Utilizing LEAF to increase biomass feedstock supplies from agricultural land

Authors: Karlen, Douglas; MUTH, DAVID - Praxik Llc

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 1/15/2014
Publication Date: 3/9/2014
Citation: Karlen, D.L., Muth, D.J. 2014. Utilizing LEAF to increase biomass feedstock supplies from agricultural land. Soil's Role in Restoring Ecosystem Services, March 6-9, 2014, Sacramento, CA. Available at: https://scisoc.confex.com/\scisoc/2014SES/webprogram/Paper84588.html.

Interpretive Summary:

Technical Abstract: The start-up of three full-scale corn stover bioenergy conversion facilities in 2014 will require a substantial increase in sustainable biomass feedstock. Supplying crop residues without having a negative impact on ecosystem services is indeed a “grand challenge” associated with sustainable food and energy supplies. The Landscape Environmental Assessment Framework (LEAF) environmental process modeling toolkit was developed to help make sustainable biomass feedstock supply decisions to support bioenergy and bio-product industries. Used initially to project sustainable crop residue supplies for the revised Billion Ton (BT2) report, this presentation will examine the continued refinement of LEAF and its potential use for comparing the effects of conservation practices such as reduced or no-tillage practices, cover crops, and vegetative buffer strips to increase sustainable supplies of harvestable biomass without degrading soil quality. Currently, LEAF integrates the Revised Universal Soil Loss Equation (RUSLE2), Wind Erosion Prediction System (WEPS), Soil Conditioning Index (SCI), and the DAYCENT model. Each model is run in an optimized manner with their inputs and outputs being linked seamlessly through the LEAF framework to produce landscape plans. We conclude that, with further development and validation, simulation tools such as LEAF will become incorporated into business plans for many different biomass-based industries.