Campozano, L.; Celleri, R.; Trachte, K.; Bendix, J. & Samaniego, E. (2016): <b>Rainfall and Cloud Dynamics in the Andes: A Southern Ecuador Case Study</b>. <i>Advances in Meteorology</i> <b>2016</b>(ID 3192765), 15.
Resource Description
Title:
Rainfall and Cloud Dynamics in the Andes: A Southern Ecuador Case Study
FOR816dw ID:
266
Publication Date:
2016-01-01
License and Usage Rights:
PAK 823-825 data user agreement. (www.lcrs.de/dataagreementp3.do)
email:
bendix <at> staff.uni-marburg.de
Deutschhausstraße 12
Room No. 02 A 48
35032 Marburg
Faculty of Geography
Germany
Individual:
Esteban Samaniego
Contact:
email:
webmaster <at> lcrs.de
Abstract:
Mountain regions worldwide present a pronounced spatiotemporal precipitation variability, which added to scarce monitoring<br/>
networks limits our understanding of the generation processes involved. To improve our understanding of clouds and precipitation<br/>
dynamics and cross-scale generation processes in mountain regions, we analyzed spatiotemporal rainfall patterns using satellite<br/>
cloud products (SCP) in the Paute basin (900–4200m a.s.l. and 6481 km2) in the Andes of Ecuador. Precipitation models, using<br/>
SCP and GIS data, reveal the spatial extension of three regimes: a three-modal (TM) regime present across the basin, a bimodal<br/>
(BM) regime, along sheltered valleys, and a unimodal (UM) regime at windward slopes of the eastern cordillera. Subsequently, the<br/>
spatiotemporal analysis using synoptic information shows that the dry season of the BM regime during boreal summer is caused<br/>
by strong subsidence inhibiting convective clouds formation.Meanwhile, in UMregions, low advective shallow cap clouds mainly<br/>
cause precipitation, influenced by water vapor from the Amazon and enhanced easterlies during boreal summer. TM regions are<br/>
transition zones fromUMto BMand zones on the windward slopes of the western cordillera. These results highlight the suitability<br/>
of satellite and GIS data-driven statistical models to study spatiotemporal rainfall seasonality and generation processes in complex<br/>
terrain, as the Andes.
Keywords:
| Ecuador | rainfall |
Literature type specific fields:
ARTICLE
Journal:
Advances in Meteorology
Volume:
2016
Issue:
ID 3192765
Page Range:
15
Publisher:
Hindawi Publishing Corporation
Publication Place:
India
ISSN:
16879317
Metadata Provider:
Individual:
Jörg Bendix
Contact:
email:
bendix <at> staff.uni-marburg.de
Deutschhausstraße 12
Room No. 02 A 48
35032 Marburg
Faculty of Geography
Germany