North West Shelf Stratigraphic Panorama, 1998, Chart 8 Part B

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NORTH WEST SHELF STRATIGRAPHIC PANORAMA - B 110 K4 TOARCIAN Southern Poland J4 J3 J2 J1 Mixed Polarity ? 165 170 Tr6 NORIAN TRIASSIC LATE 185 MIDDLE Tr3 ANISIAN 250 255 260 LATE 270 275 280 SPATHIAN Tr2 NAMMALIAN GRIESBACHIAN Tr1 P7 MIDIAN P6 UFIMIAN KUNGURIAN P5 ARTINSKIAN P3 ARUNDIAN CHADIAN IVORIAN HASTARIAN LATE 365 FRASNIAN 430 D6 EIFELIAN D5 Age (Ma BP) BASIN PHASES & MEGASEQ. SEISMIC SEQUENCE HYDROCARBONS MEGASEQ (Whittam 1996) SEQ (Robinson 1994) HYDROCARBONS SEQ (Oil &Gas 96) HYDROCARBONS SEISMIC HORIZONS HYDROCARBONS SEQ (Pattillo & Nichols 1990) MEGASEQ (Pattillo & Nichols 1990) Post-rift I XI 125 Post-rift transgression Echuca Shoals Formation IV 130 Swa Minor Extension ? Brew 1 BB 8 Yam 1 Buc 1 ScRf 1 "Argo Break-Up" Jcal 135 Upper Vulcan Formation Upper Vulcan Formation Lower Vulcan Formation Fla Flamingo Group III Sandpiper Sandstone V ? Uplift of horst blocks Frigate Shale IV JAB ESw Bil Early Jurassic intra-rift event Brck 1 Jearly Oli Brew 1 EXTENSION 160 Initiation of Jurassic rifts BB 5 ? ? ? Dil INVERSION ? Inversion Trmid ? Un-named Formation Nome Formation ? Benella Formation ? Challis Formation Pollard Formation Pollard Formation Sah Un-named Formation Plover Formation IIa 185 Regional subsidence 190 THERMAL SUBSIDENCE Mount Goodwin Formation 205 G "Fitzroy Movement" Challis Formation Pollard Formation Inversion Initiation Fitzroy Movement (compression) I 230 235 240 Cape Londonderry Formation Local uplift Mount Goodwin Formation Mount Goodwin Formation Hyland Bay Formation ? Tern Mbr Petr, Fish 1 Dombey Mbr Hyland Bay Formation Cape Hay Mbr Pearce Mbr Initial compression F Fossil Head Formation Top of main rift Sag Fossil Head Formation Fossil Head Formation 280 Fossil Head Formation 285 290 Keyling Formation Keyling Formation Treachery Shale Treachery Shale Turt 1,2 Turt 1 Keyling Formation Keep Inlet Formation Treachery Shale Extension Kuriyippi Formation Kuriyippi Formation Kuriyippi Formation Rapid subsidence Keyling Formation Barn 2 300 305 Kuriyippi Formation Sag E Initiation of Westralian Superbasin Border Creek Mbr Point Spring Sandstone Onset of glaciation Rapid Subsidence BB 2 Point Spring Sandstone Point Spring Sandstone Sag Point Spring Sandstone Tanmurra Formation Turt 2 Tanmurra Formation EXTENSION Thermal subsidence Milligans Formation ? ? ? ?Carb Turt 2, Barn 2 WaCk Milligans Formation Bona2, KeRi 1, Weab1,2A Top of early rift Gara 1 355 Bonaparte Formation 360 Tanmurra Formation Burvill Beds Utting Calcarenite Milligans Formation Ning 1 BB 1 370 ? ? ? Base Onset of rifting Possible Devonian salt Possible Devonian salt Local uplift & erosion C Langfield Group Ningbing Limestone (Reef Complex) Bonaparte Formation 305 310 315 325 330 Ningbing Group 340 345 350 B Upper crustal extension 355 360 365 Cockatoo Group Initiation of Petrel extension ("Pillara") Possible Devonian salt Initiation of Petrel extension 300 335 Major uplift & erosion Zimmermann Sandstone Septimus Limestone Enga Sandstone Burt Range Formation 295 Sag Rapid subsidence Cecil Sandstone Westwood Mbr Ragged Range Kellys Knob Sst Cgl 365 Rapid subsidence Milligans Formation Buttons Beds Extension Bonaparte Formation Tanmurra Formation 290 320 D 335 270 275 ? 