ebook img

Journal of the Geological Society 2010: Vol 167 Index & Table of Contents PDF

2010·2.8 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Journal of the Geological Society 2010: Vol 167 Index & Table of Contents

Index acidification, foraminifera response to 842—846 beach ridges, Brent Group 1225-1236 \egean Basin, Plio-Pleistocene volcanism 475—489 Belemnopsis 1199-1208 aeolian depositional system, Moscow Basin 695—716 Bembibre—Pico Sacro detachment 769 AFTA Bicorb—Quesa Diapir 145—153 Apennine tectonics 985—999 biosphere, Sr isotope signal 1—4 exhumation in Scotland 675—694 biostratigraphy, Cretaceous radiolaria 511 Hebridean Igneous Province 973—984 Blatna Suite 347-360 [ertiary evolution of Greenland 261 271 Blomidon Formation 437—454 airborne conductivity survey, Northern Ireland 649-657 blueschist, Precambrian of China 1161 Aksu blueschist 1161—1170 Bohemian Massif albitization, Cretaceous events in Pyrenees 7 Cambrian oceanic Alpine Foreland, Oligocene turbidites 857-8" metamorphic history 329 alpine topography, Norway 83—98 Variscan exhumation 347 Amazon Fan, gravitational collapse 593—604 Borneo, granite emplacement 49-60 ammonites, Jurassic extinctions 21—33 Boueti Beds 1199-1208 Andaman ophiolite 1105—1112 Brazil, continental margin slides 583—592 Andes, Miocene thermochronology 803—815 Brent Group, delta-plain beach ridges 1225 andesite genesis 1081—1087 Britain, Sr isotope signal in biosphere |—4 anisotropy of magnetic susceptibility (AMS), Devonian pluton 915—941 Annagh Gneiss Complex 1033-1048 Antarctica Cretaceous magmatism 1063-1079 o°¢ Neogene volcanism and stress 401—416 Archaean magnesite 9 apatite fission track analysis see AFTA Cretaceous record 303 Apennines Namurian glacial signal 1171-1184 mass transport complex structure 617—6 3] Ordovician excursions in China 249-259 S isotope record in Cretaceous sediments 1009-1018 reconstructing palaeosalinity 1199-1208 tectonics and thermal indicators 985—999 record of orogenesis 659-674 \puseni Mts, Gondwana terranes 1131—1145 Toarcian excursions in Argentina 633—636 “ Ar/°’ Ar age aledonian Orogeny Dead Sea Fault 1001—1008 nappes of Norway 71-81 magmatism in Antarctica 1063—1079 Scottish Highland magmatism dating 297 South Mayc Trough 1147-1160 Scottish Highland metamorphic events 455 Archaean South Mayo Trough 1147—1160 magnesite of South Africa 943-952 alifornia palaeoenvironment analysis in Australia 827-840 Miocene ostracode palaeontology 815—825 see also Neoarchaean Panoche Giant Injection Complex 889-904 Ardnamurchan, HIP thermochronology 973—984 amamu Basin continental margin slides 583 {renicolites 1185—1198 ‘ambodia, Palaeogene basin inversion 281] Argentina ambrian diamictite correlation with South Africa 217-220 oceanic fragment in Bohemian Massif 111 Jurassic geothermal system | 1—20 Romanian Gondwana terranes 1131—1145 Toarcian chemostratigraphy 633—636 anary Islands, Plio-Quaternary magmatism 785-801 Atlantic Ocean, Triassic marginal basins 437—454 ape Verde archipeligo, uplift history 519-538 Australia sarbon dioxide (CO2) Archaean palaeoenvironment anaiysis 827—840 foraminifera response to 842—846 deformation study in gold deposit 1089-1103 PETM 433-436 Devonian plutonism 915—941 ‘arbonatite, dating in Caledonian of Norway 7] Avalonia, provenance studies on Svalbard 1019-1032 ‘arboniferous carbonate platforms of Netherlands 99—108 farfield glacial response 1171—1184 Mongolian arc development 491—509 ichulish Igneous Complex 297—302 Carmel fault 203—216 Sea, ichnofossils in lacustrine clays 1185-1198 celadonite, Liassic of Hungary 313—328 Baltoro Batholith 183—202 Central Asian Orogenic Belt (CAOB) 491—509 Baltoscandia, Ordovician 0'°C record 249—259 Central Bohemian Plutonic Complex V3A4T7 —360 Barberton Greenstone Belt, Archaean magnesite 943—952 Central Graben (North Sea), mud volcano system 1209 barite, burrow-like concretions !185—1198 Cephalopoda, Jurassic extinctions 21—33 Barstow Formation 815—825 Chalk Group, mud volcano system 1209-1224 basin development, Atlantic margin 437—454 chemistry see geochemistry Basin-and-Range Province, modelling fault post-glacial slip 385—399 chemostratigraphy bathymetry, Oligocene 857—875 