Winter climate changes over East Asian region under RCP scenarios using East Asian winter monsoon indices

Hong, J. K.; Ahn, Joong‐Bae; Jhun, Jong-Ghap

doi:10.1007/s00382-016-3096-5

Cited by 15 publications

(18 citation statements)

References 58 publications

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“…The pre‐1920s increase and the post‐1920s decrease in our coral‐based PP record for the NSCS correspond to the strengthening and the weakening, respectively, of the EAWM during these periods. Studies based on coupled models have suggested that the EAWM may weaken in the future because of the reduction in the land‐sea thermal contrast under emissions‐driven global warming scenarios (Hong et al, ; Hori & Ueda, ; Hu et al, ). Therefore, the PP in the NSCS will likely decrease in the coming decades due to the projected weakening of the EAWM, and this decrease may significantly impact the marine ecosystem and the biogeochemical cycles in the NSCS.…”

Section: Resultsmentioning

confidence: 99%

“…because of the reduction in the land-sea thermal contrast under emissions-driven global warming scenarios (Hong et al, 2016;Hori & Ueda, 2006;Hu et al, 2000). Therefore, the PP in the NSCS will likely decrease in the coming decades due to the projected weakening of the EAWM, and this decrease may significantly impact the marine ecosystem and the biogeochemical cycles in the NSCS.…”

Section: Resultsmentioning

confidence: 99%

“…Coincidentally, the weakening of both the EAWM and the PP since the 1920s has corresponded to the onset/acceleration of global warming (Hansen et al, 2010;Jones et al, 1999). Global warming preferentially warms high-latitude continents relative to the oceans and, in turn, weakens both the land-sea thermal contrast and the land-sea pressure gradient, leading to the weakening of the EAWM (Hong et al, 2016;Hu et al, 2000). This weakening could result in a decrease in the PP in the NSCS by weakening the vertical mixing therein and limiting the amount of nutrients introduced into the euphotic zone (Behrenfeld et al, 2006;Falkowski et al, 1998;Liu et al, 2002Liu et al, , 2013.…”

Section: The Winter Monsoon Forcing Of the Primary Productivity In Thmentioning

confidence: 99%

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Links Between the Coral δ¹³C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

Han

Yan

et al. 2019

Geophysical Research Letters

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The decadal variability of ocean primary productivity (PP) has mainly been studied using relatively short term satellite data, limiting its in-depth analysis. Here, by removing the influence of the 13 C Suess effect, we extract the PP signal on decadal timescales using a record of coral δ 13 C values from the northern South China Sea (NSCS), where the physical-biogeochemical conditions are influenced largely by the winter monsoon. Our results show that the PP in the NSCS increased from 1851 to the 1920s and decreased from the 1920s to 2007, and large superimposed decadal-scale changes were observed. The in-phase relationship observed between the PP reconstruction and winter monsoon records suggests that the changes in the PP in the NSCS are linked to decadal-scale changes in the winter monsoon. Considering that the winter monsoon intensity may weaken in the future under global warming, the PP in the NSCS might decrease in the coming decades.Plain Language Summary Marine phytoplankton contributes roughly half of the global primary production and thus constitutes a vital component of the marine ecosystem that serves as the foundation of the marine food web. Due to the relatively short length of observation records, evaluations of the long-term changes in ocean primary productivity (PP) have suffered from large uncertainties, which have hampered further discussion of the decadal variability of PP in a long-term context. To discuss the decadal variability of the PP beyond the range of satellite observations, we present a coral-based PP reconstruction since 1851 CE from the northern South China Sea (NSCS), where the physical-biogeochemical conditions are influenced largely by the winter monsoon. Our results show considerable decadal variability of the PP in the NSCS superimposed on a pre-1920s increase and a post-1920s decrease. We also found an in-phase relationship between the decadal variability of the reconstructed PP and the winter monsoon records over the past 150 years, indicating that the PP in the NSCS is linked to changes in the winter monsoon forcing on decadal timescales. Considering that the winter monsoon intensity may weaken in the future under global warming scenarios, the PP in the NSCS might decrease in the coming decades.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: The Winter Monsoon Forcing Of the Primary Productivity In Thmentioning

confidence: 99%

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Links Between the Coral δ¹³C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

