1 |
Response of rodent community structure and population demographics to intercropping switchgrass within loblolly pine plantations in a forest-dominated landscape King KL, Homyack JA, Wigley TB, Miller DA, Kalcounis-Rueppell MC Biomass & Bioenergy, 69, 255, 2014 |
2 |
Reaction kinetics of hydrothermal carbonization of loblolly pine Reza MT, Yan W, Uddin MH, Lynam JG, Hoekman SK, Coronella CJ, Vasquez VR Bioresource Technology, 139, 161, 2013 |
3 |
Evaluation of intercropped switchgrass establishment under a range of experimental site preparation treatments in a forested setting on the Lower Coastal Plain of North Carolina, USA Albaugh JM, Sucre EB, Leggett ZH, Domec JC, King JS Biomass & Bioenergy, 46, 673, 2012 |
4 |
An analysis of the feasibility for increasing woody biomass production from pine plantations in the southern United States Munsell JF, Fox TR Biomass & Bioenergy, 34(12), 1631, 2010 |
5 |
Co-production of ethanol and cellulose fiber from Southern Pine: A technical and economic assessment Frederick WJ, Lien SJ, Courchene CE, DeMartini NA, Ragauskas AJ, Iisa K Biomass & Bioenergy, 32(12), 1293, 2008 |
6 |
Estimating biomass of individual pine trees using airborne lidar Popescu SC Biomass & Bioenergy, 31(9), 646, 2007 |
7 |
Use of energy analyses in silvicultural decision-making Mead DJ, Pimentel D Biomass & Bioenergy, 30(4), 357, 2006 |
8 |
Biomass accumulation in rapidly growing loblolly pine and sweetgum Williams TM, Gresham CA Biomass & Bioenergy, 30(4), 370, 2006 |
9 |
Comparison of biomass and nutrient content equations for successive rotations of loblolly pine plantations on an Upper Coastal Plain Site Rubilar RA, Allen HL, Kelting DL Biomass & Bioenergy, 28(6), 548, 2005 |
10 |
Extraction of lignin from sugar cane bagasse and Pinus taeda wood chips using ethanol-water mixtures and carbon dioxide at high pressures Pasquini D, Pimenta MTB, Ferreira LH, Curvelo AAD Journal of Supercritical Fluids, 36(1), 31, 2005 |