DOCSLIB.ORG

South America 2005/2006 Ebrochure

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
South America 2005/2006 Ebrochure SOUTH AMERICA 2005/2006 CRUISES & CRUISETOURS EARLY BOOKING DISCOUNT • RESERVE NOW & SAVE FROM $1,000 TO $1,500 PER PERSON* PRINCESS.COM SOUTH HOW TO USE THIS DOCUMENT AMERICA (5 of 59) e BROCHURE NAVIGATION NAVIGATION BOOKMARKS Use Adobe Reader’s These green arrows will Access any section of this navigation to move a page take you forward or back eBrochure by using the forward or back, or to jump to the page you were just Bookmarks tab located on to the beginning or end of looking at, even if they aren’t the left side of the screen. the document. consecutive. Like a web This eBrochure extends your experience browser. by assisting you in navigating through the brochure and offering links to information on �������������������� princess.com. Along the way, you will find �������������� helpful buttons to direct answers to your LINKS LINKS LINKS questions or perhaps more information not Clicking on the olive green Clicking on the blue Clicking on the oval buttons contained in our paper brochure. highlights moves you to highlights takes you to pages takes you to certain areas of specific information in the on princess.com. You must princess.com for extended Take a moment to review a guide on how to eBrochure itself. be connected to the internet information. for this feature. use this eBrochure. For general information about using PDF documents, including a User Guide, see the Adobe Reader section of Adobe’s web site. MAGNIFICATION KEYWORD SEARCH The magnifying glass will With Reader’s search tool, allow you to zoom in on you can easily find every pages such as deck plans. instance of what you’re looking for throughout the entire brochure. INTRODUCTION pgs. 1-3 SOUTH AMERICA pgs. 4-15 South America Introduction pgs. 4-5 South America Ports of Call pgs. 6-9 South America Cruises pgs. 10-13 South America Cruisetours pgs. 14-15 South America — the discovery destination CONNOISSEUR VOYAGES pgs. 16-17 This is a continent blessed by nature and filled with life. An ancient temple carved GRAND ADVENTURES pgs. 18-19 into a mountain peak in Peru’s Sacred Valley. Legendary waters snaking through an CRUISE PLUS® HOTEL PACKAGES pgs. 20-21 emerald forest in Brazil. Colonial cities, local culture, the samba beat. Exotic places ADVENTURES ASHORE® pgs. 22-23 like Machu Picchu, the Amazon and Antarctica ignite more than your typical ONBOARD EXPERIENCE pgs. 24-35 garden-variety adventure. South America is wild, passionate and a complete escape. PRINCESS CAPTAIN’S CIRCLE® pgs. 36-37 PLAN YOUR ESCAPE pgs. 38-45 Ships, Staterooms and Fares pgs. 39-45 BEFORE YOU LEAVE pgs. 46-55 SM Princess FlightChoice pg. 47 SM Princess Travel Care pgs. 48-49 Tips For Your Trip pgs. 50-51 General Information pgs. 52-53 Cruise Calendar pgs. 54-55 Use of any of the photography contained herein is prohibited by law. Machu Picchu, Peru INTRODUCTION pgs. 1-3 SOUTH AMERICA pgs. 4-15 South America Introduction pgs. 4-5 South America Ports of Call pgs. 6-9 South America Cruises pgs. 10-13 South America Cruisetours pgs. 14-15 South America — the discovery destination CONNOISSEUR VOYAGES pgs. 16-17 This is a continent blessed by nature and filled with life. An ancient temple carved GRAND ADVENTURES pgs. 18-19 into a mountain peak in Peru’s Sacred Valley. Legendary waters snaking through an CRUISE PLUS® HOTEL PACKAGES pgs. 20-21 emerald forest in Brazil. Colonial cities, local culture, the samba beat. Exotic places ADVENTURES ASHORE® pgs. 22-23 like Machu Picchu, the Amazon and Antarctica ignite more than your typical ONBOARD EXPERIENCE pgs. 24-35 garden-variety adventure. South America is wild, passionate and a complete escape. PRINCESS CAPTAIN’S CIRCLE® pgs. 36-37 PLAN YOUR ESCAPE pgs. 38-45 