Nocturnal low‐level jet and ‘atmospheric streams’ over the rain shadow region of Indian Western Ghats
Spatial and temporal characteristics of a nocturnal low‐level jet (LLJ) on the east side of the Western Ghat mountain range over India's west coast and processes leading to the formation of the jet are discussed. The boundary‐layer jet has a regional scale extent, as revealed by high‐resolution...
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| Veröffentlicht in: | Quarterly journal of the Royal Meteorological Society 2011-07, Vol.137 (658), p.1273-1287 |
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| container_title | Quarterly journal of the Royal Meteorological Society |
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| creator | Prabha, T. V. Goswami, B. N. Murthy, B. S. Kulkarni, J. R. |
| description | Spatial and temporal characteristics of a nocturnal low‐level jet (LLJ) on the east side of the Western Ghat mountain range over India's west coast and processes leading to the formation of the jet are discussed. The boundary‐layer jet has a regional scale extent, as revealed by high‐resolution Advanced Research Weather Research and Forecasting (ARW) model simulations, and contributes to the formation of ‘atmospheric streams’ of water vapor over the selected land regions. Simulations indicate that the formation of LLJ is mainly attributed to the baroclinicity of the valley atmosphere due to the gently rolling terrain, which is assisted by the persistence of an unstable residual layer above the developing stable boundary layer in the valley and cooling over the slopes. Prior to the formation of LLJ, the boundary layer is dominated by deep roll circulations. The LLJ followed a gust front zone associated with a mountain wave. The low‐level flow below the jet is decoupled from the upper‐level flow as a result of strong vorticity below the jet and suppression of turbulence at the jet core. A conceptual model for the boundary layer interactions, dynamics of the mountain wave, LLJ, etc. are proposed for Western Ghat region. Copyright © 2011 Royal Meteorological Society |
| doi_str_mv | 10.1002/qj.818 |
| format | Article |
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V. ; Goswami, B. N. ; Murthy, B. S. ; Kulkarni, J. R.</creator><creatorcontrib>Prabha, T. V. ; Goswami, B. N. ; Murthy, B. S. ; Kulkarni, J. R.</creatorcontrib><description>Spatial and temporal characteristics of a nocturnal low‐level jet (LLJ) on the east side of the Western Ghat mountain range over India's west coast and processes leading to the formation of the jet are discussed. The boundary‐layer jet has a regional scale extent, as revealed by high‐resolution Advanced Research Weather Research and Forecasting (ARW) model simulations, and contributes to the formation of ‘atmospheric streams’ of water vapor over the selected land regions. Simulations indicate that the formation of LLJ is mainly attributed to the baroclinicity of the valley atmosphere due to the gently rolling terrain, which is assisted by the persistence of an unstable residual layer above the developing stable boundary layer in the valley and cooling over the slopes. Prior to the formation of LLJ, the boundary layer is dominated by deep roll circulations. The LLJ followed a gust front zone associated with a mountain wave. The low‐level flow below the jet is decoupled from the upper‐level flow as a result of strong vorticity below the jet and suppression of turbulence at the jet core. A conceptual model for the boundary layer interactions, dynamics of the mountain wave, LLJ, etc. are proposed for Western Ghat region. 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V.</creatorcontrib><creatorcontrib>Goswami, B. N.</creatorcontrib><creatorcontrib>Murthy, B. S.</creatorcontrib><creatorcontrib>Kulkarni, J. R.</creatorcontrib><title>Nocturnal low‐level jet and ‘atmospheric streams’ over the rain shadow region of Indian Western Ghats</title><title>Quarterly journal of the Royal Meteorological Society</title><description>Spatial and temporal characteristics of a nocturnal low‐level jet (LLJ) on the east side of the Western Ghat mountain range over India's west coast and processes leading to the formation of the jet are discussed. The boundary‐layer jet has a regional scale extent, as revealed by high‐resolution Advanced Research Weather Research and Forecasting (ARW) model simulations, and contributes to the formation of ‘atmospheric streams’ of water vapor over the selected land regions. Simulations indicate that the formation of LLJ is mainly attributed to the baroclinicity of the valley atmosphere due to the gently rolling terrain, which is assisted by the persistence of an unstable residual layer above the developing stable boundary layer