1. Quantifying shoot and root biomass production and soil carbon under perennial bioenergy grasses in a subtropical environment.
- Author
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Liang, Xi, Erickson, John E., Silveira, Maria L., Sollenberger, Lynn E., Rowland, Diane L., and Vermerris, Wilfred
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BIOMASS production , *GIANT reed , *SUGARCANE , *GRASSES , *SACCHARUM , *CARBON in soils - Abstract
Perennial bioenergy grasses can potentially replace fossil fuels and offset atmospheric CO 2 through soil C sequestration. However, limited information relevant to the impacts of bioenergy cropping on ecosystem services, especially above- and below-ground productivity and soil C sequestration is available for subtropical environments (e.g., southeastern USA). The objective of this study was to evaluate the impacts of perennial bioenergy cropping on C cycling and accumulation in the soil following four years of production in North Florida. Treatments consisted of six perennial grass species: giant reed, elephantgrass, energycane, sugarcane, sweetcane, and giant miscanthus. Elephantgrass, energycane, sweetcane, and sugarcane produced great shoot biomass (31–41 Mg ha−1) when harvested once per year. Giant reed's shoot biomass responded favorably to two harvests per year (27–43 Mg ha−1), whereas giant miscanthus did not perform well in any of the years (9–21 Mg ha−1). Additionally, giant reed, sweetcane, and giant miscanthus produced greater root biomass (9–11 Mg ha−1) compared with the other three species (2.5–3.2 Mg ha−1). Among the six grasses, sweetcane, energycane, and elephantgrass resulted in increases in soil C stocks (~15 Mg ha−1) relative to the initial level. Conversely, giant reed and giant miscanthus had no increase in soil C stock. Results suggested that interspecies differences observed in biomass yield among the six perennial bioenergy grasses could therefore affect soil C accumulation. High biomass yielding species such as sweetcane, energycane, and elephantgrass can effectively increase soil C within a few years following establishment in a subtropical environment. • Giant reed, sweetcane, sugarcane, energycane, and elephantgrass were able to produce high shoot biomass in North Florida. • Giant miscanthus could not produce comparable shoot biomass with other species in the subtropical environment. • Sweetcane, energycane, and elephantgrass exhibited significant increases in soil C stock over four growing seasons. • Sweetcane, energycane, and elephantgrass are able to provide multiple ecosystem services rapidly following establishment. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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