295 260 265 Thermal subsidence 340 245 250 Mount Goodwin Formation Tern Peng1 Turt 1,2 BB 3 330 220 225 Hyland Bay Formation Pearly 210 255 265 375 200 Inversion Mount Goodwin Formation ? 260 315 195 Erosion Malita Formation Nome Formation Osprey Formation Osprey Formation Osprey Formation ? 285 175 215 BB 4 270 Slow subsidence CHA,Tal Pollard Formation 255 H Plover Formation Plover Formation SKU Early Jurassic rifting event Tr 170 Sun,Tro 180 BB 6 ? ScRf 1 Keel 1 Penn-New BrunswickNova Scotia 150 165 205 310 "Argo Breakup" 155 Laminaria/Elang Formation I 140 145 IIb II ELA,Kak, LAM UND,BAY "Gascoyne Breakup" Extension Frigate Shale III Montara Formation Mon JAB IX VIII VII 350 D8 D7 120 Darwin Formation Flamingo Group Ashmore Volcanics Avo,Swi, Ecl,Eid Kbase 250 MIDDLE 380 370 375 380 ?Erosion 385 385 390 390 395 395 400 400 Sayan (Rn) hyperchron D4 EMSIAN D3 PRAGIAN D2 ?Compression ("Prices Creek Movement") LATE 405 EARLY 425 ? EcSh 1 Brew 1 Yam 1 Buc 1 NScRf 1 345 D9 GIVETIAN EARLY SILURIAN PALAEOZOIC DEVONIAN 370 420 Darwin/ Echuca Shoals Formation 245 Western Australia FAMENNIAN 360 110 X JAB,SKU 240 Crb2 D10 415 Kal 1 235 Crb5 SILESIAN HOLKERIAN I ?Erosion/condensed section Kval 200 Upper Donelzk hyperchron 100 105 Buc 1 325 VISEAN 355 380 ? 320 Crb4 SERPUKHOVIAN ASBIAN TOURNAISIAN 350 MOSCOVIAN BASHKIRIAN 345 375 BB 10 Echuca Shoals Formation Echuca Shoals Formation 230 Lower Donelzk hyperchron 340 KASIMOVIAN Crb3 335 WESTPHALIAN P1 GZHELIAN BRIGANTIAN DINANTIAN 330 STEPHANIAN NAMURIAN MISSISSIPPIAN CARBONIFEROUS 325 PENNSYLVANIAN ASSELIAN Crb6 295 320 Darwin Formation Slow subsidence Kbar 280 P2 315 II Darwin Formation Cas 2 Gwy 1 220 Kiaman Long Reversed Polarity Chron SAKMARIAN 290 310 Thermal subsidence Jamieson Formation 95 115 215 P4 EARLY 305 Upper Jamieson Formation 275 285 300 90 ? P DZHULFIAN 85 Woolaston Formation Lower Jamieson Formation Kapt DORASHAMIAN KAZANIAN PERMIAN 265 TATARIAN EARLY SCYTHIAN 240 245 BB 12A 225 Tr4 Woolaston Formation Lower Jamieson Fm 210 CARNIAN LADINIAN Wangarlu Formation V III Kalb1 Cas 2 190 G.hannonicus 235 Tr5 Wangarlu Formation Post-rift regression Gibson Formation Avo,ESw E. Spain, SW United States 230 BB 12B Cas 1 180 Arctic Stratotypes 225 Kalb2 175 Salt Ranges, Pakistan 220 Woolaston Formation Upper Jamieson Formation BB 7 New Jersey & New Mexico HETTANGIAN RHAETIAN 210 410 J5 160 West Austrian SINEMURIAN 205 405 J6 Gibson Formation 80 ? 195 200 400 155 EARLY 215 BB 12C Brown Gannet Formation Erosion Ktur Fenelon Formation Troughton Group AALENIAN PLIENSBACHIAN 395 J7 Gibson Formation Swa 75 Fenelon Formation Kinmore Group BAJOCIAN 190 390 145 Northern Spain MIDDLE 195 SKU BB 13 70 Turnstone Formation Kulshill Group BATHONIAN 185 385 140 Southern Spain CALLOVIAN THERMAL SUBSIDENCE Cas 2 BB 9 150 OXFORDIAN IV Weaber Group 180 M17 135 S. Switzerland, N Italy 175 130 Crb1 170 M10N M11 M12 M14 M15 M16 KIMMERIDGIAN J8 JURASSIC 165 MESOZOIC 160 LATE Borde/Prudhoe Formation 60 65 Hyland Bay Formation TITHONIAN 145 155 120 M19 M20 M21 M22 M23 J10 J9 Erosion Bonaparte Beds BERRIASIAN 140 Puffin/Prudhoe Formation Fenelon Formation 125 K1 Johnson Formation V ?Uplift/erosion BB 14 BB 11 M5 135 Johnson/Basset Formation 55 115 M3 VALANGINIAN Johnson Formation Grebe Formation Bathurst Island Group 105 K5 K2 Johnson Formation 50 ? 