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1 February 2014 Energy and greenhouse gas intensity of corn (Zea mays L.) production in Ontario: A regional assessment
Susantha Jayasundara, Claudia Wagner-Riddle, Goretty Dias, Kumudinie A. Kariyapperuma
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Abstract

Jayasundara, S., Wagner-Riddle, C., Dias, G. and Kariyapperuma, K. A. 2014. Energy and greenhouse gas intensity of corn (Zea mays L.) production in Ontario: A regional assessment. Can. J. Soil Sci. 94: 77-95. Analysis of the environmental impact of corn (Zea mays L.) uses, such as biofuels and bioproducts, requires cradle to farm-gate life-cycle analysis of energy use and net greenhouse gas (GHG) emissions associated with corn production. Previous analyses have been based on case studies. Here we present an analysis based on census data for Ontario at the county level that was performed for three scenarios: (1) corn cultivated only for grain; (2) corn cultivated for grain and 30% stover harvest; and (3) corn cultivated for grain and cob harvest. Energy intensity of corn grain at the county level varied from 1.75 to 2.17 GJ Mg-1 grain, with the largest proportions of energy being consumed for grain drying (33%), production and supply of nitrogen (N) fertilizer (30%) and diesel use for field work (17%). Overall GHG emission intensity of grain corn varied from 243 to 353 kg CO2eq Mg-1 grain, of which 72% were associated with N inputs [34% soil nitrous oxide (N2O) from synthetic fertilizer N (SFN), 13% from SFN production and 10% from applied manure N]. Energy intensity of corn stover and cobs was 0.96 and 0.36 GJ Mg-1 dry matter, respectively, with the largest proportion of energy associated with production and supply of replacement nutrients. Intensity of GHG emission was 79 and 31 kg CO2 eq Mg-1 dry matter for stover and for cobs, respectively. Counties with higher corn yields at lower N application rates and reduced tillage tended to produce corn with lower energy and GHG intensity per Mg grain.

Susantha Jayasundara, Claudia Wagner-Riddle, Goretty Dias, and Kumudinie A. Kariyapperuma "Energy and greenhouse gas intensity of corn (Zea mays L.) production in Ontario: A regional assessment," Canadian Journal of Soil Science 94(1), 77-95, (1 February 2014). https://doi.org/10.1139/CJSS2013-025
Received: 15 May 2013; Accepted: 1 November 2013; Published: 1 February 2014
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KEYWORDS
Consommation d'énergie
Energy use
grain corn
greenhouse gas intensity
intensité des rejets de gaz à effet de serre
maïs-grain
récupération du fourrage
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