o'°C record in Argentina 633-636 0°°C record in China 249-259 Southern, Cretaceous palacoenvironments 303-311 chert, genesis in Liassic of Hungary 313-328 SW, Triassic—Jurassic palynology 877-888 Chile Trench (souther 1), Holocene sedimentary record 539—55 Eocene China basin inversion in SE Asia 281—295 Aksu blueschist 1161—1170 see also Palaeocene—Eocene Thermal Maximum (PETM) Emeishan LIP 953—959 erosion/denudation, thermochronology in Peru 803—815 Ordovician 06'°C excursion 249—259 Etive Formation 1225 36 clay mineralogy, Apennine thermal parameters 985-999 exhumation climate change sic—Jurassic bo 877-888 dating in Bohemian Massif 347—360 compression, told and thrust be —12¢ history in Scotland 675—694 continental crust, evolution 229—248 role of extension 225—228 continental mar¢ extension Amazon Fan collapse 593—604 Levant margin 203-216, 731—749 S 5&2? lithospheric, role in exhumation 225—228 collapse 569—570 extrusion wedge, role in exhumation 225—228 nass transport complexes 7 subma e slides 583—592 lampen Slide seismic study 605 facies associations, Archaean 827—840 XL 6 70 Faeroe—Shetland Basin, diagenetic evidence 273—279 ( eB SS rs fault tectonics, recognition by Lyell 35—4 ( 64 faulting, Levant margin 203—216 faults Cr alignment in Northern Ireland 649—657 relation to topography in Norway 83—98 palaeoeny nent of southern E1 role in diagenesis 273 a 9 ALLI il er ence I Le il} Ne 7 + role in exhumation 225—228 Sponestar massif radiolar 5] 517 slip rate and glacial unloading 385-399 iphur isotope fractionation 1009 . fluid dynamics, record from sand injectite 889-904 u ista lifferentiatior ype! US 87 fluid flow, orogeny in Scotland 659-674 Xl Sta re ind S 1 O ‘ fluid inclusion textures, Apennine thermal parameters 985—999 fluid mechanics, modelling delta instability 571—582 fluvial depositional system, Moscow Basin 695—716 pl enance studies lr d + folds, deep-seated structures in Sicily 109-126 Danak B YO j foraminifera, response to acid water 842-846 MDICI Forest Marble 1199-1208 Fault, age const i ( fossils see named species debrite bidite couplet 617—< Fuller’s Earth 1199-1208 deformati Fundy Basin, Triassic tectonostratigraphy 437—454 influence protoht 1eterogenell USy US migratio ne cement 961 } Palaeogene basins S As )§ 2 Garmsar (Iran), imaging salt deformation 171—181 Sicilia fold ist belt 10° V¢ geochemistry leformation banc xi Aksu blueschist 1161—1170 beach ridges in Brent Group 25 290 evolution of Devonian pluton 915—94] radati modelling collapse 5 582 pore waters and diagenesis 273-279 SIO sphaerosiderite 303-311 geodynamics, Aegean Basin 475—489 Australia plutonism 915—94] geological data, dynamics of uncertainty 5—10 North China Craton magmatism 717—730 geomorphology, Norway 83—98 Scottish lacustrine sediments 847—856 geophysics, airborne conductivity survey 649-657 Svalbard sediment provenance 1019-103 geothermal systems, Jurassic of Argentina 1 1—20 diagenesis, pore water chemical reactions 273—279 glacial erosion, Norway 83—98 diamictite, South America—South Africa correlations 217—220 glaciation Dinantian, carbonate platforms of Netherlands 99-108 correlations of South America and South Africa 217—220 disaggregation bands 905—913 crustal stress and volcanism 401—416 discussions. Neoprot srozoic glacial record 2 2 222.2 evidence for Namurian 1171—1184 loading—unloading and lithosphere response 373-384 Neoproterozoic (discussion) 221-222, 223 earthquakes, 1885 in New Zealand 35--47 neotectonics, seismicity and stress 361—362 Eastern Andes Metamorphic Complex 555—568 relation to tectonic stress in Norway 363-3 eclogite, Gienelg—Attadale Inlier 455—468 glacio-isostatic rebound ecosystems, Jurassic of Argentina 11—26 Iceland 417—432 Elongata Beds 1199-1208 Norway 373-384 Emeishan LIP, mantle plume up-doming 953-959 Glenelg—Attadale Inlier, tectonothermal history 455-468 emplacement, granite of Borneo 49—60 global warming, PETM 433-436 England gold, deformation study in granulite hosted deposit 1089-1103 Northern, Namurian glaciation evidence 1171-1184 Gondwana, terranes in Romania 1131—1145 Goniophynchia 1199-1208 Grampian Orogeny Jack8 27-Hi8l4l0s Belt (Australia), Archaean palaeoenvironment