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Paul Mäder
(Dr. phil, Dipl. Ing. Agr. ETH)

Department of Soil Sciences
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FiBL
Ackerstrasse 113
CH-5070 Frick

Phone +41 62 865-7232
Fax +41 62 865-7273
paul.maeder(at)fibl.org

New fact sheet assessing the use of chars, ashes and slags as alternative phosphorus fertilizers in organic farming

Partners of the CORE Organic II funded IMPROVE-P project compiled information on the potentials and requirements for use of chars, ashes and slags in organic farming. The fourth fact sheet on alternative phosphorus fertilizers published by the IMPROVE-P project partners provides a comprehensive overview of the current information on relevant sources of phosphorus resulting from different combustion and gasification methods.

Cover Fact sheet

The fact sheet indicates various options to enhance the use of combustion products in organic agriculture.

(November 11, 2016) 

Phosphorus is one essential element for plants, which can neither be produced synthetically nor substituted by any other element. Long term phosphorus management is one of the most important management challenges in organic farming, as high soluble P fertilizers derived from fossil sources are not allowed and do not contribute to the basic ideas of closing nutrient cycles. Incineration presents interesting options for the recycling of valuable elements, especially P.

According to present regulation (EC) No 889/2008 only ashes obtained from combustion or incineration of chemically untreated wood are allowed as fertilizer in organic farming. Ashes containing any other feedstock are not allowed for use, excluding most urban recycling P sources. Permission to use such fertilizers in organic farming in the EU may contribute to better nutrient cycling between rural and urban areas, reduce problems of declining phosphorus concentrations in some organic farming systems and could also contribute to the development of practical methods for processing sewage.

The use of phosphorus fertilizers derived from sewage sludge processed with various thermal treatments comprises promising options to recycle up to 90 % of P from the urban food chain back to the land by relatively sophisticated procedures, most of them leading to a significant reduction of organic pollutants including pharmaceuticals. The trade-offs between potentially toxic element concentrations and beneficial elements may be more favorable for treated sewage products than for natural phosphate rocks, bio-waste composts or in some cases even animal manure. However, all thermal processes reduce the plant P availability and lead to significant losses of nitrogen and sulfur, and the degradation of the organic matter that could potentially improve soil quality, downgrading the material from a fertilizer value perspective.

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