Ion microprobe delta O-18 analyses to calibrate slow growth rate speleothem records with regional delta O-18 records of precipitation (CROSBI ID 244706)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Dominguez-Villar, David ; Lojen, Sonja ; Krklec, Kristina ; Kozdon, Reinhard ; Cheng, Hai ; Edwards, Lawrence R.
engleski
Ion microprobe delta O-18 analyses to calibrate slow growth rate speleothem records with regional delta O-18 records of precipitation
Paleoclimate reconstructions based on speleothems require a robust interpretation of their proxies. Detailed transfer functions of external signals to the speleothem can be obtained using models supported by monitoring data. However, the transferred signal may not be stationary due to complexity of karst processes. Therefore, robust interpretations require the calibration of speleothem records with instrumental time series lasting no less than a decade. We present the calibration of a speleothem δ18δ18O record from Postojna Cave (Slovenia) with the regional record of δ18δ18O composition of precipitation during the last decades. Using local meteorological data and a regional δ18δ18O record of precipitation, we developed a model that reproduces the cave drip water δ18δ18O signal measured during a two-year period. The model suggests that the average water mixing and transit time in the studied aquifer is 11 months. Additionally, we used an ion microprobe to study the δ18δ18O record of the top 500 μm of a speleothem from the studied cave gallery. According to U–Th dates and 14C analyses, the uppermost section of the speleothem was formed during the last decades. The δ18δ18O record of the top 500 μm of the speleothem has a significant correlation (r2=0.64r2=0.64 ; p -value <0.001) with the modelled δ18δ18O record of cave drip water. Therefore, we confirm that the top 500 μm of the speleothem grew between the years 1984 and 2003 and that the speleothem accurately recorded the variability of the δ18δ18O values of regional precipitation filtered by the aquifer. We show that the recorded speleothem δ18δ18O signal is not seasonally biased and that the hydrological dynamics described during monitoring period were stationary during recent decades. This research demonstrates that speleothems with growth rates <50 μm/yr can also be used for calibration studies. Additionally, we show that the fit of measured and modelled proxy data can be used to achieve annually resolved chronologies in speleothems that were not actively growing at the time of collection and/or that do not record annual laminae.
Speleothem ; Calibration ; 18O ; ion microprobe ; Postojna
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Podaci o izdanju
482
2018.
367-376
objavljeno
0012-821X
1385-013X
10.1016/j.epsl.2017.11.012