Michael Whitney Christina Menniti John R. Mullaney Jonathan Morrison Yan Jia Penny Vlahos 2020 <p><span>Nitrogen (N) inputs to coastal ecosystems have significant impacts on coastal community structure. In N limited systems, increases in N inputs may lead to excess productivity and hypoxia. Like many temperate estuaries, Long Island Sound (LIS), a major eastern U.S. estuary, is a N limited system which has experienced seasonal hypoxia since the 1800s. This study is the first effort to constrain the total N cycle in this estuary. The approach utilizes data collected over the last two decades in the LIS time series with hydrodynamic model results to generate both monthly and annual N budgets between 1995 and 2016. Of the total N that is delivered to LIS through rivers and atmospheric inputs, 40% is exported to the adjacent continental shelf on the order of 10.8&nbsp;±&nbsp;8.9&nbsp;×&nbsp;10</span>⁶<span>&nbsp;kg&nbsp;N/year. Of this export, 41% is dissolved organic N, 29% is particulate organic N, 32% is nitrate&nbsp;+&nbsp;nitrite, and −3% is ammonium. The remaining 60% of the N delivered to LIS is either buried in sediments or lost through denitrification. This inferred internal loss rate is equivalent to 5.4&nbsp;g&nbsp;N/(m</span>²<span>year). This study serves as an example of the significant inter-annual variations that estuarine budgets undergo as efforts to understand coastal biogeochemical cycles move forward.</span></p> application/pdf 10.1016/j.ecss.2019.106493 en Elsevier Nitrogen budgets of the Long Island Sound estuary article