Determining the spatial and temporal patterns of climate changes in China's western interior during the last 15 ka from lacustrine oxygen isotope records

Yu, Shimin; Ricketts, Richard D.; Colman, Steven M.

doi:10.1002/jqs.1229

Cited by 19 publications

(17 citation statements)

References 77 publications

(107 reference statements)

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“…Liu et al (2009) show that during the late Holocene an intensified Asian winter monsoon correlated with cold events in the North Atlantic and a significant shift in climate between the MWP and LIA was mediated by an enhanced westerly jet stream. Yu et al (2008a) also propose there has been a gradual decay in the strength of the Asian summer monsoon system over the last 2000 years, with a step-wise shift to a weakened monsoon state during the LIA over the northern Tibetan Plateau. A multi-proxy ice core record from Mt.…”

Section: Discussionmentioning

confidence: 94%

Late Holocene isotope hydrology of Lake Qinghai, NE Tibetan Plateau: effective moisture variability and atmospheric circulation changes

Henderson

Holmes

Leng

2010

Quaternary Science Reviews

113

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Section: Discussionmentioning

confidence: 94%

Late Holocene isotope hydrology of Lake Qinghai, NE Tibetan Plateau: effective moisture variability and atmospheric circulation changes

Henderson

Holmes

Leng

2010

Quaternary Science Reviews

113

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“…a BP (Fig. 2), indicating a progressive increase of wetland biomass in response to the gradual strengthening of the summer monsoon (Jarvis 1993; Sirocko et al 1993; Wang et al 1999; Gupta et al 2003; Morrill et al 2003; Dykoski et al 2005; Yu et al 2009).…”

Section: Resultsmentioning

confidence: 99%

Postglacial changes in the Asian summer monsoon system: a pollen record from the eastern margin of the Tibetan Plateau

Zhou¹,

Yu²,

Burr³

et al. 2010

Boreas

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“…According to Morrill et al (2003), this cold event which was recorded between 5.0 and 4.5 cal ka BP was apparently widespread across central Asia and was also inferred from Lake Donggi Cona and adjacent thermokarst lakes (Opitz et al, 2012(Opitz et al, , 2013, Lake Ximencuo (Zhang and Mischke, 2009) and Lake Bangong (Van Campo and Gasse, 1993;Gasse et al, 1996) on the TP. Within dating uncertainty, this cold event is also referred to as the "4.2 event" (Yu et al, 2000(Yu et al, , 2009.…”

Section: Late Holocenementioning

confidence: 99%

“…Cooling after 5.0 cal ka BP can be regarded as a widespread climate event in eastern and central to southern Asia (Yu et al, 2009;Mischke and Zhang, 2010), and the Indian subcontinent (Staubwasser et al, 2003). This incipient cold period might have resulted in significant aridification and the collapse of 'Old World' cultures (Yu et al, 2000) and ancient civilizations in central China (deMenocal, 2001;Wu and Liu, 2004;Shao et al, 2006;Mischke and Zhang, 2010).…”

Section: Late Holocenementioning

confidence: 99%

Climate variability on the south-eastern Tibetan Plateau since the Lateglacial based on a multiproxy approach from Lake Naleng – comparing pollen and non-pollen signals

Opitz

Zhang

Herzschuh

et al. 2015

Quaternary Science Reviews

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A multi-proxy Late Glacial environmental record is described from Lake Naleng (31.10°N; 99.75°E, 4200 m above sea level), situated on southeastern Tibetan Plateau to gain deeper insights into the hydrological and palaeoclimate development since 17.7 cal ka BP. Palynological reconstructions of variations in mean annual precipitation (MAP) and temperature (MAT), sedimentological data and sediment chemistry including weathering indicators provide a multi-faceted picture of local and regional environmental changes since the Late Glacial. Principal component analyses of all parameters provide information on interrelationships between each parameters, which help to evaluate their traceability to temperature and precipitation and to estimate their usability as proxy indicators for local and or regional variations. During the Late Glacial from 17.7 to 14.0 cal ka BP Lake Naleng experienced cold and dry climate conditions with low biological productivity and supply of unaltered fine-grained material due to the high supply of glacier milk. During the second half of the Late Glacial, climate conditions changed abruptly: increases in MAT (from-4 to-2.2°C) and MAP (from 500 mm to 820 mm) between 14.0 and 13.0 cal ka BP indicate a climate amelioration. This time interval can be correlated to the Bølling/Allerød (B/A) warming period in the North Atlantic region and is followed by the Younger Dryas cold reversal indicated by abrupt decreases of MAT (from-2.2 to-5°C) and MAP (from 820 to 650 mm). The onset of the Holocene at about 11.5 cal ka BP is indicated by rises in reconstructed MAT (from-5 to about-0.3°C) and MAP (from 600 mm to 950 mm), which led to an increased supply of weathered material and higher biological productivity. Between 5.0 and 3.0 cal ka BP, MAT increases to about 0.2°C and MAP rises to maximum values of about 1000 mm, followed by slightly decreasing MAT and MAP between 3.0 and 0 cal ka BP. The biogeochemical parameters (total organic carbon (TOC), C/N, 13 C org) and weathering indicators (e.g. the chemical index of alteration (CIA) and Sr/Ba) are directly (erosion of soils) or indirectly (changing provenance) related to moisture availability on the southeastern TP and shows matching regional climate oscillations since the Late Glacial. In comparison to other Late-Glacial records from the TP, MAP reconstructions from Lake Naleng indicate wetter climate conditions in the southeastern part of the TP and dryer conditions farther away from moisture sources. and for a discussion of spatial heterogeneities of climate change on the TP (Shen et al., 2005; Mischke and Zhang, 2010). In this context, lake archives from the TP provide valuable information about environmental and climate change since the Late Glacial. However, different and interacting processes affect lake systems on the TP: hydrological and tectonic changes in the catchment, the existence of glaciers, or variations in precipitation, temperature and evaporation. Commonly used palaeolimnological proxies differ in the degree to which they are known to tra...

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Determining the spatial and temporal patterns of climate changes in China's western interior during the last 15 ka from lacustrine oxygen isotope records

Cited by 19 publications

References 77 publications

Late Holocene isotope hydrology of Lake Qinghai, NE Tibetan Plateau: effective moisture variability and atmospheric circulation changes

Late Holocene isotope hydrology of Lake Qinghai, NE Tibetan Plateau: effective moisture variability and atmospheric circulation changes

Postglacial changes in the Asian summer monsoon system: a pollen record from the eastern margin of the Tibetan Plateau

Climate variability on the south-eastern Tibetan Plateau since the Lateglacial based on a multiproxy approach from Lake Naleng – comparing pollen and non-pollen signals

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