PetDB Recent Data Additions

 

1.AMMANNATI E, JACOB D E, AVANZINELLI R, FOLEY S F, CONTICELLI S. 2016, LOW NI OLIVINE IN SILICA-UNDERSATURATED ULTRAPOTASSIC IGNEOUS ROCKS AS EVIDENCE FOR CARBONATE METASOMATISM IN THE MANTLE, EARTH PLANET SCI LETT, 444, 10.1016/j.epsl.2016.03.039. [VIEW DATA]

 

2. ASAFOV E, SOBOLEV A V, GURENKO A A, ARNDT N, BATANOVA V, PORTNYAGIN M, GARBE-SCHÖNBERG D, KRASHENINNIKOV S. 2018, BELINGWE KOMATIITES (2.7 GA) ORIGINATE FROM A PLUME WITH MODERATE WATER CONTENT, AS INFERRED FROM INCLUSIONS IN OLIVINE, CHEMICAL GEOLOGY, 478, 10.1016/j.chemgeo.2017.11.002. [VIEW DATA]

 

3.BENARD A, ARCULUS R J, NEBEL O, IONOV D A, MCALPINE S. 2017, SILICA-ENRICHED MANTLE SOURCES OF SUBALKALINE PICRITE-BONINITE-ANDESITE ISLAND ARC MAGMAS, GEOCHIM COSMOCHIM ACTA, 199, 10.1016/j.gca.2016.09.030. [VIEW DATA]

 

4.BENARD A, KOGA K T, SHIMIZU N, KENDRICK M A, IONOV D A, NEBEL O, ARCULUS R J. 2017, CHLORINE AND FLUORINE PARTITION COEFFICIENTS AND ABUNDANCES IN SUB-ARC MANTLE XENOLITHS (KAMCHATKA, RUSSIA): IMPLICATIONS FOR MELT GENERATION AND VOLATILE RECYCLING PROCESSES IN SUBDUCTION ZONES, GEOCHIM COSMOCHIM ACTA, 199, 10.1016/j.gca.2016.10.035. [VIEW DATA]

 

5. BRANDT F, HOLM P M, HANSTEEN T H. 2017, VOLATILE (CL, F AND S) AND MAJOR ELEMENT CONSTRAINTS ON SUBDUCTION-RELATED MANTLE METASOMATISM ALONG THE ALKALINE BASALTIC BACKARC, PAYENIA, ARGENTINA, CONTRIB MINERAL PETROL, 172, 10.1007/s00410-017-1359-8. [VIEW DATA]

 

6.BROMBIN V, BONADIMAN C, COLTORTI M, FAHNESTOCK M, BRYCE J G, MARZOLI A. 2017, REFERTILIZED MANTLE KEEL BELOW THE SOUTHERN ALPS DOMAIN (NORTH-EAST ITALY): EVIDENCE FROM MAROSTICANO REFRACTORY MANTLE PERIDOTITES, LITHOS, 300-301, 10.1016/j.lithos.2017.11.032. [VIEW DATA]

 

7.CHEN L, TANG L-M, YU X, DONG Y-H. 2016, MANTLE SOURCE HETEROGENEITY AND MAGMATIC EVOLUTION AT CARLSBERG RIDGE (3.7°N): CONSTRAINS FROM ELEMENTAL AND ISOTOPIC (SR, ND, PB) DATA, MARINE GEOPHYS RES, 10.1007/s11001-016-9292-1. [VIEW DATA]

 

8.CHOI H-O, CHOI S-H, SCHIANO P, CHO M, CLUZEL N, DEVIDAL J-L, HA K. 2017, GEOCHEMISTRY OF OLIVINE-HOSTED MELT INCLUSIONS IN THE BAEKDUSAN (CHANGBAISHAN) BASALTS: IMPLICATIONS FOR RECYCLING OF OCEANIC CRUSTAL MATERIALS INTO THE MANTLE SOURCE, LITHOS, 284-285, 10.1016/j.lithos.2017.04.006. [VIEW DATA]

 

9. CREON L, DELPECH G, ROUCHON V, GUYOT F. 2017, SLAB-DERIVED METASOMATISM IN THE CARPATHIAN-PANNONIAN MANTLE REVEALED BY INVESTIGATIONS OF MANTLE XENOLITHS FROM THE BAKONY-BALATON HIGHLAND VOLCANIC FIELD, LITHOS, 286-287, 10.1016/j.lithos.2017.06.004. [VIEW DATA]

 

10.DREYER B, MORRIS J D, GILL J B. 2010, INCORPORATION OF SUBDUCTED SLAB-DERIVED SEDIMENT AND FLUID IN ARC MAGMAS: B-BE-10BE- ND SYSTEMATICS OF THE KURILE CONVERGENT MARGIN, RUSSIA, JOURNAL OF PETROLOGY, 51, 10.1093/petrology/egq038. [VIEW DATA]

