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Organic carbon and carbon isotopes in modern and 100-year-old-soil archives of the Russian steppe (2002)

Torn, Margaret S. ; Lapenis, Andrei G. ; Timofeev, Anatoly ; [et al.]

Oxford, UK : Blackwell Science Ltd

Global change biology 8 (2002), S. 0

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ISSN: 1365-2486

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography

Notes: Archived soils can provide valuable information about changes in the carbon and carbon isotope content of soils during the past century. We characterized soil carbon dynamics in a Russian steppe preserve using a 100-year-old-soil archive and modern samples collected from the same site. The site has been protected since 1885 to the present, during which time the region has experienced widespread conversion to cultivation, a decrease in fire frequency, and a trend of increasing precipitation. In the preserve, the amount of organic carbon did not change appreciably between the 1900 and 1997 sampling dates, with 32 kg C/m2 in the top meter and a third of that in the top 20 cm. Carbon and nitrogen stocks varied by less than 6% between two replicate modern soil pits or between the modern sites and the archive. Radiocarbon content decreased with depth in all sites and the modern SOM had positive Δ values near the surface due to nuclear weapons testing in the early 1960s. In the upper 10 cm, most of the SOM had a turnover time of 6–10 years, according to a model fit to the radiocarbon content. Below about 10 cm, the organic matter was almost all passive material with long (millennial) turnover times. Soil respiration Δ14CO2 on a summer day was 106–109‰, an isotopic disequilibrium of about 9‰ relative to atmospheric 14CO2. In both the modern and archive soil, the relative abundance of 13C in organic matter increased with depth by 2‰ in the upper meter from δ13C = --26‰ at 5 cm to --24‰ below a meter. In addition, the slope of δ13C vs. depth below 5 cm was the same for both soils. Given the age of the soil archive, these results give clear evidence that the depth gradients are not due to depletion of atmospheric 13CO2 by fossil fuel emissions but must instead be caused by isotopic fractionation between plant litter inputs and preservation of SOM. Overall, the data show that these soils have a large reservoir of recalcitrant C and stocks had not changed between sampling dates 100 years apart.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2486.2002.00477.x

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COMPARISON OF PALEOTEMPERATURE RECONSTRUCTIONS AS EVIDENCE FOR THE PALEO-ANALOG HYPOTHESIS (1997)

Kheshgi, HAROON S. ; Schlesinger, MICHAEL E. ; Lapenis, ANDREI G.

Springer

Climatic change 35 (1997), S. 123-131

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ISSN: 1573-1480

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract There is an apparent inconsistency between the estimated low accuracy reported by Kheshgi and Lapenis (1996; hereinafter KL) for the reconstructed zonal-mean annual paleotemperatures for the mid-Holocene, and the high agreement reported by Shabalova and Können (1995; hereinafter SK) between the normalized temperature anomalies of these reconstructed paleotemperatures and those reconstructed for earlier epochs. The reasons for this inconsistency could be: (i) overestimation by KL of the reconstruction errors by more than a factor of two, (ii) significant smoothing of the paleodata resulting in a reduction in the number of independent pieces of information represented by the zonal-mean temperatures, or (iii) bias of the paleotemperature reconstruction by prior knowledge of the expected patterns of climate change. Because it is unlikely that the errors involved in producing the reconstructed mid-Holocene temperatures have been overestimated by more than a factor of two, one or both of the other reasons is the likely explanation for the inconsistency. If this holds true, then support for the paleo-analog hypothesis provided by the mid-Holocene paleotemperature reconstruction is severely weakened.