Ships, Staterooms and Fares pgs. 39-45 BEFORE YOU LEAVE pgs. 46-55 SM Princess FlightChoice pg. 47 SM Princess Travel Care pgs. 48-49 Tips For Your Trip pgs. 50-51 General Information pgs. 52-53 Cruise Calendar pgs. 54-55 Use of any of the photography contained herein is prohibited by law. Machu Picchu, Peru Cruising is simply the most civilized way to travel. The instant you step aboard, everything is taken care of. So, once you unpack, you’re ® set. Sail from one great destination to another and spend your time The consummate host — Princess Cruises doing what you want to do. Whether that’s a day full of sightseeing, At Princess, our goal is to ensure your vacation is all you imagined it to be — and more. Which is an action-packed evening, or just sitting on your balcony taking in why everything, from our ships to our service, is designed with you in mind. the view for hours on end. There’s no better way to escape completely DESTINATIONS. Princess offers over 80 unique itineraries to all seven continents and visits more than on a Princess cruise. of the world’s great places than any other cruise line. And our wide variety of South America itineraries is unsurpassed. Whether you’re on your first cruise — or your tenth — you’ll experience Take your trip even further by combining your cruise with a cruisetour, a vacation that’s far beyond the ordinary. a Cruise Plus® Hotel Package and Adventures Ashore® excursions. These BIG SHIP CHOICE, SMALL SHIP FEEL.SM Cruise to thrilling adventures onboard the intimate SM exciting land-based additions let you soak up even more of the sights Regal Princess.® We offer an incredible array of onboard activities, from our ScholarShip@Sea enrichment series and the unique Lotus Spa® to spectacular evening entertainment in multiple that you travel so far to see. venues. And since we carry fewer passengers than other ships of comparable size, you can enjoy remarkable amenities without ever feeling overwhelmed by a crowd. PERSONAL CHOICE DINING.® Only Princess offers so many ways to dine, with a choice of our main dining room, the 24-hour Café Del Sol and several other delectable options. AFFORDABLE BALCONIES. A balcony provides a stunning and memorable way to capture South America’s most magnificent views. Princess offers a higher percentage of balconies than any other cruise line and Regal Princess has over 180 staterooms featuring this affordable luxury. PRINCESS SERVICE. Our credo is Courtesy, Respect, Unfailing In Service Excellence — C.R.U.I.S.E.® From your stateroom steward who warmly greets you by name, to your evening CRUISING waiter who remembers your favorite dish, Princess service is simply unparalleled. The most relaxing way to see South America DIAMOND SHOOT 4-17 NEW PHOTOGRAPHY BALCONY SHOT Note: Dining options vary by ship. princess.com | 3 Cruising is simply the most civilized way to travel. The instant you step aboard, everything is taken care of. So, once you unpack, you’re ® set. Sail from one great destination to another and spend your time The consummate host — Princess Cruises doing what you want to do. Whether that’s a day full of sightseeing, At Princess, our goal is to ensure your vacation is all you imagined it to be — and more. Which is an action-packed evening, or just sitting on your balcony taking in why everything, from our ships to our service, is designed with you in mind. the view for hours on end. There’s no better way to escape completely DESTINATIONS. Princess offers over 80 unique itineraries to all seven continents and visits more than on a Princess cruise. of the world’s great places than any other cruise line. And our wide variety of South America itineraries is unsurpassed. Whether you’re on your first cruise — or your tenth — you’ll experience Take your trip even further by combining your cruise with a cruisetour, a vacation that’s far beyond the ordinary. a Cruise Plus® Hotel Package and Adventures Ashore® excursions. These BIG SHIP CHOICE, SMALL SHIP FEEL.SM Cruise to thrilling adventures onboard the intimate SM exciting land-based additions let you soak up even more of the sights Regal Princess.