Timing of Atmospheric Precipitation in the Zagros Mountains Inferred from a Multi-Proxy Record from Lake Mirabad, Iran

Stevens, Rodney L.; Ito, Emi; Schwalb, Antje; Wright, H. E.

doi:10.1016/j.yqres.2006.06.008

Cited by 139 publications

(156 citation statements)

References 16 publications

(23 reference statements)

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“…Pollen records of the region corroborate this interpretation (Rossignol-Strick, 1999). While winter/ spring rain over the central and eastern Mediterranean decreased across the mid-Holocene (Bar-Matthews et al, 1997;, Frisia et al, 2006, and probably around the Aegean Sea (Rohling et al, 2002), it increased over Iran , Griffiths et al, 2001Stevens et al, 2006;Wasylikowa et al, 2006). Over northern parts of South Asia, the early and midHolocene appears to have been wetter than the late Holocene and the present day (Swain et al, 1983;Enzel et al, 1999;Bush, 2004, Staubwasser, 2006Prasad and Enzel, 2006).…”

Section: Winter and Spring Rain During The Holocenementioning

confidence: 83%

“…Several records from the Thar desert show an event at that time, but see the detailed discussion by Prasad and Enzel (2006). In western Iran, multiple records exist that indicate the 4.2 ka event, but different proxies conflict regarding the nature of change (Stevens et al, 2006). Several African and central to East Asian records indicate climate change around 4200 cal yr BP, but some apparently of opposite sign.…”

Section: The 42 Ka Abrupt Climate Change Eventmentioning

confidence: 99%

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Holocene Climate and Cultural Evolution in Late Prehistoric–Early Historic West Asia

2006

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The precipitation climatology and the underlying climate mechanisms of the eastern Mediterranean, West Asia, and the Indian subcontinent are reviewed, with emphasis on upper and middle tropospheric flow in the subtropics and its steering of precipitation. Holocene climate change of the region is summarized from proxy records. The Indian monsoon weakened during the Holocene over its northernmost region, the Ganges and Indus catchments and the western Arabian Sea. Southern regions, the Indian Peninsula, do not show a reduction, but an increase of summer monsoon rain across the Holocene. The long-term trend towards drier conditions in the eastern Mediterranean can be linked to a regionally complex monsoon evolution. Abrupt climate change events, such as the widespread droughts around 8200, 5200 and 4200 cal yr BP, are suggested to be the result of altered subtropical upper-level flow over the eastern Mediterranean and Asia.The abrupt climate change events of the Holocene radically altered precipitation, fundamental for cereal agriculture, across the expanse of late prehistoric-early historic cultures known from the archaeological record in these regions. Social adaptations to reduced agro-production, in both dry-farming and irrigation agriculture regions, are visible in the archaeological record during each abrupt climate change event in West Asia. Chronological refinement, in both the paleoclimate and archaeological records, and transfer functions for both precipitation and agro-production are needed to understand precisely the evident causal linkages.

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Section: Winter and Spring Rain During The Holocenementioning

confidence: 83%

Section: The 42 Ka Abrupt Climate Change Eventmentioning

confidence: 99%

Holocene Climate and Cultural Evolution in Late Prehistoric–Early Historic West Asia

2006

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“…(3). Lower precipitation amounts in the southern Levant (1), brine sediments from the northern Red Sea (26), ␦ 13 C and ␦ 18 O data from Göbekli Tepe (27) and Lake Zeribar (28), all point toward a shift to more arid conditions in western Asia during the time period ca. 2250 to 2050 B.C.…”

Section: Resultsmentioning

confidence: 99%

Middle East coastal ecosystem response to middle-to-late Holocene abrupt climate changes

