Interactive life cycle assessment framework to evaluate agricultural impacts and benchmark emission reduction credits from organic management

Growers who manage farming systems organically strive to maintain balanced ecosystems for sustainable food production. We examined a life cycle assessment framework to support an interactive evaluation and benchmarking of emission reduction credits (ERC) from organically managed crop production. Open source Life Cycle Analysis (LCA) software was used to streamline inventories for organic farming. The inventories were built on hierarchical levels of inputs, land operations, crops and crop rotation. The methodology was demonstrated by comparing: (1) only carbon footprints of the baseline inventories and land operations, then (2) all environmental impacts of organic potato production versus US conventional potato production and other inventoried international potato production systems to highlight effects of management differences. The footprints of inventoried land operations showed trade-off effects between the size of equipment and the degree of plant residue incorporation into soil, e.g. by shredding. Total impact and ecotoxicity impacts per kg potato production were reduced approximately three orders of magnitude on the US organic case study farm as compared to the inventoried US average conventional production. The examined LCA supports the benchmarking of ERC from organic management. It is, therefore, recommended to use the framework in future case studies of organic farms and comparative LCA's.

[1]  Claudio O. Stöckle,et al.  CropSyst model evolution: From field to regional to global scales and from research to decision support systems , 2014, Environ. Model. Softw..

[2]  M. Ittersum,et al.  The crop yield gap between organic and conventional agriculture , 2012 .

[3]  S. Carpenter,et al.  Solutions for a cultivated planet , 2011, Nature.

[4]  S. Carpenter,et al.  Global Consequences of Land Use , 2005, Science.

[5]  Jane C. Bare,et al.  Updated US and Canadian normalization factors for TRACI 2.1 , 2014, Clean Technologies and Environmental Policy.

[6]  Véronique Bellon-Maurel,et al.  Streamlining life cycle inventory data generation in agriculture using traceability data and information and communication technologies – part II: application to viticulture , 2015 .

[7]  J. L. Gabriel,et al.  Cover crops effect on farm benefits and nitrate leaching: Linking economic and environmental analysis. , 2013 .

[8]  G. Norris,et al.  TRACI the tool for the reduction and assessment of chemical and other environmental impacts , 2002 .

[9]  Gerald Rebitzer,et al.  The ecoinvent database system: a comprehensive web-based LCA database , 2005 .

[10]  C. Stöckle,et al.  CropSyst, a cropping systems simulation model , 2003 .

[11]  Joyce Smith Cooper,et al.  Sampling error in US field crop unit process data for life cycle assessment , 2012, The International Journal of Life Cycle Assessment.

[12]  M. V. D. van der Heijden,et al.  Agricultural practices indirectly influence plant productivity and ecosystem services through effects on soil biota. , 2014, Ecological applications : a publication of the Ecological Society of America.

[13]  Jean Petit,et al.  Evaluation of the environmental impact of agriculture at the farm level: a comparison and analysis of 12 indicator-based methods , 2002 .

[14]  Jeremy Woods,et al.  Energy and the food system , 2010, Philosophical Transactions of the Royal Society B: Biological Sciences.

[15]  H. Willer,et al.  The World of Organic Agriculture. Statistics and Emerging Trends 2012 , 2008 .

[16]  Lauren C. Ponisio,et al.  Diversification practices reduce organic to conventional yield gap , 2015, Proceedings of the Royal Society B: Biological Sciences.

[17]  A. Harmon,et al.  Organic Agriculture Supports Biodiversity and Sustainable Food Production , 2011 .

[18]  Matthias Schulz,et al.  Streamlining life cycle inventory data generation in agriculture using traceability data and information and communication technologies – part I: concepts and technical basis , 2014 .

[19]  Daniella Malin,et al.  A farm-focused calculator for emissions from crop and livestock production , 2011, Environ. Model. Softw..

[20]  Uwe Geier,et al.  Life cycle assessment framework in agriculture on the farm level , 2000 .

[21]  K. Siddique,et al.  Ridge-Furrow Mulching Systems—An Innovative Technique for Boosting Crop Productivity in Semiarid Rain-Fed Environments , 2013 .

[22]  M. Altieri The ecological role of biodiversity in agroecosystems , 1999 .

[23]  T. Ricketts,et al.  Ecosystem services and dis-services to agriculture , 2007 .

[24]  Manfred Lenzen,et al.  A comparative study of some environmental impacts of conventional and organic farming in Australia , 2006 .