® We offer an incredible array of onboard activities, from our ScholarShip@Sea enrichment series and the unique Lotus Spa® to spectacular evening entertainment in multiple that you travel so far to see. venues. And since we carry fewer passengers than other ships of comparable size, you can enjoy remarkable amenities without ever feeling overwhelmed by a crowd. PERSONAL CHOICE DINING.® Only Princess offers so many ways to dine, with a choice of our main dining room, the 24-hour Café Del Sol and several other delectable options. AFFORDABLE BALCONIES. A balcony provides a stunning and memorable way to capture South America’s most magnificent views. Princess offers a higher percentage of balconies than any other cruise line and Regal Princess has over 180 staterooms featuring this affordable luxury. PRINCESS SERVICE. Our credo is Courtesy, Respect, Unfailing In Service Excellence — C.R.U.I.S.E.® From your stateroom steward who warmly greets you by name, to your evening CRUISING waiter who remembers your favorite dish, Princess service is simply unparalleled. The most relaxing way to see South America DIAMOND SHOOT 4-17 NEW PHOTOGRAPHY BALCONY SHOT Note: Dining options vary by ship. princess.com | 3 ASTONISHING A continent of endless wonder, worlds awaitworlds you await you infinite possibilities SPITSBERGEN Escape with Princess to lands that are beautiful to look at and exciting to explore. We offer (SVALBARD) GREENLAND DENMARK the widest range of South America cruise itineraries, plus extended voyages and cruisetours. BELGIUM NETHERLANDS NORWAY Amazon River — Brazil SWEDEN ICELAND ALASKA CAPE HORN/STRAIT OF MAGELLAN. Follow the route of the ancient mariners around the FAROE ISLANDS FINLAND RUSSIA SHETLAND ISLANDS tip of South America.
Load more

Recommended publications
  • The Bransfield Current System
    Deep-Sea Research I 58 (2011) 390–402 Contents lists available at ScienceDirect Deep-Sea Research I journal homepage: www.elsevier.com/locate/dsri The Bransfield current system Pablo Sangra a,n, Carmen Gordo a,Mo´ nica Herna´ndez-Arencibia a, Angeles Marrero-Dı´az a, Angel Rodrı´guez-Santana a, Alexander Stegner b,c, Antonio Martı´nez-Marrero a, Josep L. Pelegrı´ d, Thierry Pichon c a Departamento de Fı´sica, Universidad de Las Palmas de Gran Canaria, Campus Universitario de Tafira, 35017 Las Palmas, Spain b Laboratoire de Me´te´orologie Dynamique (LMD), CNRS, Ecole Polytechnique, 91128 Palaiseau, France c Unite´ de Me´canique (UME), ENSTA Chemin de la Huniere, 91126 Palaiseau, France d Departament d’Oceanografı´aFı´sica, Institut de Ciencies del Mar, CSIC, Spain article info abstract Article history: We use hydrographic data collected during two interdisciplinary cruises, CIEMAR and BREDDIES, to Received 24 July 2010 describe the mesoscale variability observed in the Central Basin of the Bransfield Strait (Antarctica). The Received in revised form main mesoscale feature is the Bransfield Front and the related Bransfield Current, which flows 16 December 2010 northeastward along the South Shetland Island Slope. A laboratory model suggests that this current Accepted 25 January 2011 behaves as a gravity current driven by the local rotation rate and the density differences between the Available online 19 February 2011 Transitional Zonal Water with Bellingshausen influence (TBW) and the Transitional Zonal Water with Keywords: Weddell Sea influence (TWW). Below the Bransfield Front we observe a narrow (10 km wide) tongue of Bransfield Strait Circumpolar Deep Water all along the South Shetland Islands Slope.
