Fertilizer value and nitrogen transfer efficiencies with clover-grass ley biomass based fertilizers

In temperate regions, legume-based green manures are a key element of organic rotations. However, specialized farms lack sufficient mobile organic fertilizers. To gain a better understanding of the N flows and the nitrogen (N) and phosphorus (P) fertilizer value of different clover-grass-based ferti...

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Published in	Nutrient cycling in agroecosystems Vol. 107; no. 3; pp. 395 - 411
Main Authors	Benke, Anna Pia, Rieps, Ann-Marleen, Wollmann, Iris, Petrova, Ioana, Zikeli, Sabine, Möller, Kurt
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.04.2017 Springer Nature B.V
Subjects	Agriculture ammonium compounds Animal manures Biogas Biomass Biomedical and Life Sciences Clover Composting Composts Cropping systems Efficiency Farms Fertilizers Grasses green manures Legumes Life Sciences Lolium Manures Mathematical models Mineralization Nitrogen Organic fertilizers Original Article Phosphorus phosphorus fertilizers silage Specialized farming temperate zones Cut and carry Composts Animal manures Biomass silages Phosphorus Digestates Nitrogen
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ISSN	1385-1314 1573-0867
DOI	10.1007/s10705-017-9844-z

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Abstract	In temperate regions, legume-based green manures are a key element of organic rotations. However, specialized farms lack sufficient mobile organic fertilizers. To gain a better understanding of the N flows and the nitrogen (N) and phosphorus (P) fertilizer value of different clover-grass-based fertilizers (biogas digestate, compost, silage and fresh clover-grass obtained from clover-grass ley biomass), we assessed their fertilizer value. Nitrogen and P offtake by the ryegrass was used to assess the short-term effects. The data were completed using model calculations to assess the field-to-field N-transfer efficiencies and the overall N-transfer efficiencies. The greatest plant N offtake was achieved with digestates (64%) and the lowest from the compost (6%) and solid farmyard manure (14%). The mineralization rate was positively related to the NH 4 + –N/total N ratio ( P < 0.01, r 2 = 0.82). The model calculations indicate that the overall short-term N-transfer efficiencies are driven by the field-to-field N-transfer efficiency and the field-to-crop transfer efficiency. However, in the long term, model calculations indicate that a high field-to-field N-transfer efficiency is the key strategic approach when aiming to achieve cropping systems with a high overall long-term N-transfer efficiency. Consequently, the results showed that aerobic decomposition (composting) significantly lowered field-to-field as well as field-to-crop N-transfer rates. The relative P use efficiency strongly differed among the fertilizers. In particular, freshly cut clover-grass and solid manure increased P availability and led to an increase of plant P offtake that was higher than the amount of P supplied.
AbstractList	In temperate regions, legume-based green manures are a key element of organic rotations. However, specialized farms lack sufficient mobile organic fertilizers. To gain a better understanding of the N flows and the nitrogen (N) and phosphorus (P) fertilizer value of different clover-grass-based fertilizers (biogas digestate, compost, silage and fresh clover-grass obtained from clover-grass ley biomass), we assessed their fertilizer value. Nitrogen and P offtake by the ryegrass was used to assess the short-term effects. The data were completed using model calculations to assess the field-to-field N-transfer efficiencies and the overall N-transfer efficiencies. The greatest plant N offtake was achieved with digestates (64%) and the lowest from the compost (6%) and solid farmyard manure (14%). The mineralization rate was positively related to the NH4+–N/total N ratio (P < 0.01, r2 = 0.82). The model calculations indicate that the overall short-term N-transfer efficiencies are driven by the field-to-field N-transfer efficiency and the field-to-crop transfer efficiency. However, in the long term, model calculations indicate that a high field-to-field N-transfer efficiency is the key strategic approach when aiming to achieve cropping systems with a high overall long-term N-transfer efficiency. Consequently, the results showed that aerobic decomposition (composting) significantly lowered field-to-field as well as field-to-crop N-transfer rates. The relative P use efficiency strongly differed among the fertilizers. In particular, freshly cut clover-grass and solid manure increased P availability and led to an increase of plant P offtake that was higher than the amount of P supplied. In temperate regions, legume-based green manures are a key element of organic rotations. However, specialized farms lack sufficient mobile organic fertilizers. To gain a better understanding of the N flows and the nitrogen (N) and phosphorus (P) fertilizer value of different clover-grass-based