Browsing by Author "Wimpey, Jeremy F."
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- The influence of layout on Appalachian Trail soil loss, widening, and muddiness: Implications for sustainable trail design and managementMeadema, Fletcher P.; Marion, Jeffrey L.; Arredondo, Johanna R.; Wimpey, Jeremy F. (2020-03-01)This research investigates the influence of layout and design on the severity of trail degradation. Previous trail studies have been restricted by relatively small study areas which provide a limited range of environmental conditions and therefore produce findings with limited applicability; this research improves on this limitation by analyzing a representative sample of the Appalachian Trail with significant topographical, ecological, use-related, and managerial diversity. Many trail science studies have also focused on a singular form of trail degradation, whereas this study investigates all three core types of trail impact: trail soil loss, widening and muddiness. Relational analyses with all three indicators provide a more cohesive understanding of trail impact and reveal interrelationships between trail degradation processes. ANOVA testing of the mean values for these trail impact indicators across categories of influential independent factors confirms and refines the relevance of core trail design principles, specifically the sustainability advantages of trails with low grades and side-hill alignments. Findings also reveal and clarify the importance of landform grade in determining the susceptibility of trails to degradation and the influence of routing decisions; these relationships have received relatively little attention in the literature. The results also reveal several methodological considerations for trail alignment metrics and trail impact indicators.
- The Influence of Layout on Degradation of the Appalachian TrailMeadema, Peter Fletcher (Virginia Tech, 2018-11-13)This research investigates the influence of layout and design on the severity of trail degradation. Previous trail studies have been restricted by relatively small study areas which provide a limited range of environmental conditions and therefore produce findings with limited applicability; this research improves on this limitation by analyzing a representative sample of the Appalachian Trail with significant ecological diversity. Most trail science studies have also focused on a singular form of trail degradation, whereas this study investigates trail soil loss, widening and muddiness, providing a more cohesive analysis and revealing interrelationships between trail degradation processes. ANOVA testing of the mean values of three trail impact indicators for trail transects within several trail layout frameworks confirms the broad relevance of core trail design principles, specifically the sustainability advantages of trails with low grades and side-hill alignments. Findings also reveal the importance of landform grade in determining the susceptibility of trails to degradation and the influence of routing decisions; these relationships have received relatively little attention in the literature. The results also reveal several methodological considerations for trail alignment metrics and trail impact indicators.
- Modeling areal measures of campsite impacts on the Appalachian National Scenic Trail to enhance ecological sustainabilityArredondo, Johanna R.; Marion, Jeffrey L.; Meadema, Fletcher P.; Wimpey, Jeremy F. (2021-02-01)Campsite impacts in protected natural areas are most effectively minimized by a containment strategy that focuses use on a limited number of sustainable campsites that spatially concentrate camping activities. This research employs spatial autoregressive (SAR) modeling to evaluate the relative influence of use-related, environmental, and managerial factors on two salient measures of campsite impact. Relational analyses examined numerous field-collected and GIS-derived indicators, including several new indicators calculated using high-resolution Light Detection and Ranging (LiDAR) topographic data to evaluate the influence of terrain characteristics on the dependent variables. Chosen variables in the best SAR models explained 35% and 30% of the variation in campsite size and area of vegetation loss on campsites. Results identified three key indicators that managers can manipulate to enhance the sustainability of campsites: campsite type, and terrain characteristics relating to landform slope and topographic roughness. Results support indirect management methods that rely on the location, design, construction, and maintenance of campsites, instead of direct regulations that restrict visitation or visitor freedoms. As visitation pressures continue to increase, this knowledge can be applied to select and promote the use of more ecologically sustainable campsites.
- Modeling Areal Measures of Campsite Impacts on the Appalachian National Scenic Trail, USA Using Airborne LiDAR and Field Collected DataArredondo, Johanna Rochelle (Virginia Tech, 2018-07-23)Recent research has emphasized the need to professionally manage campsites for long-term use, particularly in light of rising visitation to natural protected areas worldwide. Camping regulations vary considerably along the length of any long-distance trail due to the many land types and management agencies involved. Large proportions of long-distance trails have at-large camping policies, resulting in camping problems associated with visitor-chosen or developed campsites. Several long-term monitoring studies in areas with at-large camping policies indicate the expansion and proliferation of individual campsites, and growth of overall camping related impacts, to be a substantial managerial concern. This research evaluates the relative influence of environmental and topographic factors, both collected in the field and modeled in GIS using high-resolution topography (LiDAR) data, on areal measures of campsite impact utilizing Least Absolute Shrinkage and Selection Operator (LASSO) penalized regression for factor selection and Ordinary Least Squares (OLS) for regressions. Chosen variables in regressions explained 64% of the variation in campsite size and 61% of the variation in the area of vegetation loss on a campsite. Results indicate four variables managers can utilize to enhance the sustainability of campsites: use level, overnight site type, and terrain characteristics relating to slope and topographic roughness. Results support indirect management methods that rely on the design and location of campsites and trails and not the effectiveness of enforcement or restricting visitor freedom. In the face of rising use, techniques and concepts presented aid in identifying or creating ecologically sustainable campsites.
