Major sources of point and nonpoint source nutrient pollution to surface water have declined throughout the Chesapeake Bay watershed
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Understanding drivers of water quality in local watersheds is the first step for implementing targeted restoration practices. Nutrient inventories can inform water quality management decisions by succinctly communicating shifts in nitrogen (N) and phosphorus (P) balances over space and time while also keeping track of the likely sources of urban and agricultural point and nonpoint sources of pollution. The Chesapeake Bay Program’s Chesapeake Assessment Scenario Tool (CAST) provides N and P balance data for counties throughout the Chesapeake Bay watershed, and these data were leveraged to create a detailed nutrient inventory for all the counties in the Chesapeake Bay watershed from 1985–2019. This study particularly focuses on three primary watershed nutrient balance components – agricultural surplus, atmospheric deposition, and point source loads – which are thought to be the leading anthropogenic drivers of nutrient loading trends across the watershed. All inputs and outputs, as well as derived metrics like agricultural surplus and nutrient use efficiency, were subjected to short- and long-term trend analyses to discern how sources of pollution to surface water have changed over time. Across the watershed from 1985 - 2019, downward trends in atmospheric deposition were ubiquitous. Though there are varying effects, long-term declines in agricultural surplus were observed, which highlights that N and P are being managed more efficiently. Multiple counties’ point source loads declined, primarily associated with upgrades at large urban areas that discharge treated wastewater directly to tidal waters. Despite all of these positive developments, more recent, short-term increases in agricultural surpluses from 2009-2019 highlight that water quality gains may soon be reversed in many agricultural areas of the basin. Besides tracking progress and jurisdictional influence on pollution sources, the nutrient inventory can be used for retrospective water quality analysis to highlight drivers of past improvement/degradation of water quality trends and for decision makers to develop and track their near- and long-term watershed restoration strategies.