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“Restoring shortleaf pine (Pinus echinata)-hardwood ecosystems severely impacted by the southern pine beetle (Dendroctonus frontalis Zimmerman)”
274: 181-200. http://coweeta.uga.edu/publications/10661.pdf.
2012.
“Age and distribution of an evergreen clonal shrub in the Coweeta Basin: Rhododendron maximum L”
139 (2): 149-166. http://coweeta.uga.edu/publications/10679.pdf.
2012.
“Forest dynamics following eastern hemlock mortality in the southern Appalachians”
121 (4): p. 523-536. http://coweeta.uga.edu/publications/10631.pdf.
2012.
“The k-ZIG: flexible modeling for zero-inflated counts”
doi:10.1111/j.1541-0420.2011.01729.x. http://coweeta.uga.edu/publications/10669.pdf.
2012.
“Inference for size demography from point pattern data using integral projection models”
doi:10.1007/s13253-012-0121-y. http://coweeta.uga.edu/publications/10667.pdf.
2012.
“Southern Appalachian hillslope erosion rates measured by soil and detrital radiocarbon in hollows”
138 (1): p. 121-129. http://coweeta.uga.edu/publications/10632.pdf.
2012.
“Evaluating the impacts of fungal seedling pathogens on temperate forest seedling survival”
93: 511-520. http://coweeta.uga.edu/publications/10670.pdf.
2012.
“Estimating Tree Transpiration Accurately Depends on Wood Type and Species: A Study of Four Southern Appalachian Tree Species”
11 (1): 30-34. http://coweeta.uga.edu/publications/10682.pdf.
2012.
“Ecosystem processes at the watershed scale: Hydrologic vegetation gradient as an indicator for lateral hydrologic connectivity of headwater catchments”
48 (6): . doi:10.1029/2011WR011301. http://coweeta.uga.edu/publications/10798.pdf.
2012.
“Seeing the forest and the trees: multilevel models reveal both species and community patterns.”
3 (9): . doi:10.1890/ES12-00116.1. http://coweeta.uga.edu/publications/10738.pdf.
2012.
“Ecosystem Processes and Human Influences Regulate Streamflow Response to Climate Change at Long-Term Ecological Research Sites”
62 (4): 390-404. http://coweeta.uga.edu/publications/10625.pdf.
2012.
“Response of stream-breeding salamander larvae to sediment deposition in southern Appalachian (U.S.A.) headwater streams”
57 (8): 1535-1544. doi:10.1111/j.1365-2427.2012.02813.x. http://coweeta.uga.edu/publications/10703.pdf.
2012.
“Spatio-temporal trend analysis of long-term development patterns (1900–2030) in a Southern Appalachian County”
104 (1): 47--58. http://coweeta.uga.edu/publications/10609.pdf.
2012.
“Past, Present, and Future Roles of Long-Term Experiments in the LTER Network”
62 (4): p. 377-389. http://coweeta.uga.edu/publications/10626.pdf.
2012.
“Imidacloprid Movement in Soils and Impacts on Soil Microarthropods in Southern Appalachian Eastern Hemlock Stands”
41: 469-478. doi:10.2134/jeq2011.0306. http://coweeta.uga.edu/publications/10688.pdf.
2012.
“Long-term temperature and precipitation trends at the Coweeta Hydrologic Laboratory, Otto, North Carolina, USA”
43 (6): 890-901. doi:10.2166/nh.2012.067. http://coweeta.uga.edu/publications/10704.pdf.
2012.
“Evidence from individual inference for high-dimensional coexistence: long term experiments on recruitment response”
doi:10.1371/journal.pone.0030050. http://coweeta.uga.edu/publications/10651.pdf.
2012.
“Individual-scale inference to anticipate climate-change vulnerability of biodiversity”
367: 236-246. http://coweeta.uga.edu/publications/10655.pdf.
2012.
2012.
2012.