Recycled nutrients as a phosphorus source for Canadian organic agriculture: a perspective

The challenges associated with the global phosphorus (P) cycle are complex and multifaceted, from geological resource limitation, to P deficiency on arable farmland, to environmental contamination via excess P fertilization. Although no single solution can address all of the challenges associated wi...

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Veröffentlicht in:	Canadian Journal of Soil Science 2021-12, Vol.101 (4), p.571-580
Hauptverfasser:	Nicksy, Jessica, Entz, Martin H
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural industry Agricultural land Agriculture Arable land Cell culture circular economy Contamination Crop production systems Cropping systems Culture Depletion déchets urbains Farms Fertilization Fertilizers Food Food contamination Food sources Food waste gestion de la matière organique Human wastes International economic relations Nutrient sources Nutrients oligoéléments recyclés Organic farming organic management Organic phosphorus P system Phosphate minerals Phosphate rock Phosphates phosphore Phosphorus Phosphorus content Phosphorus cycle recycled nutrients Refuse and refuse disposal REVIEW Soils Sustainable agriculture urban waste économie circulaire
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container_title	Canadian Journal of Soil Science
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creator	Nicksy, Jessica Entz, Martin H
description	The challenges associated with the global phosphorus (P) cycle are complex and multifaceted, from geological resource limitation, to P deficiency on arable farmland, to environmental contamination via excess P fertilization. Although no single solution can address all of the challenges associated with the P cycle, the principle of circularity provides a framework toward a more sustainable and food-secure P system. Phosphorus deficiency on farmland is widespread, particularly on organically managed farms due to negative P balances in low-input cropping systems. Recycled nutrient sources divert food and human wastes back onto farmland; they have the potential to ameliorate both the global-scale issues of phosphate rock depletion and environmental contamination and the farm-scale issue of P deficiency, particularly for organic farms. For recycled nutrients to act as viable alternatives to conventional nutrient sources, their ability to supply P and improve yields must be demonstrated. This paper provides an introduction to the importance of recycled fertilizer sources in the global P cycle, and the key role they can play on organic farmland in Canada.
doi_str_mv	10.1139/cjss-2021-0014
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subjects	Agricultural industry Agricultural land Agriculture Arable land Cell culture circular economy Contamination Crop production systems Cropping systems Culture Depletion déchets urbains Farms Fertilization Fertilizers Food Food contamination Food sources Food waste gestion de la matière organique Human wastes International economic relations Nutrient sources Nutrients oligoéléments recyclés Organic farming organic management Organic phosphorus P system Phosphate minerals Phosphate rock Phosphates phosphore Phosphorus Phosphorus content Phosphorus cycle recycled nutrients Refuse and refuse disposal REVIEW Soils Sustainable agriculture urban waste économie circulaire
title	Recycled nutrients as a phosphorus source for Canadian organic agriculture: a perspective
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