DOCSLIB.ORG

THE KINLOCH CLUB | 2016/2017 25% Inbound Rates

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
THE KINLOCH CLUB | 2016/2017 25% Inbound Rates THE KINLOCH CLUB | 2016/2017 25% Inbound Rates Terms and Conditions 1. Disclaimer: Navigate South Limited (“NSL”) has taken all care in preparing this document. The rates, terms and conditions and other information for each property have been provided by the owners of the property. NSL will not be held responsible for any incorrect information or errors in this document, or any loss, damage or liability suffered by any party or parties as the result of such incorrect information or errors. 2. Individual property offers: Individual property offers are subject to change. NSL will use its best endeavours to communicate any such changes through NAVIGATE monthly rates updates, sent via email, but will not be held responsible for any changes which are not so notified. 3. Reservations and payments: All reservations must be made directly with the owner/s of each property. Such booking and any payment/s due in respect of the same will be subject to that property’s Terms and Conditions. NSL will not be responsible for any loss, damage or liability suffered by any party or parties in connection with such booking or payment/s. 4. Swedish Rounding System: All of the rates in this document have been rounded using the Swedish Rounding System. 5. NAVIGATE+ Reward Scheme: Rewards obtained in respect of the NAVIGATE+ Reward Scheme cannot be combined with any other offer, discount or promotion. Validity extended to 31.03.2017. Graphics High resolution graphics can be downloaded from our high res image library at www.navigateoceania.com Copy Professional copy can be uploaded from this website on individual properties in English, German, French, Russian, Mandarin and Spanish at www.navigateplus.com NAVIGATE OCEANIA - P.O. Box 37587, Parnell, Auckland 1052, New Zealand P: 64 9 307 3633| [email protected]| www.navigateoceania.com | www.navigateplus.com © 2015 Navigate South Limited. The NAVIGATE+ logo, NAVIGATE+, NAVIGATE OCEANIA logo, NAVIGATE OCEANIA, NAVIGATE and EXPERIENCE A NEW WORLD are trademarks of Navigate South Limited. All rights reserved. Version 4: 31.01.2016 Page | 1 MUST SEE • Taupo from the air – fly over Tongariro National Park, Mt Tarawera, Huka Falls and Lake Taupo in a float plane, taking off and landing in the water. • Watch the surging Aratiatia Rapids featured in The Hobbit movie. • Taupo’s wilderness – hire a professional guide and explore the surrounding alpine landscapes from some of the best walks and hiking trails in the world. • White Island’s unique geological formations – fly by helicopter and take a guided walk across the crater floor of White Island, New Zealand’s only active marine volcano. • The stunning surrounds of The Kinloch Club – walk the perimeter of the golf course, on the verge of New Zealand farmland and take in the enthralling scenery of this idyllic retreat. • Craters of the Moon – feel the heat of the earth and see the boiling mud at this thermal wonderland. MUST BUY • A fishing license to try your luck at hooking a trout on Lake Taupo, you might just catch that big one! • NAVIGATE OCEANIA - P.O. Box 37587, Parnell, Auckland 1052, New Zealand P: 64 9 307 3633| [email protected]| www.navigateoceania.com | www.navigateplus.com © 2015 Navigate South Limited. The NAVIGATE+ logo, NAVIGATE+, NAVIGATE OCEANIA logo, NAVIGATE OCEANIA, NAVIGATE and EXPERIENCE A NEW WORLD are trademarks of Navigate South Limited. All rights reserved. Version 4: 31.01.2016 Page | 4 NAVIGATE OCEANIA - P.O. Box 37587, Parnell, Auckland 1052, New Zealand P: 64 9 307 3633| [email protected]| www.navigateoceania.com | www.navigateplus.com MEAL COSTS: Lunch On request - POA CHILD POLICY: All ages welcome. Child rate applies to children staying with their parents in the same room. Only one child permitted per room. CHILD RATES: (COMMISSIONABLE) B&B RACK/GROSS TARRIF: Low Season High Season 01/04/16 - 31/10/16 01/11/16 - 31/03/17 Children 3 – 11 years NZ$208 NZ$272 Children 2 years and under Free of charge – cot available at no extra cost. DBB RACK/GROSS TARRIF: Low Season High Season 01/04/16 - 31/10/16 01/11/16 - 31/03/17 Children 3 – 11 years NZ$297 NZ$363 Children 2 years and under Free of charge – cot available at no extra cost. ROOM CONFIGURATION: Junior Suite: 1 x K or 2 x S, maximum number of persons is 2 1 Bedroom Villa 1 X K or 2 x S, plus one double sofa bed, maximum number of persons is 4 2 Bedroom Villa: 2 x K or 4 x S maximum number is 4 (plus some villas have a Den with 1 x Dble Sofa Bed max number in villa with Den is 6) VILLA NUMBERS: NAVIGATE OCEANIA - P.O. Box 37587, Parnell, Auckland 1052, New Zealand P: 64 9 307 