    [Show full text]
  • Along-Shelf Connectivity and Circumpolar Gene Flow in Antarctic
    www.nature.com/scientificreports OPEN Along-shelf connectivity and circumpolar gene fow in Antarctic silverfsh (Pleuragramma Received: 16 March 2018 Accepted: 12 November 2018 antarctica) Published: xx xx xxxx Jilda Alicia Caccavo 1, Chiara Papetti1,2, Maj Wetjen3, Rainer Knust4, Julian R. Ashford5 & Lorenzo Zane1,2 The Antarctic silverfsh (Pleuragramma antarctica) is a critically important forage species with a circumpolar distribution and is unique among other notothenioid species for its wholly pelagic life cycle. Previous studies have provided mixed evidence of population structure over regional and circumpolar scales. The aim of the present study was to test the recent population hypothesis for Antarctic silverfsh, which emphasizes the interplay between life history and hydrography in shaping connectivity. A total of 1067 individuals were collected over 25 years from diferent locations on a circumpolar scale. Samples were genotyped at ffteen microsatellites to assess population diferentiation and genetic structuring using clustering methods, F-statistics, and hierarchical analysis of variance. A lack of diferentiation was found between locations connected by the Antarctic Slope Front Current (ASF), indicative of high levels of gene fow. However, gene fow was signifcantly reduced at the South Orkney Islands and the western Antarctic Peninsula where the ASF is absent. This pattern of gene fow emphasized the relevance of large-scale circulation as a mechanism for circumpolar connectivity. Chaotic genetic patchiness characterized population structure over time, with varying patterns of diferentiation observed between years, accompanied by heterogeneous standard length distributions. The present study supports a more nuanced version of the genetic panmixia hypothesis that refects physical-biological interactions over the life history.
    [Show full text]
  • ARTICLE in PRESS + Model
    ARTICLE IN PRESS + model YQRES-02696; No. of pages: 11: 4C: 2, 4 Quaternary Research xx (2006) xxx–xxx www.elsevier.com/locate/yqres A high resolution relative paleointensity record from the Gerlache-Boyd paleo-ice stream region, northern Antarctic Peninsula ⁎ Verónica Willmott a,b, Eugene W. Domack b, Miquel Canals a, , Stefanie Brachfeld c a Department of Stratigraphy, Paleontology and Marine Geosciences, University of Barcelona, Barcelona, Spain b Department of Geosciences, Hamilton College, Clinton, NY 13323, USA c Department of Earth and Environmental Studies, Montclair State University, NJ 07043, USA Received 9 August 2005 Abstract Herein we document and interpret an absolute chronological dating attempt using geomagnetic paleointensity data from a post-glacial sediment drape on the western Antarctic Peninsula continental shelf. Our results demonstrate that absolute dating can be established in Holocene Antarctic shelf sediments that lack suitable material for radiocarbon dating. Two jumbo piston cores of 10-m length were collected in the Western Bransfield Basin. The cores preserve a strong, stable remanent magnetization and meet the magnetic mineral assemblage criteria recommended for reliable paleointensity analyses. The relative paleomagnetic intensity records were tuned to published absolute and relative paleomagnetic stacks, which yielded a record of the last ∼8500 years for the post-glacial drape. Four tephra layers associated with documented eruptions of nearby Deception Island have been dated at 3.31, 3.73, 4.44, and 6.86 ± 0.07 ka using the geomagnetic paleointensity method. This study establishes the dual role of geomagnetic paleointensity and tephrochronology in marine sediments across both sides of the northern Antarctic Peninsula.