analy| sis Scottish Highlands 455—468 Jan Mayen microcontinent 961-971 South Mayo Trough 1147-1160 Jurassic Grangegeeth terrane 469—474 ammonite extinctions 2i1—3 granite 5'3C excursion in Argentina 633-636 evolution of Baltoro batholith 183—202 chert—ironstone of Hungary 313-328 magmatism on Borneo 49—60 geothermal systems in Argentina | 1—20 granodiorites, Bohemian Massif 347—360 palaeosalinity 1199-1208 granulites [riassic boundary palynology 877-888 Bohemian Massif 329-345 Scottish Highlands 455—468 7 avels, deformation bands and strain record 905—913 Karakoram Metamorphic Complex 183-202 gravitational collapse Kilmelford Igneous Complex 297-302 Amazon Fan 593—604 Kinabalu pluton 49—60 continental margins 569—570 King George Island, Cretaceous magmatism 1063-1079 crustal studies in Iberia 769-784 delta instability 571—582 mass transport complexes 617—631 LA-—ICP—MS dating submarine slides 583-592 Andaman ophiolite 1105—1112 Tampen Slide 605—616 Bohemian Massif granulites 329-345 Greece, modelling tectonic uplift 1237—1249 Grangegeeth terrane 469—474 Greenland (W), Tertiary evolution 261—271 Letovice Complex 1113-1130 greenschist facies, Scottish Highlands 1049-1061 North China Craton magmatism 717—730 Grenville, events in Scottish Highlands 455—468 Svalbard sediments 1019-1032 Gulf of Corinth Rift 1237-1249 laccoliths, Devonian of Australia 915—941 lacustrine deposits and environment Holocene of Baltic Sea 1185-1198 Hale cycles 847-856 Miocene of California 815—82 ~ s heavy minerals, provenance studies in South Mayo Trough 1147-1160 record or solar variance 847—856 Hebridean Igneous Province, thermochronology 973—984 adakh, Cretacous biostratigraphy 511—517 Holocene agerstatten-style preservation 1 1—20 Baltic Sea lacustrine clays 1185—1198 aurentia, provenance studies Chile Trench sediments 539-553 Ireland,Grangegeeth terrane 469-474 Iceland post-glacial rebound 417—432 Ireland, North Mayo 1033-1048, hot spring facies, Jurassic of Argentina 1 1—20 Ireland, South Mayol 147—1160 Hungary, Liassic chert—ironstone genesis 313—328 Svalbard 1019-1032 axmi continental sliver 961-97] echaion Gulf, tectonic uplift model 1237-1249 Letovice Complex 1113—1130 Iberia Levant continental margin Ibero-Armorican Arc bending 127—143 Cretaceous plume and convergence 731—749 Variscan orogeny 769—784 Miocene extension 203—216 Iceland, post-glacial rebound 417—432 Levant Fracture, age constraints 1001—1008 ichnofossils, Holocene of Baltic Sea 1185—1198 Liassic, chert—ironstone of Hungary 313—328 ID-TIMS, dating granulites 329-345 Lilstock Formation 877—888 imaging lithosphere InSAR method for salt imaging 155—170, 171-181 modelling stretching 61—70 magnetotelluric (MT) method 145—153 viscosity and glacial loading 385—399 India, Cretaceous biostratigraphy 511—517 Lu—Hf age, multiple metamorphic events in Scottish Highlands 455-468 InSAR, imaging salt deformation 155—170, 171-181 Lu/Hf ratio, crust composition 229—248 interpretation, geology and uncertainty 5—10 Luconia, suturing and deformation 281—295 inversion, Palaeogene basins in SE Asia 281—295 Lyell, Charles 35—47 Iran, imaging salt deformation 155—170, 171-181 Ireland Dalradian provenance studies 1033—1048 Madre de Dios Terrane 555—568 Grangegeeth terrane origin 469—474 Magallanes foreland basin 555—568 South Mayo Trough geochronology 1147—1160 magmatism Ischia, seawater acidification 842—846 Caledonian of Scottish Highlands 297-302 Islay Anticline, orogeny and fluid flow 659-674 Canary Islands 785-801 isotope dilution see ID-TIMS Cretaceous in Antarctica 1663—1079 Italy Cretaceous—Tertiary of Levant margin 731—749 Apennine thermochronology 985—999 Devonian of North China Craton 717—730 mass transport complex structure 617—631 granite of Borneo 49-60 S isotope record in Cretaceous sediments 1009—1018 Holocene record in Chile Trench 539-553 seawater acidification 842—846 modelling andesite genesis 1081-1087 Sicilian fold and thrust belt 109-126 magnesite, Archaean of South Africa 943—952 Nm wao o magnetotelluric (MT) method 145—i53 Brent Group beach ridges 1225—1236 manganese, Liassic of Hungary 313—328 mud volcano system 1209-1224 mantle convection, relation to sea-level change 637—648 