3633| [email protected]| www.navigateoceania.com | www.navigateplus.com © 2015 Navigate South Limited. The NAVIGATE+ logo, NAVIGATE+, NAVIGATE OCEANIA logo, NAVIGATE OCEANIA, NAVIGATE and EXPERIENCE A NEW WORLD are trademarks of Navigate South Limited. All rights reserved. Version 4: 31.01.2016 Page | 7 GOLFING – The Kinloch Club: Golf at the Jack Nicklaus designed The Kinloch Club is often compared to the classic link courses in Scotland and Ireland. However, instead of traditional sea views, this world-class championship Par 72 course is positioned between panoramic views of Lake Taupo, New Zealand’s largest Fresh-water lake, and the natural beauty of rugged rural farmland. Ranked as New Zealand’s number one golf course in 2014 by a select team of esteemed New Zealand Golf Professionals the Kinloch Club is also rated 76 th of the top 100 golf courses outside of America by Golf Digest Magazine. The only Jack Nicklaus Signature Golf Course to be built in New Zealand, Kinloch showcases a design philosophy that aims to enhance the natural environment – allowing the surroundings of the stunning Taupo region to shape each hole. The Kinloch club was voted in the top 10 new golf courses in the world by US Travel and Leisure golf magazine (the only course outside of North America to feature in that prestigious list). Although technically not a true links course, it cleverly merges aspects of both links and parkland course design. The Par 72 course is an eye-catching centrepiece in the dramatic New Zealand landscape overlooking Lake Taupo and provides a uniquely challenging course that has golf enthusiasts returning for more. Nicklaus uses natural features to enhance shot values so that golfers can work on every aspect of their game – an approach that has earned him an enviable reputation. Experienced golfers consider every hole at this 18-hole course to be a Signature hole, where a certain depth of mystery repeatedly challenges players to find their best landing shots onto the green. Rugged bunkers are strewn across the course, adding to the challenge and provide a confronting picture as players tee off. The fairways are contoured and conditioned for ground play and possess New Zealand’s finest drainage making it arguably the countries best all season course. NAVIGATE OCEANIA - P.O. Box 37587, Parnell, Auckland 1052, New Zealand P: 64 9 307 3633| [email protected]| www.navigateoceania.com | www.navigateplus.com © 2015 Navigate South Limited. The NAVIGATE+ logo, NAVIGATE+, NAVIGATE OCEANIA logo, NAVIGATE OCEANIA, NAVIGATE and EXPERIENCE A NEW WORLD are trademarks of Navigate South Limited. All rights reserved. Version 4: 31.01.2016 Page | 9 GOLF COSTINGS (Commission at 15% on international green fees only. No other commission applies to Golf published rates): 18 hole Junior Green Fee Golf Cart Green Fees (under 16) Caddie Rates Hire Trundler Hire Club Rental Fore Published Rates (inc GST) Int NZ Int NZ Sgl Dbl caddie per cart per person per person High Season 1st Nov to 30 April 350 250 195 161 POA POA POA $50 $10 $60 Low Season 1st May to 31st Oct 235 150 161 138 POA POA POA $50 $10 $60 Terms and Conditions of Fees charged: 1. Green fees are per person, per round. 2. Published rates are applicable only for one continuous round of golf. However, Lodge guests can play unlimited golf in any one calendar day with one green fee payment, however this does not cover cart hire, trundle or club rental 3. Published rates are in NZ$ and inclusive GST 4. Published rates are subject to change 5. Group rates are on ‘application’ for any group of 13 or more players MEMBERSHIPS: Jack Nicklaus Signature Golf Courses, Navigate Oceania TRANSFERS/PICK-UPS: To/from Taupo Airport, (1/2 hour) from NZ$165.00 nett each way per vehicle (max 2 people). NAVIGATE OCEANIA - P.O. Box 37587, Parnell, Auckland 1052, New Zealand P: 64 9 307 3633| [email protected]| www.navigateoceania.com | www.navigateplus.com © 2015 Navigate South Limited. The NAVIGATE+ logo, NAVIGATE+, NAVIGATE OCEANIA logo, NAVIGATE OCEANIA, NAVIGATE and EXPERIENCE A NEW WORLD are trademarks of Navigate South Limited. All rights reserved. Version 4: 31.01.2016 Page | 10 TERMS & CONDITIONS: In order to confirm a reservation we require a deposit of 25% of the total stay. The deposits can either be made in the form of a bank transfer, bank cheque or credit card details and expiry date. Reservations made within 7 days of arrival will be accepted with credit card and bank transfers. Surcharge applicable on December 25th (Christmas Day) and December 31st (New Year’s Eve) of NZ$300.00 per adult plus GST and NZ$150.00 per child plus GST (under 12 years of age) Fully Commissionable. Lions Tour 2017: Minimum 2 night stay applies nights of 16, 17th or 18th June.
