Perennializing Grain Crop Agriculture: A Pathway for Climate Change Mitigation & Adaption
暂无分享,去创建一个
[1] D. Mulla,et al. Reduced nitrate leaching in a perennial grain crop compared to maize in the Upper Midwest, USA , 2019, Agriculture, Ecosystems & Environment.
[2] D. Tilman,et al. Soil carbon sequestration accelerated by restoration of grassland biodiversity , 2019, Nature Communications.
[3] R. Amundson,et al. Managing for soil carbon sequestration: Let’s get realistic , 2018, Global change biology.
[4] W. Wieder,et al. Addressing agricultural nitrogen losses in a changing climate , 2018, Nature Sustainability.
[5] G. Robertson,et al. Early accumulation of active fraction soil carbon in newly established cellulosic biofuel systems , 2018 .
[6] L. DeHaan,et al. Development and Evolution of an Intermediate Wheatgrass Domestication Program , 2018 .
[7] S. Hamilton,et al. Ecosystem carbon exchange on conversion of Conservation Reserve Program grasslands to annual and perennial cropping systems , 2018 .
[8] F. Chapin,et al. Plant diversity enhances productivity and soil carbon storage , 2018, Proceedings of the National Academy of Sciences.
[9] J. Anderson,et al. The Performance of Early-Generation Perennial Winter Cereals at 21 Sites across Four Continents , 2018 .
[10] Liyu Huang,et al. Performance, Economics and Potential Impact of Perennial Rice PR23 Relative to Annual Rice Cultivars at Multiple Locations in Yunnan Province of China , 2018 .
[11] Matthew G. Bakker,et al. Managing for Multifunctionality in Perennial Grain Crops , 2018, Bioscience.
[12] Allison J. Miller,et al. Perennial Grain Legume Domestication Phase I: Criteria for Candidate Species Selection , 2018 .
[13] D. Cattani,et al. Has Selection for Grain Yield Altered Intermediate Wheatgrass , 2018 .
[14] L. DeHaan,et al. Energy, water and carbon exchange over a perennial Kernza wheatgrass crop , 2018 .
[15] A. Paterson,et al. Development of Perennial Grain Sorghum , 2018 .
[16] Pete Smith,et al. Natural climate solutions , 2017, Proceedings of the National Academy of Sciences.
[17] A. Basche,et al. The Impact of Continuous Living Cover on Soil Hydrologic Properties: A Meta‐Analysis , 2017 .
[18] T. Hengl,et al. Soil carbon debt of 12,000 years of human land use , 2017, Proceedings of the National Academy of Sciences.
[19] Kevin P. Smith,et al. Accelerating Silphium Domestication: An Opportunity to Develop New Crop Ideotypes and Breeding Strategies Informed by Multiple Disciplines , 2017 .
[20] T. Crews,et al. What Agriculture Can Learn from Native Ecosystems in Building Soil Organic Matter: A Review , 2017 .
[21] Amy W. Ando,et al. The economic value of grassland species for carbon storage , 2017, Science Advances.
[22] Allison J. Miller,et al. A Pipeline Strategy for Grain Crop Domestication , 2016 .
[23] M. Schipanski,et al. Going where no grains have gone before: From early to mid-succession , 2016 .
[24] M. Kleber,et al. The contentious nature of soil organic matter , 2015, Nature.
[25] W. Parton,et al. Formation of soil organic matter via biochemical and physical pathways of litter mass loss , 2015 .
[26] M. Helmers,et al. What does it take to detect a change in soil carbon stock? A regional comparison of minimum detectable difference and experiment duration in the north central United States , 2014 .
[27] L. DeHaan,et al. Useful insights from evolutionary biology for developing perennial grain crops. , 2014, American journal of botany.
[28] J. Soussana,et al. Coupling carbon and nitrogen cycles for environmentally sustainable intensification of grasslands and crop-livestock systems , 2014 .
[29] L. DeHaan,et al. Soil and Water Quality Rapidly Responds to the Perennial Grain Kernza Wheatgrass , 2013 .
[30] D. Manning,et al. Persistence of soil organic matter as an ecosystem property , 2011, Nature.
[31] M. Scheffer,et al. Soil microbes drive the classic plant diversity-productivity pattern. , 2011, Ecology.
[32] Daniel H. Buckley,et al. Harvested perennial grasslands provide ecological benchmarks for agricultural sustainability. , 2010 .
[33] J. Neff,et al. Molecular C dynamics downstream: the biochemical decomposition sequence and its impact on soil organic matter structure and function. , 2008, The Science of the total environment.
[34] D. Montgomery. Soil erosion and agricultural sustainability , 2007, Proceedings of the National Academy of Sciences.
[35] K. McLauchlan,et al. The Nature and Longevity of Agricultural Impacts on Soil Carbon and Nutrients: A Review , 2006, Ecosystems.
[36] G. Robertson,et al. Aggregation and organic matter protection following tillage of a previously uncultivated soil , 2006 .
[37] S. Wuest,et al. Tillage and perennial grass effects on ponded infiltration for seven semi-arid loess soils , 2006 .
[38] Jane M. F. Johnson,et al. Estimating Source Carbon from Crop Residues, Roots and Rhizodeposits Using the National Grain-Yield Database , 2006 .
[39] Dominique Arrouays,et al. Carbon cycling and sequestration opportunities in temperate grasslands , 2004 .
[40] R. Lal,et al. Soil erosion and the global carbon budget. , 2003, Environment international.
[41] W. M. Post,et al. Soil carbon sequestration and land‐use change: processes and potential , 2000 .
[42] B. Murphy. Soil Carbon Sequestration as an Elusive Climate Mitigation Tool , 2020 .
[43] Lennart Olsson,et al. Is the future of agriculture perennial? Imperatives and opportunities to reinvent agriculture by shifting from annual monocultures to perennial polycultures , 2018, Global Sustainability.
[44] Leonard Wade,et al. Perennial Crops for Food Security , 2014 .
[45] K. Paustian. Carbon Sequestration in Soil and Vegetation and Greenhouse Gases Emissions Reduction , 2014 .
[46] J. Jastrow,et al. Mechanisms controlling soil carbon turnover and their potential application for enhancing carbon sequestration , 2007 .
[47] J. Six,et al. Efficiency of Fertilizer Nitrogen in Cereal Production: Retrospects and Prospects , 2005 .
[48] F. F. Pruski,et al. Expected climate change impacts on soil erosion rates: A review , 2004 .