Organic versus conventional strawberry agroecosystem

John P. Reganold, Preston K. Andrews, Jennifer R. Reeve, Lynne Carpenter-Boggs, Christopher W. Schadt, J. Richard Alldredge, Carolyn F. Ross, Neal M. Davies, Jizhong Zhou

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Abstract

Sale of organic (ORG) foods is one of the fastest growing market segments within the global food industry. People often buy organic food because they believe organic farms produce more nutritious and better tasting food from healthier soils. Here we tested if there are significant differences in fruit and soil quality from 13 pairs of commercial organic and conventional strawberry agroecosystems in California. At multiple sampling times for 2 years, we evaluated three varieties of strawberries for mineral elements, shelf life, phytochemical composition, and organoleptic properties. We also analyzed traditional soil properties and soil DNA using microarray technology. We found that the organic farms had strawberries with longer shelf life, greater dry matter, and higher antioxidant activity and concentrations of ascorbic acid and phenolic compounds, but lower concentrations of phosphorus and potassium. In one variety, sensory panels judged organic strawberries to be sweeter and have better flavor, overall acceptance, and appearance than their conventional counterparts. We also found the organically farmed soils to have more total carbon and nitrogen, greater microbial biomass and activity, and higher concentrations of micronutrients. Organically farmed soils also exhibited greater numbers of endemic genes and greater functional gene abundance and diversity for several biogeochemical processes, such as nitrogen fixation and pesticide degradation.

Original languageEnglish
Title of host publicationSustainable Soil Management
PublisherApple Academic Press
Pages185-216
Number of pages32
ISBN (Electronic)9781466559219
ISBN (Print)9781926895215
DOIs
StatePublished - Jan 1 2013

Keywords

  • Microarray technology
  • Signal intensity
  • Signal-to-noise ratio
  • Simpson’s reciprocal index
  • Strawberry

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