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Claire Waelbroeck 《海洋地质前沿》2001,17(10)
为了确定控制末次冰消期的机制以及引起冰消期事件的顺序,最重要的是获得应用于大陆和海洋两者的气候记录的时间结构。放射性碳测年已经广泛应用于海洋沉积物的日历测年,但它是建立在表层水的表观年龄 (相对于大气层来说 )保持不变的假设上的。这里我们提出了北大西洋 40° N以北的表层水的表观年龄 (或储层年龄 )在过去 20 ka中的变化证据,在两个岩心中,我们发现了在 Heinrich 1 (15 ka BP)结束的地方,表层水表观年龄比今天大 1230± 600 a和 1940± 750 a,在新仙女木冷期结束的地方比今天大 820± 430 a 和 1010± 340 a。在 Bolling_Allerod暖期,两个老的储层年龄之间,表层水表观年龄可以与目前的值进行比较。我们的研究结果证实冰心年代学和整个冰消期的北大西洋海洋记录是一致的。因此,这表示了 40° N以北的北大西洋海洋碳测年需要作这些明显可变效应的校正。 相似文献
2.
A. J. Rau J. Rogers J. R. E. Lutjeharms J. Giraudeau J. A. Lee-Thorp M. -T. Chen C. Waelbroeck 《Marine Geology》2002,180(1-4):183-201
The Agulhas Bank region, south of Africa, is an oceanographically important and complex area. The leakage of warm saline Indian Ocean water into the South Atlantic around the southern tip of Africa is a crucial factor in the global thermohaline circulation. Foraminiferal assemblage, stable isotope and sedimentological data from the top 10 m of core MD962080, recovered from the western Agulhas Bank Slope, are used to indicate changes in water mass circulation in the southeastern South Atlantic for the last 450 kyr. Sedimentological and planktonic foraminiferal data give clear signals of cold water intrusions. The benthic stable isotope record provides the stratigraphic framework and indicates that the last four climatic cycles are represented (i.e. down to marine isotope stage (MIS) 12). The planktonic foraminiferal assemblages bear a clear transitional to subantarctic character with Globorotalia inflata and Neogloboquadrina pachyderma (dextral) being the dominant taxa. Input of cold, subantarctic waters into the region by means of leakage through the Subtropical Convergence, as part of Agulhas ring shedding, and a general cooling of surface waters is suggested by increased occurrence of the subantarctic assemblage during glacial periods. Variable input of Indian Ocean waters via the Agulhas Current is indicated by the presence of tropical/subtropical planktonic foraminiferal species Globoquadrina dutertrei, Globigerinoides ruber (alba) and Globorotalia menardii with maximum leakage occurring at glacial terminations. The continuous presence of G. menardii throughout the core suggests that the exchange of water from the South Indian Ocean to the South Atlantic Ocean was never entirely obstructed in the last 450 kyr. The benthic carbon isotope record and sediment textural data reflect a change in bottom water masses over the core location from North Atlantic Deep Water to Upper Southern Component Water. Planktonic foraminiferal assemblages and sediment composition indicate a profound change in surface water conditions over the core site approximately 200–250 kyr BP, during MIS 7, from mixed subantarctic and transitional water masses to overall warmer surface water conditions. 相似文献
3.
A comparison of PMIP2 model simulations and the MARGO proxy reconstruction for tropical sea surface temperatures at last glacial maximum 总被引:2,自引:1,他引:1
Bette L. Otto-Bliesner Ralph Schneider E. C. Brady M. Kucera A. Abe-Ouchi E. Bard P. Braconnot M. Crucifix C. D. Hewitt M. Kageyama O. Marti A. Paul A. Rosell-Melé C. Waelbroeck S. L. Weber M. Weinelt Y. Yu 《Climate Dynamics》2009,32(6):799-815
Results from multiple model simulations are used to understand the tropical sea surface temperature (SST) response to the
reduced greenhouse gas concentrations and large continental ice sheets of the last glacial maximum (LGM). We present LGM simulations
from the Paleoclimate Modelling Intercomparison Project, Phase 2 (PMIP2) and compare these simulations to proxy data collated
and harmonized within the Multiproxy Approach for the Reconstruction of the Glacial Ocean Surface Project (MARGO). Five atmosphere–ocean
coupled climate models (AOGCMs) and one coupled model of intermediate complexity have PMIP2 ocean results available for LGM.
