Szymanski et al., 2016 - Google Patents
Changes in Soil Carbon Turnover after Five Years of Bioenergy Cropping Systems from a Long-Term Incubation Experiment and Radiocarbon Measurements.Szymanski et al., 2016
- Document ID
- 5873056846941882644
- Author
- Szymanski L
- Sanford G
- Heckman K
- Jackson R
- Marin-Spiotta E
- Publication year
- Publication venue
- AGU Fall Meeting Abstracts
External Links
Snippet
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 …
- 239000002689 soil 0 title abstract description 24
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Enyew et al. | Ethnobotanical study of traditional medicinal plants in and around Fiche District, Central Ethiopia | |
| Gelfand et al. | Carbon debt of Conservation Reserve Program (CRP) grasslands converted to bioenergy production | |
| Xiong et al. | Spatial-temporal characteristics and LMDI-based impact factor decomposition of agricultural carbon emissions in Hotan Prefecture, China | |
| Sun et al. | Forest management challenges for sustaining water resources in the Anthropocene | |
| Ķēniņa et al. | Carbon pools in old-growth Scots pine stands in hemiboreal Latvia | |
| Egnell et al. | Perspectives on the potential contribution of Swedish forests to renewable energy targets in Europe | |
| Chang et al. | Effect of 40 and 80 years of conifer regrowth on soil microbial activities and community structure in subtropical low mountain forests | |
| Vedernikov et al. | The State of Dark Coniferous Forests on the East European Plain Due to Climate Change | |
| Mansuy et al. | Woody biomass mobilization for bioenergy in a constrained landscape: a case study from Cold Lake First nations in Alberta, Canada | |
| Chang et al. | Influence of thorny bamboo plantations on soil microbial biomass and community structure in subtropical badland soils | |
| Szymanski et al. | Changes in Soil Carbon Turnover after Five Years of Bioenergy Cropping Systems from a Long-Term Incubation Experiment and Radiocarbon Measurements. | |
| He et al. | Long-Term Nitrogen Addition Could Modify Degradation of Soil Organic Matter through Changes in Soil Enzymatic Activity in a Natural Secondary Forest | |
| Szymanski et al. | Comparison of soil microbial respiration and carbon turnover under perennial and annual biofuel crops in two agricultural soils | |
| Martínez-Rivas et al. | Understanding Soil Respiration Dynamics in Temperate Forests in Northwestern Mexico | |
| Hong et al. | Determinants of Deadwood Biomass under the Background of Nitrogen and Water Addition in Warm Temperate Forests | |
| Allen et al. | Developing a Novel Plant-Microbial Interactions Model to Predict the Impacts of Bioenergy Crops on Soil Carbon and Nitrogen Cycling | |
| Jo et al. | Evaluation of Yield and Yield Components of Rice in Vertical Agro-Photovoltaic System in South Korea | |
| Novara et al. | Dynamics of soil organic matter pools after agricultural abandonment | |
| Weissert et al. | Variability in soil CO2 efflux across distinct urban land cover types | |
| Moore et al. | The carbon, water and energy costs of converting perennial switchgrass back to annual maize-soybean rotation. | |
| Zuercher et al. | Abrupt changes in climate and methane emissions in northern peatlands | |
| Wagle et al. | CO 2 Dynamics in winter wheat and canola under different management practices in the Southern Great Plains | |
| Soares et al. | Estimating microbial growth and carbon use efficiencies in soil: links to fungal-bacterial dominance, SOC-quality and stoichiometry | |
| Bardgett | Soil biotic interactions and climate change: consequences for carbon cycle feedbacks | |
| Lange et al. | Microbial activity promotes carbon storage in temperate soils |