Role of the Asian Monsoon on the Interannual Variability of the Global Climate System

Yasunari, Tetsuzo; Seki, Yoshinobu

doi:10.2151/jmsj1965.70.1b_177

Cited by 132 publications

(61 citation statements)

References 32 publications

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“…El Niño-southern oscillation (ENSO) has a vigorous impact on the change of mid-latitude westerly regimes (Yasunari and Seki, 1992). If the interannual variation of the snow-cover extent is closely linked to the tropospheric circulation, the modulation of the westerly jet due to the ENSO phenomenon may change the summer monsoon activity through land-atmosphere interaction.…”

Section: Conclusion and Discussionmentioning

confidence: 99%

Spring northward retreat of Eurasian snow cover relevant to seasonal and interannual variations of atmospheric circulation

Ueda

Shinoda

Kamahori

2003

Intl Journal of Climatology

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An observational study is made of the seasonal and interannual variations of spring snow-disappearance over the Eurasian continent and the circulation mechanisms causing those variations. The spring northward retreat of the snow boundary over the East European Plain (EEP) between 30 and 60°E is faster (0.4°per day) than to the east of the Ural Mountain range (0.3°per day). These migrations of the snow boundary lag behind the appearance of the surface air temperature 0°C by about 1 to 5 pentads.The analyses of the atmospheric heat and moisture budgets showed that the seasonal intrusion of warm air associated with southwesterly winds is primarily responsible for the rapid snowmelt in March and April over the EEP. In addition, the adiabatic heating of descending air plays a secondary role in the snowmelt in mid-March. On an interannual time scale, horizontal warm advection also plays an essential role in the spring northward retreat of snow cover extent.The present study confirms the previous finding that the surface air temperature anomalies, produced during the seasonal snow-disappearance period, diminished in May, suggesting a weak dynamical linkage between the EEP snow cover and Asian summer monsoon.

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Section: Conclusion and Discussionmentioning

confidence: 99%

Spring northward retreat of Eurasian snow cover relevant to seasonal and interannual variations of atmospheric circulation

Ueda

Shinoda

Kamahori

2003

Intl Journal of Climatology

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“…It was suggested that the relationship has weakened since the 1980s and one explanation was that increasing mid latitude continental temperatures have favoured strong monsoons (Kumar et al, 1999). Another possibility may be related to decadal variations of the NAO which is found to be a significant mechanism affecting Asian monsoon and El Niñ o relationships (Yasunari and Seki, 1992).…”

Section: Conclusion and Discussionmentioning

confidence: 99%

“…Studies by Yang (1996) and Yang and Lau (1998) suggest that El Niñ o plays a more significant role in Indian monsoon rainfall anomalies than Eurasian winter snow cover and related soil moisture. Yasunari and Seki (1992) proposed that the interactions between Asian summer monsoon and El Niñ o are strongly modified by the North Atlantic Oscillation (NAO) which stochastically amplifies or dampens the biannual nature of the monsoon and the coupled tropical atmosphere/ocean system. In summary, it seems that (i) snow volume (or depth) has a more significant connection to summer monsoon rainfall than snow coverage; (ii) the teleconnections between winter snow and summer rainfall are geographically dependent; and (iii) abnormal SSTs over the eastern tropical Pacific interact with Eurasian snowfall and monsoon rainfall through extratropical atmospheric circulation.…”

Section: Introductionmentioning

confidence: 99%

Lagged teleconnections between snow depth in northern Eurasia, rainfall in Southeast Asia and sea‐surface temperatures over the tropical Pacific Ocean

Zhaorigetu

2001

Intl Journal of Climatology

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This study shows that above-(below-)normal winter snow depth over European Russia and corresponding below-(above-)normal snow depth over central Siberia is associated with reduced (increased) summer monsoon rainfall over southern and western India and eastern Pakistan, and above-(below-)normal sea-surface temperatures (SSTs) over the eastern and central tropical Pacific Ocean during the following winters. The connection is slightly stronger when snow depth over European Russia is above normal than below normal. These results are derived from an examination of 60 years of winter snow depth data and SSTs, and 45 years (1951 -1995) of summer precipitation records. The results of this study suggest that winter snow depth over the western rather than the eastern portion of Eurasia is critical to Southeast Asian summer monsoon rainfall and eastern tropical Pacific SSTs during the following seasons.

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“…This also suggests the contribution of diatoms to TOC was less and that from other phytoplankton was significant before 1.2 Ma ago. The upheaval of the Himalayas around 1.2 Ma ago has been considered to cause a big climate change (Yasunari and Seki, 1992), and the second cooling event in the Baikal record occurred 1.8 Ma ago . Such big climate changes may correspond to the diminution of dinoflagellate and green algae.…”

Section: Resultsmentioning

confidence: 99%

2.8 million years of phytoplankton history in Lake Baikal recorded by the residual photosynthetic pigments in its sediment core.

et al. 2001

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We have been able to reconstruct the changes that have occurred in the phytoplankton community of Lake Baikal over the past 2.8 million years (Ma) by measuring the abundance of residual steryl chlorin esters (SCEs) in the 0-100m section of the 600 m long BDP98 sediment core. The sterol composition of SCEs showed remarkable variations among interglacial periods, and green algae and dinoflagellates, apart from diatoms, had been abundant in Lake Baikal until 1.2 Ma ago.

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Role of the Asian Monsoon on the Interannual Variability of the Global Climate System

Cited by 132 publications

References 32 publications

Spring northward retreat of Eurasian snow cover relevant to seasonal and interannual variations of atmospheric circulation

Spring northward retreat of Eurasian snow cover relevant to seasonal and interannual variations of atmospheric circulation

Lagged teleconnections between snow depth in northern Eurasia, rainfall in Southeast Asia and sea‐surface temperatures over the tropical Pacific Ocean

2.8 million years of phytoplankton history in Lake Baikal recorded by the residual photosynthetic pigments in its sediment core.

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