- Spatial Studies to Support the Management of Long Distance TrailsMeadema, Peter Fletcher (Virginia Tech, 2023-02-24)Trails are essential transportation infrastructure supporting access to protected natural areas and providing recreation to hikers, runners, cyclists, equestrians, motorists, and many more worldwide. This research presents spatial studies intended to improve understanding of the environmental, managerial, and use-related factors that influence management of and physical and experiential conditions on long-distance hiking trails. The first study investigates a dataset from the Appalachian Trail (AT) to examine methods for using high resolution digital elevation models to measure terrain steepness near trails and along trails or potential trail routes. This analysis supports trail planning and assessment efforts because these terrain metrics strongly influence physical trail sustainability and are useful to evaluate the difficulty of travel along trails. The second study analyzes long-distance use patterns on the Pacific Crest Trail (PCT) as depicted by a computer model developed from a survey administered to long-distance hikers, trail counters, observations, and registers. In addition to describing use patterns, the process is intended to inform the selection of methods for visitor use monitoring in response to the complexity and level of controversy of management needs. The third study examines the spatial relationships between the PCT, a national scenic trail, and other congressionally designated land areas including wilderness, wild and scenic rivers, and national monuments and how this complexity is manifested in camping management strategies and impacts along the trail corridor. This analysis supports managing for the multiple congressional mandates across the PCT landscape and improves understanding and management of interagency transboundary travel on the trail.
- Spatial Tools for Management of Protected Natural Areas: Case Studies in Camping Management and Trail Impact AssessmentArredondo, Johanna Rochelle (Virginia Tech, 2023-11-03)This dissertation comprises two distinct journal articles, each contributing significant advancements to recreation ecology by examining the effectiveness of various spatial tools in camping and trail management. The first article leverages strategic spatial planning, considering topography and spacing, to limit camping impacts and enhance visitor experiences. It investigates the long-term effectiveness of a sustainable camping management strategy on the Appalachian Trail, whereby protected area managers select and actively encourage or require visitors to camp on excavated "side-hill" campsites in sloping terrain. One of the most degraded camping locations along the popular Appalachian Trail was selected for this longitudinal study, which, in May 2002, involved the closure of 19 existing campsites in flat terrain, with use shifted to 14 newly constructed side-hill campsites in adjacent sloping terrain. Over the subsequent 17 years, the recovery of the closed campsites and the evolution of the newly established side-hill campsites were monitored and assessed. Results from this study reveal that a multifaceted approach integrating both direct and indirect management actions successfully achieved their management objectives to sustain the site's exceptionally high use while minimizing both resource and social impacts. This study highlights the ability of constructed side-hill campsites to resist expansion over time and provides valuable findings, insights, and "lessons learned" to guide protected area managers in selecting and implementing effective management strategies and actions in other high-use settings. The second study evaluates terrestrial photogrammetry as a spatial tool for trail impact assessment. Protected natural areas like Joshua Tree National Park (JTNP) rely heavily on trails to facilitate visitor access while spatially concentrating environmental impacts to their treads. Assessing the condition of these trails is difficult due to the logistical challenges inherent in conventional field data-gathering techniques. While technological advancements such as Uncrewed Aerial Vehicles (UAV) introduce Structure-from-Motion (SfM) capabilities for trail monitoring, they are not without limitations, including prohibitive costs, legal restrictions, and operational challenges, particularly when monitoring trails enveloped by canopy cover. This study presents a novel approach to trail assessment using terrestrial photogrammetry, wherein a consumer-grade camera captures high-resolution imagery that is processed using SfM techniques. The study compared manual measurements of 46 trail transects in JTNP with measurements from Digital Elevation Models (DEMs) generated from SfM point clouds. The outcomes revealed a high level of agreement between the two methods, with the measurements derived from photogrammetric DEM data exhibiting consistently higher values compared to the field measurements, especially in the central regions of the transects. A statistically significant positive relationship between transect width and mean differences between GIS and field tread incision measurements suggests that the disparity may arise from the sagging of the tape measure across the trail, indicating photogrammetric methods might offer greater accuracy. The paper outlines methods for capturing high-resolution 3D trail data using cost-effective techniques and discusses the practicality and possibilities of using the technique in trail monitoring programs. This has far-reaching implications and positions terrestrial photogrammetry as a compelling alternative to drone-based acquisitions, particularly in areas where UAV operations are restricted, discouraged, or impractical.