Dataset of timberland variables used to assess forest conditions in two Southeastern United States׳ fuelsheds. Data in Brief. 13:278-290.. 2017.
How is wood-based pellet production affecting forest conditions in the southeastern United States? Forest Ecology and Management. 396:143-149.. 2017.
Interactive posters: A valuable means of enhancing communication and learning about productive paths toward sustainable bioenergy. Biofuels, Bioproducts and Biorefining. 11315113970450930(2518221):243-246.. 2017.
Reference scenarios for evaluating wood pellet production in the Southeastern United States. Wiley Interdisciplinary Reviews: Energy and Environment. 35579112678916345666161447396105126336379995:e259.. 2017.
The role of bioenergy in a climate-changing world. Environmental Development.. 2017.
Status and prospects for renewable energy using wood pellets from the southeastern United States. GCB Bioenergy. 9(8):1296-1305.. 2017.
Wood pellets, what else? Greenhouse gas parity times of European electricity from wood pellets produced in the south-eastern United States using different softwood feedstocks GCB Bioenergy. 25494853223782769749767319172602138711716556716933236134544329263257350173710319326459104(16). 2017.
Assessing multimetric aspects of sustainability: Application to a bioenergy crop production system in East Tennessee. Ecosphere. 7(2). 2016.
A causal analysis framework for land-use change and the potential role of bioenergy policy. Land Use Policy. 59:516-527.. 2016.
Environmental Modeling with StakeholdersEnsuring that Ecological Science Contributes to Natural Resource Management Using a Delphi-Derived Approach. 67823611891296243783519439:103-124.. 2016.
Evaluating agricultural trade-offs in the age of sustainable development. Agricultural Systems.. 2016.
Incorporating bioenergy into sustainable landscape designs. Renewable and Sustainable Energy Reviews. 56:1158-1171.. 2016.
Reconciling food security and bioenergy: priorities for action. GCB Bioenergy.. 2016.