Tampen Slide seismic study 605—616 e plume, Permian of China 953-959 Northern Ireland, airborne conductivity survey 649—657 InSAR for salt deformation in Iran 155—170, 171—181 Northwest European Carboniferous Basin 99-108 nction. Pliensbachia loarc I ynites 21—33 Norway nsport dating Seiland Complex 71-81 Amazon Fan collapse 593-604 faults and topography 83—98 sediment entrainment 617—¢ seismicity and glacial rebound 373—384 thematical modelling mode sill emplacement and PETM 433--436 MDICE, Yangtze Platform 249-25 tectonic stress and glaciation 363—371 Mediterranean Sea dification 843—84¢ Nova Scotia, Triassic tectonostratigraphy 437—454 aS \ SC metamorphis! dO Bohemian Massif 329-345 Archaean magnesite 943—952 € B 5 Cretaceous record 303-311 fluence of protolith heterogene : Namurian glacial signal 1171-1184 ‘le events of Scottish Hig] td I—4 reconstructing palaeosalinity 1199-1208 ca age, South M Ire 4 record of orogenesis 659-674 A ocean anoxic events, Toarcian 633—636 M S ocean crust, fragment in Letovice Complex 1113-1130 lioc Oligocene daltor 5 evolution of Baltoro batholith 183—202 Levant extensio se 205 ( turbidites and seabed bathymetry 857—875 opal, role in diagenesis 273-279 des ¢ ‘ Or Akiva fault 203—216 Ordovician o'°C excursion in China 249—259 S history of South Mayo Trough 1147-1160 delt stab : o2 Romanian Gondwana terranes 1131—1145 South America and South Africa correlations 2 220 organic matter, sill emplacement and CO) release 433—436 orocline, Ibero-Armorican Are 127—143 UV & orogenesis, record in fluid flow 659-674 orogeny see Caledonian; Grampian; Grenville; Variscan V > ( ostracodes, Miocene palaeontology 815—825 M Oyut Ulaan Volcanic Group 491—509 ( - Pakistan, Baltoro batholith evolution 183—202 t Palaeocene ' basin inversion in SE Asia 281—295 Mos ecord 695-71 PETM, NE Atlantic sills 433—436 M ; palaeoenvironment reconstruction it DIS rchaean in Australia 827-840 se Cretaceous of southern England 303-311 M P Jurassic of Argentina 11—20 palaeogeography, Carboniferous of Netherlands 99-108 Palaeogene see Palaeocene; Eocene; Oligocene palaeomagnetism N f } ivero-Armorican Arc 127-143 Neoarchaean, events in S$ 1 $55—468 King George Island 1063-1079 Neogene palaeontology, Miocene ostracodes 815—825 1 see also named species Mi Plio-Ple Palaeophycus 1185—1198 Neoprc ter 3 Palaeoproterozoic, events in Scottish Highlands 455—468 neotectonics palaeosalinity, reconstructing Jurassic 1199—1208 glacial rebound in Nor 37 84 palynology, Triassic—Jurassic 877—888 iciated regions 3¢ 3 Panoche Giant Injection Complex 889—904 Ness Fe ition 1225—123¢ Patagonia, Jurassic geothermal system | 1—20 Netherlands, Dinantian carbonate platforms 99—108 Pb/Pb age, Archaean magnesite 943-952 Neuquen Basin, Toarcian ocean anoxic event 633—63¢ Peira Cave basin, Oligocene turbidites 857—875 New Zealand, 1855 earthquake 35—4 Permian normal faults, role in exhumation 225—228 Emeishan LIP 953—959 North China Craton, Devoniar tist 7-730 palaeomagnetic data on Ibero-Armorican Arc 127—143 North Sea (Norwegian) Permo-Triassic, history in Moscow Basin 695—716 A wa Peru, Miocene thermochronology 803-815 Seiland Igneous Province (Norway) 8] petrography, evolution of Australian pluton 915—94] seismic imaging, delta-plain beach ridges 1225—1236 Phuquoc—Kampot Som Basin, Palaeogene inversion 281—295 seismic sections, evidence for diagenesis 279 Pliensbachian, ammonite extinctions 21—33 seismic surveys Plio-Pleistocene, volcanism of Aegean area 475—489 implications for Carboniferous palaeogeography 99 OS Plio-Quaternary, Canary Islands magmatism 785-801 Levant margin 203-216 plutonism, Devonian of Australia 915—94] seismicity polygonal fault systems, role in diagenesis 273 a 9 Chile Trench 539-553 pore pressure, sand injectite evidence 889—904 glacial rebound in Norway 373—384 Praeexogvra 1199—1208 glaciated regions 361—362 Precambrian see Archaean; Proterozoic Serpukhovian, farfield glacial response 117 84 Proterozoic Seychelles microcontinent 961—97 Aksu blueschist 1161—1170 shale, tectonics and delta collapse 571—582 Scottish lacustrine sediments 847—856 SHRIMP, dating Cordil 1 Darwin Metam« 568 see also Neoproterozoic; Palaeoproterozoic Sicily, deep-seated structures 109-12 prov enance siliei case, Glageneuenisaieiess ¢ 1 pore lreland,Grangegeeth terrane 469—474 sills, NE Atlantic 433—436 Ireland, North Mayo 1033-1048 Silurian Ireland, South Mayo! 147—1160 silica 1019—1032 Svalbard 1019-1032 Svalbard sediment provenance 101 Pyrenees, Cretaceous albitization 75!