The models give a range of tropical (defined for this paper as 15°S–15°N) SST cooling of 1.0–2.4°C, comparable to the MARGO
estimate of annual cooling of 1.7 ± 1°C. The models simulate greater SST cooling in the tropical Atlantic than tropical Pacific,
but interbasin and intrabasin variations of cooling are much smaller than those found in the MARGO reconstruction. The simulated
tropical coolings are relatively insensitive to season, a feature also present in the MARGO transferred-based estimates calculated
from planktonic foraminiferal assemblages for the Indian and Pacific Oceans. These assemblages indicate seasonality in cooling
in the Atlantic basin, with greater cooling in northern summer than northern winter, not captured by the model simulations.
Biases in the simulations of the tropical upwelling and thermocline found in the preindustrial control simulations remain
for the LGM simulations and are partly responsible for the more homogeneous spatial and temporal LGM tropical cooling simulated
by the models. The PMIP2 LGM simulations give estimates for the climate sensitivity parameter of 0.67°–0.83°C per Wm−2, which translates to equilibrium climate sensitivity for doubling of atmospheric CO2 of 2.6–3.1°C. 相似文献
4.
C. Waelbroeck J. Jouzel L. Labeyrie C. Lorius M. Labracherie M. Stiévenard N. I. Barkov 《Climate Dynamics》1995,12(2):113-123
Taking advantage of the fact that the Vostok deuterium (δD) record now covers almost two entire climatic cycles, we have
applied the orbital tuning approach to derive an age-depth relation for the Vostok ice core, which is consistent with the
SPECMAP marine time scale. A second age-depth relation for Vostok was obtained by correlating the ice isotope content with
estimates of sea surface temperature from Southern Ocean core MD 88-770. Both methods lead to a close correspondence between
Vostok and MD 88-770 time series. However, the coherence between the correlated δD and insolation is much lower than between
the orbitally tuned δD and insolation. This reflects the lower accuracy of the correlation method with respect to direct orbital
tuning. We compared the ice and marine records, set in a common temporal framework, in the time and frequency domains. Our
results indicate that changes in the Antarctic air temperature quite clearly lead variations in global ice volume in the obliquity
and precession frequency bands. Moreover, the average phase we estimated between the filtered δD and insolation signals at
precessional frequencies indicates that variations in the southern high latitude surface temperature could be induced by changes
in insolation taking place during a large period of the summer in northern low latitudes or winter in southern low latitudes.
The relatively large lag found between Vostok δD variations and obliquity-driven changes in insolation suggests that variations
in the local radiative balance are not the only mechanism responsible for the variability in surface temperature at those
frequencies. Finally, in contrast to the cross-spectral analysis method used in previous studies, the method we use here to
estimate the phases can reveal errors in cross-correlations with orbitally tuned chronologies.
