Holocene hydroclimate reconstruction based on pollen, XRF, and grain-size analyses and its implications for past societies of the Korean Peninsula

Park, Jinheum; Park, Jungjae; Yi, Sangheon; Lim, Jaesoo; Kim, Jin Cheul; Jin, Qiuhong; Choi, Jieun

doi:10.1177/09596836211019115

“…The results of previous pollen studies in the Korean peninsula have suggested that the climate was comparatively dry during periods when WTP SSTs cooled because of long-term El Niño-Southern Oscillation-type variations 2 , 19 – 22 . The frequency of El Niño events may have increased, leading to reduced WTP SSTs and a smaller amount of atmospheric water vapor above the oceanic source region where the East Asian summer monsoon originates.…”

Section: Resultsmentioning

confidence: 99%

Mid-to-late Holocene climate variability in coastal East Asia and its impact on ancient Korean societies

Park,

Bahk,

Park

et al. 2023

Sci Rep

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The sustainability of human societies is contingent upon our ability to accurately predict the effects of future climate change on the global environment and humanity. Wise responses to forthcoming environmental alterations require extensive knowledge from historical precedents. However, in coastal East Asia, a region with a long history of agriculture, it is challenging to obtain paleoenvironmental proxy data without anthropogenic disturbances that can be used to assess the impact of late Holocene climate change on local communities. This study introduces a high-resolution multi-proxy sedimentary record from an isolated crater in Jeju Island, Korea, to elucidate the mechanisms underlying mid-to-late Holocene climate change and its impacts on ancient societies. Our findings suggest that hydroclimate changes were predominantly governed by sea surface temperature fluctuations in the western tropical Pacific, with low-frequency variability in solar activity and a decrease in summer insolation identified as primary drivers of temperature change. Moreover, ancient societies on the Korean peninsula were significantly affected by recurring cooling events, including the 2.8 ka event, 2.3 ka event, Late Antique Little Ice Age, maunder minimum, and others.

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“…Human activity as a generator of flooding, or at least as an enhancer of flood events, during the middle to late Holocene needs to be considered. Recent studies have tested the possible relationship between population and climate change during the early to late Holocene (Oh et al, 2017; Park et al, 2021). Based on the comparison between pollen analyses from Miryang area in Korea and summed probability distributions of radiocarbon dates from archeological sites in Korea as a proxy for change in population levels, Park et al (2021) suggested that dry periods correspond to lower population levels during the early to late Holocene and that human societies were vulnerable to climate changes.…”

Section: Resultsmentioning

confidence: 99%

“…Recent studies have tested the possible relationship between population and climate change during the early to late Holocene (Oh et al, 2017; Park et al, 2021). Based on the comparison between pollen analyses from Miryang area in Korea and summed probability distributions of radiocarbon dates from archeological sites in Korea as a proxy for change in population levels, Park et al (2021) suggested that dry periods correspond to lower population levels during the early to late Holocene and that human societies were vulnerable to climate changes. Despite this climatic influence on human activity, it seems difficult to separate the human role (e.g., through deforestation) as a trigger of flooding from natural climate changes in detail due to lack of case studies showing human activity and resultant flooding events during the early to late Holocene.…”

Section: Resultsmentioning

confidence: 99%

Hydroclimate change and its controlling factors during the middle to late Holocene and possible 3.7-ka climatic shift over East Asia

Lim

¹

,

Um

²

,

Yi

³

et al. 2022

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The history of past hydroclimatic extreme events, essential information for predicting future changes, is preserved in fluvial sediments. Here, we reconstruct changes in decadal-scale extreme flooding events over the period 7700–1700 cal yr BP from floodplain sediments in the middle reach of the Nakdong River, Korea, based on lithogenic elemental ratios (e.g., Zr/Ti and Sr/Si). For example, Nakdong extreme flooding (NEF) events frequently occurred at 7700, 7200, 6000, 5000, 3800, 3200, 2900, 2600, 2300, 2000, and 1700 cal yr BP, and were associated with higher sea-surface temperatures and strong El Niño-Southern Oscillation (ENSO) activity. Notably, we found a significant change in the frequency of extreme events ca. 3700 cal yr BP over East Asia. The hydroclimate fluctuated with dominant periodicities of 950 and 540 years in 7700–3700 cal yr BP and shorter centennial to decadal cycles (320, 110–120, and 60–75 years) in 3700–1700 cal yr BP. This 3.7-ka climatic shift is consistent with a marked southward shift of the intertropical convergence zone, intensified ENSO activity, increased frequency of recurving typhoons, and deep-ocean circulation changes in both the northern and southern hemispheres, demonstrating the urgent need for investigating the critical role of past deep-water circulation in hydroclimate changes.

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“…Nevertheless, the exact cause of the culture's rapid decline remains unknown. Recent paleoclimate data from the Korean Peninsula suggest that the cause was climate deterioration around 2800 and 2300 years ago, likely related to changes in WTP SSTs 2,21,54 .…”

Section: Societal Response To Climate Changementioning

confidence: 99%

Mid-to-late Holocene climate variability in coastal East Asia and its impact on ancient Korean societies

Park,

Bhak,

Park

et al. 2023

Preprint

Self Cite

0

View full text Add to dashboard Cite

The sustainability of human societies is contingent upon our ability to accurately predict the effects of future climate change on the global environment and humanity. Wise responses to forthcoming environmental alterations require extensive knowledge from historical precedents. However, in coastal East Asia, a region with a long history of agriculture, it is challenging to obtain paleoenvironmental proxy data without anthropogenic disturbances that can be used to assess the impact of late Holocene climate change on local communities. This study introduces a high-resolution multi-proxy sedimentary record from an isolated crater in Jeju Island, Korea, to elucidate the mechanisms underlying mid-to-late Holocene climate change and its impacts on ancient societies. Our findings suggest that hydroclimate changes were predominantly governed by sea surface temperature fluctuations in the western tropical Pacific, with low-frequency variability in solar activity and a decrease in summer insolation identified as primary drivers of temperature change. Moreover, ancient societies on the Korean peninsula were significantly affected by recurring cooling events, including the 2.8 ka event, 2.3 ka event, Late Antique Little Ice Age, maunder minimum, and others.

show abstract

Holocene hydroclimate reconstruction based on pollen, XRF, and grain-size analyses and its implications for past societies of the Korean Peninsula

Cited by 10 publications

References 98 publications

Mid-to-late Holocene climate variability in coastal East Asia and its impact on ancient Korean societies

Mid-to-late Holocene climate variability in coastal East Asia and its impact on ancient Korean societies

Hydroclimate change and its controlling factors during the middle to late Holocene and possible 3.7-ka climatic shift over East Asia

Mid-to-late Holocene climate variability in coastal East Asia and its impact on ancient Korean societies

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