24 research outputs found
ダイ43ジ ナンキョク チイキ カンソクタイ キショウ ブモン ホウコク 2002
この報告は,第43次南極地域観測隊気象部門が,2002年2月1日から2003年1月31日まで,昭和基地を中心に行った気象観測結果をまとめたものである.観測方法,測器,統計方法等は,第42次隊とほぼ同様である. 越冬期間中,特記される気象現象として,次のものが挙げられる.1) 地上気象観測では,5月から10月にかけて気温が平年より高く,月平均気温の高い方,日最高気温の月平均の高い方,日最低気温の月平均の高い方の極値の更新があった.また9月中旬にあったA級ブリザードは,最大瞬間風速57.9m/s, 最大10分間平均風速45.4m/sであった.これは9月として1位,通年の統計でも3位の強風であった.2) 高層気象観測では,成層圏突然昇温が例年より早く発現(7月上旬)し,9月末には,南半球では初めて観測された極渦の2分離を伴う成層圏大突然昇温が起こった.3) オゾン全量観測においては,8月上旬から10月中旬にかけてオゾンホールを観測したが,10月下旬以降はこの20年間の平均よりも多い値で推移した.This report describes the result of meteorological observations at Syowa Station and neighboring areas from February 1, 2002 to January 31, 2003, carried out by the Meteorological Observation Team of the 43rd Japanese Antarctic Research Expedition (JARE-43). Instruments and methods for compiling data were almost the same as those used in the 42nd Expedition. Remarkable weather phenomena observed during the period were as follows.1) In the surface weather observations, air temperature was higher than in a normal year from May to October. In addition, a blizzard (Class A), observed in the middle of September, recorded 57.9m/s (maximum instantaneous wind velocity) and 45.4m/s (maximum 10 minutes average wind velocity). These wind speed were the maximum values ever observed in September and third rank in any month.2) In aerological observations, sudden warming in the lower stratosphere appeared earlier (beginning of July), and major warming with vortex split which was the first observation in the Southern Hemisphere occurred in late September.3) The ozone hole was observed from the beginning of August to the middle of October. After late October, the total ozone amount was higher than the average of the last 20 years
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COnstraining ORographic Drag Effects (COORDE): A Model Comparison of Resolved and Parametrized Orographic Drag
The parametrization of orographic drag processes is a major source of circulation uncertainty in models. The COnstraining ORographic Drag Effects (COORDE) project makes a coordinated effort to narrow this uncertainty by bringing together the modeling community to: explore the variety of orographic drag parametrizations employed in current operational models; assess the resolution sensitivity of resolved and parametrized orographic drag across models; and to validate the parametrized orographic drag in low-resolution simulations using explicitly resolved orographic drag from high-resolution simulations. Eleven models from eight major modeling centers are used to estimate resolved orographic drag from high-resolution (km-scale) simulations and parametrized orographic drag from low-resolution simulations, typically used for seasonal forecasting (∼40 km) and climate projections (∼100 km). In most models, at both seasonal and climate resolutions, the total (resolved plus parametrized) orographic gravity wave drag over land is shown to be underestimated by a considerable amount (up to 50%) over the Northern and Southern Hemisphere and by more than 60% over the Middle East region, with respect to the resolved gravity wave drag estimated from km-scale simulations. The km-scale simulations also provide evidence that the parametrized surface stress and the parametrized low-level orographic drag throughout the troposphere are overestimated in most models over the Middle East region, particularly at climate resolutions. Through this process-based evaluation, COORDE provides model developers new valuable information on the current representation of orographic drag at seasonal and climate resolutions and the vertical partitioning of orographic low-level and gravity wave drag.
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Meteorological observations at Syowa Station in 2002 by the 43rd Japanese Antarctic Research Expedition
This report describes the result of meteorological observations at Syowa Station and neighboring areas from February 1, 2002 to January 31, 2003, carried out by the Meteorological Observation Team of the 43rd Japanese Antarctic Research Expedition (JARE-43). Instruments and methods for compiling data were almost the same as those used in the 42nd Expedition. Remarkable weather phenomena observed during the period were as follows.1) In the surface weather observations, air temperature was higher than in a normal year from May to October. In addition, a blizzard (Class A), observed in the middle of September, recorded 57.9m/s (maximum instantaneous wind velocity) and 45.4m/s (maximum 10 minutes average wind velocity). These wind speed were the maximum values ever observed in September and third rank in any month.2) In aerological observations, sudden warming in the lower stratosphere appeared earlier (beginning of July), and major warming with vortex split which was the first observation in the Southern Hemisphere occurred in late September.3) The ozone hole was observed from the beginning of August to the middle of October. After late October, the total ozone amount was higher than the average of the last 20 years
One-Pot Synthesis of Cu(II) Complex with Partially Oxidized TTF Moieties
The one-pot synthesis of a Cu(II) complex with partially oxidized tetrathiafulvalene (TTF) moieties in its capping MT-Hsae-TTF ligands, [CuII(MT-sae-TTF)2] [CuICl2] was realized by the simultaneous occurrence of Cu(II) complexation and CuIICl2 mediated oxidation of TTF moieties. The crystal structure was composed of one-dimensional columns formed by partially oxidized TTF moieties and thus the cation radical salt showed relatively high electrical conductivity. Tight binding band structure calculations indicated the existence of a Peierls gap due to the tetramerization of the TTF moieties in the one-dimensional stacking column at room temperature, which is consistent with the semiconducting behavior of this salt
Which orographic scales matter most for medium‐range forecast skill in the Northern Hemisphere winter?
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