—76 Skye, HIP thermochronology 973—984 pyrite Sm-—Nd age burrow-like concretions 1185—1198 Aksu blueschist 1161—1170 Cretaceous sedimentary 1009-1018 multiple metamorphic events in Scottish Highlands Sm/Nd ratio, crust composition 229—248 Society awards 841—842 Quaternary see Holocene; Plio-Pleistocene; Plio-Quaternary solar variance, record in lacustrine sediment 847—856 South Africa Archaean ma; te 943 radiolaria, ( aceous of Spongtang massif 51 diamictite correlation with tina 217—220 Re—Os geochronology, Scottish Highlands 297—30 South Mayo Troug xe 147 1199-1208 Southern Uplands—-Down—Longfordt 657 » push, stress relief features in Norway 363—37] Spain, Bicorb—Quesa Diapir 145—153 riiting sphaerosiderite, geochemistry 303—3 modelling in Greece 1237—1249 spilitization, Scottish Highlands 1049—10¢ tectonic setting of Levant margin 731—749 Spongtang massif, Cretacous biostratigraphy 511—517 Rio de la Craton, Neoproterozoic glaciation discussion 221—222, Sr—Nd signature 223 Aegean volcanism 475—489 Rodinia, Aksu blueschist 1161—1170 Aksu blueschist 1161—1170 Romania, Gondwana terranes 1131—1145 Bohemian Massif 347—360 rotation, Sicilian fold and thrust belt 109-126 Ser St Rum, HIP thermochronology 973—984 biosphere signal |—4 Russian Platform, Permo-Triassic depositional boundary record 695—716 Devonian pluton 915—94] strain gradient 905—913 stratigraphy, Triassic of I 437-454 = stress Cretaceous biosphere 1009-1018 glaciated regions 361—362 Holocene lacustrine clays 1185—1198 relation to glaciation in Norway 363—37 St Audrie’s Bay, Triassic—Jurassic palynology relation to volcanism in Antarctica 401—416 salt stretching, modelling at low strain rate 61—70 diapir characterization in Spain 145—153 structural geology imaging deformation in Iran 155 -170, 171—181 Carboniferous basins and troughs 99—108 sand injectite, pore pressure record 889—904 Sicilian fold and thrust belt 109—126 Scandinavia, modelling fault post-glacial slip 385—399 ubduction, Andaman—Sumatra are 1105-1112 Schwabe cycles 847—856 submarine slides, Camamu Basin 583—592 Scotland and Scottish Highlands submarine slopes, > ‘lapse processes 569-570 Caledonian magmatism 297-302 subsidence jumation history 675—694 1855 earthquake in New Zealand 35—47 es metabasalts 1049-1061 Cape Verde archipeligo 519-538 tril ediment record 847—856 in continenta! interiors 61—70 TOs ind f | flow 659-674 sulphur isctope fractionation, Cretaceous 1009-1018 tectonotherma story 455—468 Svalbard, Silurian—Devonian sediment provenance 10 19 sea-level change syenite by mantle convection 637—648 dating in Caledonian of Norway record of Cape Verde archipeligo 519-538 dating NCC magmatism 717—730 sedimentology, Holocene of Chile Trench 539-553 Syria, dating Dead Sea Fault 1001 1008 Tampen Slide 61 uplift Tavvallich 1855 earthquake in New Zealand 35—47 tectonic evolution and histon Cape Verde archipeligo 519-538 Apennines 985—999 Lechaion Gulf 1237—1249 Chile Trench 539-553 thermochronology in Andes 803—815 Lechaion Gulf 1237 | USA, Miocene ostracode palaeontology 815—825 Levant ' Mongol } 2 tectonostratigraphy, Triassic I ly Bas 154 Vail cycles 637-648 tectonothert } ry, ( € \ 45 1¢ Variscan Orogeny ertial Bembibre—Pico Sacro detachment 769—784 evolution of West ( d2 Bohemian Massif exhumation 347—360 tectonoma itic s | } Ibero-Armorican Arc deformation 127-143 P O N Mioce Plio Vietnam, Palaeogene basin inversion 281 —295 rcene vitrinite reflectance, Apennine thermal rs 985—999 e ) as, seawater acidification 842 nobar ( Is 785-8 Aegean Basin 475—489 I Antarctic stress-related 401—416 Het " + Canary Islands 785—801 M | . 