fertilizers (biogas digestate, compost, silage and fresh clover-grass obtained from clover-grass ley biomass), we assessed their fertilizer value. Nitrogen and P offtake by the ryegrass was used to assess the short-term effects. The data were completed using model calculations to assess the field-to-field N-transfer efficiencies and the overall N-transfer efficiencies. The greatest plant N offtake was achieved with digestates (64%) and the lowest from the compost (6%) and solid farmyard manure (14%). The mineralization rate was positively related to the NH₄ ⁺–N/total N ratio (P < 0.01, r² = 0.82). The model calculations indicate that the overall short-term N-transfer efficiencies are driven by the field-to-field N-transfer efficiency and the field-to-crop transfer efficiency. However, in the long term, model calculations indicate that a high field-to-field N-transfer efficiency is the key strategic approach when aiming to achieve cropping systems with a high overall long-term N-transfer efficiency. Consequently, the results showed that aerobic decomposition (composting) significantly lowered field-to-field as well as field-to-crop N-transfer rates. The relative P use efficiency strongly differed among the fertilizers. In particular, freshly cut clover-grass and solid manure increased P availability and led to an increase of plant P offtake that was higher than the amount of P supplied. In temperate regions, legume-based green manures are a key element of organic rotations. However, specialized farms lack sufficient mobile organic fertilizers. To gain a better understanding of the N flows and the nitrogen (N) and phosphorus (P) fertilizer value of different clover-grass-based fertilizers (biogas digestate, compost, silage and fresh clover-grass obtained from clover-grass ley biomass), we assessed their fertilizer value. Nitrogen and P offtake by the ryegrass was used to assess the short-term effects. The data were completed using model calculations to assess the field-to-field N-transfer efficiencies and the overall N-transfer efficiencies. The greatest plant N offtake was achieved with digestates (64%) and the lowest from the compost (6%) and solid farmyard manure (14%). The mineralization rate was positively related to the NH 4 + –N/total N ratio ( P < 0.01, r 2 = 0.82). The model calculations indicate that the overall short-term N-transfer efficiencies are driven by the field-to-field N-transfer efficiency and the field-to-crop transfer efficiency. However, in the long term, model calculations indicate that a high field-to-field N-transfer efficiency is the key strategic approach when aiming to achieve cropping systems with a high overall long-term N-transfer efficiency. Consequently, the results showed that aerobic decomposition (composting) significantly lowered field-to-field as well as field-to-crop N-transfer rates. The relative P use efficiency strongly differed among the fertilizers. In particular, freshly cut clover-grass and solid manure increased P availability and led to an increase of plant P offtake that was higher than the amount of P supplied.
Author	Möller, Kurt Petrova, Ioana Wollmann, Iris Benke, Anna Pia Zikeli, Sabine Rieps, Ann-Marleen
Author_xml	– sequence: 1 givenname: Anna Pia surname: Benke fullname: Benke, Anna Pia organization: Department of Fertilization and Soil Matter Dynamics, Institute of Crop Science, Universität Hohenheim – sequence: 2 givenname: Ann-Marleen surname: Rieps fullname: Rieps, Ann-Marleen organization: Department of Fertilization and Soil Matter Dynamics, Institute of Crop Science, Universität Hohenheim – sequence: 3 givenname: Iris surname: Wollmann fullname: Wollmann, Iris organization: Department of Fertilization and Soil Matter Dynamics, Institute of Crop Science, Universität Hohenheim – sequence: 4 givenname: Ioana surname: Petrova fullname: Petrova, Ioana organization: Department of Fertilization and Soil Matter Dynamics, Institute of Crop Science, Universität Hohenheim – sequence: 5 givenname: Sabine surname: Zikeli fullname: Zikeli, Sabine organization: Institute of Crop Science, Coordination for Organic Farming and Consumer Protection, Universität Hohenheim – sequence: 6 givenname: Kurt orcidid: 0000-0002-3735-4051 surname: Möller fullname: Möller, Kurt email: kurt.moeller@alumni.tum.de organization: Department of Fertilization and Soil Matter Dynamics, Institute of Crop Science, Universität Hohenheim
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SubjectTerms	Agriculture ammonium compounds Animal manures Biogas Biomass Biomedical and Life Sciences Clover Composting Composts Cropping systems Efficiency Farms Fertilizers Grasses green manures Legumes Life Sciences Lolium Manures Mathematical models Mineralization Nitrogen Organic fertilizers Original Article Phosphorus phosphorus fertilizers silage Specialized farming temperate zones
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Title	Fertilizer value and nitrogen transfer efficiencies with clover-grass ley biomass based fertilizers
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