Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept
Surface water eutrophication is a pervasive global problem, with P losses from agriculture often identified as a significant contributor. This study was conducted to evaluate the implications of fertilizer source and placement on soluble P (SP) losses in runoff. Using the National P Runoff Project p...
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| Format: | Article |
| Language: | English |
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Wiley
2016-02-01
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| Series: | Agricultural & Environmental Letters |
| Online Access: | https://dl.sciencesocieties.org/publications/ael/articles/1/1/150015 |
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doaj-69705222ae6544578060fb56f069ad732020-11-25T03:51:01ZengWileyAgricultural & Environmental Letters2471-96252016-02-011110.2134/ael2015.12.0015150015Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of ConceptDouglas R. SmithR. Daren HarmelMark WilliamsRichard HaneyKevin W. KingSurface water eutrophication is a pervasive global problem, with P losses from agriculture often identified as a significant contributor. This study was conducted to evaluate the implications of fertilizer source and placement on soluble P (SP) losses in runoff. Using the National P Runoff Project protocol, SP losses in runoff from eight P fertilizers broadcast on the soil surface and three P fertilizers banded 1 cm below the surface were compared with a nonfertilized control. Results showed that 16 to 19% of the surface-applied inorganic P fertilizers was lost in one rainstorm, except for liquid polyphosphate, which lost less than 0.2% of the applied P. Banding monoammonium phosphate and poultry litter below the surface decreased SP loading by 98 and 84%, respectively. These results indicate that critical examination of current fertilizer management may be needed to diminish eutrophication while ensuring sufficient P for crop uptake.https://dl.sciencesocieties.org/publications/ael/articles/1/1/150015 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Douglas R. Smith R. Daren Harmel Mark Williams Richard Haney Kevin W. King |
| spellingShingle |
Douglas R. Smith R. Daren Harmel Mark Williams Richard Haney Kevin W. King Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept Agricultural & Environmental Letters |
| author_facet |
Douglas R. Smith R. Daren Harmel Mark Williams Richard Haney Kevin W. King |
| author_sort |
Douglas R. Smith |
| title |
Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept |
| title_short |
Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept |
| title_full |
Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept |
| title_fullStr |
Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept |
| title_full_unstemmed |
Managing Acute Phosphorus Loss with Fertilizer Source and Placement: Proof of Concept |
| title_sort |
managing acute phosphorus loss with fertilizer source and placement: proof of concept |
| publisher |
Wiley |
| series |
Agricultural & Environmental Letters |
| issn |
2471-9625 |
| publishDate |
2016-02-01 |
| description |
Surface water eutrophication is a pervasive global problem, with P losses from agriculture often identified as a significant contributor. This study was conducted to evaluate the implications of fertilizer source and placement on soluble P (SP) losses in runoff. Using the National P Runoff Project protocol, SP losses in runoff from eight P fertilizers broadcast on the soil surface and three P fertilizers banded 1 cm below the surface were compared with a nonfertilized control. Results showed that 16 to 19% of the surface-applied inorganic P fertilizers was lost in one rainstorm, except for liquid polyphosphate, which lost less than 0.2% of the applied P. Banding monoammonium phosphate and poultry litter below the surface decreased SP loading by 98 and 84%, respectively. These results indicate that critical examination of current fertilizer management may be needed to diminish eutrophication while ensuring sufficient P for crop uptake. |
| url |
https://dl.sciencesocieties.org/publications/ael/articles/1/1/150015 |
| work_keys_str_mv |
AT douglasrsmith managingacutephosphoruslosswithfertilizersourceandplacementproofofconcept AT rdarenharmel managingacutephosphoruslosswithfertilizersourceandplacementproofofconcept AT markwilliams managingacutephosphoruslosswithfertilizersourceandplacementproofofconcept AT richardhaney managingacutephosphoruslosswithfertilizersourceandplacementproofofconcept AT kevinwking managingacutephosphoruslosswithfertilizersourceandplacementproofofconcept |
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