Here we present the first record of Marine Isotope Stage (MIS) 7 from Sardinia, based on a U-Th-dated speleothem from Crovassa Azzurra cave, which also grew during MIS 5. Carbonate precipitation was continuous during MIS 7, while two multi-millennial hiatuses interrupted growth during MIS 5. These hiatuses occurred during times of unstable climate, but local karst-specific conditions are considered to have played an important role as well. d13C values mostly reflect soil bioproductivity and vegetation density. During less humid periods these values reflect bedrock d13C values, because of a semi-closed system and/or sulphuric acid-driven bedrock dissolution. d18O changes were governed by the interplay of rainfall amount and moisture source. Disentangling these two effects was possible by comparing d13C and d18O values, whereby both isotopes co-vary during periods when d18O was dominated by the amount effect. Changes in the relative proportion of Atlantic and Mediterranean moisture sources was the main control on d18O at times when d18O was decoupled from d13C. d18O variations during MIS 5 are synchronous with Greenland stadials (GS) and interstadials (GI) GS 26, GI 25, GI-GS 22, GI-GS 21. With the exception of GS 22, these climate oscillations did not affect soil bioproductivity, and d18O mirrors the relative proportion of Atlantic and Mediterranean moisture sources. GS 22 was a prominent arid period in Sardinia, in accordance with other regional palaeoclimate archives. High soil bioproductivity is indicated by d13C values for MIS 7e and MIS 7c-a; the latter interval was characterized by a 30 kyr-long time span of warm and humid conditions in Sardinia. Soil bioproductivity decreased markedly during MIS 7d and the climate became drier. The latter period, also constrained by d18O data, lasted significantly shorter in Sardinia than in central Europe. As indicated by changes in d13C and d18O relationships, variations in moisture source are also recorded for MIS 7, with Mediterranean-dominated rainfall during MIS 7e and 7c followed by a shift toward Atlantic-dominated rainfal

Columbu, A., Spötl, C., De Waele, J.o., Yu, T., Shen, C., Gázquez, F. (2019). A long record of MIS 7 and MIS 5 climate and environment from a western Mediterranean speleothem (SW Sardinia, Italy). QUATERNARY SCIENCE REVIEWS, 220, 230-243 [10.1016/j.quascirev.2019.07.023].

A long record of MIS 7 and MIS 5 climate and environment from a western Mediterranean speleothem (SW Sardinia, Italy)

Columbu, Andrea
;
De Waele, Jo;
2019

Abstract

Here we present the first record of Marine Isotope Stage (MIS) 7 from Sardinia, based on a U-Th-dated speleothem from Crovassa Azzurra cave, which also grew during MIS 5. Carbonate precipitation was continuous during MIS 7, while two multi-millennial hiatuses interrupted growth during MIS 5. These hiatuses occurred during times of unstable climate, but local karst-specific conditions are considered to have played an important role as well. d13C values mostly reflect soil bioproductivity and vegetation density. During less humid periods these values reflect bedrock d13C values, because of a semi-closed system and/or sulphuric acid-driven bedrock dissolution. d18O changes were governed by the interplay of rainfall amount and moisture source. Disentangling these two effects was possible by comparing d13C and d18O values, whereby both isotopes co-vary during periods when d18O was dominated by the amount effect. Changes in the relative proportion of Atlantic and Mediterranean moisture sources was the main control on d18O at times when d18O was decoupled from d13C. d18O variations during MIS 5 are synchronous with Greenland stadials (GS) and interstadials (GI) GS 26, GI 25, GI-GS 22, GI-GS 21. With the exception of GS 22, these climate oscillations did not affect soil bioproductivity, and d18O mirrors the relative proportion of Atlantic and Mediterranean moisture sources. GS 22 was a prominent arid period in Sardinia, in accordance with other regional palaeoclimate archives. High soil bioproductivity is indicated by d13C values for MIS 7e and MIS 7c-a; the latter interval was characterized by a 30 kyr-long time span of warm and humid conditions in Sardinia. Soil bioproductivity decreased markedly during MIS 7d and the climate became drier. The latter period, also constrained by d18O data, lasted significantly shorter in Sardinia than in central Europe. As indicated by changes in d13C and d18O relationships, variations in moisture source are also recorded for MIS 7, with Mediterranean-dominated rainfall during MIS 7e and 7c followed by a shift toward Atlantic-dominated rainfal
2019
Columbu, A., Spötl, C., De Waele, J.o., Yu, T., Shen, C., Gázquez, F. (2019). A long record of MIS 7 and MIS 5 climate and environment from a western Mediterranean speleothem (SW Sardinia, Italy). QUATERNARY SCIENCE REVIEWS, 220, 230-243 [10.1016/j.quascirev.2019.07.023].
Columbu, Andrea; Spötl, Christoph; De Waele, Jo; Yu, Tsai-Luen; Shen, Chuan-Chou; Gázquez, Fernando
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/694624
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