Your search keyword '"coastal climates"' showing total 5 results

1. Impacts of Extreme Climatic Events on Sustainable Urban Development in Coastal Regions: Selected Case Studies of India

Author

Haldar, Anwesha, Kar, Surajit, Paul, Swarnendu, Satpati, L. N., Singh, Abha Lakshmi, editor, Jamal, Saleha, editor, and Ahmad, Wani Suhail, editor

Published

2024

2. Classification of Intense Rainfall Days in Southern West Africa and Associated Atmospheric Circulation

Author

Pierre Camberlin, Marc Kpanou, and Pascal Roucou

Subjects

intense rainfall, equatorial waves, coastal climates, west africa, gulf of guinea, Meteorology. Climatology, QC851-999

Abstract

Daily rainfall in southern West Africa (4−8° N, 7° W−3° E) is analyzed with the aim of documenting the intense rainfall events which occur in coastal Ivory Coast, Ghana, Togo, and Benin. The daily 99th percentile (P99) shows that the coastline experiences higher intensity rainfall than inland areas. Using Tropical Rainfall Measuring Mission (TRMM) rainfall data for 1998−2014, a novel way of classifying the intense events is proposed. We consider their space-time structure over a window of 8° latitude-longitude and five days centered on the event. A total 39,680 events (62 at each location) are classified into three major types, mainly found over the oceanic regions south of 5° N, the Bight of Benin, and the inland regions respectively. These types display quite distinct rainfall patterns, propagation features, and seasonal occurrence. Three inland subtypes are also defined. The atmospheric circulation anomalies associated with each type are examined from ERA-interim reanalysis data. Intense rainfall events over the continent are mainly a result of westward propagating disturbances. Over the Gulf of Guinea, many intense events occur as a combination of atmospheric disturbances propagating westward (mid-tropospheric easterly waves or cyclonic vortices) and eastward (lower tropospheric zonal wind and moisture anomalies hypothesized to reflect Kelvin waves). Along the coast, there is a mixture of different types of rainfall events, often associated with interacting eastward- and westward-moving disturbances, which complicates the monitoring of heavy precipitation.

Published

2020

3. Nocturnal mountain winds in Cyprus - an observational study.

Author

Galvin, J. F. P.

Subjects

*MOUNTAINS, *WIND measurement, *LAND breeze, *KATABATIC winds, *METEOROLOGICAL stations, *OFFSHORE wind power plants, *WIND forecasting

Abstract

This study examines the nocturnal wind systems of radiation nights on the Mediterranean island of Cyprus using the network of weather stations in and around the Troodos Mountains, which rise to more than 1900 m. These observations are supplemented by a series from the southern slopes of the mountains. Results indicate the typical development, depth and effects of these winds along the south coast of the island. The generation of these winds, their character and the forecasting challenges they present are also discussed, with an emphasis on the southward flow observed at the Royal Air Force (RAF) Akrotiri. The offshore winds are a combination of katabatic drainage, largely formed within incised valleys, with a land breeze. They bring cool dry air to the coast. The drainage winds commence above ~1200m and deepen to a depth of ~75m in the Kouris valley, becoming shallower as they move away from the valley mouth. The valley winds 'fan out' as they approach sea level to reach 20 km or more from the coast. [ABSTRACT FROM AUTHOR]

Published

2015

4. Classification of intense rainfall days in southern West Africa and associated atmospheric circulation

Author

Pascal Roucou, Marc Kpanou, Pierre Camberlin, Biogéosciences [UMR 6282] [Dijon] (BGS), Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Centre National de la Recherche Scientifique (CNRS), Laboratoire Pierre Pagney, Climat, Eau, Ecosystème et Développement (LACEEDE), and University of Abomey Calavi (UAC)

Subjects

Atmospheric Science, Gulf of Guinea, 010504 meteorology & atmospheric sciences, Atmospheric circulation, 0207 environmental engineering, 02 engineering and technology, lcsh:QC851-999, Environmental Science (miscellaneous), 01 natural sciences, West africa, Troposphere, symbols.namesake, West Africa, Precipitation, 020701 environmental engineering, 0105 earth and related environmental sciences, intense rainfall, Tropical wave, Equatorial waves, equatorial waves, coastal climates, 13. Climate action, [SDU.STU.CL]Sciences of the Universe [physics]/Earth Sciences/Climatology, Climatology, symbols, Precipitation types, lcsh:Meteorology. Climatology, Kelvin wave, Geology

Abstract

Daily rainfall in southern West Africa (4&ndash, 8&deg, N, 7&deg, W&ndash, 3&deg, E) is analyzed with the aim of documenting the intense rainfall events which occur in coastal Ivory Coast, Ghana, Togo, and Benin. The daily 99th percentile (P99) shows that the coastline experiences higher intensity rainfall than inland areas. Using Tropical Rainfall Measuring Mission (TRMM) rainfall data for 1998&ndash, 2014, a novel way of classifying the intense events is proposed. We consider their space-time structure over a window of 8&deg, latitude-longitude and five days centered on the event. A total 39,680 events (62 at each location) are classified into three major types, mainly found over the oceanic regions south of 5&deg, N, the Bight of Benin, and the inland regions respectively. These types display quite distinct rainfall patterns, propagation features, and seasonal occurrence. Three inland subtypes are also defined. The atmospheric circulation anomalies associated with each type are examined from ERA-interim reanalysis data. Intense rainfall events over the continent are mainly a result of westward propagating disturbances. Over the Gulf of Guinea, many intense events occur as a combination of atmospheric disturbances propagating westward (mid-tropospheric easterly waves or cyclonic vortices) and eastward (lower tropospheric zonal wind and moisture anomalies hypothesized to reflect Kelvin waves). Along the coast, there is a mixture of different types of rainfall events, often associated with interacting eastward- and westward-moving disturbances, which complicates the monitoring of heavy precipitation.

Published

2020

5. Classification of Intense Rainfall Days in Southern West Africa and Associated Atmospheric Circulation.

Author

Camberlin, Pierre, Kpanou, Marc, and Roucou, Pascal

Subjects

ATMOSPHERIC circulation, RAINFALL, OCEAN waves, ZONAL winds, MADDEN-Julian oscillation, METEOROLOGICAL precipitation

Abstract

Daily rainfall in southern West Africa (4–8° N, 7° W–3° E) is analyzed with the aim of documenting the intense rainfall events which occur in coastal Ivory Coast, Ghana, Togo, and Benin. The daily 99th percentile (P99) shows that the coastline experiences higher intensity rainfall than inland areas. Using Tropical Rainfall Measuring Mission (TRMM) rainfall data for 1998–2014, a novel way of classifying the intense events is proposed. We consider their space-time structure over a window of 8° latitude-longitude and five days centered on the event. A total 39,680 events (62 at each location) are classified into three major types, mainly found over the oceanic regions south of 5° N, the Bight of Benin, and the inland regions respectively. These types display quite distinct rainfall patterns, propagation features, and seasonal occurrence. Three inland subtypes are also defined. The atmospheric circulation anomalies associated with each type are examined from ERA-interim reanalysis data. Intense rainfall events over the continent are mainly a result of westward propagating disturbances. Over the Gulf of Guinea, many intense events occur as a combination of atmospheric disturbances propagating westward (mid-tropospheric easterly waves or cyclonic vortices) and eastward (lower tropospheric zonal wind and moisture anomalies hypothesized to reflect Kelvin waves). Along the coast, there is a mixture of different types of rainfall events, often associated with interacting eastward- and westward-moving disturbances, which complicates the monitoring of heavy precipitation. [ABSTRACT FROM AUTHOR]

Published

2020