Load more

Recommended publications
  • Protecting an Icon Managing Sources of Diffuse Nutrient Inflow to Lake Taupo, New Zealand Abstract Introduction Mandate for Acti
    Diffuse Pollution Conference, Dublin 2003 1C Water Resources Management PROTECTING AN ICON MANAGING SOURCES OF DIFFUSE NUTRIENT INFLOW TO LAKE TAUPO, NEW ZEALAND Tony Petch1, Justine Young1, Bruce Thorrold2 and Bill Vant1 1Environment Waikato, PO Box 4010, Hamilton East, New Zealand 2Dexcel Ltd, Private Bag 3221, Hamilton ABSTRACT Lake Taupo is a large, near pristine lake in New Zealand, highly valued for its clear blue waters. Increasing loads of nitrogen from the surrounding catchment threaten lake water quality. A management proposal is presented that promotes a sustainable development pathway for the lake community thereby protecting the lake for all New Zealanders. A community change process to protect the environmental, economic, cultural and spiritual values of a lake is described Keywords: Community, economy, Lake Taupo, land use, management, nutrients, policy, water quality INTRODUCTION Lake Taupo is the largest lake in New Zealand (area 620 km2, mean depth 95m). It is highly valued for its crystal blue water and dramatic vistas. These features provide the basis of an international tourist mecca and a world-class trout fishery as well as an important local recreation area and preferred retirement location. The lake is also important spiritually and culturally to the local indigenous people, Ngati Tuwharetoa. Lake Taupo’s excellent water quality is derived from extremely low levels of plant nutrients and phytoplankton. Unlike many other lakes, nitrogen availability rather than phosphorus limits phytoplankton growth in Taupo. Increased nutrient flows, especially nitrogen, from intensifying rural land use and urban growth in the catchment promotes algal and phytoplankton growth and threatens water clarity and the excellent water quality of the lake.
    [Show full text]
  • Wood Calderas and Geothermal Systems in The
    WOOD CALDERAS AND GEOTHERMAL SYSTEMS IN THE TAUPO VOLCANIC ZONE, NEW ZEALAND C Peter Wood Institute of Geological Nuclear Sciences Ltd, Wairakei Research Centre Taupo, New Zealand Key Words: Calderas, Geothermal Systems, Taupo Volcanic Zone. New Zcaland 2. TAUPO VOLCANIC ZONE The Taupo Volcanic Zone Fig. 1) is the consequence of plate subduction beneath the North Island of New Zcaland. ABSTRACT The thin continental crust (-15 km, Stem and Davey, 1987) spreads at rates up to 18 (Darby and Williams, 1991) Silicic calderas and geothermal systems in Taupo Volcanic in active rifting and subsidence. Since c. 1.6 Ma, the Zone (TVZ) of New Zealand are spatially related. Eight calderas, central TVZ has been the most frequently active and productive active since 1.6 Ma, occupy 45% of the Boundaries of region of rhyolitic volcanism on earth (Houghton et al., 1994). calderas arc often speculative, but of 20 geothermal systems producing an estimated 10 - 15 of rhyolite, and considercd, 15 occur on or next to a caldera margin where there is subordinate dacite, andesite and basalt. Debate continues whether enhanced deep permeability: the best examples are at Haroharo TVZ is a migrating andesitic arc and zone of asymmetric crustal where systems occur at the intersection of volcanic lineations and spreading (eg. Stem, or an andesite-dacite arc with bimodal caldera embayments, and at Rotorua. Drillhole evidence supports rhyolite-basalt back arc (eg. Cole, 1990). Whichever is the case, a realignment of caldera margin through the Wairakei- it is a matter of observation that most geothermal fields are geothermal field. Four geothermal systems have no known contained within the area of rhyolite volcanism.