    [Show full text]
  • Reconstruction of Ice-Sheet Changes in the Antarctic Peninsula Since the Last Glacial Maximum * Colm O Cofaigh A, , Bethan J
    Quaternary Science Reviews 100 (2014) 87e110 Contents lists available at ScienceDirect Quaternary Science Reviews journal homepage: www.elsevier.com/locate/quascirev Reconstruction of ice-sheet changes in the Antarctic Peninsula since the Last Glacial Maximum * Colm O Cofaigh a, , Bethan J. Davies b, 1, Stephen J. Livingstone c, James A. Smith d, Joanne S. Johnson d, Emma P. Hocking e, Dominic A. Hodgson d, John B. Anderson f, Michael J. Bentley a, Miquel Canals g, Eugene Domack h, Julian A. Dowdeswell i, Jeffrey Evans j, Neil F. Glasser b, Claus-Dieter Hillenbrand d, Robert D. Larter d, Stephen J. Roberts d, Alexander R. Simms k a Department of Geography, Durham University, Durham, DH1 3LE, UK b Centre for Glaciology, Department of Geography and Earth Sciences, Aberystwyth University, Aberystwyth, SY23 3DB, Wales, UK c Department of Geography, University of Sheffield, Sheffield, S10 2TN, UK d British Antarctic Survey, High Cross, Madingley Road, Cambridge, CB3 0ET, UK e Department of Geography, Northumbria University, Newcastle upon Tyne, NE1 8ST, UK f Department of Earth Sciences, Rice University, 6100 Main Street, Houston, TX, USA g CRG Marine Geosciences, Department of Stratigraphy, Paleontology and Marine Geosciences, Faculty of Geology, University Barcelona, Campus de Pedralbes, C/Marti i Franques s/n, 08028, Barcelona, Spain h College of Marine Science, University of South Florida, 140 7th Avenue South, St. Petersburg, FL 33701-5016, USA i Scott Polar Research Institute, University of Cambridge, Cambridge, CB2 1ER, UK j Department of Geography, University of Loughborough, Loughborough, LE11 3TU, UK k Department of Earth Science, University of California, Santa Barbara, 1006 Webb Hall, Santa Barbara, CA, 93106, USA article info abstract Article history: This paper compiles and reviews marine and terrestrial data constraining the dimensions and configu- Received 26 September 2013 ration of the Antarctic Peninsula Ice Sheet (APIS) from the Last Glacial Maximum (LGM) through Received in revised form deglaciation to the present day.
    [Show full text]
  • Antarctic Peninsula—Weddell Sea 11Th March—22Nd March 2019 M/V Plancius
    Antarctic Peninsula—Weddell Sea 11th March—22nd March 2019 M/V Plancius MV Plancius was named after the Dutch astronomer, cartographer, geologist and vicar Petrus Plancius (1552– 1622). Plancius was built in 1976 as an oceanographic research vessel for the Royal Dutch Navy and was named Hr. Ms. Tydeman. The ship sailed for the Royal Dutch Navy until June 2004 when she was purchased by Oceanwide Expeditions and completely refit in 2007, being converted into a 114-passenger expedition vessel. Plancius is 89 m (267 feet) long, 14.5 m (43 feet) wide and has a maximum draft of 5 m, with an Ice Strength rating of 1D, top speed of 12+ knots and three diesel engines generating 1230 hp each. Captain Artur Iakovlev and his international crew Including: Chief Officer: Francois Kwekkeboom [Netherlands] 2nd Officer: Matei Mocanu [Romania] 3rd Officer: Warren Villanueva [Philippines] Hotel Manager: Michael Frauendorfer [Austria] Assist. Hotel Manager: Alex Lyebyedyev [Ukraine] Head Chef: Khabir Moraes [India] Sous Chef: Ivan Yuriychuk [Ukraine] Ship’s Physician: Lisa van Turenhout [Netherlands] and: Expedition Leader: Katja Riedel [Germany/New-Zealand] Assist. Expedition Leader: Marijke de Boer [Netherlands] Expedition Guide: Hans Verdaat [Netherlands] Expedition Guide: Joselyn Fenstermacher [USA] Expedition Guide Martin Berg [Sweden] Expedition Guide: Nina Gallo [Australia] Expedition Guide: Laura Mony [Canada] Expedition Guide: Andrea Herbert [Germany] Welcome you on board! Day 1—March 11th, 2019 Embarkation—Ushuaia, Argentina GPS 08.00 Position: 54 °53’S/067°42’W Wind: SW 7 Sea State: Port Weather: Cloudy Air Temp: +8 °C Sea Temp: +9 °C So here we are at last in Tierra del Fuego, at the bottom of the world.
