We provide a global assessment, wit

We provide a global assessment, with detailed multi-scale data, of the ecological and toxicological effects generated by inorganic nitrogen
pollution in aquatic ecosystems. Our synthesis of the published scientific literature shows three major environmental problems: (1) it can increase
the concentration of hydrogen ions in freshwater ecosystems without much acid-neutralizing capacity, resulting in acidification of those systems;
(2) it can stimulate or enhance the development, maintenance and proliferation of primary producers, resulting in eutrophication of aquatic
ecosystems; (3) it can reach toxic levels that impair the ability of aquatic animals to survive, grow and reproduce. Inorganic nitrogen pollution of
ground and surface waters can also induce adverse effects on human health and economy.
Because reductions in SO2 emissions have reduced the atmospheric deposition of H2SO4 across large portions of North America and Europe,
while emissions of NOx have gone unchecked, HNO3 is now playing an increasing role in the acidification of freshwater ecosystems. This
acidification process has caused several adverse effects on primary and secondary producers, with significant biotic impoverishments, particularly
concerning invertebrates and fishes, in many atmospherically acidified lakes and streams. The cultural eutrophication of freshwater, estuarine, and
coastal marine ecosystems can cause ecological and toxicological effects that are either directly or indirectly related to the proliferation of primary
producers. Extensive kills of both invertebrates and fishes are probably the most dramatic manifestation of hypoxia (or anoxia) in eutrophic and
hypereutrophic aquatic ecosystems with low water turnover rates. The decline in dissolved oxygen concentrations can also promote the formation
of reduced compounds, such as hydrogen sulphide, resulting in higher adverse (toxic) effects on aquatic animals. Additionally, the occurrence of
toxic algae can significantly contribute to the extensive kills of aquatic animals. Cyanobacteria, dinoflagellates and diatoms appear to be major
responsible that may be stimulated by inorganic nitrogen pollution. Among the different inorganic nitrogenous compounds (NH4
+, NH3, NO2
−,
HNO2, NO3
−) that aquatic animals can take up directly from the ambient water, unionized ammonia is the most toxic, while ammonium and nitrate
ions are the least toxic. In general, seawater animals seem to be more tolerant to the toxicity of inorganic nitrogenous compounds than freshwater
animals, probably because of the ameliorating effect of water salinity (sodium, chloride, calcium and other ions) on the tolerance of aquatic
animals.