    [Show full text]
  • The Taupo Eruption Sequence of AD 232±10 in Aotearoa New
    地学雑誌 Journal of Geography(Chigaku Zasshi) 130(1)117­141 2021 doi:10.5026/jgeography.130.117 The 100s: Significant Exposures of the World( No. 12) The Taupō Eruption Sequence of AD 232 ± 10 in Aotearoa New Zealand: A Retrospection * * David J. LOWE and Adrian PITTARI [Received 9 June, 2020; Accepted 13 August, 2020] Abstract The Taupō eruption, also known as eruption Y, occurred in late summer to early autumn (typically late March to early April) in AD 232 10 yr at Taupō volcano, an ‘inverse’ caldera volcano underlying Lake Taupō in the central Taupō Volcanic Zone, North Island, Aotearoa New Zealand. The complex rhyolitic eruption, the most powerful eruption globally in the last 5000 years, lasted between several days and several weeks and generated five markedly contrasting pyroclastic fall deposits( units Y1 to Y5) followed by the extremely violent emplacement of a low-aspect-ratio ignimbrite( unit Y6). The fall deposits include three phreatomagmatic units, Y1, Y3, and Y4, the latter two being the products of archetypal phreatoplinian events; and two magmatic units, Y2 and Y5, the latter being the product of an exceptionally powerful plinian (previously described as ‘ultraplinian’) event with an extreme magma discharge rate around 108 to 1010 kg s-1. The pyroclastic fall-generating eruptions were followed by the climactic emplace- ment of the entirely non-welded Taupō ignimbrite( Y6). It was generated by the catastrophic collapse of the 35 to 40-km-high plinian eruption column( Y5) that produced a very-fast-moving (600 to 900 km h-1), hot( up to 500°C) pyroclastic flow( density current) that covered about 20,000 km2 of central North Island over a near-circular area ~160 km in diameter, centred on Lake Taupō, in fewer than about ten to 15 minutes.
    [Show full text]
  • Educators Guide
    EDUCATORS GUIDE 02 | Supervolcanoes Volcanism is one of the most creative and destructive processes on our planet. It can build huge mountain ranges, create islands rising from the ocean, and produce some of the most fertile soil on the planet. It can also destroy forests, obliterate buildings, and cause mass extinctions on a global scale. To understand volcanoes one must first understand the theory of plate tectonics. Plate tectonics, while generally accepted by the geologic community, is a relatively new theory devised in the late 1960’s. Plate tectonics and seafloor spreading are what geologists use to interpret the features and movements of Earth’s surface. According to plate tectonics, Earth’s surface, or crust, is made up of a patchwork of about a dozen large plates and many smaller plates that move relative to one another at speeds ranging from less than one to ten centimeters per year. These plates can move away from each other, collide into each other, slide past each other, or even be forced beneath each other. These “subduction zones” are generally where the most earthquakes and volcanoes occur. Yellowstone Magma Plume (left) and Toba Eruption (cover page) from Supervolcanoes. 01 | Supervolcanoes National Next Generation Science Standards Content Standards - Middle School Content Standards - High School MS-ESS2-a. Use plate tectonic models to support the HS-ESS2-a explanation that, due to convection, matter Use Earth system models to support cycles between Earth’s surface and deep explanations of how Earth’s internal and mantle. surface processes operate concurrently at different spatial and temporal scales to MS-ESS2-e form landscapes and seafloor features.
