C34A-04
Abrupt release of terrigenous organic carbon to the Laptev Sea at termination of the Younger Dryas
Wednesday, 16 December 2015: 17:00
3007 (Moscone West)
Tommaso Tesi1, Francesco Muschitiello2, Rienk Smittenberg3, Martin Jakobsson2, Jorien Vonk4, Pete Hill5, Oleg Dudarev6, Igor Peter Semiletov7 and Orjan Gustafsson3, (1)Istituto di Scienze Marine, Bologna, Italy, (2)Stockholm University, Department of Geological Sciences, Stockholm, Sweden, (3)Stockholm University, Stockholm, Sweden, (4)Utrecht University, Utrecht, Netherlands, (5)University Centre in Svalbard, Longyearbyen, Norway, (6)Pacific Oceanological Institute FEB RAS, Vladivostok, Russia, (7)University of Alaska Fairbanks, Fairbanks, AK, United States
Abstract:
Based on analysis of a piston core collected in 2014 from the Lena River paleo delta, now Laptev Sea, we show that rapid and massive organic carbon (OC) deposition took place into the marine system at the termination of the Younger Dryas when the Arctic region experienced a large and extremely fast climate change. The highly laminated strata with absence of bioturbation further confirm the rapid event-driven emplacement of this deposit which was largely dominated by terrigenous OC as indicated by depleted δ13C values and high concentrations of terrestrial fossil biomarkers (lignin phenols and cutin-derived products). Moreover, the hydrogen isotopic composition (δ2H) of HMW n-alkanes indicates that this terrestrially-derived translocated OC was produced in the watershed during a relatively cold period. The OC appears to be a few thousand years old at time of deposition (ca. 4-5000 radiocarbon years; reservoir age corrected), consistent with the radiocarbon age of pre-aged OC currently supplied by the Lena river. Altogether our results indicate that fast climate warming exerts first-order control on large-scale carbon redistribution. Because the Younger Dryas-Preboreal transition occurred within a few decades, we infer that the abrupt and large release of terrigenous OC was essentially driven by rapid changes in the permafrost stability (i.e., thermal collapse/thawing) and increase in precipitation over the Siberian watershed. Interestingly, only surface and sub-surface carbon pools (i.e., active layer) were remobilized while deep and old sources (radiocarbon dead) did not seem to have substantially contributed to the total land-to-ocean flux during the Younger Dryas-Preboreal transition.