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Soil microbial communities and grain quality as affected by spring wheat (Triticum aestivum L.) cultivar and grain mixtures in organic and conventional management systems

It may be possible to tailor crop management to encourage diverse soil microbial communities and beneficial microorganisms, and produce high quality food products. Studies were carried out in 2005-2007 to evaluate the impact of spring wheat (Triticum aestivum L.) cultivar choice and crop polycultures on soil microbial communities in organic and conventional systems, and subsequent wheat quality. Five wheat cultivars were grown organically and conventionally to evaluate grain breadmaking quality and micronutrient content and their impact on the soil microbial community. Organic grain yields were roughly half of conventional yields, but quality levels were all acceptable for Canadian Western Hard Red Spring wheat. Measured soil (0-15 cm) microbial profiles (by phospholipid fatty acid analysis) differed between the two management systems, and amongst cultivars in the conventional system. The most recent cultivar in the study, AC Superb, exhibited the highest levels of fungi suggesting that breeding efforts in conventionally managed environments may have resulted in cultivating mycorrhizal dependence in that environment. In general, many of the studied grain micronutrients were greater in the organically grown wheat system, possibly due in part to decreased grain yield and smaller grain size. Maximizing grain micronutrient content through wheat cultivar choice was dependent on management system. The presence of fungi biomarkers appears to have improved uptake of Mn and Cu. Monocultures and polycultures of common annual crops were grown organically and conventionally in 2006-2007. Intercrops exhibited an ability to overyield in an organic system, largely through weed suppression, but intercrops also overyielded in a conventional system where weeds were controlled through herbicides. As intercrop complexity decreased, the instances of improved weed suppression declined. Management systems and wheat cultivars can alter the composition of the soil microbial community. Annual crop polycultures did not alter soil microbial communities in this study, but showed evidence of agronomic benefits in both organic and conventional systems. / Plant Science

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:AEU.10048/1959
Date11 1900
CreatorsNelson, Alison Gail
ContributorsSpaner, Dean (Agricultural, Food and Nutritional Science), Frick, Brenda (Organic Agriculture Centre of Canada, SK), Quideau, Sylvie (Renewable Resources), Dosdall, Lloyd (Agricultural, Food and Nutritional Science), Dyck, Miles (Renewable Resources), Lynch, Derek (Nova Scotia Agricultural College)
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
LanguageEnglish
Detected LanguageEnglish
TypeThesis
Format8367421 bytes, application/pdf
RelationNelson, A. G. and Spaner, D. 2010. In E. Lichtfouse (ed.), Genetic Engineering, Biofertilisation, Soil Quality and Organic Farming, Sustainable Agriculture Reviews 4:217-242., Nelson, A.G., Quideau, S., Frick, B., Niziol, D., Clapperton, J. and Spaner, D. 2011. Can. J. Plant Sci. 91: 485-495., Nelson, A.G., Quideau, S.A., Frick, B., Hucl, P.J., Thavarajah, D., Clapperton, M.J. and Spaner, D.M. 2011. Sustainability 3(3): 500-517., Nelson, A., Frick, B., Clapperton, J., Quideau, S. and Spaner, D. 2008. http://orgprints.org/12070, Nelson, A., Spaner, D. and Frick, B. 2006. http://www.organicagcentre.ca/Docs/TechnicalBulletins08/TechnicalBulletin35web_connections.pdf

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