Paleotemperature reconstruction using environmental isotopes and noble gases in groundwater in Morocco

AbstractEnvironmental isotopes and noble gases in groundwater samples from the Kazan Trona Ore Field are studied to establish the temperature change between the Holocene and the late Pleistocene. Noble gas temperatures (NGTs) presented in this study add an important facet to the global paleotemperature map in the region between Europe and North Africa. The groundwater system under investigation consists of three different aquifers named shallow, middle and deep in which δ18O and δ2H vary from − 8.10‰ to − 12.80‰ and from − 60.89‰ to − 92.60‰ VSMOW, respectively. The average isotopic depletion between unconfined and confined parts of the system is − 2.5‰ in δ18O and − 20‰ in δ2H. It is not possible to explain this depletion solely with the elevation effect. Recharge temperatures derived from dissolved atmospheric noble gases reflect the current average yearly ground temperatures (13°C) for samples collected near the recharge area but are 3 to 8°C lower than today's temperatures in the deep aquifer system. Low 14C activities and high He excesses in the confined parts of the aquifer system suggest that the water in the deep aquifer was recharged during the last Pleistocene under considerably cooler climatic conditions.

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Investigation of paleoclimate signatures in Sfax deep groundwater (Southeastern Tunisia) using environmental isotopes and noble gases

Quaternary International ◽

10.1016/j.quaint.2019.04.001 ◽

2020 ◽

Vol 547 ◽

pp. 208-219 ◽

Cited By ~ 1

Author(s):

Rim Trabelsi ◽

Takuya Matsumoto ◽

Kamel Zouari ◽

Mahdi Trabelsi ◽

Bhishm Kumar

Keyword(s):

Noble Gases ◽

Environmental Isotopes ◽

Deep Groundwater

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Environmental Isotope Study (14C, 13C, 18O, D, Noble Gases) on Deep Groundwater Circulation Systems in Hungary With Reference to Paleoclimate

Radiocarbon ◽

10.1017/s0033822200012522 ◽

1989 ◽

Vol 31 (03) ◽

pp. 902-918 ◽

Cited By ~ 81

Author(s):

Martin Stute ◽

Jozsef Deak

Keyword(s):

Cross Sections ◽

Isotope Ratio ◽

Noble Gases ◽

Environmental Isotopes ◽

Carbonate Dissolution ◽

Deep Groundwater ◽

Α Decay ◽

Groundwater Circulation ◽

Groundwater Samples ◽

Isotope Study

We have studied environmental isotopes and noble gases in groundwater samples from various locations in the Great Hungarian Plain along two selected hydrogeological cross-sections of ca 100km. The 14C groundwater ages were corrected hydrochemically and compared with age information derived from excess helium due to 4He from α-decay of U and Th and their daughter nuclides within the aquifer and to He accumulation from the crustal (and mantle) He flux. In correcting the 14C groundwater ages, we considered carbonate dissolution under open and closed system conditions in the infiltration areas. Non-radioactive reduction of the 14C/12C isotope ratio also plays an important role due to the addition of “dead” carbon species to groundwater along its subsurface pathway. High (corrected) 14C ages, which fall into the last global cold period, are supported by significantly lower heavy stable isotope values as well as lower temperatures derived from the noble gases Ne, Ar, Kr and Xe.

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