in the valley and cooling over the slopes. Prior to the formation of LLJ, the boundary layer is dominated by deep roll circulations. The LLJ followed a gust front zone associated with a mountain wave. The low‐level flow below the jet is decoupled from the upper‐level flow as a result of strong vorticity below the jet and suppression of turbulence at the jet core. A conceptual model for the boundary layer interactions, dynamics of the mountain wave, LLJ, etc. are proposed for Western Ghat region. Copyright © 2011 Royal Meteorological Society</description><subject>atmospheric streams</subject><subject>Atmospherics</subject><subject>Boundary layer</subject><subject>Computer simulation</subject><subject>Earth, ocean, space</subject><subject>Exact sciences and technology</subject><subject>External geophysics</subject><subject>gust front</subject><subject>low‐level jet</subject><subject>Mathematical models</subject><subject>Meteorology</subject><subject>moisture transport</subject><subject>mountain waves</subject><subject>Mountains</subject><subject>nocturnal boundary layer</subject><subject>Physics of the high neutral atmosphere</subject><subject>residual layer</subject><subject>rolls</subject><subject>Slopes</subject><subject>Streams</subject><subject>Valleys</subject><issn>0035-9009</issn><issn>1477-870X</issn><issn>1477-870X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><recordid>eNp10MtKAzEUxvEgCtbbM2Sj6GI0yVySWYp4qRRFUHQ3HDMndmqatMnU4q6P4FJfr0_iSMWdq7P58efwEbLH2TFnTJxMR8eKqzXS45mUiZLsaZ30GEvzpGSs3CRbMY4YY7kUskdeb7xuZ8GBpdbPl4sPi29o6QhbCq6my8UntGMfJ0MMjaaxDQjjuFx8Uf-GgbZDpAEaR-MQaj-nAV8a76g3tO_qBhx9xNhicPRyCG3cIRsGbMTd37tNHi7O78-uksHtZf_sdJDoNBcqybHQNeOFeJYIJS-NqrEWKIxJIQMpsudcaQYK67wstVZS18pkGSsUpKnRebpNDlfdSfDTWfdBNW6iRmvBoZ_FijMuS5mqLOvowYrq4GMMaKpJaMYQ3jtU_axZTUdVt2YH93-bEDVYE8DpJv5pkaWFKLjs3NHKzRuL7__Uqrvrn-Y3nnGFuQ</recordid><startdate>201107</startdate><enddate>201107</enddate><creator>Prabha, T. 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R.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3528-5e6cd0162b7ea919f8ded2e2ff3a4a724b58c0a8ed599cc87cd8f44068a33fc53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2011</creationdate><topic>atmospheric streams</topic><topic>Atmospherics</topic><topic>Boundary layer</topic><topic>Computer simulation</topic><topic>Earth, ocean, space</topic><topic>Exact sciences and technology</topic><topic>External geophysics</topic><topic>gust front</topic><topic>low‐level jet</topic><topic>Mathematical models</topic><topic>Meteorology</topic><topic>moisture transport</topic><topic>mountain waves</topic><topic>Mountains</topic><topic>nocturnal boundary layer</topic><topic>Physics of the high neutral atmosphere</topic><topic>residual layer</topic><topic>rolls</topic><topic>Slopes</topic><topic>Streams</topic><topic>Valleys</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Prabha, T. V.</creatorcontrib><creatorcontrib>Goswami, B. N.</creatorcontrib><creatorcontrib>Murthy, B. S.</creatorcontrib><creatorcontrib>Kulkarni, J. R.</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Quarterly journal of the Royal Meteorological Society</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Prabha, T. V.</au><au>Goswami, B. N.</au><au>Murthy, B. S.</au><au>Kulkarni, J. 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Simulations indicate that the formation of LLJ is mainly attributed to the baroclinicity of the valley atmosphere due to the gently rolling terrain, which is assisted by the persistence of an unstable residual layer above the developing stable boundary layer in the valley and cooling over the slopes. Prior to the formation of LLJ, the boundary layer is dominated by deep roll circulations. The LLJ followed a gust front zone associated with a mountain wave. The low‐level flow below the jet is decoupled from the upper‐level flow as a result of strong vorticity below the jet and suppression of turbulence at the jet core. A conceptual model for the boundary layer interactions, dynamics of the mountain wave, LLJ, etc. are proposed for Western Ghat region. Copyright © 2011 Royal Meteorological Society</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><doi>10.1002/qj.818</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | atmospheric streams Atmospherics Boundary layer Computer simulation Earth, ocean, space Exact sciences and technology External geophysics gust front low‐level jet Mathematical models Meteorology moisture transport mountain waves Mountains nocturnal boundary layer Physics of the high neutral atmosphere residual layer rolls Slopes Streams Valleys |
| title | Nocturnal low‐level jet and ‘atmospheric streams’ over the rain shadow region of Indian Western Ghats |
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