    [Show full text]
  • ABSTRACT TAYLOR, RICHARD STANLEY. Evaluating the Effects Of
    ABSTRACT TAYLOR, RICHARD STANLEY. Evaluating the Effects of Regional Climate Trends Along the West Antarctic Peninsula Shelf Based on the Distributions of Naturally Occurring Radiochemical Tracers within the Seabed. (Under the direction of Drs. David DeMaster and Christopher Osburn). Measurements of 230Th, 210Pb and 234Th activities were made on sediment cores collected along a N-S transect (exhibiting a sea-ice gradient) off the West Antarctic Peninsula. The resultant data, together with existing 14C sediment data, were used to evaluate the effects of regional warming on particle flux reaching the seabed on timescales from millennial to seasonal. Shelf samples were collected at five stations, over three cruises, between February 2008 and March 2009, as part of the FOODBANCS-2 Project. Sea-ice conditions (the number of days ice-free prior to core collection) were evaluated at the five stations to understand the relationship between ice abundance and particle flux. Based on the millennial tracer, 14C, particle flux along the peninsula decreases southward, consistent with the observed sea-ice gradient. 230Th data provide evidence that sediment focusing (i.e., lateral transport) occurs to a greater extent in the northern reaches of the study area as compared to the southernmost stations. 210Pb-based particle flux measurements (representing centurial trends) display a similar trend as 14C, showing higher particle flux in the northern study area stations (where sea-ice conditions are diminished) and lower flux southward as sea-ice conditions increase. Additionally, 210Pb data suggest that lateral transport plays an important role in sediment distributions on hundred-year timescales, which is explainable by the relatively short circulation times of peninsular waters relative to 210Pb’s half-life.
    [Show full text]
  • The Bransfield Current System
    Deep-Sea Research I ] (]]]]) ]]]–]]] Contents lists available at ScienceDirect Deep-Sea Research I journal homepage: www.elsevier.com/locate/dsri The Bransfield current system Pablo Sangra a,n, Carmen Gordo a,Mo´ nica Herna´ndez-Arencibia a, Angeles Marrero-Dı´az a, Angel Rodrı´guez-Santana a, Alexander Stegner b,c, Antonio Martı´nez-Marrero a, Josep L. Pelegrı´ d, Thierry Pichon c a Departamento de Fı´sica, Universidad de Las Palmas de Gran Canaria, Campus Universitario de Tafira, 35017 Las Palmas, Spain b Laboratoire de Me´te´orologie Dynamique (LMD), CNRS, Ecole Polytechnique, 91128 Palaiseau, France c Unite´ de Me´canique (UME), ENSTA Chemin de la Huniere, 91126 Palaiseau, France d Departament d’Oceanografı´aFı´sica, Institut de Ciencies del Mar, CSIC, Spain article info abstract Article history: We use hydrographic data collected during two interdisciplinary cruises, CIEMAR and BREDDIES, to Received 24 July 2010 describe the mesoscale variability observed in the Central Basin of the Bransfield Strait (Antarctica). The Received in revised form main mesoscale feature is the Bransfield Front and the related Bransfield Current, which flows 16 December 2010 northeastward along the South Shetland Island Slope. A laboratory model suggests that this current Accepted 25 January 2011 behaves as a gravity current driven by the local rotation rate and the density differences between the Transitional Zonal Water with Bellingshausen influence (TBW) and the Transitional Zonal Water with Keywords: Weddell Sea influence (TWW). Below the Bransfield Front we observe a narrow (10 km wide) tongue of Bransfield Strait Circumpolar Deep Water all along the South Shetland Islands Slope.
