Technical Report: Human Alteration of the Global Nitrogen Cycle: Sources and Consequences

Nitrogen is a key element controlling the species composition, diversity, dynamics, and functioning of many terrestrial, freshwater, and marine ecosystems. Many of the original plant species living in these ecosystems are adapted to, and function optimally in, soils and solutions with low levels of available nitrogen. The growth and dynamics of herbivore populations, and ultimately those of their predators, also are affected by N. Agriculture, combustion of fossil fuels, and other human activities have altered the global cycle of N substantially, generally increasing both the availability and the mobility of N over large regions of Earth. The mobility of N means that while most deliberate applications of N occur locally, their influence spreads regionally and even globally. Moreover, many of the mobile forms of N themselves have environmental consequences. Although most nitrogen inputs serve human needs such as agricultural production, their environmental consequences are serious and long term. Based on our review of available scientific evidence, we are certain that human alterations of the nitrogen cycle have: 1) approximately doubled the rate of nitrogen input into the terrestrial nitrogen cycle, with these rates still increasing; 2) increased concentrations of the potent greenhouse gas N20 globally, and increased concentrations of other oxides of nitrogen that drive the formation of photochemical smog over large regions of Earth; 3) caused losses of soil nutrients, such as calcium and potassium, that are essential for the long-term maintenance of soil fertility; 4) contributed substantially to the acidification of soils, streams, and lakes in several regions; and 5) greatly increased the transfer of nitrogen through rivers to estuaries and coastal oceans. In addition, based on our review of available scientific evidence we are confident that human alterations of the nitrogen cycle have: 6) increased the quantity of organic carbon stored within terrestrial ecosystems; 7) accelerated losses of biological diversity, especially losses of plants adapted to efficient use of nitrogen, and losses of the animals and microorganisms that depend on them; and 8) caused changes in the composition and functioning of estuarine and nearshore ecosystems, and contributed to long-term declines in coastal marine fisheries. Manuscript received 1 November 1996. Reprints of this 14-page report are available for $2.25 each. Prepayment is required. Order reprints from the Ecological Society of America, Attention: Reprint Department, 2010 Massachusetts Avenue, NW, Suite 400, Washington, D.C. 20036.

[1]  W. Boynton,et al.  A COMPARATIVE ANALYSIS OF NUTRIENTS AND OTHER FACTORS INFLUENCING ESTUARINE PHYTOPLANKTON PRODUCTION , 1982 .

[2]  M. Andreae The Influence of Tropical Biomass Burning on Climate and the Atmospheric Environment , 1993 .

[3]  D. F. Grigal,et al.  Use of Calcium/Aluminum Ratios as Indicators of Stress in Forest Ecosystems , 1995 .

[4]  D. Schindler,et al.  Acidification and alkalinization of lakes by experimental addition of nitrogen compounds , 1985 .

[5]  P. Vitousek,et al.  Agriculture, the Global Nitrogen Cycle, and Trace Gas Flux , 1993 .

[6]  Mark A. Sutton,et al.  Impacts of nitrogen deposition in terrestrial ecosystems , 1995 .

[7]  P. Mayewski,et al.  Sulfate and Nitrate Concentrations from a South Greenland Ice Core , 1986, Science.

[8]  A. Knap,et al.  Significance of atmospheric-derived fixed nitrogen on productivity of the Sargasso Sea , 1986, Nature.

[9]  E. Schulze,et al.  Air Pollution and Forest Decline in a Spruce (Picea abies) Forest , 1989, Science.

[10]  P. Reich,et al.  Ambient Levels of Ozone Reduce Net Photosynthesis in Tree and Crop Species , 1985, Science.

[11]  J. Logan Tropospheric ozone: Seasonal behavior, trends, and anthropogenic influence , 1985 .

[12]  J. Downing,et al.  Biodiversity and stability in grasslands , 1996, Nature.

[13]  D. Schindler,et al.  A comparison of the acidification efficiencies of nitric and sulfuric acids by two whole‐lake addition experiments , 1990 .

[14]  Juan J. Armesto,et al.  Patterns of Nutrient Loss from Unpolluted, Old‐Growth Temperate Forests: Evaluation of Biogeochemical Theory , 1995 .

[15]  Robert W. Howarth,et al.  Nitrogen limitation on land and in the sea: How can it occur? , 1991 .

[16]  E. Schulze,et al.  Effects of forest decline on uptake and leaching of deposited nitrate determined from 15N and 18O measurements , 1994, Nature.

[17]  Donald Anderson Toxic algal blooms and red tides : a global perspective. , 1989 .

[18]  H. Miegroet The relative importance of sulfur and nitrogen compounds in the acidification of freshwater , 1992 .

[19]  H. Levy,et al.  Empirical model of global soil‐biogenic NOχ emissions , 1995 .

[20]  Donald E. Weller,et al.  Human contributions to terrestrial nitrogen flux , 1996 .

[21]  G. Likens,et al.  The composition of precipitation in remote areas of the world , 1982 .