Han

Yan

et al. 2019

Geophysical Research Letters

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“…Based on the surface meridional wind strength index, the ensemble mean of CMIP3 and CMIP5 models shows a weakening (strengthening) East Asian winter monsoon circulation north (south) of approximately 25°N, associated with the northward shift of the Aleutian Low, and decreased northwest-southeast thermal and sea level pressure differences across Northeast Asia (Jiang and Tian 2013). The CMIP5 MME projects significant intensification and a northward shift of the Aleutian Low, associated with strong warming over the high-latitude North Pacific owing to a reduction of sea ice in the Bering Sea and the Okhotsk Sea (Ogata et al 2014;Hong et al 2016;Xu et al 2016). A cyclonic circulation anomaly north of 40°N and an anticyclonic anomaly south of 40°N in the North Pacific are consistent with the positive trend of the AO.…”

Section: (2) East Asian Monsoonmentioning

confidence: 99%

The Asian Monsoon and its Future Change in Climate Models: A Review

Kitoh

2017

Journal of the Meteorological Society of Japan

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This study provides an overview of the Asian monsoon and its change as simulated by atmosphere-ocean coupled general circulation models and high-resolution atmospheric general circulation models, focusing on the seasonal mean circulation and precipitation climatology. After reviewing the drivers of and the elements that affect the monsoon, the ability of those climate models to reproduce the Asian monsoon is assessed. The Asian monsoon is better reproduced in the Coupled Modeling Intercomparison Project phase 5 (CMIP5) models than in the CMIP3 models, although biases remain. Projected future changes in the Asian monsoon at the end of the 21st century are then reviewed. Overall projections are similar for both CMIP3 and CMIP5 models with increases in precipitation, albeit with weakened circulation in the South Asian summer, enhanced circulation and increased precipitation in the East Asian summer, and latitude-dependent changes in the winter monsoon circulation in East Asia. However, differences exist in the projected local changes, leading to uncertainty in projections.

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“…The performances of the models in the Coupled Model Intercomparison Project phase 5 (CMIP5) in simulating EAWM are better than those in CMIP3 [23]. The multimodel ensemble (MME) of CMIP5 models is able to reproduce the overall characteristics of EAWM very well [24,25], although the climatological strength of the EAT is overestimated by most of the models [23,24]. However, the performances of CMIP5 models in the variation of EAT are unclear.…”

Section: Introductionmentioning

confidence: 99%

Activity Characteristics of the East Asian Trough in CMIP5 Models

Chen

Xing²,

et al. 2018

Atmosphere

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Abstract:In this paper, the performances of 12 CMIP5 (Coupled Model Intercomparison Project phase 5) models for simulating the climatology and interannual variability of the East Asian trough (EAT) are assessed using the National Centers for Environmental Prediction (NCEP) reanalysis data and the outputs of the CMIP5 models. The multimodel ensemble (MME) successfully reproduces the spatial pattern and spatial variations in the climatology and interannual variability of the EAT but the intensity and interannual variability of EAT are weaker than in the observations. The biases in intensity (interannual variability) are larger over the southern (northern) part of the EAT than over the northern (southern) part. The intermodel spreads are small for the EAT intensity but are large for its location in terms of both latitude and longitude. The simulated EAT in the MME is about 3 • E and 1.5 • S of that observed. All 12 CMIP5 models reproduce the first empirical orthogonal function (EOF) mode of EAT activity; however, its intensity and location are only successfully captured in half of the models and its linear weakening trend is simulated in ten models. The second EOF mode of EAT activity and its linear strengthening trend are successfully reproduced in eight models.

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Winter climate changes over East Asian region under RCP scenarios using East Asian winter monsoon indices

Cited by 15 publications

References 58 publications

Links Between the Coral δ¹³C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

Links Between the Coral δ¹³C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

The Asian Monsoon and its Future Change in Climate Models: A Review

Activity Characteristics of the East Asian Trough in CMIP5 Models

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Winter climate changes over East Asian region under RCP scenarios using East Asian winter monsoon indices

Cited by 15 publications

References 58 publications

Links Between the Coral δ13C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

Links Between the Coral δ13C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

The Asian Monsoon and its Future Change in Climate Models: A Review

Activity Characteristics of the East Asian Trough in CMIP5 Models

Contact Info

Product

Resources

About

Links Between the Coral δ¹³C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon

Links Between the Coral δ¹³C Record of Primary Productivity Variations in the Northern South China Sea and the East Asian Winter Monsoon