How do the andes mountains affect the climate of south america

Ben Davis January 29, How do the Andes mountains affect the climate of South America? What are the climates of South America? What affects the climate in Latin America? What is the climate like in lower elevations in South America?

What is the elevation of the land in western South America? What is the elevation and climate of land in western South America? Why is elevation the big geographic idea of South America? How did South America get its borders? Who colonized South America? What is the current time in South American? Why does Brazil have 4 time zones? Seth A, Giorgi F The effects of domain choice on summer precipitation simulation and sensitivity in a regional climate model.

Reanalysis boundary forcing. Clim Dynamics — Starck D, Anzotegui L The late-Miocene climate change—persistence of a climate signal through the orogenic stratigraphic record in northwestern Argentina. J S Am Earth Sci — Sediment Geol — Basin Res — Quat Sci Rev — Virji H A preliminary study of summertime tropospheric circulation patterns over South America estimated from cloud winds.

Vuille M Atmospheric circulation over the Bolivian Altiplano during dry and wet periods and extreme phases of the southern oscillation. Int J Climatol — Download references. Support for this research was provided by grants to C.

Poulsen and T. We thank two anonymous reviewers for constructive comments on the manuscript. Nadja Insel, Christopher J. You can also search for this author in PubMed Google Scholar.

Correspondence to Nadja Insel. Reprints and Permissions. Insel, N. Influence of the Andes Mountains on South American moisture transport, convection, and precipitation. Clim Dyn 35, — Download citation. Received : 31 March Accepted : 13 July Published : 29 July Issue Date : December Anyone you share the following link with will be able to read this content:.

Sorry, a shareable link is not currently available for this article. Multiday circulation and precipitation climatology during winter rain events of differing intensities in Central Chile. Bianchi, E. New precipitation and temperature grids for northern Patagonia: Advances in relation to global climate grids.

Cara, L. Google Scholar. Castro, L. Espinoza, J. Rainfall hotspots over the southern tropical Andes: Spatial distribution, rainfall intensity, and relations with large-scale atmospheric circulation.

Water Resour. Falvey, M. Wintertime precipitation episodes in Central Chile: associated meteorological conditions and orographic influences.

Frei, C. A precipitation climatology of the Alps from high-resolution raingauge observations. Garreaud, R. Multiscale analysis of the summertime precipitation over the central Andes.

Large-scale control on the Patagonian climate. Climate 26, — Hall, D. December to February Hayden, L. Haynes, J. Rainfall retrieval over the ocean with spaceborne W-band radar. Hobouchian, M. Assessment of satellite precipitation estimates over the slopes of the Subtropical Andes. Hoffman, J. Im, E. Durden, S. Junquas, C. Understanding the influence of orography on the precipitation diurnal cycle and the associated atmospheric processes in the central Andes. Lenaerts, J.

Extreme precipitation and climate gradients in Patagonia revealed by high-resolution regional atmospheric climate modeling. Climate 27, — Mace, G. Global hydrometeor occurrence as observed by CloudSat: initial observations from summer , Geophys. Marchand, R. Oceanic Technol. Masiokas, M. Snowpack variations in the Central Andes of Argentina and Chile, large-scale atmospheric influences and implications for water resources in the region.

Climate 19, — Miller, A. Schwerdtfeger Amsterdam: Elsevier , — Minder, J. Mesoscale controls on the mountainside snow line. Mesoscale variations of the atmospheric snow line over the Northern Sierra Nevada: multiyear statistics, case study, and mechanisms.

Prohaska, F. Schwerdtfeger Elsevier 13— Rasmussen, K. Contribution of extreme convective storms to rainfall in South America. Rasmussen, L. Hydrology of the North Cascades region, Washington: 1. Runoff, precipitation, and storage characteristics. Reboita, M. Precipitation regimes in South America: a bibliographic review [in portuguese].

Rivera, J. Romatschke, U. Characteristics of precipitating convective systems accounting for the summer rainfall of tropical and subtropical South America.

Sassen, K. Classifying clouds around the globe with the CloudSat radar: 1-year of results, Geophys. Schaefer, M. Quantifying mass balance processes on the Southern Patagonia Icefield. Cryosphere 9, 25— Smith, R. Orographic precipitation and isotope fraction over the southern Andes. Stephens, G. The CloudSat mission and the A-train.

A new dimension of space-based observations of clouds and precipitation. Takahashi, K. Processes controlling the mean tropical Pacific precipitation pattern. Climate 20, — Viale, M. Summer precipitation events over the western slopes of the subtropical Andes. Orographic effects of the subtropical and extratropical Andes on upwind precipitating clouds.

Climatology of winter orographic precipitation over the Subtropical Central Andes and associated synoptic and regional characteristics. Impacts of atmospheric rivers on precipitation in Southern South America. Vuille, M. Atmospheric circulation over the Bolivian Altiplano during dry and wet periods and extreme phases of the Southern Oscillation.

Whiteman, C. Mountain Meteorology: Fundamentals and Applications. Zambrano-Bigiarini, M. Temporal and spatial evaluation of satellite-based rainfall estimates across the complex topographical and climatic gradients of Chile. Earth Syst. The use, distribution or reproduction in other forums is permitted, provided the original author s and the copyright owner s are credited and that the original publication in this journal is cited, in accordance with accepted academic practice.

No use, distribution or reproduction is permitted which does not comply with these terms.