100 HAUTERIVIAN 130 Grebe Formation 45 ? C34n K3 Grebe Formation 35 40 Sahul Group 125 BARREMIAN Grebe Marl J Hibernia Formation Syn-rift EARLY VII Klcamp 95 M1 120 Hibernia Formation Pre-rift APTIAN Hibernia Formation S-R II K6 Hibernia Formation Prion Formation S-R I 115 BB 15 90 K8 Prion Formation Plover III 110 K9 Prion Formation VIII PUF,SKU Kecamp 80 Prion Formation 30 Rapid subsidence (Timor flexure) Plover I CRETACEOUS 105 Erosion Tbase 85 K7 ALBIAN ESw BB 16 75 SANTONIAN 100 Cas 2 70 C33 CENOMANIAN 15 Cartier Formation IX Plover II CAMPANIAN CONIACIAN TURONIAN Tpal 65 K10 85 150 60 C32 LATE PUF 55 C31 75 Teoc C30 K11 Oliver Sand Member 25 Oliver Sand Member .Tri IV DANIAN C27 C28 C29 Oliver Sand Member .Tri III C26 MAASTRICHTIAN 70 95 BB 18 BB 17 C25 SELANDIAN Oliver Sand Member .Tri II Cz1 10 Quaternary-Tertiary undifferentiated 50 C22 C23 THANETIAN E 65 90 Tolig 45 C24 PALEOCENE 80 BB 19 C21 L 60 C20 YPRESIAN Oliver Formation 20 .Tri I 55 ESw 40 C19 LUTETIAN E 0 5 35 C18 Cz2 M EVENTS Collision 30 C12 C13 C16 C17 BARTONIAN EOCENE VII OFFSHORE SKU Bathurst Island Group 50 PRIABONIAN Barracouta Formation X Oliver Formation Sahul Group 45 L Cz3 Temio 25 C8 C9 C10 Oliver Formation Vee Formation 40 RUPELIAN Oliver Formation BB 20 PETREL B 35 E XI ONSHORE Tmmio 20 C6C OLIGOCENE PALAEOGENE TERTIARY 30 Barracouta Formation BB 21 15 C6 C6A CHATTIAN L Barracouta Formation Swan Formation Cz4 AQUITANIAN 25 10 C5B C5C BURDIGALIAN Tlmio Barracouta Formation (Whittam et al, 1996) EVENTS C4 SERRAVALLIAN LANGHIAN E BB 22 5 C5 MIOCENE M Late Miocene Compression (Mory 1988, 1991 Pattillo & Nichols, 1990) SAHUL PLATFORM Collision C2A C3 0 LONDONDERRY HIGH PETREL SUB-BASIN Sahul Group Cz5 0m VULCAN SUB-BASIN PETREL A TORTONIAN 100 m ASHMORE PLATFORM PETREL C Cz6 200 m EVENTS BASIN PHASE Sahul Group 20 C1 SEQUENCE Cartier Fm 15 L Cz7 CALABRIAN PIACENZIAN ZANCLEAN MESSINIAN SEALEVEL CURVE Hibernia Beds 10 PLEISTOCENE PLIOCENE MAGNETIC POLARITY NORTHERN BONAPARTE BASIN Woodbine Beds 5 NEOGENE QUATERNARY 0 STAGE AGE (Ma BP) SUBSYSTEM SUBPERIOD SERIES EPOCH TIME SLICE SYSTEM ERA AGE (Ma BP) BROWSE BASIN PRIDOLI LUDLOW WENLOCK LOCHKOVIAN D1 Un-named S3 LUDFORDIAN GORSTIAN S2 HOMERIAN SHEINWOODIAN TELYCHIAN LLANDOVERY AERONIAN S1 405 410 410 415 415 420 420 425 425 430 430 435 435 RHUDDANIAN 435 ASHGILL LATE ORDOVICIAN 450 455 460 465 470 475 EASTONIAN GISBORNIAN LLANVIRN CASTLEMAINIAN 445 A 450 455 455 460 Subsidence of protobasin Unnamed Ordovician stratigraphic unit O3 465 470 O2 475 CHEWTONIAN 480 440 450 YAPEENIAN ARENIG Possible Ordovician salt Possible Ordovician salt 445 O4 DARRIWILIAN Possible Ordovician salt 440 CARADOC EARLY 445 BOLINDIAN Baikal (Nr) hyperchron 440 Oil & gas Gas Oil seep Oil Gas CO2 Gas seep Oil show Gas show Oil & gas show Gas condensate Oil & gas seep ? 460 Gas-prone source rock Onshore 465 Oil-prone source rock Offshore 470 Oil & gas-prone source rock Group 475 Possible source rock Projected 480 480 485 485 BENDIGONIAN ’NEMAKIT DALDYNIAN’ 560 565 C Carlton Group N Keeling 1 Sub -ba sin can h 510 515 12° Darwin Basin initiation Antrim Plateau Volcanics 520 de on 525 nd E. Swan 1/2 LONDONDERRY HIGH Kimberley Block 0 li Ma 505 Tarrarra Formation Money Shoal Graben rry Challis field ben ra ta G PETREL SUB-BASIN ig Browse Basin Skua field BROWSE BASIN Vul Ar ch 12° Tahbilk 1 Western Australia Ashmore Platform ar Tam LC AN