Browsing by Subject "Piedmont"
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Item Open Access A Comparison of Aboveground Biomass in Mature Old-Field Forests and Hardwood Forests of the Piedmont Using High Resolution LiDAR Data(2015-12-07) Harrington, MaryAirborne scanning LiDAR (Light Detection and Ranging) is a promising technique for efficient and accurate forest volume and biomass mapping due to its capacity for direct measurement of the three-dimensional vegetation structure. In this study, small-footprint, multiple return LiDAR data was collected over our 58 mi2 study site in western South Carolina. The area was heavily farmed for about 150 years until farmers abandoned the fields in the early 1900s. Today, mature old-field pine forests grow on the abandoned agricultural land. This study used LiDAR data to compare aboveground biomass (ABG) of old-field forests and neighboring reference hardwood stands. Metrics were derived from the LiDAR data and a step-wise multiple linear regression was calibrated with field measurements (R2 =0.722, F2,32 =45.23, p < 0.001). The resulting model was used to predict the distribution of AGB across the site. A paired t-test indicated that mean AGB was significantly higher in reference hardwood sites than in old-field forests (t=5.22, df= 21, p < 0.001).Item Open Access Effects of Land-Use History on Soil Macro- and Trace Elements in the Southern Piedmont of North America(2009) Li, JianweiLand use histories affect the rate and pattern of soil nutrients at regional and global scale. However, former studies have rarely focused on soil trace elements (B, Mn, Zn, Cu and Fe). In this study, we aimed at the long-term biogeochemical cycling pattern and spatial heterogeneity of soil trace elements in response to land use changes. We conducted experiment at Calhoun experiment forest in SC and surrounded relic hardwood forest, cultivated land and secondary pine forests with contrasting land use histories in a statistically rigorous and spatially explicit design. Our first study indicated that spatial heterogeneity is greatly reduced in many soil properties by agricultural practices, but that successional forest growth on previously cultivated soils re-structures heterogeneity of soil properties within a few decades. We document cases in which land use alters both the soil property's central tendencies and their heterogeneity (C, N, CN, Ca, K), and cases in which changes are apparent in central tendency but much less so in their heterogeneity (Db). In our second study, samples of the upper 0.6-m mineral soil archived in 1962 and 1997 revealed three cycling patterns: 1) Extractable B and Mn were significantly depleted because tree uptake of B and Mn from mineral-soil greatly outpaced resupplies from atmospheric deposition, mineral weathering, and deep-root uptake. 2) Extractable Zn and Cu changed little during forest growth, indicating that nutrient resupplies kept pace with accumulations by the aggrading forest. 3) Oxalate-extractable Fe increased substantially during forest growth, by about 10-fold more than accumulations in tree biomass. This study indicated that forest Fe cycling is qualitatively different from that of other macro- and micro-nutrients. Thirdly, our results revealed that long-term cultivation substantially diminished the activity of soil iron oxides relative to forest growth. Forest Fe cycling is derived from mineral soil weathering, which suggests a need to explore the underlying mechanisms by which bioturbation (e.g.earthworms) mediates transformations of iron bioavailability and oxidation of organic matter in soils. Overall, the wide range of responses to land use changes among the ecosystem's trace elements and other biogeochemical features illustrates the great dynamics of the soil system over time scales of decades to centuries.
Item Open Access Modeling Salamander Habitat and Connectivity in Durham and Orange Counties, North Carolina(2019-04-18) Geschke, JuliaSalamander species in the Piedmont region of North Carolina are under-studied. This region is undergoing rapid expansion, urbanization, and human population growth, all of which will affect salamander habitat and salamanders directly, making it important to know where populations are currently located. This project assessed the usage of two methods, rule-based modeling and Maxent modeling, to predict habitat for eleven species of salamander found in Durham and Orange counties. These predicted habitat maps can be used to prioritize land conservation, areas for on-the-ground salamander surveys or management, and areas to avoid the use of certain forest management activities. The project also assessed the connectivity of ponds and wetlands used by pond-breeding salamanders. Corridors between ponds were identified for each Duke Forest division, and potential conflict areas with roads were highlighted. The results can be used to mitigate road mortality during breeding seasons, when large numbers of adults migrate, and after breeding seasons, when juveniles metamorphose and emigrate. Despite being one of the most urbanized parts of the state, the Triangle region of North Carolina is still home to a surprising diversity of salamander species. As the region grows, salamander habitat will dwindle, making it important to identify and conserve the best habitat and current salamander populations.Item Open Access Parcel Prioritization for Drinking Water Protection in the Upper Neuse River Basin, North Carolina(2007-05) Treadway, Anna R.The Upper Neuse River Basin spans six counties in the Piedmont region of North Carolina and is the drinking water source for over half a million people. This water resource needs to be protected so that it can meet the growing demand spurred by rapid population growth. Land conservation is one method for drinking water protection. The Upper Neuse Clean Water Initiative (UNCWI) has successfully prioritized parcels for conservation and suggested potential funding sources. However, they did not consider nonpoint source pollutant loads based on parcel landcover and the distance from the parcel to the surface water intakes or costs of acquiring parcels. The objective of this project is to further prioritize the UNCWI high-priorty parcels using a parcel-pollutantweighting model that considers budget constraints. There are four different scenarios of the model run based on area of the watershed and future land use scenarios. The second objective is to provide the model and results to local conservation organizations and county governments. A user-friendly Excel version of the model will be developed so that land conservationists can input their own variables for parcel prioritization to protect water quality.Item Open Access The Effect of Stream Restoration on Turtle Species Assemblages in the Piedmont Region of North Carolina, USA(2010-04-30T18:48:42Z) Nowalk, MauraIn response to the negative impact of urban and agricultural development on freshwater systems, stream restoration efforts often attempt to return degraded streams to a natural ecosystem structure and function. However, few attempts have been made to monitor the effectiveness of restored streams in supporting certain important groups of organisms found in native aquatic ecosystems, such as freshwater turtles. The purpose of this study was to compare six natural and six restored streams in the North Carolina Piedmont by quantifying habitat characteristics that might drive differences in turtle assemblages and by directly capturing turtles at each site. Stream habitat was characterized by water quality analyses, structural measurements of each stream, and floodplain vegetation surveys. Three baited hoop nets were set at each location for a total of 36 trap-nights at each stream, which were used to collect turtle population data from mid-May to late July 2009. In total 77 turtles were captured comprising eight species. At the natural sites, 24 turtles were captured representing five species (C. picta, C. serpentina, P. floridana, S. odoratus, and T. scripta scripta); 53 turtles were captured at the restored sites representing seven species (C. guttata, C. picta, C. serpentina, K. subrubrum, S. odoratus, T. scripta elegans and T. scripta scripta). Modified t-tests, based on randomized permutation tests, suggest that natural and restored sites differ in turtle abundance (p=0.13), but are not different in species richness (p>0.99) or gender ratios (p=0.80). A species community index suggests that natural and restored turtle assemblages overlap by 50%. Non-metric multidimensional scaling analyses of habitat characteristics indicate that natural and restored streams differ in channel structure, vegetation, and some water quality variables. Using Mantel’s test to compare turtle species composition with the most important variables separating natural and restored streams, canopy, slope, total phosphorus, chlorophyll A, and Juncus effuses abundance were found to be most strongly correlated with patterns in turtle assemblage composition. This is one of the first studies to address the possible impact of stream restoration on turtle assemblages, and the findings suggest that restored streams may be better habitat for turtles in the North Carolina Piedmont.