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Global warming intensity of biofuel derived from switchgrass grown on marginal land in Michigan

Seungdo Kim, Bruce E. Dale, Rafael A. Martinez‐Feria, Bruno Basso, Kurt D. Thelen, Christos T. Maravelias, Douglas A. Landis, Tyler J. Lark, G. Philip Robertson

2023GCB Bioenergy21 citationsDOIOpen Access PDF

Abstract

Abstract Energy crops for biofuel production, especially switchgrass ( Panicum virgatum ), are of interest from a climate change perspective. Here, we use outputs from a crop growth model and life cycle assessment (LCA) to examine the global warming intensity (GWI; g CO 2 MJ −1 ) and greenhouse gas (GHG) mitigation potential (Mg CO 2 year −1 ) of biofuel systems based on a spatially explicit analysis of switchgrass grown on marginal land (abandoned former cropland) in Michigan, USA. We find that marginal lands in Michigan can annually produce over 0.57 hm 3 of liquid biofuel derived from nitrogen‐fertilized switchgrass, mitigating 1.2–1.5 Tg of CO 2 year −1 . About 96% of these biofuels can meet the Renewable Fuel Standard (60% reduction in lifecycle GHG emissions compared with conventional gasoline; GWI ≤37.2 g CO 2 MJ −1 ). Furthermore, 73%–75% of these biofuels are carbon‐negative (GWI less than zero) due to enhanced soil organic carbon (SOC) sequestration. However, simulations indicate that SOC levels would fail to increase and even decrease on the 11% of lands where SOC stocks >>200 Mg C ha −1 , leading to carbon intensities greater than gasoline. Results highlight the strong climate mitigation potential of switchgrass grown on marginal lands as well as the needs to avoid carbon rich soils such as histosols and wetlands and to ensure that productivity will be sufficient to provide net mitigation.

Topics & Concepts

Panicum virgatumBiofuelGreenhouse gasEnvironmental scienceBioenergyCarbon sequestrationEnergy cropMarginal landLand use, land-use change and forestrySoil carbonRenewable energyAgronomyClimate change mitigationLife-cycle assessmentGlobal warmingClimate changeAgroforestryLand useSoil waterCarbon dioxideProduction (economics)EcologyEngineeringWaste managementSoil scienceEconomicsBiologyMacroeconomicsBioenergy crop production and managementBiofuel production and bioconversionForest Biomass Utilization and Management
Global warming intensity of biofuel derived from switchgrass grown on marginal land in Michigan | Litcius