Late Pleistocene–Holocene climatic implications of high‐resolution stable isotope profiles of a speleothem from south‐central Anatolia, Turkey

Erkan, Gizem; Bayarı, C. Serdar; Fleitmann, Dominik; Cheng, Hai; Edwards, Lawrence R.; Özbakir, Mertcan

doi:10.1002/jqs.3401

Cited by 7 publications

(9 citation statements)

References 87 publications

(218 reference statements)

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Section: State Of the Artmentioning

confidence: 99%

“…This isotopic source effect is expressed in the Soreq, Peqiin (Bar-Mathews et al, 2003;Bar-Mathews and Ayalon, 2011;Burstyn et al, 2022), and Jeita Cave records (Verheyden et al, 2008;Cheng et al, 2015), with more negative oxygen isotope values following the depletion of sea-surface δ 18 O as resolved from planktonic foraminifera (Grant et al, 2016). In the southern Taurus Mountains, both Dim (Unal-Imer et al, 2015) and Incesu Cave records (Erkan et al, 2022) show a trend toward more depleted δ 18 O from ∼10 to ∼8 ka. Although the isotopic composition of the EM source is considered to have a primary effect on the δ 18 O signal of the terrestrial records, the isotopic δ 18 O depletion is amplified by (Torfstein et al, 2013a(Torfstein et al, , 2013b, Soreq Cave (Bar- Matthews et al, 2003;Burstyn et al, 2022), Zalmon Cave (Keinan et al, 2019), Peqiin Cave (Bar- Matthews et al, 2003), Mizpe Shelagim (MS) Cave (Ayalon et al, 2013), Ammiq peat record (Hajjar et al, 2010), Jeita Cave (Verheyden et al, 2008;Cheng et al, 2015), Yammouneh basin (Develle et al, 2010), El-Jurd peat record (Chedaddi and Khater, 2016), Ghab core (Van Zeist and Woldring, 1980;Yasuda et al, 2000), Sağlik peat (Sekeryapan et al, 2020), Incesu Cave (Erkan et al, 2022), Dim Cave (Ünal-Imer et al, 2015, LC21 (Grant et al, 2012), and ODP 967 (Emeis et al, 2003;Scrivner et al, 2004).…”

Section: State Of the Artmentioning

confidence: 99%

“…During the past decades, several synthesis reports were prepared on paleoclimate studies in the EM (Robinson et al, 2006; Finné et al, 2011; Burstyn et al, 2019), compiling many marine (Rossignol-Strick and Paterne, 1999; Kallel et al 2000; Emeis et al 2003; Almogi-Labin et al, 2009) and terrestrial records spanning the Holocene (Frumkin et al 2000; Bar-Matthews et al 2003; Verheyden et al, 2008; Develle et al 2010; Rowe et al, 2012; Ayalon et al, 2013; Cheng et al, 2015; Gasse et al, 2015; Ünal-İmer et al, 2015; Cheddadi and Khater, 2016; Flohr et al, 2017; Carolin et al, 2019; Sinha et al, 2019; Jacobson et al, 2021; Burstyn et al, 2022; Erkan et al, 2022). Focusing more on the Levantine coast, from the Sinai and Negev Deserts to the southern flanks of the Taurus Mountains in Turkey, and including Cyprus, studies have revealed a general climatic state of a wet and warm Early Holocene from ~10 to ~6 ka during maximum summer insolation, coeval with the deposition of Sapropel S1.…”

Section: State Of the Artmentioning

confidence: 99%

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Climate variability in the northern Levant from the highly resolved Qadisha record (Lebanon) during the Holocene optimum

et al. 2023

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New stalagmites from Qadisha Cave (Lebanon) located at 1720 m above sea level provide a high-resolution and well-dated record for northern Mount Lebanon. The stalagmites grew discontinuously from 9.2 to 5.7 and at 3.5 ka, and they show a tendency to move from a more negative oxygen isotope signal at ~9.1 ka to a more positive signal at ~5.8 ka. Such a trend reflects a change from a wetter to a drier climate at high altitudes. The δ13C signal shows rapid shifts throughout the record and a decreasing trend toward more negative values in the mid-Holocene, suggesting enhanced soil activity. In the short-term trend, Qadisha stalagmites record rapid dry/wet changes on centennial scales, with a tendency to more rapid dry events toward the mid-Holocene. Such changes are characterized by overall good agreement between both geochemical proxies and stalagmite growth and might be affected by the seasonal variations in snow cover. The Qadisha record is in good agreement with other Levantine records, showing more humid conditions from 9 to 7 ka. After 7 ka, a drier climate seems to affect sites at both low- and high-altitude areas. The Qadisha record reflects uniquely mountainous climate characteristics compared with other records, specifically the effect of snow cover and its duration regulating the effective infiltration.

