Abstract
The size of the harmful algal blooms in western Lake Erie is strongly correlated with agricultural phosphorus (P) loading from tributaries. Despite farmers9 efforts to reduce sediment-bound P loadings and fertilize using current guidance, the media and public have singled them out as the culprit in Lake Erie re-eutrophication. In this paper, two farmer surveys were used to evaluate if farmers in the Lake Erie region follow P fertilizer recommendations, and we also review historic and current P management guidance provided by the scientific community and agricultural industry. The majority (56% to 80%) of farmers apply P fertilizers at or below the current fertility recommendations. Wholesale agronomic changes (e.g., no-tillage adoption, crop cultivar advances, and fertilizer application and formulation) have occurred since current fertilizer recommendations were developed. Although crop P uptake mechanisms have not changed, these agronomic changes have altered P cycling in soil and water. Based on these results, it is time that the scientific community and agricultural industry acknowledge that our current guidance may be contributing to eutrophication. We must ask whether or not we have (1) developed appropriate fertility guidance, (2) developed and recommended appropriate practices to protect water quality, (3) adequately considered “the law of unintended consequences” in conservation recommendations, and (4) focused too much on short-term economic outcomes while disregarding environmental quality. Improved understanding, reconsideration of traditional recommendations, and wider farmer adoption of the most effective practices are needed to develop a sustainable agricultural system in the Western Lake Erie Basin that produces needed commodities while preserving ecosystem integrity.
Highlights
JOURNAL OF SOIL AND WATER CONSERVATIONThe farmer and consider whether or not we have (1) developed appropriate P fertility recommendations, (2) developed and recommended the appropriate practices to protect water quality, (3) adequately considered tradeoffs when providing conservation recommendations, and (4) focused too much on short-term economic outcomes without regard for environmental quality
The “do not consume” order by the City of Toledo, Ohio, for drinking water in August of 2014 placed the spotlight on agricultural phosphorus (P) loadings to Lake Erie (Fitzsimmons 2014; Wines 2014)
The decision to prohibit human water consumption from the lake stemmed from detection of microcystin concentrations above 1.0 μg L–1 in the treated drinking water, which is a drinking water standard set by the World Health Organization (WHO 2003)
Summary
The farmer and consider whether or not we have (1) developed appropriate P fertility recommendations, (2) developed and recommended the appropriate practices to protect water quality, (3) adequately considered tradeoffs when providing conservation recommendations, and (4) focused too much on short-term economic outcomes without regard for environmental quality. The objectives of this paper are to evaluate the extent to which farmers adhere to current fertility guidance and set out priorities for research that will provide farmers with recommendations that optimize agronomic performance with water quality protection. Fertility recommendations have been based solely on the regulating services associated with soil fertility, while other ecosystem services, such as water contamination control, have been given little attention. Researchers developed P fertilizer recommendations to maximize yield as efficiently as possible relative to fertilizer cost (Thomas and Hanway 1968). Due to the relationship between fertilizer price and crop value and the nonlinear relationship between fertilizer rate and yield (on responsive soils), the economic risk of under-fertilization was much greater than that of over-fertilization when viewed over multiple years. One could argue that changing soil test interpretation philosophy (e.g., from build and maintain to sufficiency approach) would require little effort or research
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