data found that our length-at-age data was lower for the six-species sampled. Pumpkinseed and yellow perch were the only two species to have over twenty fish sampled. Decreased air temperatures brought in by a cold front during the week of our sampling may have been a reason for our lower number of fish caught. Mesh size is also a bias while using these nets as smaller fish can escape, and predatory fish can prey on smaller fish while in the net. Some species of fish such as black crappie may be more susceptible to capture due to its habit of associating with structure.
Access: Yes
Literary Rights: Off
Major: Biology, Environmental Sciences, Environmental Studies, Fisheries and Wildlife Science, Natural Resources Conservation and Management
Year: 2018
File Attachments: Capstone_Final.docx
Authors: Deacon Chapin, Jared Chlus, Louis Daversa, Jon Herrman, Robert Visicaro

A Comparison of Terrestrial Invertebrate Communities among Impacted, Minimally Impacted, and Reference Sites: Implications for Shoreline Vegetation Restoration

Fri, 12/14/2018 - 12:19
Abstract: The problem that this study attempts to address is the possibility of terrestrial invertebrate communities being negatively impacted by man-made disturbances along shorelines. This is a relevant issue because terrestrial invertebrates play multiple key roles in an ecosystem such as pollinating and serve as a food source for both aquatic and terrestrial organisms. The objective of this study is to provide a preliminary observation of terrestrial invertebrate communities between impacted, minimally impacted, and reference conditions sites so that further research can be conducted and add another aspect to shoreline management and restoration decisions. The impacted and minimally impacted sites that were sampled were located along the shore of Lower Saint Regis Lake on Paul Smith’s College property. The reference condition site sampled in this study was located along the shore of Black Pond on Paul Smith’s College VIC property. Invertebrates were sampled using pitfall traps and sweep nets. The invertebrates were then identified by taxonomic family and preserved in vials of alcohol. The findings of this study may imply that there may be inverse relationship between insect populations and arachnid populations based on impact level. Due to seasonal conditions of the Adirondacks, the results of this study could have been influenced by weather conditions, so a similar study conducted during a different season may produce vastly different results. The information collected in this study can be used to determine shoreline restoration and management decisions in the future.
Access: Yes
Literary Rights: Off
Major: Natural Resources Conservation and Management
Year: 2018
File Attachments: Final Capstone Report.docx
Authors: Ken Toepper, Isaac Stouffer, Quincie Grube

Creating a Reliable Surveying Network: Does Adding New Survey Control Points to Paul Smith’s College Campus Enhance its Current Network?

Tue, 12/05/2017 - 18:48
Abstract: The goal of the project was to improve the current geometry of the Paul Smith’s College surveying network. Four new survey control points were added to the current network allowing for new connectivity to old control points. Previously, there was a Westside network and an Eastside network that were not connected and by connecting these two networks, it has expanded the current network further into the campus. Two different methods were used to help identify the new network. A traditional survey method, a closed traverse, was used to connect the old control points to the new control points by utilizing a Nikon DTM-352 series total station. A X90 OPUS GPS unit was used to connect the new control points into a geodetic network. After the data was collected a least squares adjustment was done to the closed traverse to correct for error within the traverse. The GPS data was processed by Topcon Tools utilizing a Continuously Operating Reference System (CORS) to obtain a better level of accuracy for the network it produced. The two different techniques used produced different results in the overall survey networks and supplied different coordinates than what has been previously used by students at the college. These results gained from the project are not of a consistent level of precision and are not recommended for use without conducting more closed traverses to increase precision within the network.
Access: Yes
Literary Rights: Off
Major: Forestry, Natural Resources Management and Policy, Surveying Technology
Year: 2017
Authors: Frederick C. Petzoldt, Michael S. Thompson