14C Measurements of Soil Organic Matter, Soil Co2 and Dissolved Organic Carbon (1987–1992)

Ina Tegen; Helmut Dörr

doi:10.1017/S0033822200017628

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

For several undisturbed sites in Germany, 14C data are reported for soil organic matter (SOM) (4 sites), soil CO2 (10 sites) and dissolved organic carbon (DOC) (1 site). With the assumption of a fast degradable component (lifetime ca. 1 yr) and a slow degradable component (lifetime ca. 100 yr), a range between 0.6 and 1.6 mm yr-1 has been determined for the downward migration rates of soil organic carbon at the sampling sites from the soil 14C data. The soil CO2 measurements show that in deciduous forests the fast degradable component is ca. 60% and the slow degradable component is ca. 40% of the SOM. In coniferous forests this ratio is reversed. The 14C results for DOC could not be explained with the assumption of a first-order decay process. The removal of soil organic carbon by DOC is of minor importance for the estimation of carbon budgets for the investigated site.

References

Dörr, H., Kromer, B. and Münnich, K. O. 1989 Fast ¹⁴C sample preparation of organic material. In Long, A. Kra, R. S. and Srdoč, D., eds., Proceedings of the 13th International ¹⁴C Conference. Radiocarbon 31(3): 264–268.Google Scholar

Dörr, H. and Münnich, K. O. 1986 Annual variations of the ¹⁴C content of soil CO₂ . In Stuiver, M. and Kra, R. S., eds., Proceedings of the 12th International ¹⁴C Conference. Radiocarbon 28(2A): 338–345.Google Scholar

Dörr, H. and Münnich, K. O. 1989 Downward movement of soil organic matter and its influence on trace-element transport (²¹⁰Pb, ¹³⁷Cs) in the soil. In Long, A. Kra, R. S. and Srdoč, D., eds., Proceedings of the 13th International ¹⁴C Conference. Radiocarbon 31(3): 655–663.Google Scholar

Macdonald, G. J. and Sertorio, L. 1989 Global Climate and Ecosystem Change. NATO ASI Series. London, Plenum Press.Google Scholar

Stuiver, M. and Polach, H. A. 1977 Discussion: Reporting of ¹⁴C data. Radiocarbon 19(3): 355–363.Google Scholar

Tegen, I. 1992 Tiefenverlagerung von ¹³⁷Cs im Waldboden. Ph.D. thesis, University of Heidelberg (in German).Google Scholar

Weber, F. 1991 Messung und Interpretation von Bodenatmungs–¹⁴C–Gehalten. Master's thesis, Institute for Environmental Physics, University of Heidelberg (in German).Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Hagedorn, Frank Blaser, Peter and Siegwolf, Rolf 2002. Elevated atmospheric CO2 and increased N deposition effects on dissolved organic carbon—clues from δ13C signature. Soil Biology and Biochemistry, Vol. 34, Issue. 3, p. 355.

Hagedorn, F. Saurer, M. and Blaser, P. 2004. A 13C tracer study to identify the origin of dissolved organic carbon in forested mineral soils. European Journal of Soil Science, Vol. 55, Issue. 1, p. 91.

HAHN, VOLKER HÖGBERG, PETER and BUCHMANN, NINA 2006. 14C – a tool for separation of autotrophic and heterotrophic soil respiration. Global Change Biology, Vol. 12, Issue. 6, p. 972.

Bengtson, Per and Bengtsson, Göran 2007. Rapid turnover of DOC in temperate forests accounts for increased CO2 production at elevated temperatures. Ecology Letters, Vol. 10, Issue. 9, p. 783.

Rennert, Thilo Gockel, Kai F. and Mansfeldt, Tim 2007. Extraction of water‐soluble organic matter from mineral horizons of forest soils. Journal of Plant Nutrition and Soil Science, Vol. 170, Issue. 4, p. 514.

Gjettermann, Birgitte Styczen, Merete Hansen, Hans Christian B. Vinther, Finn P. and Hansen, Søren 2008. Challenges in modelling dissolved organic matter dynamics in agricultural soil using DAISY. Soil Biology and Biochemistry, Vol. 40, Issue. 6, p. 1506.

Cook, Gordon T. Scott, E. Marian and Harkness, Douglas D. 2009. Environmental Radionuclides: Tracers and Timers of Terrestrial Processes. Vol. 16, Issue. , p. 89.