[22]  T. Rosswall,et al.  The Nitrogen Cycles , 1982 .

[23]  N. Rabalais,et al.  Changes in nutrient structure of river-dominated coastal waters: stoichiometric nutrient balance and its consequences , 1995 .

[24]  E. Paul,et al.  Soil microbiology and biochemistry. , 1998 .

[25]  John L. Stoddard,et al.  Long-term changes in watershed retention of nitrogen, its causes and aquatic consequences , 1994 .

[26]  R. Aerts,et al.  Atmospheric nitrogen deposition and its impact on terrestrial ecosystems , 1993 .

[27]  P. Kasibhatla,et al.  Growth of Continental-Scale Metro-Agro-Plexes, Regional Ozone Pollution, and World Food Production , 1994, Science.

[28]  E. Carpenter,et al.  Major Role of the Cyanobacterium Trichodesmium in Nutrient Cycling in the North Atlantic Ocean , 1991, Science.

[29]  G. Likens,et al.  Processes controlling the composition of precipitation at a remote southern hemispheric location: Torres del Paine National Park, Chile , 1996 .

[30]  W. Boynton,et al.  The fate of nitrogen and phosphorus at the land-sea margin of the North Atlantic Ocean , 1996 .

[31]  R. Bobbink,et al.  Effects of nitrogen fertilization on vegetation structure and dominance of Brachypodium Pinnatum (L. ) Beauv. in chalk grassland , 1988 .

[32]  K. Polanyi The Great Transformation , 1944 .

[33]  R. Rosenberg Eutrophication—The future marine coastal nuisance? , 1985 .

[34]  L E Cronin,et al.  Chesapeake Bay Anoxia: Origin, Development, and Significance , 1984, Science.

[35]  L. Rudstam,et al.  Eutrophication and Baltic fish communities , 1990 .

[36]  L. R. Hossner,et al.  Ammonia Volatilization from Ammonium or Ammonium-Forming Nitrogen Fertilizers , 1985 .

[37]  Jonathan Silvertown,et al.  THE DYNAMICS OF A GRASSLAND ECOSYSTEM: BOTANICAL EQUILIBRIUM IN THE PARK GRASS EXPERIMENT , 1980 .

[38]  C. Billow,et al.  Fertilization practices and soil variations control nitrogen oxide emissions from tropical sugar cane , 1996 .

[39]  P. Grennfelt,et al.  Effects of nitrogen deposition on the acidification of terrestrial and aquatic ecosystems , 1986 .

[40]  R. Patrick,et al.  Groundwater Contamination in the United States , 1983 .

[41]  D. Lee Nitrates, nitrites, and methemoglobinemia , 1970 .

[42]  W. Boynton,et al.  Nutrient Enrichment Studies in a Coastal Plain Estuary: Phytoplankton Growth in Large-Scale, Continuous Cultures , 1986 .

[43]  D. Schindler,et al.  Effects of a Windstorm and Forest Fire on Chemical Losses from Forested Watersheds and on the Quality of Receiving Streams , 1980 .

[44]  Harold A. Mooney,et al.  EFFECTS OF SOIL RESOURCES ON PLANT INVASION AND COMMUNITY STRUCTURE IN CALIFORNIAN SERPENTINE GRASSLAND , 1990 .

[45]  Steven G. McNulty,et al.  Effects of chronic nitrogen additions on nitrogen cycling in a high-elevation spruce-fir stand , 1993 .

[46]  M. Pace,et al.  Human influence on river nitrogen , 1991, Nature.

[47]  D. Schindler Evolution of phosphorus limitation in lakes. , 1977, Science.

[48]  J. Aber,et al.  Nitrogen cycling and nitrogen saturation in temperate forest ecosystems. , 1992, Trends in ecology & evolution.

[49]  D. Jacob,et al.  Budgets of reactive nitrogen, hydrocarbons, and ozone over the Amazon forest during the wet season , 1990 .

[50]  Dennis P. Swaney,et al.  Regional nitrogen budgets and riverine N & P fluxes for the drainages to the North Atlantic Ocean: Natural and human influences , 1996 .

[51]  William J. Mitsch,et al.  Wetlands and Lakes as Nitrogen Traps: Kessler, E. and M. Jansson, eds. 1994. Special Issue of Ambio 23:319–386. Royal Swedish Academy of Sciences, Stockholm. , 1995 .

[52]  William H. Schlesinger,et al.  A global budget for atmospheric NH3 , 1992 .

[53]  Derek M. Cunnold,et al.  Atmospheric emissions and trends of nitrous oxide deduced from 10 years of ALE–GAGE data , 1990 .

[54]  J. Melillo,et al.  The potential storage of carbon caused by eutrophication of the biosphere , 1985 .

[55]  J. Sarmiento,et al.  Inputs, losses and transformations of nitrogen and phosphorus in the pelagic North Atlantic Ocean , 1996 .

[56]  Delwiche Cc The Nitrogen Cycle , 1970, Soil Microbiology.