    [Show full text]
  • Nitrogen Trading in Lake Taupo an Analysis and Evaluation of an Innovative Water Management Policy
    Nitrogen Trading in Lake Taupo An Analysis and Evaluation of an Innovative Water Management Policy Madeline Duhon, Hugh McDonald and Suzi Kerr Motu Working Paper 15-07 Motu Economic and Public Policy Research June 2015 Author contact details Madeline Duhon Stanford University [email protected] Suzi Kerr Motu Economic and Public Policy Research [email protected] Hugh McDonald [email protected] Acknowledgements Special thanks to Colin Armer, George Asher, Sandra Barns, Mike Barton, Sharon Barton, Tim Bennetts, James Bowron, Graeme Fleming, Richard Gardiner, Suzie Greenhalgh, Mark Grinlinton, Natasha Hayward, Malcolm McLeod, Jon Palmer, Jocelyn Reeve, Alex Richardson, Gary Taylor, Geoff Thorp and Justine Young for their helpful insights and perspectives. Motu Economic and Public Policy Research PO Box 24390 Wellington New Zealand Email [email protected] Telephone +64 4 939 4250 Website www.motu.org.nz © 2014 Motu Economic and Public Policy Research Trust and the authors. Short extracts, not exceeding two paragraphs, may be quoted provided clear attribution is given. Motu Working Papers are research materials circulated by their authors for purposes of information and discussion. They have not necessarily undergone formal peer review or editorial treatment. ISSN 1176-2667 (Print), ISSN 1177-9047 (Online). i Abstract This paper provides an overview and early evaluation of the Lake Taupo nitrogen cap and trade programme, established as part of Waikato Regional Council’s 2011 Regional Plan Variation Five. The policy establishes a catchment-wide cap on nitrogen losses by allocating farmers individual nitrogen discharge allowances and allowing those farmers flexibility to trade allowances amongst themselves and to sell allowances to a public fund while remaining within the overall catchment cap.
    [Show full text]
  • Tapuaeharuru Bay Lakeshore Management Plan
    CONTENTS PART 1 INTRODUCTION 3 Purpose of this reserve management plan 4 How to use this reserve management plan 5 Statutory requirements and planning context 5 Statutory requirements 6 Reserves Act 1977 6 Resource Management Act 1991 6 Local Government Act 2002 6 Long-Term Council Community Plan 2006-2016 6 Planning context 7 Taupo District Plan 2007 7 Taupo District 2050 - Growth Management Strategy 8 Asset Management Plan - Parks and Reserves 8 Recreation Strategy 2006 8 Tree and Vegetation Policy 2005 8 Cycle and Walking Strategy 2006 8 Lake Taupo Erosion and Flood Strategy 8 (under development) 2020 Taupo Nui-a-Tia Action Plan 9 Administration of Lake Taupo and its environs 9 PART 2 CONTEXT 10 Location 11 Reserves index and classification 11 TAPUAEHARURU BAY LAKESHORE RESERVES MANAGEMENT PLAN BAY TAPUAEHARURU History 12 Tangata whenua history 12 European history 14 Reserve descriptions 15 Whakamoenga Point Reserve 15 Whangaroa Reserve (Acacia Bay South) 16 Acacia Bay (North) 16 Te Kopua Point Reserve 17 Te Moenga Scenic Reserve 17 West Harbour Esplanade Reserve 18 Lakefront Reserve 18 Colonel Roberts Reserve 19 Northcroft Reserve 20 Waipahihi C75 Maori Reserve 20 Hot Water Beach Reserve 20 Manuels Lakefront and Timeshare Lakefront Reserve 21 Two Mile Bay Reserve 21 Lions Walk (including Oregon Drive Accessway) 21 Secombe Park 22 Wharewaka Point 22 Five Mile Bay Reserve 23 Figure 1: Tapuaeharuru Bay Lakeshore Reserves Location Plan 24 1 PART 3 KEY MANAGEMENT ISSUES 25 Landscape 26 Geology and lake processes 26 Volcanic beginnings 26
    [Show full text]
  • A Directory of Wetlands in New Zealand: Tongariro/ Taupo
    A Directory of Wetlands in New Zealand TONGARIRO/TAUPO CONSERVANCY Lake Taupo (24) Location: 175°55'E, 38°47'S. In the centre of North Island. Area: c.61,500 ha. Altitude: 357 m. Overview: Lake Taupo is a deep, windswept, volcanic lake, the largest in the southern hemisphere. Its waters support abundant life, particularly aquatic plants and fish, while the lake and its associated environs support a host of waterfowl. The lake is noted for the clarity of its waters, and provides scenic vistas and fishing opportunities for local people and visitors alike. It is at the centre of the region's economy, as it supports an internationally renown recreational fishery, and its protection dictates land use throughout the catchment. A large wetland on the southern shore of the lake, South Taupo Wetland, is described separately as Site 25. Physical features: The lake is a large volcanic caldera, the result of a depression formed with the uplifting and down faulting of the central North Island mountain ranges, which have undergone frequent and often violent volcanic activity. It is surrounded by pumice terraces. Today, water levels are manipulated for hydro-electric power generation. Control gates at the lake's outflow regulate discharge which ranges from nil to 330 cubic metres per second. The lake has a catchment area of some 328,930 ha, and is the source of New Zealand's longest river, the Waikato. The Waikato River is important for hydro-electric power generation as well as a variety of domestic, recreational, industrial and agricultural users along its entire length of 450 km.
