Changes in Soil Carbon Turnover after Five Years of Bioenergy Cropping Systems from a Long-Term Incubation Experiment and Radiocarbon Measurements.
Abstract
In the face of climate change, the global production of bioenergy crops has increased in response to policies calling for non-fossil energy sources as a means to mitigate rising atmospheric carbon (C) concentrations. To provide overall C sequestration benefits, identifying biomass crops that can maintain or enhance soil resources is desirable for sustainable bioenergy production. The objective of our study was to compare the effects of four bioenergy cropping systems on SOM dynamics in two agricultural soils: Mollisols at the University of Wisconsin Agricultural Research Station in Arlington, Wisconsin and Alfisols at Kellogg Biological Station in Hickory Corners, Michigan, USA. We used fresh soils collected in 2013 and archived soils collected in 2008 to measure differences among biofuel crops after 5 years of management. Using a 365-day laboratory soil incubation and radiocarbon measurements of bulk soil and respired C, we separated soils into three SOM pools and determined their corresponding turnover times. Total soil C respired from surface soils increased in the order: mixed species perennials > monoculture perennials > monoculture annuals. More C was associated with the active fraction in the sandy loam Alfisol and with the slow-cycling fraction in the silt loam Mollisol. Radiocarbon content of respired CO2 did not differ between corn and switchgrass, but did differ between 2008 and 2013. The respiration of more radiocarbon-depleted C after 5 years of cultivation may be due to an initial flux of young C following tillage in 2008 or to depletion of labile plant inputs with continued harvest. All bioenergy cropping systems lost soil C after 5 years. Monoculture perennial switchgrass systems did not provide significant C sequestration benefits, as expected, compared to monoculture annual corn systems. Bioenergy crop land-use change affects soil C dynamics, with implications for assessing C costs associated with biofuel production.
- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2016
- Bibcode:
- 2016AGUFM.B41D0466S
- Keywords:
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- 0414 Biogeochemical cycles;
- processes;
- and modeling;
- BIOGEOSCIENCESDE: 0428 Carbon cycling;
- BIOGEOSCIENCES