J.R. Scudlark K.B. Savidge A.S. Andres R.J. Stenger W.J. Ullman J.A. Volk 2012 <p><span>Monthly phosphorus loads from uplands,&nbsp;atmospheric deposition, and&nbsp;wastewater&nbsp;to Rehoboth Bay (Delaware) were determined from October 1998 to April 2002 to evaluate the relative importance of these three sources of P to the Bay. Loads from a representative&nbsp;</span>subwatershed<span>&nbsp;were determined and used in an areal extrapolation to estimate the upland load from the entire watershed. Soluble reactive phosphorus (SRP) and dissolved organic P (DOP) are the predominant forms of P in baseflow and P loads from the watershed are highest during the summer months. Particulate phosphorus (PP) becomes more significant in stormflow and during periods with more frequent or larger storms. Atmospheric deposition of P is only a minor source of P to Rehoboth Bay. During the period of 1998–2002, wastewater was the dominant external source of P to Rehoboth Bay, often exceeding all other P sources combined. Since 2002, however, due to technical improvements to the sole wastewater plant discharging directly to the Bay, the wastewater contribution of P has been significantly reduced and upland waters are now the principal source of P on an annualized basis. Based on comparison of N and P loads, primary productivity and&nbsp;biomass&nbsp;carrying capacity in Rehoboth Bay should be limited by P availability. However, due to the contrasting spatial and temporal patterns of N and P loading and perhaps internal cycling within the ecosystem,&nbsp;spatial and temporal variations&nbsp;in N and P-limitation within Rehoboth Bay are likely.</span></p> application/pdf 10.1016/j.ecss.2011.10.023 en Elsevier Intra- and inter-annual trends in phosphorus loads and comparison with nitrogen loads to Rehoboth Bay, Delaware (USA) article