    [Show full text]
  • Super Eruptions.Pdf
    Aberystwyth University Super-eruptions Rymer, Hazel; Sparks, Stephen; Self, Stephen; Grattan, John; Oppenheimer, Clive; Pyle, David Publication date: 2005 Citation for published version (APA): Rymer, H., Sparks, S., Self, S., Grattan, J., Oppenheimer, C., & Pyle, D. (2005). Super-eruptions: Global effects and future threats. Geological Society of London. http://hdl.handle.net/2160/197 General rights Copyright and moral rights for the publications made accessible in the Aberystwyth Research Portal (the Institutional Repository) are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. • Users may download and print one copy of any publication from the Aberystwyth Research Portal for the purpose of private study or research. • You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the Aberystwyth Research Portal Take down policy If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. tel: +44 1970 62 2400 email: [email protected] Download date: 10. Oct. 2021 The Jemez Mountains (Valles Caldera) super-volcano, New Mexico, USA. Many super-eruptions have come from volcanoes that are either hard to locate or not very widely known. An example is the Valles Caldera in the Jemez Mountains, near to Santa Fe and Los Alamos, New Mexico, USA. The caldera is the circular feature (centre) in this false-colour (red=vegetation) Landsat image, which shows an area about 80 kilometres across of the region in North-Central New Mexico.
    [Show full text]
  • Super-Eruptions: Global Effects and Future Threats
    The Jemez Mountains (Valles Caldera) super-volcano, New Mexico, USA. Many super-eruptions have come from volcanoes that are either hard to locate or not very widely known. An example is the Valles Caldera in the Jemez Mountains, near to Santa Fe and Los Alamos, New Mexico, USA. The caldera is the circular feature (centre) in this false-colour (red=vegetation) Landsat image, which shows an area about 80 kilometres across of the region in North-Central New Mexico. The collapsed caldera is 24 kilometres in diameter and is the result of two explosive super- eruptions 1.6 and 1.1 million years ago (i.e., 500,000 years apart). All rocks in the photo below are part of the 250 metre thick deposits of the older of the two super- eruptions at the Valles Caldera. It’s not a question of “if” – it’s a question of “when…” “Many large volcanoes on Earth are capable of explosive eruptions much bigger than any experienced by humanity over historic time. Such volcanoes are termed super-volcanoes and their colossal eruptions super-eruptions. Super-eruptions are different from other hazards such as earthquakes, tsunamis, storms or fl oods in that – like the impact of a large asteroid or comet – their environmental effects threaten global civilisation.” “Events at the smaller-scale end of the super-eruption size spectrum are quite common when compared with the frequency of other naturally occurring devastating phenomena such as asteroid impacts. The effects of a medium-scale super- eruption would be similar to those predicted for the impact of an asteroid one kilometre across, but super-eruptions of this size are still fi ve to ten times more likely to occur within the next few thousand years than an impact.” “Although at present there is no technical fi x for averting super-eruptions, improved monitoring, awareness-raising and research-based planning would reduce the suffering of many millions of people.” 1 Executive summary Some very large volcanoes are capable Problems such as global warming, of colossal eruptions with global impacts by asteroids and comets, rapid consequences.