Kaniewski

Paulissen²,

Campo³

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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The Holocene vegetation history of the northern coastal Arabian Peninsula is of long-standing interest, as this Mediterranean/ semiarid/arid region is known to be particularly sensitive to climatic changes. Detailed palynological data from an 800-cm alluvial sequence cored in the Jableh plain in northwest Syria have been used to reconstruct the vegetation dynamics in the coastal lowlands and the nearby Jabal an Nuşayriyah mountains for the period 2150 to 550 B.C. Corresponding with the 4.2 to 3.9 and 3.5 to 2.5 cal kyr BP abrupt climate changes (ACCs), two large-scale shifts to a more arid climate have been recorded. These two ACCs had different impacts on the vegetation assemblages in coastal Syria. The 3.5 to 2.5 cal kyr BP ACC is drier and lasted longer than the 4.2 to 3.9 cal kyr BP ACC, and is characterized by the development of a warm steppe pollen-derived biome (1100 -800 B.C.) and a peak of hot desert pollen-derived biome at 900 B.C. The 4.2 to 3.9 cal kyr BP ACC is characterized by a xerophytic woods and shrubs pollenderived biome ca. 2050 B.C. The impact of the 3.5 to 2.5 cal kyr BP ACC on human occupation and cultural development is important along the Syrian coast with the destruction of Ugarit and the collapse of the Ugarit kingdom at ca. 1190 to 1185 B.C.pollen-derived biomes ͉ Tell Tweini ͉ Syria ͉ bond events

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“…During interglacial peaks, maximum tree pollen percentages reflect warm conditions and higher precipitation from the mid-latitude westerly system. Changes in seasonality were proposed by several authors to explain Holocene climate in the region (Stevens et al, 2001(Stevens et al, , 2006Magny, 2007;Tzedakis, 2007;Peyron et al, 2010;Djamali et al, 2010). At Yammoûneh, sharp δ c increases in phase with arboreal pollen peaks, attributed to enhanced seasonal thermal and hydrological contrasts, suggest that the hypothesis of seasonal changes is valid for older interglacial stages (e.g., MIS 5.5 and MIS 5.1).…”

Section: Comparison With Other Ems Recordsmentioning

confidence: 96%

“…1; Eastwood et al, 2007), or changes in precipitation seasonality (at Lakes Zeribar and Mirabad, NW Iran, Fig. 1; Stevens et al, 2001Stevens et al, , 2006). As discussed above from both pollen and isotope data, we favour the hypothesis of seasonal increased hydrological and thermal contrasts with wet cool winters, possibly a longer rainy season, and very dry warm summers generating strong evaporative effects in both the drainage area and the waterbody.…”

Section: Relationships Between Individual Proxiesmentioning

confidence: 99%

Hydrological variability in the Northern Levant: a 250 ka multi-proxy record from the Yammoûneh (Lebanon) sedimentary sequence

et al. 2011

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Abstract. The Levant is a key region in terms of both long-term hydroclimate dynamics and human cultural evolution. Our understanding of the regional response to glacialinterglacial boundary conditions is limited by uncertainties in proxy-data interpretation and the lack of long-term records from different geographical settings.The present paper provides a 250 ka paleoenvironmental reconstruction based on a multi-proxy approach from northern Levant, derived from a 36 m lacustrine-palustrine sequence cored in the small intra-mountainous karstic Yammoûneh basin from northern Lebanon. We combined time series of sediment properties, paleovegetation, and carbonate oxygen isotopes (δ c ), to yield a comprehensive view of paleohydrologic-paleoclimatic fluctuations in the basin over the two last glacial-interglacial cycles. Integration of all available proxies shows that Interglacial maxima (early-mid MIS 7, MIS 5.5 and early MIS 1) experienced relatively high effective moisture, evidenced by the dominance of forested landscapes (although with different forest types) associated with authigenic carbonate sedimentation in a productive waterbody. Synchronous and steep δ c increases can be reconciled with enhanced mean annual moisture when changes in seasonality are taken into account. During Glacials periods (MIS 2 and MIS 6), open vegetation tends to replace the forests, favouring local erosion and detrital sedimentation.

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Timing of Atmospheric Precipitation in the Zagros Mountains Inferred from a Multi-Proxy Record from Lake Mirabad, Iran

Cited by 139 publications

References 16 publications

Holocene Climate and Cultural Evolution in Late Prehistoric–Early Historic West Asia

Holocene Climate and Cultural Evolution in Late Prehistoric–Early Historic West Asia

Middle East coastal ecosystem response to middle-to-late Holocene abrupt climate changes

Hydrological variability in the Northern Levant: a 250 ka multi-proxy record from the Yammoûneh (Lebanon) sedimentary sequence

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