Carbon-Negative Biofuels from Low-Input High-Diversity Grassland Biomass

Carbon-Negative Biofuels from Low-Input High-Diversity Grassland Biomass

Biofuels derived from low-input high-diversity (LIHD) mixtures of native grassland perennials can provide more usable energy, greater greenhouse gas reductions, and less agrichemical pollution per hectare than can corn grain ethanol or soybean biodiesel. High-diversity grasslands had increasingly hi...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2006-12, Vol.314 (5805), p.1598-1600
Hauptverfasser: Tilman, David, Hill, Jason, Lehman, Clarence
Format: Artikel
Sprache:eng
Schlagworte:
Agricultural soils
Agriculture
Agronomy. Soil science and plant productions
Alternative energy sources
Animal, plant and microbial ecology
Applied ecology
Atmosphere
Biodiversity
Bioenergy
Biofuels
Biological and medical sciences
Biomass
Biomass energy
Biomass energy production
Biomass production
Carbon - analysis
Carbon dioxide
Carbon Dioxide - analysis
Carbon Dioxide - metabolism
Carbon sequestration
Ecosystem
Energy crops
Energy-Generating Resources
Environment and sustainable development
Environmental science
Experiments
Fabaceae - growth & development
Fabaceae - metabolism
Fuels
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Grasses
Greenhouse Effect
Plant Development
Plant Roots - chemistry
Plants
Plants - metabolism
Poaceae - growth & development
Poaceae - metabolism
Soil - analysis
Sustainable agriculture
Use of agricultural and forest wastes. Biomass use, bioconversion
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Beschreibung
Zusammenfassung:Biofuels derived from low-input high-diversity (LIHD) mixtures of native grassland perennials can provide more usable energy, greater greenhouse gas reductions, and less agrichemical pollution per hectare than can corn grain ethanol or soybean biodiesel. High-diversity grasslands had increasingly higher bioenergy yields that were 238% greater than monoculture yields after a decade. LIHD biofuels are carbon negative because net ecosystem carbon dioxide sequestration (4.4 megagram hectare⁻¹ year⁻¹ of carbon dioxide in soil and roots) exceeds fossil carbon dioxide release during biofuel production (0.32 megagram hectare⁻¹ year⁻¹). Moreover, LIHD biofuels can be produced on agriculturally degraded lands and thus need to neither displace food production nor cause loss of biodiversity via habitat destruction.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1133306