Assessment of seafood processing wastes as alternative sources of Selenium in plant production |
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Authors: | Trine A. Sogn Espen Govasmark Susanne Eich-Greatorex Anne Falk-Øgaard John A. MacLeod |
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Affiliation: | 1. Department of Plant and Environmental Sciences , Norwegian University of Life Sciences , Aas, Norway trine.sogn@umb.no;3. The Norwegian Centre for Ecological Agriculture , Tingvoll, Norway;4. Department of Plant and Environmental Sciences , Norwegian University of Life Sciences , Aas, Norway;5. Agriculture and Agri-Food Canada , Charlottetown, PEI, Canada |
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Abstract: | Abstract In some parts of the world, the soil selenium (Se) content is too low to ensure the Se level recommended for human or animal consumption in the crops produced. In order to secure a desired concentration of Se in crops, Se has been applied as mineral fertilizer to agricultural fields. Since only a minor part of the inorganic Se applied is utilized by plants and small increases in Se concentrations in, e.g., drinking water, may be toxic, the method is somewhat controversial. As an alternative to Se-enriched mineral fertilizer, different seafood-processing wastes have been examined as a source for Se in crop production. Both in greenhouse pot experiments and field trials the Se in seafood waste was not plant-available during the first growing season. There was no significant difference between the Se concentration in wheat growing in soil without added Se and in soil receiving Se from seafood waste in amounts ranging from 0.9 to 9 g ha?1. Neither was any residual effect of Se in seafood waste seen during a second year growth period. Thus, seafood-processing waste cannot be regarded as a potential source of Se in crop production. Possible mobilization of formerly applied Se, as seafood-processing waste or Se enriched mineral fertilizer due to changes in soil redox conditions were examined in a leaching experiment. The mobility of formerly applied Se was generally very low, but the results indicated that under permanently wet soil conditions leaching of Se may occur in plant dormant periods in soils with low organic matter content and high pH. |
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Keywords: | Plant-available selenium seafood waste selenium leaching soil selenium wheat |
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