Upper-air wave trains over the Pacific Ocean and wintertime cold surges in tropical-subtropical South America leading to Freezes in Southern and Southeastern Brazil

2002 ◽  
Vol 73 (3-4) ◽  
pp. 223-242 ◽  
Author(s):  
J. A. Marengo ◽  
T. Ambrizzi ◽  
G. Kiladis ◽  
B. Liebmann
Keyword(s):  
Pacific Ocean ◽  
South America ◽  
Southeastern Brazil ◽  
The Pacific ◽  
The Pacific Ocean ◽  
Wave Trains ◽  
Cold Surges

Past Sea Surface Temperature of the Pacific Ocean of South America a Reference for Environmental Archeology

2022 ◽  
Author(s):  
Hector Luis D’Antoni ◽  
Lidia Susana Burry ◽  
Patricia Irene Palacio ◽  
Matilde Elena Trivi ◽  
Mariano Somoza
Keyword(s):  
Pacific Ocean ◽  
South America ◽  
Surface Temperature ◽  
Sea Surface Temperature ◽  
Sea Surface ◽  
The Pacific ◽  
The Pacific Ocean

scholarly journals Two continents and two names for a Neotropical colletid bee species (Hymenoptera: Colletidae: Neopasiphaeinae): Hoplocolletes ventralis (Friese, 1924)

2015 ◽  
Author(s):  
Eduardo A B Almeida ◽  
Fábio B Quinteiro
Keyword(s):  
Pacific Ocean ◽  
South America ◽  
Comparative Study ◽  
Neotropical Species ◽  
The Pacific ◽  
The Pacific Ocean ◽  
Phylogenetic Hypotheses ◽  
First Time

Neopasiphaeinae bees (Apoidea: Colletidae) are well known for their Amphinotic distribution in the Australian and Neotropical regions. Affinities between colletid taxa in Australia and South America have been speculated for decades, and have been confirmed by recent phylogenetic hypotheses that indicate a biogeographic scenario compatible with a trans-Antarctic biotic connection during the Paleogene. Despite this proximity, no species occurs on both sides of the Pacific Ocean, but the Neotropical species Hoplocolletes ventralis (Friese, 1924), which was described as an Australian taxon due to an error in the specimen labels. This mistake was recognized by C.D.Michener 50 years ago. We herein report that the same labeling problem also happened with Dasycolletes chalceus Friese, 1924, which remained as a tentatively placed species in the Australian genus Leioproctus until now. Moreover, Dasycolletes chalceus is interpreted as a synonym of Dasycolletes ventralis. We also provide a revised diagnosis for Hoplocolletes, describe the male of H. ventralis in detail for the first time, including a comparative study of its genitalia and associated sterna.

scholarly journals Two continents and two names for a Neotropical colletid bee species (Hymenoptera: Colletidae: Neopasiphaeinae):Hoplocolletes ventralis(Friese, 1924)

PeerJ ◽  
2015 ◽  
Vol 3 ◽  
pp. e1338
Author(s):  
Eduardo A.B. Almeida ◽  
Fábio B. Quinteiro
Keyword(s):  
Pacific Ocean ◽  
South America ◽  
Comparative Study ◽  
Neotropical Species ◽  
The Pacific ◽  
The Pacific Ocean ◽  
Phylogenetic Hypotheses ◽  
First Time

Neopasiphaeine bees (Apoidea: Colletidae) are known for their Amphinotic distribution in the Australian and Neotropical regions. Affinities between colletid taxa in Australia and South America have been speculated for decades, and have been confirmed by recent phylogenetic hypotheses that indicate a biogeographic scenario compatible with a trans-Antarctic biotic connection during the Paleogene. No neopasiphaeine species occurs on both sides of the Pacific Ocean, but the Neotropical speciesHoplocolletes ventralis(Friese, 1924) was described as an Australian taxon due to an error in the specimen labels. This mistake was recognized by CD Michener 50 years ago. We herein report that the same labeling problem also happened withDasycolletes chalceusFriese, 1924, which remained as a tentatively placed species in the Australian genusLeioproctusuntil now. Moreover,Dasycolletes chalceusis interpreted as a synonym ofHoplocolletes ventralis. We also provide a revised diagnosis forHoplocolletes, describe the male ofH. ventralisin detail for the first time, including a comparative study of its genitalia and associated sterna.

