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E-grāmata: Geology of Australia

3.72/5 (30 ratings by Goodreads)
, (James Cook University, North Queensland)
  • Formāts: EPUB+DRM
  • Izdošanas datums: 06-Sep-2016
  • Izdevniecība: Cambridge University Press
  • Valoda: eng
  • ISBN-13: 9781316692042
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Geology of AustraliaPalielināt
  • Formāts: EPUB+DRM
  • Izdošanas datums: 06-Sep-2016
  • Izdevniecība: Cambridge University Press
  • Valoda: eng
  • ISBN-13: 9781316692042
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The Geology of Australia provides a vivid and informative account of the evolution of the Australian continent over the last 4400 million years. Starting with the Precambrian rocks that hold clues to the origins of life and the development of an oxygenated atmosphere, it goes on to cover the warm seas, volcanism and episodes of mountain building, which formed the eastern third of the Australian continent. This illuminating history details the breakup of the supercontinents Rodinia and Gondwana, the times of previous glaciations, the development of climates and landscapes in modern Australia, and the creation of the continental shelves and coastlines. Separate chapters cover the origin of the Great Barrier Reef, the basalts in Eastern Australia, and the geology of the Solar System. This second edition features two new chapters, covering the evolution of life on Earth while emphasising the fossil record in Australia, and providing a geological perspective on climate change. From Uluru to the Great Dividing Range, from earthquakes to dinosaurs, from sapphires to the stars The Geology of Australia is a comprehensive exploration of the timeless forces that have shaped this continent.

Papildus informācija

From Uluru to the Great Dividing Range, The Geology of Australia explores the timeless forces that have shaped this continent.
Preface ix
Acknowledgements x
Units of measurement and abbreviations xiii
1 Geology: An Australian perspective
1(22)
Connections
1(10)
Australia's present geological setting
11(11)
Summary
22(1)
2 The Earth: A geology primer
23(46)
A Model of the Earth
23(4)
Plate tectonics
27(6)
Within-plate volcanics
33(1)
Crustal stress and its consequences
34(4)
Minerals
38(6)
Types of rocks
44(14)
The shaping of the landscape
58(9)
Coastal and offshore areas
67(1)
Summary
68(1)
3 Telling geological time: The great canvas
69(16)
Developing a timescale
70(3)
Adding time units to the timescale
73(6)
Dating by magnetic signature
79(2)
Dating within the span of humankind
81(2)
Summary
83(2)
4 The cratons: Building the core of Precambrian rocks
85(24)
The original Earth
85(4)
The Archean
89(8)
The Proterozoic
97(3)
The origin of life
100(7)
The Rodinian supercontinent breakup
107(1)
Summary
107(2)
5 Mountain building: Paleozoic orogenic rock systems
109(22)
Assembly of the Gondwana supercontinent
109(1)
Orogenic processes and patterns
110(3)
The Tasman Orogenic Zone
113(16)
The historical record of the orogenic sedimentary systems
129(1)
Summary
130(1)
6 Warm times: Tropical corals and arid lands
131(16)
Part of Gondwana
131(4)
Seascapes and landscapes
135(6)
Deep crustal processes
141(5)
Summary
146(1)
7 Icehouse: Carboniferous and Permian glaciation
147(24)
The setting and relationships
148(1)
A Glaciated Continent
148(10)
Development of the coal basins
158(12)
Summary
170(1)
8 Mesozoic warming: The great inland plains and seas
171(24)
Warming of the inland plains
172(10)
The Tasmanian dolerites
182(1)
Continental breakup and inland seas
183(3)
Cretaceous volcanism
186(1)
Rainforests, dinosaurs and sea monsters
187(7)
Summary
194(1)
9 The birth of modern Australia: Flowering plants, mammals and deserts
195(26)
Australia emerges
196(8)
The rainforests
204(5)
Australian fauna through the Cenozoic
209(2)
Consequences from growth of the ice-caps
211(2)
The arid interior
213(6)
Summary
219(2)
10 Fossils: The Australian record of past life in context
221(30)
Invertebrate fossils
227(7)
Vertebrate fossils
234(7)
The Australian fossil record
241(9)
Summary
250(1)
11 The land stirs: Volcanoes and the eastern highlands
251(22)
The volcanic provinces
251(14)
The seamount chains
265(2)
Origins of the Great Divide and Great Escarpment
267(4)
Summary
271(2)
12 The outline and submerged terrace: Building the continental shelf and coastlines
273(32)
The origin of the outline
274(4)
Changing sea level
278(4)
Types of coasts
282(11)
The Australian coastline
293(11)
Summary
304(1)
13 The coral reefs: Unique parts of the continental shelf
305(22)
Australian coral reefs
306(1)
The Great Barrier Reef
307(18)
Summary
325(2)
14 Patterns of change: Cycles in Australia's journey
327(20)
Global wandering
328(1)
Supercontinent cycles
329(2)
Exhuming rock systems to uncover past cycles
331(6)
Climate cycles
337(4)
Changing patterns of life
341(4)
Summary
345(2)
Epilogue 347(2)
Sources and references 349(20)
Index 369
Robert Henderson is an Emeritus Professor at James Cook University, North Queensland. He joined the academic staff of James Cook University in 1969 following a post-doctoral post as a Fulbright Fellow and Frank Knox Memorial Fellow at Harvard University, Massachusetts, and served as President of the Geological Society of Australia from 1998 to 2000. David Johnson holds an adjunct position as a Senior Principal Research Fellow in the School of Earth and Environmental Sciences, James Cook University, North Queensland.
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