J. For. Sci., 2003, 49(11):515-522 | DOI: 10.17221/4794-JFS

Natural 15N abundance in two nitrogen saturated forest ecosystems at Solling, Germany

S.P. Sah, R. Brumme
Institute of Soil Science and Forest Nutrition, Göttingen, Germany

This research deals with a comparative study of two different N-saturated forests: 1. beech forest and 2. spruce forest at the same locality of \solling, Central Germany. The present results show that 15N natural occurrence in the rainfall (both above and below canopy) at Solling site is similar (δ15N = -15‰ to +19‰) to other sites of the world (such as NITREX sites, USA etc.). Furthermore, 15N values in the soil water ranged from -4.32 (± 2.09) to +5‰ (± 1.47), which also corresponds to NITREX sites and other sites of Europe and USA. In both forests, δ15N enrichment of both NH4-N and NO3-N showed a decreasing trend of their values from bulk precipitation to the upper soil layer, but increasing in the deeper soil layer again. An increase in the 15N enrichment of soil water from upper soil depth to lower soil depth was observed in our study and it is assumed to be due to the strong net nitrification taking place in the upper layer (organic surface layer) of soil. The soils at both sites showed characteristic low (negative) δ15N values in the upper organic layers, strongly increasing to positive δ15N values in the mineral soil. In the lower depths of mineral soil horizons of both stands, an increase in δ15N values was found to culminate at +3 to +5‰. In contrast to the mineral soil horizon, in the organic soil horizon (0 to 6 cm depth) of both sites there was almost a similar or slight decrease in δ15N values with depth. This is attributed to the high nitrification rate in the organic soil horizon, resulting in excessive seepage water NO3-output at both sites (especially at the spruce site).