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Section: State Of the Artmentioning

confidence: 99%

Section: State Of the Artmentioning

confidence: 99%

Section: State Of the Artmentioning

confidence: 99%

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Climate variability in the northern Levant from the highly resolved Qadisha record (Lebanon) during the Holocene optimum

et al. 2023

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“…Speleothem-based paleoclimate studies in Türkiye are mostly focused on the last ice age or the Holocene period, some with important linkages with early human settlements (Fleitmann et al, 2009; Göktürk et al, 2011; Rowe et al, 2012; Ünal-İmer et al, 2015, 2016a; Koç et al, 2020; Erkan et al, 2021; Jacobson et al, 2021, 2022). The oldest records from the region are from Sofular (Badertscher et al, 2011) in NW Türkiye and Dim Cave (Rowe et al, 2020) from SSW Türkiye.…”

Section: Introductionmentioning

confidence: 99%

“…In the case of Yelini Cave, the evaporation component in the P−E balance might be important due to atmospheric circulation at the geographical location of the studied cave. The barrier effect of the mountain ranges in the northern and southern parts of Türkiye prevents moisture from moving inland(Erkan et al, 2021), resulting in a prevalence of semi-arid climatic conditions around Yelini Cave.In arid and semi-arid areas, near-surface evaporation processes are reflected as seasonal variations in δ18 O (McDermott et al, 2006, and references therein). Schemmel et al (2013) reported a modern meteoric water study suggesting that the general trend of increase in δD and δ 18 O from the sheltered sides of the mountain ranges in the southern and northern parts of Türkiye to the interior Central Anatolian Plateau (CAP) is the result of increased sub-cloud and surface evaporation due to drought conditions.…”

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confidence: 99%

New paleohydroclimate record of the MIS 5e/5d transition from Yelini Cave, central Anatolian region of Türkiye

Gürbüz,

Mutlu,

Ünal-İmer

et al. 2023

Quat. res.

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This study presents the results of a detailed paleoclimate investigation on stalagmite YL-1 (Yelini Cave, Türkiye). YL-1 grew between 117.13 (+0.57/−0.44) ka and 114.87 (+1.63/−2.89) ka within Greenland Stadial 26, indicating a positive moisture balance during the stadial conditions in this semi-arid region. Rainfall is significantly affected by sub-cloud and surface evaporation and decreasing net effective winter precipitation is recorded by high isotope values. Enriched δ18O and δ13C at 116.65 (+0.51/−0.39) ka are interpreted as a drought event that took place ca. 400 years before the end of the MIS 5e. This event, which was reported simultaneously in marine and terrestrial archives in the Northern Hemisphere, is a result of decreased cyclone activity linked to weakening of the Atlantic meridional overturning circulation. 87Sr/86Sr values of YL-1 are close to the host-rock values. Decreased 87Sr/86Sr ratio at 116.67 (+0.54/−0.38) ka reflects the intensified water–rock interaction due to lower precipitation. Along with prior calcite precipitation effect, this is also observed by increased Mg/Ca and Sr/Ca, while low P, Cu, Be, Y, and Zr concentrations indicate a lowered amount of soil-derived colloidal material. The MIS 5e/5d transition is marked by reduced insolation and enriched δ18O at 116.24 (+0.53/−0.86) ka. The Greenland Interstadial 25 phase at 115.87 (+0.83/−1.71) ka is represented by more negative δ18O and δ13C.

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The Anatolian Mountains: glacial landforms from the Younger Dryas stadial

Akçar

2023

European Glacial Landscapes

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Late Pleistocene–Holocene climatic implications of high‐resolution stable isotope profiles of a speleothem from south‐central Anatolia, Turkey

Cited by 7 publications

References 87 publications

Climate variability in the northern Levant from the highly resolved Qadisha record (Lebanon) during the Holocene optimum

Climate variability in the northern Levant from the highly resolved Qadisha record (Lebanon) during the Holocene optimum

New paleohydroclimate record of the MIS 5e/5d transition from Yelini Cave, central Anatolian region of Türkiye

The Anatolian Mountains: glacial landforms from the Younger Dryas stadial

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