    [Show full text]
  • Antarctica and Academe
    LARGE ANIMALS AND WIDE HORIZONS: ADVENTURES OF A BIOLOGIST The Autobiography of RICHARD M. LAWS PART III Antarctica and Academe Edited by Arnoldus Schytte Blix 1 Contents Chapt. 1. Return to Antarctic work, 1969 …………………………………......….4 Chapt. 2. Antarctic Journey, 1970-1971 ………………………………………......14 Chapt. 3. Reorganising BAS Biology, 1969-73 ………………………………...... 44 Chapt. 4. Director of BAS, 1973- 1987 ……………………………………….....…50 Chapt. 5. First Antarctic Journey as Director: 1973-74 …………………….........56 Chapt. 6. Continuing Antarctic Journey ……………………………………....… 80 Chapt. 7. Antarctic Journeys: 1975-1982 ……………………………………….. 104 The 1975-1976 Season ……………………………………………….…104 The R/V “Hero” voyage: 1977………………………………………... 137 The 1978-1979 Season ………………………………………………… 162 The 1979-1980 Season ………………………………………………… 173 The 1981-1982 Season ………………………………………………… 187 Chapt. 8. South Georgia and the Falklands War: 1982 ………………………. 200 Chapt. 9. After the war: BAS Expansion, 1983-1987 ……………………….… 230 Chapt. 10. Antarctic Journey: 1983-84 ………………………………………..…234 Chapt. 11. Great Waters: The Southern Ocean …………………………….…. 256 Chapt. 12. Last Antarctic Journey as Director: 1986-87 ……………………... 274 Chapt. 13. Scientist Among Diplomats …………………………………….….. 302 Chapt. 14. SCAR: Four Decades of Achievement ……………………………. .318 Chapt. 15. Master of St. Edmund’s College ………………………………........ 328 Chapt. 16. Last Antarctic Journey, In Retirement: 2000-2001 ………………... 378 R. M. LAWS. Publications ………………………………………………………. 398 R. M. LAWS. Short Curriculum vitae …………………………………………... 418 2 3
    [Show full text]
  • Spirit of Antarctica
    Spirit of Antarctica 31 October – 10 November 2019 | Greg Mortimer About Us Aurora Expeditions embodies the spirit of adventure, travelling to some of the most wild opportunity for adventure and discovery. Our highly experienced expedition team of and remote places on our planet. With over 28 years’ experience, our small group voyages naturalists, historians and destination specialists are passionate and knowledgeable – they allow for a truly intimate experience with nature. are the secret to a fulfilling and successful voyage. Our expeditions push the boundaries with flexible and innovative itineraries, exciting Whilst we are dedicated to providing a ‘trip of a lifetime’, we are also deeply committed to wildlife experiences and fascinating lectures. You’ll share your adventure with a group education and preservation of the environment. Our aim is to travel respectfully, creating of like-minded souls in a relaxed, casual atmosphere while making the most of every lifelong ambassadors for the protection of our destinations. DAY 1 | Thursday, 31st October 2019 Ushuaia Position: 18:00 hours Course: 83° Wind Speed: Calm Barometer: 976.3 hPa & steady Latitude: 54°49’ S Air Temp: 9° C Longitude: 68°18’ W Sea Temp: 8° C Explore. Dream. Discover. —Mark Twain The sound of seven-short-one-long rings from the ship’s signal system was our cue to don warm clothes and bring our bulky orange lifejackets to the muster station. Raj and After months of heart pumping anticipation and long, long flights from around the world, Vishal made sure we all were present before further instruction came from the bridge. With we finally arrived in Ushuaia, ‘el fin del mundo’ (the end of the world).
    [Show full text]
  • Supplement of Configuration of the Northern Antarctic Peninsula Ice
    Supplement of The Cryosphere, 9, 613–629, 2015 http://www.the-cryosphere.net/9/613/2015/ doi:10.5194/tc-9-613-2015-supplement © Author(s) 2015. CC Attribution 3.0 License. Supplement of Configuration of the Northern Antarctic Peninsula Ice Sheet at LGM based on a new synthesis of seabed imagery C. Lavoie et al. Correspondence to: C. Lavoie ([email protected]) or E. W. Domack ([email protected]) • Fig.S1.jpg • larsb_movie_ovl.gif 2 C. Lavoie et al.: Northern Antarctic Peninsula Ice Sheet at LGM deepened troughs and basins where mega-scale glacial lin- swath bathymetry data and provide a comprehensive assess- eations (MSGLs) (Clark, 1993; Clark et al., 2003) and large- ment of the flow paths, ice divides, and ice domes pertaining scale flow line bedforms such as glacial flutes, mega-flutes, to the glacial history of the northern APIS at the LGM time grooves, drumlins, and crag-and-tails provide geomorphic interval. These ice divides can either be ice ridges or local evidence for former regional corridors of fast-flowing ice and ice domes with their own accumulation centers, which are drainage directions of the APIS on the continental shelf. Also ice divides with a local topographic high in the ice surface of importance is their synchroneity as the ice flows change and flow emanating in all directions (although not necessar- during the ice sheet evolution from ice sheet to ice stream to ily equally). The shape of an ice dome may range from cir- ice shelf (Gilbert et al., 2003; Dowdeswell et al., 2008). cular to elongated; elongated ridge-like ice domes are com- Our capability to image specific flow directions and styles mon amongst the present-day ice streams of West Antarc- on the Antarctic continental shelf is critical to any glacial re- tica.
