Nutrient balances influence hydrologic losses of nitrogen and phosphorus across agricultural fields in northwestern Ohio

Excess nitrogen (N) and phosphorus (P) applied to agricultural fields may be transported to adjacent surface waters and exported to downstream systems, leading to environmental issues including algal blooms. Management practices associated with fertilizer application, including the input rate and so...

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Veröffentlicht in:	Nutrient cycling in agroecosystems 2019-04, Vol.113 (3), p.231-245
Hauptverfasser:	Hanrahan, Brittany R., King, Kevin W., Williams, Mark R., Duncan, Emily W., Pease, Lindsay A., LaBarge, Gregory A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Accumulation Agricultural land Agriculture Agrochemicals Agronomy Algal blooms application rate basins Biomedical and Life Sciences Coastal ecosystems Data processing Drawdown Eutrophication farmers Fertilizer application Fertilizers Hydrology Lake basins Lake Erie lentic systems Life Sciences Mineral fertilizers Nitrogen Nutrient loss Ohio Organic fertilizers Original Article Phosphorus Surface water Water management Water quality
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container_title	Nutrient cycling in agroecosystems
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creator	Hanrahan, Brittany R. King, Kevin W. Williams, Mark R. Duncan, Emily W. Pease, Lindsay A. LaBarge, Gregory A.
description	Excess nitrogen (N) and phosphorus (P) applied to agricultural fields may be transported to adjacent surface waters and exported to downstream systems, leading to environmental issues including algal blooms. Management practices associated with fertilizer application, including the input rate and source (e.g., inorganic vs. organic), influence N and P accumulation within agricultural fields and may ultimately determine N and P loss in surface and subsurface hydrologic pathways. In this study, we used management data provided by individual farmers to quantify annual agronomic N and P balances across 40 monitored agricultural fields in the Western Lake Erie Basin for a total of 150 site years; positive balances indicate nutrient accumulation and negative balances indicate nutrient drawdown or reduction, after accounting for all agronomic inputs and outputs. We examined the effect of application rate and fertilizer source on in-field agronomic N and P balances, as well as determined the relationship between in-field agronomic N and P balances and hydrologic N and P losses. We found that in-field agronomic balances of N and P increased with application rate and varied among fertilizer sources; fields receiving mixed or organic fertilizers had greater N and P agronomic balances compared with inorganic fertilizers. Both hydrologic N and P loss increased with in-field agronomic N and P balances, demonstrating that nutrient accumulation within agricultural fields generally increases nutrient loss. Additional controls on hydrologic N and P losses varied, with hydrologic N loss strongly controlled by total discharge while hydrologic P loss differed among fertilizer sources and indicated legacy P in some fields. These results highlight that both nutrient and water management practices are likely necessary to achieve water quality improvements in downstream lentic and coastal ecosystems.
doi_str_mv	10.1007/s10705-019-09981-4
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subjects	Accumulation Agricultural land Agriculture Agrochemicals Agronomy Algal blooms application rate basins Biomedical and Life Sciences Coastal ecosystems Data processing Drawdown Eutrophication farmers Fertilizer application Fertilizers Hydrology Lake basins Lake Erie lentic systems Life Sciences Mineral fertilizers Nitrogen Nutrient loss Ohio Organic fertilizers Original Article Phosphorus Surface water Water management Water quality
title	Nutrient balances influence hydrologic losses of nitrogen and phosphorus across agricultural fields in northwestern Ohio
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