    [Show full text]
  • GA Supervolcano
    GeoActiveGeoActive 432 OnlineOnline WHAT IS A SUPERVOLCANO? by John Davidson HE TERM supervolcano Twas first used in the year 2000 to describe a small number of giant volcanoes that have D E produced rare but catastrophic Yellowstone G Long Valley eruptions. Somewhere in the Campi Flegrei Aso world a supervolcano erupts C roughly every 50,000 to 100,000 A Toba years and blasts over 1,000 B F cubic km (km3) of material into the air. Supervolcanoes are very Taupo large and usually 50 to 100 km in diameter. Figure 1 shows H the location of the world’s Key known supervolcanoes. Some Supervolcano eruption in the last 2 million years supervolcanoes are located in Figure 1: World distribution of supervolcanoes areas of dense human population, in South-east Asia, western USA, Japan and Italy, and they have Supervolcano Country GeoActiveDate Series of 21 eruption Issue 2 Volume of ejected 3 attracted considerable interest Fig 432_01 Mac/eps/illustrator(years before 11 s/s material (km ) NELSON THORNESpresent) PUBLISHING from geographers and geologists Artist: David Russell Illustration because they are potentially Long Valley USA 760,000 560 very dangerous and not fully caldera, California understood. The dates of historic Lava Creek, USA 640,000 1,000 supervolcano eruptions in the Yellowstone last million years are shown in Whakamaru New Zealand 254,000 2,000 Figure 2. As no supervolcano has Aso Japan 80,000 600 produced a full-scale eruption in Mount Toba, Indonesia 74,000 2,800 the last 2,000 years, we can only Sumatra work out from rocks and fossils Campi Flegrei Italy 39,000 500 how extreme their eruptions can Lake Taupo New Zealand 26,500 1,170 be.
    [Show full text]
  • Ff 653 July 65 1
    4 GPO CFST ff 653 July 65 1 CALDERAS 1 I CALDERAS Howel Williams Table of Contents Page Terminology .................................................... 1 Classification and origin of calderas .......................... 2 A preferred classification ..................................... 5 Calderas of Krakatoa type ...................................... 7 Krakatoa .................................................. 9 Crater Lake. Oregon ....................................... 10 Shikotsu caldera. Hokkaido ................................ 12 Towada caldera. Honsyu .................................... 13 Santorin caldera. Greece .................................. 13 Deception Island caldera. South Shetland Islands .......... 16 Coatepeque caldera. El Salvador ........................... 18 Katmai type .................................................... 18 Valles type .................................................... 21 Valles caldera. New Mexico ................................ 22 Creede caldera. Colorado .................................. 24 Timber Mountain caldera. Nevada ........................... 26 Calderas associated with effusive eruptions of basaltic magma .. 28 Masaya type .................................................... 28 Hawaiian type .................................................. 30 Galapagos type ................................................. 33 Calderas associated with mixed eruptions from ring fractures ... 35 Glencoe type ................................................... 35 ii e Page Glencoe .......................................................
    [Show full text]
  • New Zealand Touring Map
    Manawatawhi / Three Kings Islands NEW ZEALAND TOURING MAP Cape Reinga Spirits North Cape (Otoa) (Te Rerengawairua) Bay Waitiki North Island Landing Great Exhibition Kilometres (km) Kilometres (km) N in e Bay Whangarei 819 624 626 285 376 450 404 698 539 593 155 297 675 170 265 360 658 294 105 413 849 921 630 211 324 600 863 561 t Westport y 1 M Wellington 195 452 584 548 380 462 145 355 334 983 533 550 660 790 363 276 277 456 148 242 352 212 649 762 71 231 Wanaka i l Karikari Peninsula e 95 Wanganui 370 434 391 222 305 74 160 252 779 327 468 454 North Island971 650 286 508 714 359 159 121 499 986 1000 186 Te Anau B e a Wairoa 380 308 252 222 296 529 118 781 329 98 456 800 479 299 348 567 187 189 299 271 917 829 Queenstown c Mangonui h Cavalli Is Themed Highways29 350 711 574 360 717 905 1121 672 113 71 10 Thames 115 205 158 454 349 347 440 107 413 115 Picton Kaitaia Kaeo 167 86 417 398 311 531 107 298 206 117 438 799 485 296 604 996 1107 737 42 Tauranga For more information visit Nelson Ahipara 1 Bay of Tauroa Point Kerikeri Islands Cape Brett Taupo 82 249 296 143 605 153 350 280 newzealand.com/int/themed-highways643 322 329 670 525 360 445 578 Mt Cook (Reef Point) 87 Russell Paihia Rotorua 331 312 225 561 107 287 234 1058 748 387 637 835 494 280 Milford Sound 11 17 Twin Coast Discovery Highway: This route begins Kaikohe Palmerston North 234 178 853 401 394 528 876 555 195 607 745 376 Invercargill Rawene 10 Whangaruru Harbour Aotearoa, 13 Kawakawa in Auckland and travels north, tracing both coasts to 12 Poor Knights New Plymouth 412 694 242 599 369 721 527 424 181 308 Haast Opononi 53 1 56 Cape Reinga and back.
    [Show full text]