Fohlmeister, J Schröder-Ritzrau, A Spötl, C Frisia, S Miorandi, R Kromer, B and Mangini, A 2010. The Influences of Hydrology on the Radiogenic and Stable Carbon Isotope Composition of Cave Drip Water, Grotta di Ernesto (Italy). Radiocarbon, Vol. 52, Issue. 4, p. 1529.

Fohlmeister, J. Scholz, D. Kromer, B. and Mangini, A. 2011. Modelling carbon isotopes of carbonates in cave drip water. Geochimica et Cosmochimica Acta, Vol. 75, Issue. 18, p. 5219.

Filep, Tibor and Rékási, Márk 2011. Factors controlling dissolved organic carbon (DOC), dissolved organic nitrogen (DON) and DOC/DON ratio in arable soils based on a dataset from Hungary. Geoderma, Vol. 162, Issue. 3-4, p. 312.

Fohlmeister, J Kromer, B and Mangini, A 2011. The Influence of Soil Organic Matter Age Spectrum on the Reconstruction of Atmospheric 14C Levels Via Stalagmites. Radiocarbon, Vol. 53, Issue. 1, p. 99.

Gillon, M. Barbecot, F. Gibert, E. Plain, C. Corcho-Alvarado, J.-A. and Massault, M. 2012. Controls on 13C and 14C variability in soil CO2. Geoderma, Vol. 189-190, Issue. , p. 431.

Long, Guang-Qiang Jiang, Yu-Ji and Sun, Bo 2015. Seasonal and inter-annual variation of leaching of dissolved organic carbon and nitrogen under long-term manure application in an acidic clay soil in subtropical China. Soil and Tillage Research, Vol. 146, Issue. , p. 270.

Noronha, Alexandra L. Johnson, Kathleen R. Southon, John R. Hu, Chaoyong Ruan, Jiaoyang and McCabe-Glynn, Staryl 2015. Radiocarbon evidence for decomposition of aged organic matter in the vadose zone as the main source of speleothem carbon. Quaternary Science Reviews, Vol. 127, Issue. , p. 37.

Stoppe, A.M. Comerford, N.B. Jokela, E.J. Mackowiak, C.L. and Higa, R.C.V. 2016. Effects of loblolly pine litter, forest floor, and root exclusion on mineral soil carbon in a Florida Spodosol. Canadian Journal of Forest Research, Vol. 46, Issue. 1, p. 122.

Zacháry, Dóra Filep, Tibor Jakab, Gergely Varga, György Ringer, Marianna and Szalai, Zoltán 2018. Kinetic parameters of soil organic matter decomposition in soils under forest in Hungary. Geoderma Regional, Vol. 14, Issue. , p. e00187.

Adeli, Ardeshir Brooks, John P. Read, John J. Feng, Gary McCarty, Jack C. and Jenkins, Johnie N. 2018. Effects on Selected Soil Properties of Subsurface Banding and Surface Broadcasting Pelletized Poultry Litter on Cotton. Soil Science, Vol. 183, Issue. 3, p. 112.

Heidke, Inken Scholz, Denis and Hoffmann, Thorsten 2019. Lignin oxidation products as a potential proxy for vegetation and environmental changes in speleothems and cave drip water – a first record from the Herbstlabyrinth, central Germany. Climate of the Past, Vol. 15, Issue. 3, p. 1025.

Vonk, Jorien E. Drenzek, Nicholas J. Hughen, Konrad A. Stanley, Rachel H.R. McIntyre, Cameron Montluçon, Daniel B. Giosan, Liviu Southon, John R. Santos, Guaciara M. Druffel, Ellen R.M. Andersson, August A. Sköld, Martin and Eglinton, Timothy I. 2019. Temporal deconvolution of vascular plant-derived fatty acids exported from terrestrial watersheds. Geochimica et Cosmochimica Acta, Vol. 244, Issue. , p. 502.

Adeli, Ardeshir Brooks, John P. Read, John J. Feng, Gary Miles, Dana Shankle, Mark W. Barksdale, Nicole and Jenkins, Johnie N. 2020. Management Strategies on an Upland Soil for Improving Soil Properties. Communications in Soil Science and Plant Analysis, Vol. 51, Issue. 3, p. 413.

Download full list

Article contents

14C Measurements of Soil Organic Matter, Soil Co2 and Dissolved Organic Carbon (1987–1992)

Abstract

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests