Publications List Search Advanced Filters Author - Any -TestH. F. AasD.S. AbbotAnne-Sofie AhmA-S.C. AhmM. AleneE.W. AlexanderA. AndersT AndersonJ.K. AnsongE. AntillaB.K. ArbicY. AshkenazyJ. AustermannS.M. AwramikJ-R. BahamondeN BasovaR. BeachE.A. BellD.I. BennH BentheY BerkmenS BernasconiT. BerquóM. BizzarroC.J. BjerrumS. Blanco-FerreraS. BluherD.H. BoggsU. BoldKyle BonickiC.S. BorlinaT. BosakK BoseS.A. BowringE. BoyleJ.J. BrocksS.D. BurgessC.C. CalmetA. CampionC.Y. ChenDaniele CherniakR. CoeP.A. CohenD. CondonJ. ConnellyB. CornuelleF.A. CorsettiJ.M. CottleG.M. CoxE. CrawfordJ.R. CrevelingP.W. CrockfordJ.L. CrowleyH. DaherT. DahlH. DangCurtis DeutschCurtis DeutschE. DomackY. DonnadieuAlexander DregerF.Ö. DudásT Dvoretskova VBlake DyerB. DyerM.P. EddyStacey EdmonsondI. EisenmanJ.F. EisnsleD.H. ErwinD.A.D. EvansR.C. EwingAthena EysterI.J. FairchildJ. FeinbergL. FernándezD. FerreiraD.A. FikeW.W. FischerRuth FongO. FringerR.R. FuI. Garrick-BethellM. GebreslassieA. GetraerE.C. GeymanEmily GeymanEmily GeymanB.C. GillB. GiritL. GodfreyJ.C. GoodmanD GreenwoodJ. GrotzingerG HaberlandC.J. HagenB. HaileabKarl HallgrenG.P. HalversonV. HanusP.M. HarrisR.J. HarrisonT.M. HarrisonJoe HaumacherC.C. HayC. HayesW HendricksonJohn HigginsJ.A. HigginsP.F. HoffmanM. HofmannBolton HowesB. HowesM. HuberM.T. HurtgenJ.M. HussonJon HussonP. HuybersO IsaacA. IshidaAkizumi IshidaM.F. JansenG.R.T. JenkinD.T. JohnstonD.S. JonesJ.A. KaandorpJaap KaandorpZ KaganT. KeelerK.W. KellersonJ. KelloggNigel KellyT. KillianH.M. KirkpatrickJ.L. KirschvinkK. KitajimaKouki KitajimaJ. KohlerT KoivulaM KoivusaloR.E. KoppV KotsjurubaA. KouchinskyM. KunzmannM. LambA LandeK. LatychevH.C.P. LauG. Le HirK. LewisD. LiC LimE.A. LimaU. LinnemannB. LinzmeierBenjamin LinzmeierS. LockK.L. LouzadaG.D. LoveS. LuckA. LukyanovF.A. MacdonaldS.A. MacLennanA MakarAdam MaloofAdam MaloofA.C. MaloofAdam MaloofAdam MaloofA.C. MaloofRyan ManzukR.A. ManzukRyan ManzukRyan ManzukJ MarniemiCraig MartinJ.A. Mattias GreenM. MazouadDavid McGeeD. McGeeK McMartinJ MegermanA.K. MehraAkshay MehraD. MenemenlisO. Merino-ToméA.J. MerschatSenne MichielssenR. MitchellJ.X. MitrovicaStephen MojzsisJ.L. MooreS. MukhopadhyayM. MüllerR MurphyA MusjalkovskajaMatthew NadeauC.Z. NashClaire NicholsF NuttallS. OleynikSergey OleynikM. OppenheimerM PaleseIndu PanigrahiY. ParkM ParkkiC.A. PartinS. PedersenS. PetersShanan PetersD. PierceG. PoirierL. PoppickS.M. PorterP.M. PoussartD.S. PowarsT PozdnjakovaC. ProistosescuD ProtvinSam PurkisS.J. PurkisR.H. RainbirdJ. RamezaniJ. RamezaniG. RamsteinT.D. RaubA.H.N. RiceM. RomalisA. RooneyC.F. RootsC.V. RoseB.E.J. RoseR RoskoskiL RoskoskiW. RozenP.M. SadlerBradley SamuelsB.M. SamuelsJ. Sanz-LópezR SarmaM. SchindeleggerM.D. SchmitzA SchmoldtB. SchoeneBlair SchoeneD.P. SchragD. SchumannC. Scott SouthworthF.J. SimonsE SinelnikovaDevdigvijay SinghT SlotkinS.A. SouleAlex SpatzierS.T. StewartDaniel StolperJ.V. StraussN.L. Swanson-HysellN. TailbyA TanF. TangA. Tasistro-HartR.J.M. TaylorT TephlyT. TesemaK ThiemerD. TrailM.M. TremblayAndrew TurnerAndrew TurnerE. TzipermanT UgarovaH. ValiJ. ValleyJohn ValleyL ValzelliW.J.J. van PeltV VinogradovaA. VoigtK WardS.G. WarrenBruce WatsonE.B. Bruce WatsonW.A. WattersM. WebsterM. WebsterMark WebsterBenjamin WeissB.P. WeissM.M. WielickiJulia WilcotsJ.G. WilliamsB. WouterZiman WuNan YaoN. YaoMike ZawaskiW. Zhang Type - Any -ArtworkJournal ArticleMiscellaneousPatent Year - Any -202420232022202120202019201820172016201520142013201220112010200920082007200620052004200320022001200019991996 Keyword - Any -aeolianaerosolsAlice Springs orogenyalkalinityAnthropoceneantiparallel remanenceapparent polar wander (APW)archaeocyatharchaeocyath; biodiversity; Cambrian; coral; ecosystem engineering; paleoenvironment; reef; sponge; three-dimensionalasteroidsastrochronologyAustraliaBahamasbathymetrybiodiversitybiogenic magnetiteBitter Springs FormationCC isotopesCa and Mg isotopesCa isotopesCA-ID-TIMSCA-ID-TIMS U-Pb analysesCambrianCantabrian Zonecap carbonatecap dolostonecarbon cycleCarbon isotopesCarbonatecarbonate cyclescarbonate platformcarbonate sedimentcarbonate sedimentologyCarbonatesCarboniferousChemostratigraphic correlationchemostratigraphyclassificationclimatecoralcorecraterCryogeniancyclescyclostratigraphydetrital zirconsdiagenesisearly EarthEarth rotationEarth-Moon historyecosystem engineeringEdiacaranEdiacaran Earth historyexchange couplingferromagnetic resonancegeodynamogeomagnetic polarity time scalegeomorphologygiant ooidsglacial isostatic adjustmentGlaciationGlacioeustasyGreat Bahama BankGreat BasinhabitabilityHadean earthHelderberg Grouphelium isotopeshematiteHidden Markov modelsHolocenehotspotice wedgesimage processingimpactimpact cratersimpact-generated fieldsIsostasyIsotope stratigraphyJack HillsKeweenawan RiftKlonk EventLake BonnevilleLake LahontanLandsatlandscape evolutionlast interglacial periodLate Paleozoic Ice AgeLaurentiaLaurentide ice sheetLittle Ice AgeLonarLonar craterLunar orbitmachine learningMackenzie Mountains Supergroupmagnetofossilsmagnetotactic bacteriamantle viscosityMarinoanMarlboro ClayMarsmartiteMATLABmelt rocksmeteoric diagenesisMg isotopesMilankovitchmineral dustMoonmorphological analysisNeoproterozoicNuccaleena Formationobliquity of the eclipticOcean tidesooidooidsooliteorbital tuningoxygen isotopesPaleocene-Eocene thermal maximumpaleoclimatePaleoclimatologypaleoenvironmentpaleogeographypaleointensitypaleomagnetismPaleoshorelinesparasequenceperiglacialperiglacial featurespermafrostplate tectonicsreconstructionRedox proxiesreefremanent magnetizationremote sensingrock magnetismRodiniarunoff erosionsatelliteSeawaterseawater chemistrysedimentary faciessedimentary magnetismsedimentologyself-reversalserial sectioningShaler SupergroupshockShorelinesShuram excursionSIMSSnowball Earthsoftwarespectral analysisspherulesspongeSr isotopesSr/SrStill water levelStratigraphystream geometrystream networkStrontium isotopesSvalbardthorium isotopesthree-dimensionaltidal channeltidal flattidestime seriesTPWTrezona excursionTrezona Formationtrue polar wander (TPW)U–Pb geochronologyVictoria IslandWater depth Publications Category - Any -Cenozoic AnalogsExtreme Negative Carbon-Isotope AnomaliesImpact CratersSea Level during the Last Interglacial PeriodSnowball Earth HypothesisThe Atomic MagnetometerThe Cambrian ExplosionThe Geometry of Earth's Magnetic FieldTrue Polar Wander AuthorTitleTypeYear 88 Publications Artwork Maloof A. 1996. "Journal of Glaciology" cover photograph. :Journal of Glaciology, Volume 42. Referenced from www.cambridge.org: "Journal of Glaciology" cover photograph. Journal Article Hoffman P, Maloof A. 1999. The snowball theory still holds water. Nature. 397(6718):384. doi:10.1038/17006. Referenced from doi.org: The snowball theory still holds water. 01maloof.pdf Maloof A. 2000. Superposed folding at the junction of the inland and coastal belts, Damara Orogen, NW Namibia. Communications of the Geological Survey of Namibia. 12:89–98. 02maloof.pdf Hoffman P, Maloof A. 2001. Tilting At Snowballs, A comment on Proterozoic equatorial glaciation: Has ’snowball Earth’ a snowball’s chance?. The Australian Geologist. 117:21–25. 03maloof.pdf Maloof A, Kellogg J, Anders A. 2002. Neoproterozoic sand wedges: crack formation in frozen soils under diurnal forcing during a snowball Earth. Earth and Planetary Science Letters. 204(1):1–15. doi:10.1016/S0012-821X(02)00960-3. Referenced from doi.org: Neoproterozoic sand wedges: crack formation in frozen soils under diurnal forcing during a snowball Earth. 04maloof.pdf Corsetti F, Awramik S, Pierce D. 2003. Comment on: A complex microbiota from snowball Earth times: Microfossils from the Neoproterozoic Kingston Peak Formation, Death Valley, USA. Proceedings of the National Academy of Sciences. 100(8):4399–4404. doi:10.1073/pnas.0730560100. Referenced from doi.org: Comment on: A complex microbiota from snowball Earth times: Microfossils from the Neoproterozoic Kingston Peak Formation, Death Valley, USA. 05maloof.pdf Halverson G, Maloof A, Hoffman P. 2004. The Marinoan glaciation (Neoproterozoic) in northeast Svalbard. Basin Research. 16(3):297–324. doi:10.1111/j.1365-2117.2004.00234.x. Referenced from doi.org: The Marinoan glaciation (Neoproterozoic) in northeast Svalbard. 06maloof.pdf Maloof A, Schrag D, Crowley J, Bowring S. 2005. An expanded record of Early Cambrian carbon cycling from the Anti-Atlas Margin, Morocco. Canadian Journal of Earth Sciences. 42(12):2195–2216. doi:10.1139/e05-062. Referenced from doi.org: An expanded record of Early Cambrian carbon cycling from the Anti-Atlas Margin, Morocco. 07maloof.pdf Halverson G, Hoffman P, Schrag D, Maloof A, Rice A. 2005. Toward a Neoproterozoic composite carbon-isotope record. gsabulletin. 117(9-10):1181–1207. Referenced from doi.org: Toward a Neoproterozoic composite carbon-isotope record. 08maloof.pdf Maloof A, Halverson G, Kirschvink J, Schrag D, Weiss B, Hoffman P. 2006. Combined paleomagnetic, isotopic, and stratigraphic evidence for true polar wander from the Neoproterozoic Akademikerbreen Group, Svalbard, Norway. GSA Bulletin. 118(9-10):1099–1124. doi:10.1130/B25892.1. Referenced from doi.org: Combined paleomagnetic, isotopic, and stratigraphic evidence for true polar wander from the Neoproterozoic Akademikerbreen Group, Svalbard, Norway. 09maloof.pdf Kopp R, Weiss B, Maloof A, Vali H, Nash C, Kirschvink J. 2006. Chains, clumps, and strings: Magnetofossil taphonomy with ferromagnetic resonance spectroscopy. Earth and Planetary Science Letters. 247(1):10–25. doi:10.1016/j.epsl.2006.05.001. Referenced from doi.org: Chains, clumps, and strings: Magnetofossil taphonomy with ferromagnetic resonance spectroscopy. 10maloof.pdf Halverson G, Maloof A, Schrag D, Dudás F, Hurtgen M. 2007. Stratigraphy and geochemistry of a ca 800 Ma negative carbon isotope interval in northeastern Svalbard. Precambrian Chemostratigraphy. 237(1):5–27. doi:10.1016/j.chemgeo.2006.06.013. Referenced from doi.org: Stratigraphy and geochemistry of a ca 800 Ma negative carbon isotope interval in northeastern Svalbard. 11maloof.pdf Maloof A, Kopp R, Grotzinger J, Fike D, Bosak T, Vali H, Poussart P, Weiss B, Kirschvink J. 2007. Sedimentary iron cycling and the origin and preservation of magnetization in platform carbonate muds, Andros Island, Bahamas. Earth and Planetary Science Letters. 259(3):581–598. doi:10.1016/j.epsl.2007.05.021. Referenced from doi.org: Sedimentary iron cycling and the origin and preservation of magnetization in platform carbonate muds, Andros Island, Bahamas. 12maloof.pdf Halverson G, Dudás F, Maloof A, Bowring S. 2007. Evolution of the 87Sr/86Sr composition of Neoproterozoic seawater. Neoproterozoic to Paleozoic Ocean Chemistry. 256(3):103–129. doi:10.1016/j.palaeo.2007.02.028. Referenced from doi.org: Evolution of the 87Sr/86Sr composition of Neoproterozoic seawater. 13maloof.pdf Louzada K, Weiss B, Maloof A, Stewart S, Swanson-Hysell N, Soule S. 2008. Paleomagnetism of Lonar impact crater, India. Journal Article. 275(3):308–319. doi:10.1016/j.epsl.2008.08.025. Referenced from doi.org: Paleomagnetism of Lonar impact crater, India. 14maloof.pdf Kopp R, Simons F, Mitrovica J, Maloof A, Oppenheimer M. 2009. Probabilistic assessment of sea level during the last interglacial stage. Nature. 462:863 – 867. doi:10.1038/nature08686. Referenced from doi.org: Probabilistic assessment of sea level during the last interglacial stage. 17maloof.pdf Kopp R, Schumann D, Raub T, Powars D, Godfrey L, Swanson-Hysell N, Maloof A, Vali H. 2009. An Appalachian Amazon? Magnetofossil evidence for the development of a tropical river-like system in the mid-Atlantic United States during the Paleocene-Eocene thermal maximum. Paleoceanography. 24(4). Referenced from doi.org: An Appalachian Amazon? Magnetofossil evidence for the development of a tropical river-like system in the mid-Atlantic United States during the Paleocene-Eocene thermal maximum. 16maloof.pdf Swanson-Hysell N, Maloof A, Weiss B, Evans D. 2009. No asymmetry in geomagnetic reversals recorded by 1.1-billion-year-old Keweenawan basalts. Nature Geoscience. 2:713–717. doi:10.1038/ngeo622. Referenced from doi.org: No asymmetry in geomagnetic reversals recorded by 1.1-billion-year-old Keweenawan basalts. 15maloof.pdf Maloof A, Stewart S, Weiss B, Soule S, Swanson-Hysell N, Louzada K, Garrick-Bethell I, Poussart P. 2010. Geology of Lonar Crater, India. GSA Bulletin. 122(1-2):109–126. doi:10.1130/B26474.1. Referenced from doi.org: Geology of Lonar Crater, India. 18maloof.pdf Macdonald F, Schmitz M, Crowley J, Roots C, Jones D, Maloof A, Strauss J, Cohen P, Johnston D, Schrag D. 2010. Calibrating the Cryogenian. Science. 327(5970):1241. doi:10.1126/science.1183325. Referenced from doi.org: Calibrating the Cryogenian. 19maloof.pdf Jones D, Maloof A, Hurtgen M, Rainbird R, Schrag D. 2010. Regional and global chemostratigraphic correlation of the early Neoproterozoic Shaler Supergroup, Victoria Island, Northwestern Canada. Precambrian Research. 181(1):43–63. doi:10.1016/j.precamres.2010.05.012. Referenced from doi.org: Regional and global chemostratigraphic correlation of the early Neoproterozoic Shaler Supergroup, Victoria Island, Northwestern Canada. 20maloof.pdf Swanson-Hysell N, Rose C, Calmet C, Halverson G, Hurtgen M, Maloof A. 2010. Cryogenian Glaciation and the Onset of Carbon-Isotope Decoupling. Science. 328(5978):608. doi:10.1126/science.1184508. Referenced from science.sciencemag.org: Cryogenian Glaciation and the Onset of Carbon-Isotope Decoupling. 21maloof.pdf Maloof A, Ramezani J, Bowring S, Fike D, Porter S, Mazouad M. 2010. Constraints on early Cambrian carbon cycling from the duration of the Nemakit-Daldynian–Tommotian boundary δ13C shift, Morocco. Geology. 38(7):623–626. doi:10.1130/G30726.1. Referenced from doi.org: Constraints on early Cambrian carbon cycling from the duration of the Nemakit-Daldynian–Tommotian boundary δ13C shift, Morocco. 22maloof.pdf Rose C, Maloof A. 2010. Testing models for post-glacial ‘cap dolostone’ deposition: Nuccaleena Formation, South Australia. Earth and Planetary Science Letters. 296(3):165–180. doi:10.1016/j.epsl.2010.03.031. Referenced from doi.org: Testing models for post-glacial ‘cap dolostone’ deposition: Nuccaleena Formation, South Australia. 23maloof.pdf Maloof A, Rose C, Beach R, Samuels B, Calmet C, Erwin D, Poirier G, Yao N, Simons F. 2010. Possible animal-body fossils in pre-Marinoan limestones from South Australia. Nature Geoscience. 3:653–659. doi:10.1038/ngeo934. Referenced from doi.org: Possible animal-body fossils in pre-Marinoan limestones from South Australia. 24maloof.pdf Dang H, Maloof A, Romalis M. 2010. Ultrahigh sensitivity magnetic field and magnetization measurements with an atomic magnetometer. Applied Physics Letters. 97(15):151110. doi:10.1063/1.3491215. Referenced from doi.org: Ultrahigh sensitivity magnetic field and magnetization measurements with an atomic magnetometer. 25maloof.pdf Weiss B, Pedersen S, Garrick-Bethell I, Stewart S, Louzada K, Maloof A, Swanson-Hysell N. 2010. Paleomagnetism of impact spherules from Lonar crater, India and a test for impact-generated fields. Earth and Planetary Science Letters. 298(1):66–76. doi:10.1016/j.epsl.2010.07.028. Referenced from doi.org: Paleomagnetism of impact spherules from Lonar crater, India and a test for impact-generated fields. 26maloof.pdf Maloof A, Porter S, Moore J, Dudás F, Bowring S, Higgins J, Fike D, Eddy M. 2010. The earliest Cambrian record of animals and ocean geochemical change. GSA Bulletin. 122(11-12):1731–1774. doi:10.1130/B30346.1. Referenced from doi.org: The earliest Cambrian record of animals and ocean geochemical change. 27maloof.pdf Lewis K, Keeler T, Maloof A. 2011. New Software for Plotting and Analyzing Stratigraphic Data. Eos Trans. AGU. 92(5):37–38. doi:10.1029/2011EO050002. Referenced from doi.org: New Software for Plotting and Analyzing Stratigraphic Data. 28maloof.pdf Mitchell R, Killian T, Raub T, Evans D, Wouter B, Maloof A. 2011. Sutton hotspot: Resolving Ediacaran-Cambrian Tectonics and true polar wander for Laurentia. American Journal of Science. 311:651–663. doi:10.2475/08.2011.01. Referenced from doi.org: Sutton hotspot: Resolving Ediacaran-Cambrian Tectonics and true polar wander for Laurentia. 30maloof.pdf Swanson-Hysell N, Feinberg J, Berquó T, Maloof A. 2011. Self-reversed magnetization held by martite in basalt flows from the 1.1-billion-year-old Keweenawan rift, Canada. Earth and Planetary Science Letters. 305(1):171–184. doi:10.1016/j.epsl.2011.02.053. Referenced from doi.org: Self-reversed magnetization held by martite in basalt flows from the 1.1-billion-year-old Keweenawan rift, Canada. 29maloof.pdf Rose C, Swanson-Hysell N, Husson J, Poppick L, Cottle J, Schoene B, Maloof A. 2012. Constraints on the origin and relative timing of the Trezona δ13C anomaly below the end-Cryogenian glaciation. Earth and Planetary Science Letters. 319-320:241–250. doi:10.1016/j.epsl.2011.12.027. Referenced from doi.org: Constraints on the origin and relative timing of the Trezona δ13C anomaly below the end-Cryogenian glaciation. 31maloof.pdf Maloof A, Grotzinger J. 2012. The Holocene shallowing-upward parasequence of north-west Andros Island, Bahamas. Sedimentology. 59(4):1375 – 1407. Referenced from doi.org: The Holocene shallowing-upward parasequence of north-west Andros Island, Bahamas. 32maloof.pdf Proistosescu C, Huybers P, Maloof A. 2012. To tune or not to tune: Detecting orbital variability in Oligo-Miocene climate records. Earth and Planetary Science Letters. 325-326:100–107. doi:10.1016/j.epsl.2012.01.022. Referenced from doi.org: To tune or not to tune: Detecting orbital variability in Oligo-Miocene climate records. 33maloof.pdf Hoffman P, Halverson G, Domack E, Maloof A, Swanson-Hysell N, Cox G. 2012. Cryogenian glaciations on the southern tropical paleomargin of Laurentia (NE Svalbard and East Greenland), and a primary origin for the upper Russøya (Islay) carbon isotope excursion. Precambrian Research. s 206–207:137 – 158. doi:10.1016/j.precamres.2012.02.018. Referenced from doi.org: Cryogenian glaciations on the southern tropical paleomargin of Laurentia (NE Svalbard and East Greenland), and a primary origin for the upper Russøya (Islay) carbon isotope excursion. 34maloof.pdf Husson J, Maloof A, Schoene B. 2012. A syn-depositional age for Earth’s deepest δ13C excursion required by isotope conglomerate tests. Terra Nova. 24(4):318–325. doi:10.1111/j.1365-3121.2012.01067.x. Referenced from doi.org: A syn-depositional age for Earth’s deepest δ13C excursion required by isotope conglomerate tests. 35maloof.pdf Swanson-Hysell N, Maloof A, Kirschvink J, Evans D, Halverson G, Hurtgen M. 2012. Constraints on Neoproterozoic paleogeography and Paleozoic orogenesis from paleomagnetic records of the Bitter Springs Formation, Amadeus Basin, central Australia. American Journal of Science. 312:817–884. doi:10.2475/08.2012.01. Referenced from doi.org: Constraints on Neoproterozoic paleogeography and Paleozoic orogenesis from paleomagnetic records of the Bitter Springs Formation, Amadeus Basin, central Australia. 36maloof.pdf Kopp R, Simons F, Mitrovica J, Maloof A, Oppenheimer M. 2013. A probabilistic assessment of sea level variations within the last interglacial stage. Geophysical Journal International. 193(2):711–716. doi:10.1093/gji/ggt029. Referenced from doi.org: A probabilistic assessment of sea level variations within the last interglacial stage. 37maloof.pdf Rose C, Maloof A, Schoene B, Ewing R, Linnemann U, Hofmann M, Cottle J. 2013. The End-Cryogenian Glaciation of South Australia. Geoscience Canada. 40(4):256–293. doi:10.12789/geocanj.2013.40.019. Referenced from doi.org: The End-Cryogenian Glaciation of South Australia. 38maloof.pdf Ewing R, Eisenman I, Lamb M, Poppick L, Maloof A, Fischer W. 2014. New constraints on equatorial temperatures during a Late Neoproterozoic snowball Earth glaciation. Earth and Planetary Science Letters. 406:110–122. doi:10.1016/j.epsl.2014.09.017. Referenced from doi.org: New constraints on equatorial temperatures during a Late Neoproterozoic snowball Earth glaciation. 40maloof.pdf Swanson-Hysell N, Burgess S, Maloof A, Bowring S. 2014. Magmatic activity and plate motion during the latent stage of Midcontinent Rift development. Geology. 42(6):475–478. doi:10.1130/G35271.1. Referenced from doi.org: Magmatic activity and plate motion during the latent stage of Midcontinent Rift development. 39maloof.pdf Swanson-Hysell N, Maloof A, Condon D, Jenkin G, Alene M, Tremblay M, Tesema T, Rooney A, Haileab B. 2015. Stratigraphy and geochronology of the Tambien Group, Ethiopia: Evidence for globally synchronous carbon isotope change in the Neoproterozoic. Geology. 43(4):323–326. doi:10.1130/G36347.1. Referenced from doi.org: Stratigraphy and geochronology of the Tambien Group, Ethiopia: Evidence for globally synchronous carbon isotope change in the Neoproterozoic. 42maloof.pdf Dyer B, Maloof A. 2015. Physical and chemical stratigraphy suggest small or absent glacioeustatic variation during formation of the Paradox Basin cyclothems. Earth and Planetary Science Letters. 419:63–70. doi:10.1016/j.epsl.2015.03.017. Referenced from doi.org: Physical and chemical stratigraphy suggest small or absent glacioeustatic variation during formation of the Paradox Basin cyclothems. 43maloof.pdf Husson J, Higgins J, Maloof A, Schoene B. 2015. Ca and Mg isotope constraints on the origin of Earth’s deepest δ13C excursion. Geochimica et Cosmochimica Acta. 160:243–266. doi:10.1016/j.gca.2015.03.012. Referenced from doi.org: Ca and Mg isotope constraints on the origin of Earth’s deepest δ13C excursion. 44maloof.pdf Weiss B, Maloof A, Tailby N, Ramezani J, Fu R, Hanus V, Trail D, Watson B, Harrison T, Bowring S, et al. 2015. Pervasive remagnetization of detrital zircon host rocks in the Jack Hills, Western Australia and implications for records of the early geodynamo. Earth and Planetary Science Letters. 430:115–128. doi:10.1016/j.epsl.2015.07.067. Referenced from doi.org: Pervasive remagnetization of detrital zircon host rocks in the Jack Hills, Western Australia and implications for records of the early geodynamo. 45maloof.pdf Dyer B, Maloof A, Higgins J. 2015. Glacioeustasy, meteoric diagenesis, and the carbon cycle during the Middle Carboniferous. Geochem. Geophys. Geosyst. 16(10):3383–3399. doi:10.1002/2015GC006002. Referenced from doi.org: Glacioeustasy, meteoric diagenesis, and the carbon cycle during the Middle Carboniferous. 46maloof.pdf Husson J, Maloof A, Schoene B, Chen C, Higgins J. 2015. Stratigraphic expression of Earth’s deepest δ13C excursion in the Wonoka Formation of South Australia. American Journal of Science. 315:1–45. doi:10.2475/01.2015.01. Referenced from www.ajsonline.org: Stratigraphic expression of Earth’s deepest δ13C excursion in the Wonoka Formation of South Australia. 41maloof.pdf Husson J, Schoene B, Bluher S, Maloof A. 2016. Chemostratigraphic and U–Pb geochronologic constraints on carbon cycling across the Silurian–Devonian boundary. Earth and Planetary Science Letters. 436:108–120. doi:10.1016/j.epsl.2015.11.044. Referenced from doi.org: Chemostratigraphic and U–Pb geochronologic constraints on carbon cycling across the Silurian–Devonian boundary. 47maloof.pdf Hayes C, McGee D, Mukhopadhyay S, Boyle E, Maloof A. 2017. Helium and thorium isotope constraints on African dust transport to the Bahamas over recent millennia. Earth and Planetary Science Letters. 457:385–394. doi:10.1016/j.epsl.2016.10.031. Referenced from doi.org: Helium and thorium isotope constraints on African dust transport to the Bahamas over recent millennia. 49maloof.pdf Dyer B, Higgins J, Maloof A. 2017. A probabilistic analysis of meteorically altered δ13C chemostratigraphy from late Paleozoic ice age carbonate platforms. Geology. 45(2):135–138. doi:10.1130/G38513.1. Referenced from doi.org: A probabilistic analysis of meteorically altered δ13C chemostratigraphy from late Paleozoic ice age carbonate platforms. 50maloof.pdf Pagination Current page 1 Page 2 Next page Next › Last page Last »