Jabiru field Montara 1 Leveque Shelf hul Sa tform Pla 500 Lo Adele Shelf Ti H B SU qu al rtie in G r r Tro abe ug n h Pa Rambler 1 Hart Spring Sandstone 495 50 km 13° 126° 530 Fitzroy Mobile Zone 132° 535 16° MAGNETIC POLARITY TIMESCALE KEY 540 Normal polarity 545 Reverse polarity 550 Unconfirmed normal polarity NEOPROTEROZOIC NEOPROTEROZOIC III Pal PROTEROZOIC 555 en Gr Lena River Composite (Siberia) Cmb1 535 PRECAMBRIAN 550 530 Haq et al, 1987 535 545 Yampi Shelf 520 S.R. Schutter & J.R. Laurie unpublished Oliver 1 Octavius 1,2 525 TOMMOTIAN 540 Warb 1 Scott Plateau Avocet 2 200 km Tro mor O IM T VU 515 AUST Ca 510 Arga (R) hyperchron Cmb2 CAMBRIAN 530 INDON Keppler 1 ugh R 11° ne EARLY -B 505 ’TOYONIAN’ ’BOTOMAN ATDABANIAN’ ASHMORE PLATFORM 0 yncli ul S 525 126° Sah 520 125° e 515 Skewthorpe Formation 124° 500 lin 510 Pretlove Sandstone AS I Siberia hyperchron ORDIANEARLY TEMPLETONIAN Cmb3 490 Clark Sandstone 495 c yn l S LATE TEMPLETONIANFLORAN NE Australia & NE China hu UNDILLAN Pander Greensand 490 Sa MIDDLE 505 DATSONIAN PAYNTONIAN IVERIAN IDAMEAN MINDYALLAN ab BOOMERANGIAN 500 WARENDAN an LATE 495 Siberia hyperchron Cmb6 TREMADOC 490 O1 Sw LANCEFIELDIAN Cmb4 Cmb5 485 Unconfimed reverse polarity 555 No data Mixed polarity 560 AUSTRALIA Magnetic polarity timescale after J.G. Ogg(1995), rescaled to AGSO timescale 565 Commonwealth of Australia 1998 AGSO has tried to make the information in this product as accurate as possible. However, it does not guarantee that the information is totally accurate or complete. Therefore, you should not rely soley on this information when making a commercial decision. Further information about this chart and related products can be obtained from either Dr George C.H. Chaproniere or Dr Robert S. Nicoll. Phone (02 or 61-2) 6249 9111 or e-mail [email protected] or [email protected] The zonations presented here are from the STRATDAT Oracle database, which was developed by Dr Clinton Foster, Lynton Spencer and Bruce Wyatt under the auspices of the Australian Petroleum Systems Project, managed by Dr John Bradshaw. STRATDAT is maintained by the AGSO Phanerozoic Timescales Calibration and Development Project Team. The zonations are plotted directly into MicroStation 95 design files, using a macrolanguage interface linked to STRATDAT. This approach gives great flexibility in layout, ease of correction and accurate translation from the database to the printed product. NORTH WEST SHELF PANORAMA Browse Basin - Northern Bonaparte Basin - Petrel Sub-basin. Stratigraphic Panorama, Chart 8b, 1998 AGSO North West Shelf Project. Ara - Cas1 - Caswell 1 Fis - Fishburn Lam - Lambert Swa - Swan Wea - Weaber Avo - Avocet Cas2 - Caswell 2 Fla - Flathead Lyn - Lyne Swi - Swift Und - Undan Bel - Belu Cha - Challis Gar - Garimala Lyn - Lyne SRf - Scott Reef Yam - Yampi Bon - Bonaparte Dil - Dillon Gou - Goul Nin - Ningbing Sun - Sunfish Bil - Bilyara Ela - Gwy - Gwydion NSc - North Scott Reef Tal - Talbot Bnt - Barnett Ecl - Eclipse Jab - Jabiru Oli - Oliver Tas - Tasman Bay - Bayi EcSh - Echuca Shoals Kak - Kakatua Pet - Petrel Trn - Tern Brc - Brecknock Eid - Kal - Kalyptea Pen - Pengana Tro - Troubador Brw - Brewster ESw - East Swan Kee - Keeling Puf - Puffin Tur - Turtle Buc - Buccaneer ESh - Evans Shoals KRi - Keep River Sah - WCr - Wagon Creek Capitals (eg. BLI) = major field