SBIR-STTR Award

Several eastern U.S. shrub and small tree species have a high content of organic soluble extractives, are adaptable to annual pollarding, and have high growth rates. Such short-rotation trees and shrubs potentially can yield chemical feedstocks and offer economic and environmentally sound alternatives for the use of marginal land. An exploratory study funded by the Bio-Energy Council identified promising species and provided agronomic experience and a germ plasm base. The proposed research will focus on the use of growth regulators to stimulate increased production and accumulation of energy-rich extractives in these species of woody plants. Candidate plant species and chemical growth substances will be tested, and valuable indications for the most promising combinations will be gained. Phase I research will provide insights, background, and basic data needed to perform detailed Phase II research. Phase II research will develop and evaluate Production-Marketing-Consumption Systems for use of growth regulators to enhance yields of energy-rich extractives from shrubs on marginal lands and will provide a basis for follow-on Phase III commercial development.The potential applications as described by the company: Short rotation trees and shrubs yield botanochemicals that in part can replace petrochemicals derived from petroleum, natural gas, or coal and offer economic and environmentally sound alternatives for the use of marginal land.

Because of high yields after 2 years growth and high contents of organic soluble extractives, staghorn sumac (Rhus typhina), silver maple (Acer saccarinum), and sassafras (Sassafras albidum) were selected from the original 14 extractive-rich woody species for Phase I tests of 15 chemicals representative of important modes of action and/or chemical structures, three application methods, and a range of concentrations. Several of the observed plant responses included chemically induced resinification of the wood, increased production of lateral and auxiliary shoots, and spurts of rapid growth. Phase 11 studies will follow promising Phase I leads with detailed testing of selected growth regulators. For each desirable plant species-growth response interaction, the most active chemical will be indentified, and optimum formulations and scheduling of applications will be established. In Phase 11, the overall goal is to develop an integrated short rotation forestry management strategy that maximizes economic yield through imposition of a regime of chemical control. The principal general objectives of this study are to (1) identify the effects of specific chemical growth regulators and their method of application to the three species to enhance the yield of extractives and total biomass, and (2) develop an integrated and species-specific production management plan and perform productionmarketing-consuniption system analyses that together lead to commercialization of the approach of Phase 11.Anticipated Results/Potential Commercial Applications as described by the awardee: Short rotation trees and shrubs yield botanochemicals that in part can replace petrochemicals derived from petroleum, natural gas, or coal and offer economic and environmentally sound alternatives for the use of marginal land.