5 Permoif aChnin a 953—95 S S ) nostratigraphy. Cap 538 ( Volos—E\ Plio-Pleisto TIMS S \ 1g Basin ge c evidence 2 ) S mplacement and PETM 433-436 S Wairarapa Plain (New Z nd) 1855 earthquake 35—4 Wattonensis Beds 1199-1208 Wealden, Cretaceous palaeoenvironment 303-311 Wolfville Formation 437—454 otime, dat sranulites 329-345 ( Platform, Ordovician 0'°C excursion 249—259 Zagros Mountains, salt deformation study 155—170 Z del Tigre Formation 22] —222, 223 : ircon age ulbitization in P\ es 751—76 s4 Andaman ophiolite 1105—1112 irc development in Mongolia 491—509 ( ) Archaean in Australia 827—840 3altoro Batholith 183—202 ( 4 Cordillera Darwin Metamorphic Complex 555—568 lange rrane 469-474 correlation of southern hemisphere diamictites 217—220 B crust 1eration periods 229—248 gra ; of Bohemian Ma 329—34 Gondwana terranes 1131—1145 | ( Grangegeeth terrane 469—474 ntarct 0) granite of Borneo 49—60 ple 1 amorp I S 45 168 granulites of Bohemian Massif 329-345 NE Atlantic s4 43° Hebridean Igneous Province 973—984 North China Crato s Letovice Complex 1113-1130 Seila I s Comp magmatism in Antarctica 1063-1079 Svalbard sediment pri O19—It multiple metamorphic events in Scottish Highlands 455—468 Variscan exhumation of Bohemian M | NE Atlantic sills 433—436 U—Th/He age, Hebridean Ign Province 97 SA North China Craton magmatism 717—730 UHP complexes, ex! 225-228 Seiland Igneous Complex 71—81 ncertaint lynat 0 South Mayo Trough 114| 7—1160 Svalbard sediment provenance 1019-1032 C il na 72 ‘ Variscan exhumation of Bohemian Massif 347—360 JOURNAL OF SUPPLEMENT TO THE GEOLOGICIAL SOCIETY Volume 167 2010 Chief Editor: Dr R. A. Strachan Editors: Dr G. |. Alsop, Dr B. R. Bell, Dr B. Bingen, Dr E. Bozkurt, Professor M. Cho, Dr C. Clark, Dr A. Collins, Dr Q. Crowley, Dr H. J. Falcon-Lang, Dr G. J. Hampson, Dr J. Hendry, Professor I. Jarvis, Dr M. Krabbendam, Dr J. E. A. Marshall, Dr K. J. W. McCaffrey, Professor D. McIlroy, Dr T. Needham, Dr D. W. Peate, Dr E. Platzman, Dr D. Pyle, Dr I. Sansom, Dr S. C. Sherlock, Dr M. J. Whitehouse, Dr J. C. Woodward. Advisory Editors: Professor J. Blundy, Professor J. S. Daly, Professor T. Elliot, Dr R. W. England, Dr I. C. W. Fitzsimons, Professor H. Fossen, Dr D. A. T. Harper, Professor B. P. Kokelaar, Professor R. D. Law, Professor V. Pease, Professor V. Ramos, Professor R. W. Renaut, Professor H. R. Rollinson, Professor A. D. Saunders, Professor K. Schulmann, Professor J D. Scourse, Dr A. B. Smith, Professor B. C. Storey, Dr C. van Staal, Professor M. K. Watkeys, Professor W. Xiao. But if any human being earnestly desire to push on to new discoveries instead of just retaining and using the old; to win victories over Nature as a worker rather than over hostile critics as a disputant; to attain, in fact, clear and demonstrative knowledge instead of attractive and probable theory; we invite him as a true son of Science to join our ranks [Bacon, Novum Organum, Prefatio. 1620] 2010 THE GEOLOGICAL SOCIETY BURLINGTON HOUSI PICCADILLY LONDON W1J OBJ Sa ne ee Journal published and distributed by GEOLOGICAL SOCIETY PUBLISHING HOUSE, Unit 7, Bi assmill Enterprise Centre, Brassmill Lane, Bath BAI 3JN uildings, North Mills, Bridport, Dorset DT6 3BI if Ww HENRY LING LTDb, The Dorset Press, Dorchester, Dorset DT1 1HD OGICAL SOCIETY OF LONDON 2010 Thematic sets of papers in Volume 167 ipse at Continent Ma is: Products and Processes (Part 3) Dates of issue of Volume 167 Part | (for January) pag | 7 January 2010 Part 2 (for March) pages 225—432 2 March 2010 Part 3 (for May) nages 433-632 19 April 2010 Part 4 (for July) pages 633-840 22 June 2010 Part 5 (for September) pages 841-1080 23 August 2010 Part 6 (for November) pages 1081—1256 1 November 2010 CONTENTS Society Awards for 2010 841 Presidential Address LoveLL, B. A pulse in the planet: regional control of high-frequency changes in relative sea-level by mantle convection Reviews, Research Articles and Specials Aas, T.E., HOWELL, J.A., JANocko, M. & MIDTKANDAL, I. Re-created early Oligocene seabed bathymetry and process-based simulations of the Peira Cava turbidite system AFTABI, P., RousTAIE, M., Atsop, G.I. & TALBoT, C.J. InSAR mapping and modelling of an active Iranian salt extrusion ALI, J.R., Firton, J.G. & HERZBERG, C. Emeishan large igneous province (SW China) and the mantle-plume up- doming hypothesis At-Suwalbl, A.H., ANGELOZZI, G.N., BAUDIN, F., DAMBORENEA, S.E., HESSELBO, S.P., JENKYNS, H.C., MANCENIDO, M.O. & RiccarpI, A.C. First record of the Early Toarcian Oceanic Anoxic Event from the Southern Hemisphere, Neuquén Basin, Argentina ANDRESEN, K.J., CLAUSEN, O.R. & JORGENSEN, R.B. A composite mud volcano system in the Chalk Group of the North Sea Central Graben 1209 ANDREWS, S.D., TREWIN, N.H., HARTLEY, A.J. & WEEDON, G. Solar variance recorded in lacustrine deposits from the Devonian and Proterozoic of Scotland 847 ARMITAGE, J.J.