Keywords: beech forest; spruce forest; 15N; isotopes; precipitation; soil

Published: November 30, 2003  Show citation

ACS AIP APA ASA Harvard Chicago Chicago Notes IEEE ISO690 MLA NLM Turabian Vancouver
Sah SP, Brumme R. Natural 15N abundance in two nitrogen saturated forest ecosystems at Solling, Germany. J. For. Sci. 2003;49(11):515-522. doi: 10.17221/4794-JFS.
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. ABER J.D., NADELHOFFER K.J., STEUDLER P.A., MELILLO J.M., 1989. Nitrogen saturation in forest ecosystems. Bioscience, 39: 378-386. Go to original source...
    2. BOXMAN A.W., BLANCK K., BRANDRUD T.E., EMMETT B.A., GUNDERSEN P., HOGERVORST R.F., KJONAAS O.J., PEARSON H., TIMMERMANN V., 1998. Vegetation and soil biota response to experimentally changed nitrogen inputs in coniferous forest ecosystems of the NITREX project. For. Ecol. Mgmt, 101 (1-3): 65-79. Go to original source...
    3. BRUMME R., BORKEN W., FINKE S., 1999. Hierarchical control on nitrous oxide emission in forest ecosystems. Global Biogeochemical Cycles, 13: 1137-1148. Go to original source...
    4. DIESE N.B., WRIGHT R.F., 1995. N leaching from European forests in relation to N-deposition. For. Ecol. Mgmt, 71: 153-161. Go to original source...
    5. EILERS G., BRUMME R., MATZNER E., 1992. Above ground N uptake from wet deposition by Norway Spruce (Picea abies (L.) Karst.). For. Ecol. Mgmt, 51: 239-249. Go to original source...
    6. EMMET B.A., KJONAAS O.J., GUNDERSEN P., KOOPMANS C., TIETEMA A., SLEEP D., 1998. Natural abundance of 15N in forests across a nitrogen deposition gradient. For. Ecol. Mgmt, 101: 9-18. Go to original source...
    7. FREYER H.D., 1978. Seasonal trends of NH4+ and NO3- nitrogen isotope composition in rain collected at Julich, Germany. Tellus, 30: 83-92. Go to original source...
    8. GARTEN C.T. JR., 1992. Nitrogen isotope composition of ammonium and nitrate in bulk precipitation and forest throughfall. Inter. J. Environ. Anal. Chem., 47: 33-45. Go to original source...
    9. GARTEN C.T. JR., 1993. Variation in foliar 15N abundance and the availability of soil N on the Walker Branch Watershed. Ecol., 74: 2098-2113. Go to original source...
    10. GARTEN C.T. JR., MIGROET H., 1994. Relationship between soil nitrogen dynamics and natural 15N abundance in plant foliage from Great Smoky Mountains National Park. Can. J. For. Res., 24:1636-1645. Go to original source...
    11. GEBAUER G., SCHULZE E.D., 1991. Carbon and nitrogen isotope ratios in different compartments of a healthy and declining Picea abies forest in the Fichtel Gebirge, N.E. Bavaria. Oecologia, 87: 198-207. Go to original source... Go to PubMed...
    12. GEBAUER G., GIESEMANN A., SCHULZE, E.D., JÄGER H.J., 1994. Isotope ratios and concentration of S and N in needles and soils of P. abies stands as influenced by atmospheric deposition of S and N compounds. Pl. and Soil, 164: 267-281. Go to original source...
    13. GUNDESSON P., RASMUSSEN L., 1995. Nitrogen mobility in a nitrogen limited forest at Klosterhede, Denmark. For. Ecol. Mgmt, 71: 75-78. Go to original source...
    14. HEATON T.H., 1987. 15N/14N ratios of nitrate and ammonium in rain of Pretoria, S. Africa. Atmos. Environ., 21: 813. Go to original source...
    15. HEATON T.H., 1986. Isotopic studies of N-pollution in the hydrosphere and atmosphere; a review. Chem. Geol., 59: 87-102. Go to original source...
    16. HÖGBERG P., JOHANNISSON C., 1993. 15N abundance of forest is correlated with losses of N. Pl. and Soil, 157: 147-150. Go to original source...
    17. HÖGBERG P., HÖGBOM L., SCHINKEL H., HÖGBERG M., JOHANNISSON C., WALLMARK H., 1996. 15N abundance of surface soils, roots and mycorrhizas in profiles of European forest soils. Oecologia, 108: 207-214. Go to original source... Go to PubMed...
    18. HÖGBERG P., 1997. 15N natural occurrence in soil plant systems. New Phytol., 137: 79-203. Go to original source... Go to PubMed...
    19. HOERING T., 1957. The isotopic composition of ammonia and the nitrate ion in rain. Geochim. et Cosmochim Acta, 12: 97-102. Go to original source...
    20. KÖNIG N., FORTMANN H., 1996. Probenvorbereitungs-, Untersuchung- und Elementbestimmungsmethoden des Umweltanalytik-Labors der Nidersächsischen Forstlichen Versuchsanstalt und des Zentral Labors II des Forschungszentrum Waldökosystem/Waldsterben., Teil II, Ber, d. Forsch. Waldöko/ Waldster., Universität Göttingen, Reihe B, Bd. 47: 116.
    21. KENDALL C., 1998. Tracing nitrogen sources and cycling in Catchments. In: KENDALL C., McDONNELL J. (eds.), Isotope Tracers in Catchment hydrology. Elsevier Science B.V.: 839. Go to original source...
    22. KOOPMANS C.J., 1996. The impact of reduced N deposition on N-cycling in Dutch forest ecosystems. [Ph.D. Thesis.] University of Amsterdam.
    23. KOOPMANS C.J., VAN DAM D., TIETEMA A., 1997. Natural 15 N abundance in two N-saturated forest ecosystem. Oecologia, 111: 470-480. Go to original source... Go to PubMed...
    24. LAJTHA K., SEELY B., VALIELA I., 1995. Retention and leaching losses of atmospherically derived nitrogen in the aggrading coastal watershed of waquoit Bay MA. Biogeochemistry, 28: 33-54. Go to original source...
    25. MESSENBURG H., MEIWES K.J., RADEMACHER P., 1995. Long term trends in atmospheric deposition and seepage output in northwest German forest ecosystems. Wat., Air, and Soil Pollut., 85: 611-616. Go to original source...
    26. MEIWES K.J., HAUS M., GERKE H., ASHE N., MATZNER E., LAMMERSDORF N., 1984. Die Erfassung der Stoffkreislaufes in Waldoekosystemen: Konzept und Methodik. Ber, d. Forsch. Waldöko/Waldster., Universität Göttingen, Bd. 7: 68-142.
    27. MELLILO J.M., ABER J.D., LINKINS A.E., TURNER A.R., FRY B., NADELHÖFFER K.J., 1989. Carbon and nitrogen dynamics along the decay continuum: plant litter to soil organic matter. Pl. and Soil, 115: 189-198. Go to original source...
    28. MOLDAN F., HULTERG H., NYSTRÖM U., WRIGHT R.F., 1995. Nitrogen saturation in Gardsjon, southwest Sweden, induced by experimental addition of ammonium nitrate. For. Ecol. Mgmt, 71: 89-97. Go to original source...
    29. MOORE H., 1977. The isotopic composition of NH4, NO2 and NO3 in the atmosphere. Atmos. Environ., 11: 1239. Go to original source...
    30. NADELHOFFER K.J., FRY B., 1988. Controles on natural nitrogen-15 and carbon-13 abundance in forest soil organic matter. Soil Sci. Soc. Am. J., 52: 1633-1640. Go to original source...
    31. NADELHOFFER K.J., FRY B., 1994. N-isotope studies in forests. In: LAJTHA K., MICHENER R.H. (eds.), Stable Isotopes in Ecology and Environmental Sciences. Oxford, Blackwell: 22-62.
    32. NASHOLM T., 1994. Removal of N during needle senescence in Scot pine (P. sylvestris. L.). Oecologia, 99: 290-296. Go to original source... Go to PubMed...
    33. NIHLGARD B., 1985. The NH4 hypothesis- an additional explanation to the forest dieback in Europe. Ambio, 14: 2-8.
    34. SHEARER G., DUFFY J., KOHL D.H., COMMONER B., 1974. A steady state model of isotopic fractionation accompanying nitrogen transformations in soil. Soil Sci. Soc. of America Proc., 138: 315-322. Go to original source...
    35. SHEARER G., KOHL D.H., 1993. Natural abundance of 15N: Fractional contribution of two sources to a common sink and use of isotope discrimination. In: KNOWLES R., BLACKBURN T.H., (eds.), Nitrogen Isotope Techniques. San Diego, Academic Press: 89-125. Go to original source...
    36. SCHULZE E.D., OREN R., ZIMMERMAN R., 1987. Die Wirkung von Immissionen auf 30 jährige Fichten in mittleren Höhenlagen des Fichtelgebirges auf Phyllit. Allg. Forstz., 27-29: 725-730.
    37. SORENSEN P., JENSEN E.S., 1991. Sequential diffusion of NH4 and NO3 from soil extracts to a polytatrafluroethylene trap for 15 N determinations. Anal. Chem. Acta, 252: 201-203. Go to original source...
    38. WADA E., KADONAGA T., MATSUO S., 1975. 15N abundance in nitrogen of naturally occurring substances and global assessment of denitrification from isotopic view point. Geochem. J., 9: 139. Go to original source...

    This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International (CC BY NC 4.0), which permits non-comercial use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content