Does organic farming accumulate carbon in deeper soil profiles in the long term
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[1] J. Nimmo,et al. 2.6 Aggregate Stability and Size Distribution , 2018, SSSA Book Series.
[2] B. Wilson,et al. Environmental and human influences on organic carbon fractions down the soil profile , 2016 .
[3] M. Schloter,et al. Shallow non-inversion tillage in organic farming maintains crop yields and increases soil C stocks: a meta-analysis , 2016, Agronomy for Sustainable Development.
[4] C. Stewart,et al. Manure and Inorganic Nitrogen Affect Irrigated Corn Yields and Soil Properties , 2016 .
[5] J. Reganold,et al. Organic agriculture in the twenty-first century , 2016, Nature Plants.
[6] T. Kätterer,et al. Flaws and criteria for design and evaluation of comparative organic and conventional cropping systems , 2016 .
[7] S. Martyniuk,et al. Labile factions of soil organic matter and microbial characteristics of soil under organic and conventional crop management systems , 2016 .
[8] N. Turner,et al. Soil carbon sequestration by three perennial legume pastures is greater in deeper soil layers than in the surface soil , 2015 .
[9] G. Feng,et al. Contributions of wheat and maize residues to soil organic carbon under long-term rotation in north China , 2015, Scientific Reports.
[10] C. Cantero‐Martínez,et al. Identifying soil organic carbon fractions sensitive to agricultural management practices , 2014 .
[11] Alwyn Williams,et al. Indicators of soil ecosystem services in conventional and organic arable fields along a gradient of landscape heterogeneity in southern Sweden , 2013 .
[12] Pete Smith,et al. Reply to Leifeld et al.: Enhanced top soil carbon stocks under organic farming is not equated with climate change mitigation , 2013, Proceedings of the National Academy of Sciences.
[13] J. Fuhrer,et al. Organic farming gives no climate change benefit through soil carbon sequestration , 2013, Proceedings of the National Academy of Sciences.
[14] M. Cavigelli,et al. Organic grain cropping systems to enhance ecosystem services , 2013, Renewable Agriculture and Food Systems.
[15] Pete Smith,et al. Enhanced top soil carbon stocks under organic farming , 2012, Proceedings of the National Academy of Sciences.
[16] M. Tenuta,et al. Soil profile carbon and nutrient stocks under long-term conventional and organic crop and alfalfa-crop rotations and re-established grassland , 2012 .
[17] V. Seufert,et al. Comparing the yields of organic and conventional agriculture , 2012, Nature.
[18] K. Treseder,et al. Interactions among lignin, cellulose, and nitrogen drive litter chemistry-decay relationships. , 2012, Ecology.
[19] C. Francis,et al. Soil fertility and crop yields in long-term organic and conventional cropping systems in Eastern Nebraska , 2011, Renewable Agriculture and Food Systems.
[20] J. Maul,et al. Mineralizable soil nitrogen and labile soil organic matter in diverse long-term cropping systems , 2011, Nutrient Cycling in Agroecosystems.
[21] M. Paoletti,et al. Environmental Impact of Different Agricultural Management Practices: Conventional vs. Organic Agriculture , 2011 .
[22] Jürg Fuhrer,et al. Organic Farming and Soil Carbon Sequestration: What Do We Really Know About the Benefits? , 2010, AMBIO.
[23] H. Blanco‐Canqui,et al. Soil Response to Long‐Term Cropping Systems on an Argiustoll in the Central Great Plains , 2010 .
[24] E. Petticrew,et al. Aggregate stability in organically and conventionally farmed soils , 2009 .
[25] S. Aref,et al. Organic N and particulate organic matter fractions in organic and conventional farming systems with a history of manure application , 2007, Plant and Soil.
[26] H. Janzen,et al. Assessment of a Method to Measure Temporal Change in Soil Carbon Storage , 2002 .
[27] B. Stewart,et al. Estimation of Particulate and Total Organic Matter by Weight Loss-on-Ignition , 2000 .
[28] H. Blanco‐Canqui,et al. Cattle Manure Application Reduces Soil Compactibility and Increases Water Retention after 71 Years , 2015 .
[29] G. McIsaac,et al. Long-term changes in mollisol organic carbon and nitrogen. , 2009, Journal of environmental quality.
[30] R. J. Haynes,et al. Labile Organic Matter Fractions as Central Components of the Quality of Agricultural Soils: An Overview , 2005 .
[31] R. Lal,et al. The Depth Distribution of Soil Organic Carbon in Relation to Land Use and Management and the Potential of Carbon Sequestration in Subsoil Horizons , 2005 .
[32] D. W. Nelson,et al. Total Carbon, Organic Carbon, and Organic Matter 1 , 1982 .