    [Show full text]
  • Geotectonic Evolution of the Bransfield Basin, Antarctic Peninsula
    Antarctic Science 20 (2), 185–196 (2008) & Antarctic Science Ltd 2008 Printed in the UK DOI: 10.1017/S095410200800093X Geotectonic evolution of the Bransfield Basin, Antarctic Peninsula: insights from analogue models M.A. SOLARI1*, F. HERVE´ 1, J. MARTINOD2, J.P. LE ROUX1, L.E. RAMI´REZ1 and C. PALACIOS1 1Department of Geology, Universidad de Chile, PO Box 13518, Correo 21, Santiago, Chile 2IRD, LMTG, Universite´ Toulouse 3, 14 Avenue Edouard Belin, 31400, Toulouse, France *[email protected] Abstract: The Bransfield Strait, located between the South Shetland Islands and the north-western end of the Antarctic Peninsula, is a back-arc basin transitional between rifting and spreading. We compiled a geomorphological structural map of the Bransfield Basin combining published data and the interpretation of bathymetric images. Several analogue experiments reproducing the interaction between the Scotia, Antarctic, and Phoenix plates were carried out. The fault configuration observed in the geomorphological structural map was well reproduced by one of these analogue models. The results suggest the establishment of a transpressional regime to the west of the southern segment of the Shackleton Fracture Zone and a transtensional regime to the south-west of the South Scotia Ridge by at least c. 7 Ma. A probable mechanism for the opening of the Bransfield Basin requires two processes: 1) Significant transtensional effects in the Bransfield Basin caused by the configuration and drift vector of the Scotia Plate after the activity of the West Scotia Ridge ceased at c. 7 Ma. 2) Roll-back of the Phoenix Plate under the South Shetland Islands after cessation of spreading activity of the Phoenix Ridge at 3.3 Æ 0.2 Ma, causing the north-westward migration of the South Shetland Trench.
    [Show full text]
  • Numerical Simulations of Circulations Near the Bransfield Strait, Antarctica
    Numerical simulations of circulations near the Bransfield Strait, Antarctica Zhaoru Zhang1, Martinho Marta-Almeida2, and Guangqian Du1 1. Institute of Oceanology, Shanghai Jiao Tong University, Shanghai, China 2.University of Aveiro, Aveiro, Portugal 1. Introduction 4. Numerical Model The Bransfield Strait and Gerlache Strait in Antarctica are the spawning and nursery grounds of Antarctic Krill, and circulations in this area play an important role in the transport of krill larvae. The major circulation feature in this region is a strong, northeastward-flowing current along the northern slope of the Bransfield Strait, which is fed by the return flow of the southwest currents along the Antarctic Peninsula, the northeastward currents EI flowing from the Gerlache Strait into the Bransfield Strait, and the southward currents through the Boyd Strait. A numerical model based on ROMS is preliminarily built up to simulate the circulation system in the Bransfield SSIs Strait. 2. Observed seasonal circulations in/near the Bransfield Strait Bransfield Strait Dataset: Joint Archived Shipboard ADCP (JASADCP) Gerlache Strait Antarctic Peninsula Fig. 4. The model domain. The grid is plotted every 10th model point. Fig.1. Seasonal surface currents (climatology) in the Bransfield Strait, Gerlache Strait and north of the South Shetland Islands (SSIs). Fig. 5. Model simulated December mean sea surface temperature (color) and surface currents (vector). Fig.2. Same as Fig. 1 but for currents at 200 m. 3. The Antarctic Slope Current Fig. 6. Model simulated December mean sea surface salinity. Fig. 3. (Left) Vertical profiles of (a) potential temperature, (b) salinity, (c) dissolved oxygen, (d) potential density, (e) calculated geostrophic current and (f) measured along-slope current on a cross-slope transect north of the Elephant Island (EI) during an austral summer cruise.
    [Show full text]