Origin of Convectively Coupled Kelvin Waves over South America

2009 ◽  
Vol 22 (2) ◽  
pp. 300-315 ◽  
Author(s):  
Brant Liebmann ◽  
George N. Kiladis ◽  
Leila M. V. Carvalho ◽  
Charles Jones ◽  
Carolina S. Vera ◽  
...  
Keyword(s):  
Pacific Ocean ◽  
South America ◽  
Wave Train ◽  
Kelvin Waves ◽  
Eastern Pacific ◽  
Eastern Pacific Ocean ◽  
The Andes ◽  
The Pacific ◽  
Cold Surges ◽  
Upper Level

Abstract Convectively coupled Kelvin waves over the South American continent are examined through the use of temporal and spatial filtering of reanalysis, satellite, and gridded rainfall data. They are most prominent from November to April, the season analyzed herein. The following two types of events are isolated: those that result from preexisting Kelvin waves over the eastern Pacific Ocean propagating into the continent, and those that apparently originate over Amazonia, forced by disturbances propagating equatorward from central and southern South America. The events with precursors in the Pacific are mainly upper-level disturbances, with almost no signal at the surface. Those events with precursors over South America, on the other hand, originate as upper-level synoptic wave trains that pass over the continent and resemble the “cold surges” documented by Garreaud and Wallace. As the wave train propagates over the Andes, it induces a southerly low-level wind that advects cold air to the north. Precipitation associated with a cold front reaches the equator a few days later and subsequently propagates eastward with the characteristics of a Kelvin wave. The structures of those waves originating over the Pacific are quite similar to those originating over South America as they propagate to eastern South America and into the Atlantic. South America Kelvin waves that originate over neither the Pacific nor the midlatitudes of South America can also be identified. In a composite sense, these form over the eastern slope of the Andes Mountains, close to the equator. There are also cases of cold surges that reach the equator yet do not form Kelvin waves. The interannual variability of the Pacific-originating events is related to sea surface temperatures in the central–eastern Pacific Ocean. When equatorial oceanic conditions are warm, there tends to be an increase in the number of disturbances that reach South America from the Pacific.

scholarly journals The Relationship between Wave Trains in the Southern Hemisphere Storm Track and Rainfall Extremes over Tasmania

2018 ◽  
Vol 146 (12) ◽  
pp. 4201-4230 ◽  
Author(s):  
Carly R. Tozer ◽  
James S. Risbey ◽  
Terence J. O’Kane ◽  
Didier P. Monselesan ◽  
Michael J. Pook
Keyword(s):  
Pacific Ocean ◽  
Indian Ocean ◽  
Wave Train ◽  
Storm Track ◽  
The Pacific ◽  
Rainfall Extremes ◽  
The Indian Ocean ◽  
The Pacific Ocean ◽  
Wave Trains ◽  
Ocean Sector

Abstract We assess the large-scale atmospheric dynamics influencing rainfall extremes in Tasmania, located within the Southern Hemisphere storm track. We characterize wet and dry multiday rainfall extremes in western and eastern Tasmania, two distinct climate regimes, and construct atmospheric flow composites around these extreme events. We consider the onset and decay of the events and find a link between Rossby wave trains propagating in the polar jet waveguide and wet and dry extremes across Tasmania. Of note is that the wave trains exhibit varying behavior during the different extremes. In the onset phase of rainfall extremes in western Tasmania, there is a coherent wave train in the Indian Ocean, which becomes circumglobal in extent and quasi-stationary as the event establishes and persists. Wet and dry extremes in this region are influenced by opposite phases of this circumglobal wave train pattern. In eastern Tasmania, wet extremes relate to a propagating wave train, which is first established in the Indian Ocean sector and propagates eastward to the Pacific Ocean sector as the event progresses. During dry extremes in eastern Tasmania, the wave train is first established in the Pacific Ocean, as opposed to Indian Ocean, and persists in this sector for the entire event, with a structure indicative of the Pacific–South American pattern. The findings regarding different wave train forms and their relationship to rainfall extremes have implications for extreme event attribution in other regions around the globe.

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