& ALLEN, P.A. Cratonic basins and the long-term subsidence history of continental interiors 6 | AULINAS, M., GIMENO, D., FERNANDEZ-TURIEL, J.L., PEREZ-TORRADO, F.J., RODRIGUEZ-GONZALEZ, A. & GASPERINI, D. The Plio-Quaternary magmatic feeding system beneath Gran Canaria (Canary Islands, Spain): constraints from thermobarometric studies AVELLONE, G., BARCHI, M.R., CATALANO, R., GASPARO MortIiceLli, M. & SULLI, A. Interference between shallow and deep-seated structures in the Sicilian fold and thrust belt BaIkpour, S., ZULAUF, G., DEHGHANI, M. & BAHROUDI, A. InSAR maps and time series observations of surface displacements of rock salt extruded near Garmsar, northern Iran BALINTONI, I., BALICA, C., DUCEA, M.N., ZAHARIA, L., CHEN, F., CLIVETI, M., HANN, H.P, Li, L. -Q. & GHERGARI, L. Late Cambrian—Ordovician northeastern Gondwanan terranes in the basement of the Apuseni Mountains, Romania BAXTER, A.T., AITCHISON, J.C., ALI, J.R. & ZyABREV, S.V. Early Cretaceous radiolarians from the Spongtang massif, Ladakh, NW India: Implications for Neo-Tethyan evolution BEAMISH, D., KIMBELL, G.S., STONE, P. & ANDERSON, T.B. Regional conductivity data used to reassess Early Palaeozoic structure in the Northern Ireland sector of the Southern Uplands—Down—Longford terrane 649 BuiGHT, J.H.S., PETTERSON, M.G., CROWLEY, Q.G. & CUNNINGHAM, D. The Oyut Ulaan Volcanic Group: Stratigraphy, magmatic evolution and timing of Carboniferous arc development in SE Mongolia 49| Bonis, N.R., RUHL, M. & KUrRSCHNER, W.M. Milankovitch-scale palynological turnover across the Triassic Jurassic transition at St. Audrie’s Bay, SW UK o77 BUNGUM, H., OLESEN, O., PASCAL, C., GIBBONS, S.J., LINDHOLM, C.D. & VEST@L, O. To what extent is the present seismicity of Norway driven by postglacial rebound? iw BUTLER, R.W. H. & McCarrrey, W.D. Structural evolution and sediment entrainment in mass-transport complexes: outcrop studies from Italy 617 BUTLER, R.W.H. & TURNER, J.P. Gravitational collapse at continental margins: products and processes: an introduction 569 CLEMENS, J.D. & BENN, K. Anatomy, emplacement and evolution of a shallow-level, post-tectonic laccolith: the Mt Disappointment pluton, SE Australia 915 Cospo.p, P.R., GiLcHRiIst, G., SCOTCHMAN, I., CHtossi, D., FONSECA CHAVES, F., GoMES DE Sousa, F. & LILLETVEIT, R. Large submarine slides on a steep continental margin (Camamu Basin, NE Brazil) Nn oo We CONLIFFE, J., SELBY, D., PorTER, S.J. & FEELY, M. Re—Os molybdenite dates from the Ballachulish and Kilmelford Igneous Complexes (Scottish Highlands): age constraints for late Caledonian magmatism 9907 Corrapo, S., INVERNIZZI, C., ALDEGA, L., D’Errico, M., Di Leo, P., MAzzo.i, S. & ZATTIN, M. Testing the validity of organic and inorganic thermal indicators in different tectonic settings from continental subduction to collision: the case history of the Calabria—Lucania border (Southern Apennines, Italy) 985 111 4 Contents Cottam, M., HALL, R., SPERBER, C. & ARMSTRONG, R. Pulsed emplacement of a layered granite: new high- 49 precision age data from Mount Kinabalu, North Borneo Dera, G., NeEIGE, P., DoMMERGUES, J., FARA, E., LAFFONT, R. & PELLENARD, P. High-resolution dynamics of Early Jurassic marine extinctions: the case of Pliensbachian--Toarcian ammonites (Cephalopoda) 21 Dias, B., Hart, M.B., SMart, C.W. & HALL-SPENCER, J. Modern seawater acidification: the response of foraminifera to 1igh CO> conditions in the Mediterranean Sea Dosson, K.J., STUART, F.M. & Dempster, T.C. Constraining the post-emplacement evolution of the Hebridean igneous Province (HIP) using low-temperature thermochronology: how long has the HIP been cool? ERIKSSON, K.A. & WILDE, S. Palaeoenvironmental analysis of Archaean siliciclastic sedimentary rocks in the west