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Nitrogen loss from unpolluted South American forests mainly via dissolved organic compounds

Author

Listed:
  • Steven S. Perakis

    (Corson Hall, Cornell University
    Forest and Rangeland Ecosystem Science Center)

  • Lars O. Hedin

    (Corson Hall, Cornell University
    Princeton University)

Abstract

Conceptual1,2,3,4 and numerical5,6,7,8 models of nitrogen cycling in temperate forests assume that nitrogen is lost from these ecosystems predominantly by way of inorganic forms, such as nitrate and ammonium ions. Of these, nitrate is thought to be particularly mobile, being responsible for nitrogen loss to deep soil and stream waters. But human activities—such as fossil fuel combustion, fertilizer production and land-use change—have substantially altered the nitrogen cycle over large regions9, making it difficult to separate natural aspects of nitrogen cycling from those induced by human perturbations10. Here we report stream chemistry data from 100 unpolluted primary forests in temperate South America. Although the sites exhibit a broad range of environmental factors that influence ecosystem nutrient cycles11,12,13 (such as climate, parent material, time of ecosystem development, topography and biotic diversity), we observed a remarkably consistent pattern of nitrogen loss across all forests. In contrast to findings from forests in polluted regions, streamwater nitrate concentrations are exceedingly low, such that nitrate to ammonium ratios were less than unity, and dissolved organic nitrogen is responsible for the majority of nitrogen losses from these forests. We therefore suggest that organic nitrogen losses should be considered in models of forest nutrient cycling, which could help to explain observations of nutrient limitation in temperate forest ecosystems.

Suggested Citation

  • Steven S. Perakis & Lars O. Hedin, 2002. "Nitrogen loss from unpolluted South American forests mainly via dissolved organic compounds," Nature, Nature, vol. 415(6870), pages 416-419, January.
  • Handle: RePEc:nat:nature:v:415:y:2002:i:6870:d:10.1038_415416a
    DOI: 10.1038/415416a
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    Cited by:

    1. Jay S. Singh & D.P. Singh & A.K. Kashyap, 2009. "A comparative account of the microbial biomass-N and N-mineralization of soils under natural forest, grassland and crop field from dry tropical region, India," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 55(6), pages 223-230.
    2. Parolari, Anthony J. & Mobley, Megan L. & Bacon, Allan R. & Katul, Gabriel G. & Richter, Daniel deB. & Porporato, Amilcare, 2017. "Boom and bust carbon-nitrogen dynamics during reforestation," Ecological Modelling, Elsevier, vol. 360(C), pages 108-119.
    3. H. Zhang & Z. Zhao & X. Yi & Y. Lu & L. Cao, 2012. "Effect of fertilization on composition and spatial distribution of dissolved organic nitrogen in paddy soil microbial systems," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 58(3), pages 128-134.
    4. Chao Xu & Teng-Chiu Lin & Jr-Chuan Huang & Zhijie Yang & Xiaofei Liu & Decheng Xiong & Shidong Chen & Minhuang Wang & Liuming Yang & Yusheng Yang, 2022. "Microbial Biomass Is More Important than Runoff Export in Predicting Soil Inorganic Nitrogen Concentrations Following Forest Conversion in Subtropical China," Land, MDPI, vol. 11(2), pages 1-15, February.
    5. Parolari, Anthony J. & Porporato, Amilcare, 2016. "Forest soil carbon and nitrogen cycles under biomass harvest: Stability, transient response, and feedback," Ecological Modelling, Elsevier, vol. 329(C), pages 64-76.
    6. Ritam Sinha & Sourav Das & Tuhin Ghosh, 2020. "Pollution and its consequences at Ganga Sagar mass bathing in India," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 22(2), pages 1413-1430, February.
    7. Maoyuan Feng & Shushi Peng & Yilong Wang & Philippe Ciais & Daniel S. Goll & Jinfeng Chang & Yunting Fang & Benjamin Z. Houlton & Gang Liu & Yan Sun & Yi Xi, 2023. "Overestimated nitrogen loss from denitrification for natural terrestrial ecosystems in CMIP6 Earth System Models," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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