Received: 11 April 1995 / Accepted: 19 July 1995 相似文献
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Abel Guihou Sylvain Pichat Sìlvia Nave Aline Govin Laurent Labeyrie Elisabeth Michel Claire Waelbroeck 《Earth and Planetary Science Letters》2010,289(3-4):520-529
Our study gives new constraints on the response of Atlantic Meridional Overturning Circulation (AMOC) export to various forcings during the Last Glacial Inception. The decay corrected excess sedimentary (231Pa/230Th) activity ratio (hereafter referred to as (Pa/Th)) has been measured over that period in two deep cores from the Western (SU90-11, 44°04′N, 40°01′W, 3645 m) and Eastern (MD01-2446, 39°03′N, 12°37′W, 3547 m) basins of the North Atlantic. Both records display significant changes despite the relatively short half-life of 231Pa (~ 32 kyr) compared to the period we investigate. The (Pa/Th) variability does not correlate to changes in local opal flux normalized to 230Th. Moreover, the (Pa/Th) profiles display a high degree of coherency with indirect proxies of AMOC activity such as the benthic foraminifera δ13C and the mid-latitude summer Sea Surface Temperature in nearby reference cores. These additional pieces of evidence support our interpretation of the (Pa/Th) as reflecting AMOC export. The (Pa/Th) repeatedly underwent rapid changes during the Last Glacial Inception associated with the extension of ice rafted detritus in the North Atlantic, highlighting the control of ice-sheet dynamics through freshwater forcing on AMOC export. AMOC export remains large during periods of ice-sheet growth and its decreases lag the Northern Hemisphere summer insolation forcing. AMOC modulation appears driven by ice-sheet dynamics, itself driven by the seasonal insolation gradient between low and high Northern Hemisphere latitudes and the associated intensity of the meridional oceanic and atmospheric circulation. 相似文献
7.
J. Jouzel C. Waelbroeck B. Malaize M. Bender J. R. Petit M. Stievenard N. I. Barkov J. M. Barnola T. King V. M. Kotlyakov V. Lipenkov C. Lorius D. Raynaud C. Ritz T. Sowers 《Climate Dynamics》1996,12(8):513-521
A new ice core drilled at the Russian station of Vostok in Antarctica reached 2755 m depth in September 1993. At this depth, the glaciological time scale provides an age of 260 ky BP (±25). We refine this estimate using records of dust and deuterium in the ice and of 18O of O2 in the entrapped air. 18O of O2 is highly correlated with insolation over the last two climatic cycles if one assumes that the EGT chronology overestimates the increase of age with depth by 12% for ages older than 112 ky BP. This modified age-depth scale gives an age of 244 ky BP at 2755 m depth and agrees well with the age-depth scale of Walbroeck et al. (in press) derived by orbital tuning of the Vostok D record. We discuss the temperature interpretation of this latter record accounting for the influence of the origin of the ice and using information derived from deuterium-excess data. We conclude that the warmest period of stage 7 was likely as warm as today in Antarctica. A remarkable feature of the Vostok record is the high level of similarity of proxy temperature records for the last two climatic cycles (stages 6 and 7 versus stages 1–5). This similarity has no equivalent in other paleorecords. 相似文献
8.
C. Waelbroeck N. Frank J. Jouzel F. Parrenin V. Masson-Delmotte D. Genty 《Earth and Planetary Science Letters》2008,265(1-2):183-194
In order to derive a radiometric age marker for the end of the penultimate glacial–interglacial transition, we compiled published U-series isotope measurements on corals from the period extending from stage 6 to the middle of the last interglacial, and computed the corresponding open-system ages using Thompson et al. model (Thompson, W.G., Spiegelman, M.W., Goldstein, S.L., Speed, R.C., An open-system model for U-series age determinations of fossil corals. Earth Planet. Sci. Lett. 210 (2003) 365–381). We obtain a global mean age of 126 calendar kyr BP (ka) ± 1.7kyr (2σ) for the beginning of the last interglacial sea level high stand. After showing that the phase relationships observed between changes in sea level, North Atlantic benthic and planktonic foraminifera oxygen isotopic records, and atmospheric methane over the last deglaciation were likely also valid over the penultimate deglaciation, we derive an age of 131.2ka ± 2kyr (2σ) for the abrupt increase in atmospheric CH4 and North Atlantic surface temperature marking the end of the penultimate glacial–interglacial transition. This age is consistent with U–Th dates of the penultimate glacial–interglacial transition recorded in speleothems from sites where speleothems isotopic records are synchronous with North Atlantic temperature records over the last deglaciation. Finally, we show that the phase obtained between the climatic response and northern hemisphere summer insolation is not constant from Termination II to Termination I, implying that northern hemisphere summer insolation alone cannot explain the timing of terminations. 相似文献
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