central Jack Hills belt, Western Australia with new constraints on ages and correlations 827 Evans, J.A., MONTGOMERY, J., WILDMAN, G. & BOULTON, N. Spatial variations in biosphere *’Sr/*°Sr in Britain l EXNER, U. & GRASEMANN, B. Deformation bands in gravels: displacement gradients and heterogeneous strain 905 FERRINI, V., FAYEK, M., DE Vitro, C., MIGNARDI, S. & PIGNATTI, J. Extreme sulphur isotope fractionation in the deep Cretaceous biosphere 1009 FYHN, M.B.W., PEDERSEN, S.A.S., BOLDREEL, L.O., NIELSEN, L.H., GREEN, P.F., DIEN, P.T., HUYEN, L.T. & FREI, D. Palaeocene—early Eocene inversion of the Phuquoc—Kampot Som Basin: SE Asian deformation associated with the suturing of Luconia 281 GAFEIRA, J., LONG, D., SCRUTTON, R. & Evans, D. 3D seismic evidences of internal structure within Tampen Slide deposits on the North Sea Fan: are chaotic deposits that chaotic? 605 GOMEZ BaARREIRO, J.. MARTINEZ CATALAN, J.R., Diez FERNANDEZ, R., ARENAS, R. & Diaz Garcia, F. Upper crust reworking during gravitational collapse: the Bembibre—Pico Sacro detachment system (NW Iberia) 769 Grapes, R.H. & Downes, G.L. Charles Lyell and the great 1855 earthquake in New Zealand: the first recognition of active fault tectonics Guipo, D.M., CHANNING, A., CAMPBELL, K.A. & ZAMUNER, A. Jurassic geothermal landscapes and fossil ecosystems at San Agustin, Patagonia, Argentina GUNNELL, Y., THOURET, J.-C., BRICHAU, S., CARTER, A. & GALLAGHER, K. Low-temperature thermochronology in the Peruvian Central Andes: implications for long-term continental denudation, timing of plateau uplift, canyon incision and lithosphere dynamics 803 HAMPEL, A., KARow, T., MANIATIS, G. & HETZEL, R. Slip rate variations on faults during glacial loading and post- glacial unloading: Implications for the viscosity structure of the lithosphere zS)o o Nn HAWKESWoRTH, C.J., DHUIME, B., PIETRANIK, A., CAwoop, P.A., Kemp, A.I.S.., Storey, C.D. The generation and evolution of the continental crust 229 HEBERER, B., ROSER, G., BEHRMANN, J.H., RAHN, M. & Kopr, A. Holocene sediments from the Southern Chile Irench: a record of active margin magmatism, tectonics and palaeoseismicity 39 Nn HERVE, F., FANNING, C.M., PANKHURST, R.J., Mpopozis, C., KLEPEIS, K., CALDERON, M. & THOMSON, S. Detrital zircon SHRIMP U-Pb age study of the Cordillera Darwin Metamorphic Complex of Tierra del Fuego: sedimentary sources and implications for the evolution of the Pacific margin of Gondwana Nn Nn nN HOLFORD, S.P., GREEN, P.F., HILLIs, R.R., UNDERHILL, J.R., STOKER, M.S. & Duppy, I.R. Multiple post- Caledonian exhumation episodes across NW Scotland revealed by apatite fission-track analysis INGs, S.J. & BEAUMONT, C. Continental margin shale tectonics: preliminary results from coupled fluid-mechanical mode! ] s of large-scale delta instability INNOCENTI, F., AGosTINI, S., DOGLIONI, C., MANETTI, P. & TONARINI, S. Geodynamic evolution of the Aegean: constraints from the Plio-Pleistocene volcanism of the Volos—Evia area IRELAND, M.T., GouLty, N.R. & Davies, R.J. Influence of pore water chemistry on silica diagenesis: evidence from the interaction of diagenetic reaction zones with polygonal fault systems JACKSON, C.A.-L., GRUNHAGEN, H., HOWELL, J.A., LARSEN, A.L., ANDERSSON, A., BOEN, F. & Grotu, A. 3D seismic imaging of lower delta-plain beach ridges: Lower Brent Group, northern North Sea JANOUSEK, V., WIEGAND, B.A. & ZAK, J. Dating the onset of Variscan crustal exhumation in the core of the Bohemian Massif: new U-Pb single zircon ages from the high-K calc-alkaline granodiorites of the Biatna suite, Central Bohemian Plutonic Complex KOMBRINK, H., VAN LOCHEM, H. & VAN DER ZWAN, K.J. Seismic interpretation of Dinantian carbonate platforms in the Netherlands; implications for the palaeogeogravhical and structural development of the Northwest European Carboniferous Basin 99 Le Breton, E., DAUTEUIL, O. & Biessy, G. Post-glacial rebound around Iceland during the Holocene 417 LeLevu, S. & HARTLEY, A.J. Controls on the stratigraphic development of the Triassic Fundy Basin, Nova Scotia: Implications for the tectonostratigraphic evolution of Triassic Atlantic rift basins 437

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.