[57]  E. Matthews Nitrogenous fertilizers: Global distribution of consumption and associated emissions of nitrous oxide and ammonia , 1994 .

[58]  S. Nixon Coastal marine eutrophication: A definition, social causes, and future concerns , 1995 .

[59]  J. Levine The Global Impact of Biomass Burning on Tropospheric Reactive Nitrogen , 1991 .

[60]  T. Armentano Drainage of Organic Soils as a Factor in the World Carbon Cycle , 1980 .

[61]  Joyce E. Penner,et al.  Spatial and Temporal Patterns in Terrestrial Carbon Storage Due to Deposition of Fossil Fuel Nitrogen , 1996 .

[62]  W. Dennison,et al.  Recurrent and persistent brown tide blooms perturb coastal marine ecosystem , 1987 .

[63]  B. Berg,et al.  Decomposition and nutrient dynamics of litter in long‐term optimum nutrition experiments , 1991 .

[64]  Robert W. Howarth,et al.  Comparative Responses of Aquatic Ecosystems to Toxic Chemical Stress , 1991 .

[65]  R. Wright,et al.  The NITREX project: an introduction , 1995 .

[66]  J. Aber,et al.  Nitrogen saturation in northern forest ecosystems , 1989 .

[67]  Dan Binkley,et al.  Soil changes in forest ecosystems: evidence for and probable causes , 1990 .

[68]  M. Fenn,et al.  Nitrogen deposition in California forests: a review. , 1996, Environmental pollution.

[69]  C. Driscoll,et al.  The episodic acidification of Adirondack Lakes during snowmelt , 1990 .

[70]  J. Aber,et al.  Experimental inducement of nitrogen saturation at the watershed scale , 1993 .

[71]  Prof. Dr. Carl Olof Tamm Nitrogen in Terrestrial Ecosystems , 1991, Ecological Studies.

[72]  M. Oppenheimer Atmospheric nitrogen deposition and the Chesapeake Bay Estuary , 1991 .

[73]  E. Carpenter Chapter 3 – NITROGEN FIXATION BY MARINE OSCILLATORIA (TRICHODESMIUM) IN THE WORLD's OCEANS , 1983 .

[74]  E. Davidson,et al.  Fluxes of nitrous oxide and nitric oxide from terrestrial ecosystems. , 1991 .

[75]  G. Likens,et al.  Chemistry of precipitation from a remote, terrestrial site in Australia , 1987 .

[76]  Gene E. Likens,et al.  Effects of Forest Cutting and Herbicide Treatment on Nutrient Budgets in the Hubbard Brook Watershed-Ecosystem , 1970 .

[77]  T. Jickells,et al.  Atmospheric inputs of dissolved organic nitrogen to the oceans , 1995, Nature.

[78]  R. Howarth Nutrient Limitation of Net Primary Production in Marine Ecosystems , 1988 .

[79]  David Tilman,et al.  Secondary Succession and the Pattern of Plant Dominance Along Experimental Nitrogen Gradients , 1987 .

[80]  R. Rosenberg,et al.  Effects of eutrophication on benthic communities including fish: Swedish west coast , 1990 .

[81]  N. W. Foster,et al.  Nitrogen Distribution and Cycling , 1992 .

[82]  Jerry M. Melillo,et al.  BIOGEOCHEMICAL RESPONSE OF FOREST ECOSYSTEMS TO SIMULATED CHRONIC NITROGEN DEPOSITION , 1997 .

[83]  Gene E. Likens,et al.  Long-Term Effects of Acid Rain: Response and Recovery of a Forest Ecosystem , 1996, Science.

[84]  David W. Schindler,et al.  Experimental perturbations of whole lakes as tests of hypotheses concerning ecosystem structure and function , 1990 .

[85]  W. Schlesinger Biogeochemistry: An Analysis of Global Change , 1991 .

[86]  O. Denmead An ammonia budget for Australia. , 1990 .

[87]  R. E. Turner,et al.  Changes in Mississippi River Water Quality this CenturyImplications for coastal food webs , 1991 .

[88]  D. Schindler,et al.  Disruption of the Nitrogen Cycle in Acidified Lakes , 1988, Science.

[89]  R. Ayres,et al.  Industrial Ecology and Global Change: Human Impacts on the Carbon and Nitrogen Cycles , 1994 .

[90]  G. Ågren,et al.  Nitrogen saturation of terrestrial ecosystems. , 1988, Environmental pollution.

[91]  A. Henriksen,et al.  Increasing contributions of nitrogen to the acidity of surface waters in Norway , 1988 .

[92]  Walter C. Shortle,et al.  Aluminum-Induced Calcium Deficiency Syndrome in Declining Red Spruce , 1988, Science.

[93]  R. Elmgren,et al.  Eutrophication and the Baltic Sea: causes and consequences , 1985 .

[94]  D. Schindler,et al.  The biosphere as an increasing sink for atmospheric carbon: Estimates from increased nitrogen depostion , 1993 .