You are here:
Phosphorus Inventory for the Conterminous United States (2002–2012)
Citation:
Sabo, R., C. Clark, D. Gibbs, G. Metson, Michael Todd, S. Leduc, D. Greiner, M. Fry, R. Polinsky, Q. Yang, H. Tian, AND J. Compton. Phosphorus Inventory for the Conterminous United States (2002–2012). Journal of Geophysical Research: Biogeosciences. American Geophysical Union, Washington, DC, 126(4):1-21, (2021). https://doi.org/10.1029/2020JG005684
Impact/Purpose:
Efficient watershed-wide and multi-watershed strategies to decrease total phosphorus (P) export from non-point sources is hindered by limited understanding of the temporal and spatial variation in P fluxes. To address this knowledge gap, this effort compiled phosphorus inventories for the years 2002, 2007, and 2012. Decision makers can use these inventories to prioritize watersheds for restoration and tailor management strategies to achieve water quality goals.
Description:
Published reports suggest efforts designed to prevent the occurrence of harmful algal blooms and hypoxia by reducing non-point and point source phosphorus (P) pollution are not delivering water quality improvements in many areas. Part of the uncertainty in evaluating watershed responses to management practices is the lack of standardized estimates of phosphorus inputs and outputs. To assess P trends across the conterminous United States, we compiled an inventory using publicly available datasets of agricultural P fluxes, atmospheric P deposition, human P demand and waste, and point source discharges for 2002, 2007, and 2012 at the scale of the 8-digit Hydrologic Unit Code subbasin (∼1,800 km2). Estimates of agricultural legacy P surplus accumulated from 1945 to 2001 were also developed. Fertilizer and manure inputs were found to exceed crop removal rates by up to 50% in many agricultural regions. This excess in inputs has led to the continued accumulation of legacy P in agricultural lands. Atmospheric P deposition increased throughout the Rockies, potentially contributing to reported increases in surface water P concentrations in undisturbed watersheds. In some urban areas, P fluxes associated with human waste and non-farm fertilizer use has declined despite population growth, likely due, in part, to various sales bans on P-containing detergents and fertilizers. Although regions and individual subbasins have different contemporary and legacy P sources, a standardized method of accounting for large and small fluxes and ready to use inventory numbers provide essential infromation to coordinate targeted interventions to reduce P concentrations in the nation's waters.