 

11.DYGERT N, KELEMEN P, LIANG Y. 2017, SPATIAL VARIATIONS IN COOLING RATE IN THE MANTLE SECTION OF THE SAMAIL OPHIOLITE IN OMAN: IMPLICATIONS FOR FORMATION OF LITHOSPHERE AT MID-OCEAN RIDGES, EARTH PLANET SCI LETT, 465, 10.1016/j.epsl.2017.02.038. [VIEW DATA]

 

12.ELKINS L J, HAMELIN C, BLICHERT-TOFT J, SCOTT S R, SIMS K W W, YEO I, DEVEY C W, PEDERSEN R B. 2016, NORTH ATLANTIC HOTSPOT-RIDGE INTERACTION NEAR JAN MAYEN ISLAND, GEOCHEMICAL PERSPECTIVES LETTERS, 2, 10.7185/geochemlet.1606. [VIEW DATA]

 

13.ELKINS L J, SCOTT S R, SIMS K W W, RIVERS E R, DEVEY C W, REAGAN M K, HAMELIN C, PEDERSEN R B. 2016, EXPLORING THE ROLE OF MANTLE ECLOGITE AT MID-OCEAN RIDGES AND HOTSPOTS: U-SERIES CONSTRAINTS ON JAN MAYEN ISLAND AND THE KOLBEINSEY RIDGE, CHEMICAL GEOLOGY, 444, 10.1016/j.chemgeo.2016.09.035. [VIEW DATA]

 

14.FAN J-J, LI C, SUN Z-M, XU W-L, WANG M, XIE C-M. 2017, EARLY CRETACEOUS MORB-TYPE BASALT AND A-TYPE RHYOLITE IN NORTHERN TIBET: EVIDENCE FOR RIDGE SUBDUCTION IN THE BANGONG–NUJIANG TETHYAN OCEAN, JOURNAL OF ASIAN EARTH SCIENCES, 154, 10.1016/j.jseaes.2017.12.020. [VIEW DATA]

 

15.GURENKO A A, KAMENETSKY V S, KERR A C. 2016, OXYGEN ISOTOPES AND VOLATILE CONTENTS OF THE GORGONA KOMATIITES, COLOMBIA: A CONFIRMATION OF THE DEEP MANTLE ORIGIN OF H2O, EARTH PLANET SCI LETT, 454, 10.1016/j.epsl.2016.08.035. [VIEW DATA]

 

16.HARTLEY M, SHORTTLE O, MACLENNAN J, MOUSSALLAM Y, EDMONDS M. 2017, OLIVINE-HOSTED MELT INCLUSIONS AS AN ARCHIVE OF REDOX HETEROGENEITY IN MAGMATIC SYSTEMS, EARTH AND PLANETARY SCIENCE LETTERS, 479, 10.1016/j.epsl.2017.09.029. [VIEW DATA]

 

17.HUDGINS T, MUKASA S B, SIMON A, MOORE G, BARIFAIJO E. 2015, MELT INCLUSION EVIDENCE FOR CO2-RICH MELTS BENEATH THE WESTERN BRANCH OF THE EAST AFRICAN RIFT: IMPLICATIONS FOR LONG-TERM STORAGE OF VOLATILES IN THE DEEP LITHOSPHERIC MANTLE, CONTRIB MINERAL PETROL, 169, 10.1007/s00410-015-1140-9. [VIEW DATA]

 

18.HUGHES S R, MCDONALD I, LOOCKE M, BUTLER I, UPTON B G J, FAITHFULL J. 2017, PARADOXICAL CO-EXISTING BASE METAL SULPHIDES IN THE MANTLE: THE MULTI-EVENT RECORD PRESERVED IN LOCH ROAG PERIDOTITE XENOLITHS, NORTH ATLANTIC CRATON, LITHOS, 276, 10.1016/j.lithos.2016.09.035. [VIEW DATA]

 

19.HUSEN A, KAMENETSKY V S, EVERARD J L, KAMENETSKY M B. 2016, TRANSITION FROM ULTRA-ENRICHED TO ULTRA-DEPLETED PRIMARY MORB MELTS IN A SINGLE VOLCANIC SUITE (MACQUARIE ISLAND, SW PACIFIC): IMPLICATIONS FOR MANTLE SOOURCE, MELTING PROCESS AND PLUMBING SYSTEM, GEOCHIM COSMOCHIM ACTA, 185, 10.1016/j.gca.2016.02.031. [VIEW DATA]

 

20.JALOWITZKI T, GERVASONI F, CONCEICAO R V, ORIHASHI Y, BERTOTTO G W, SUMINO H, SCHILLING M, NAGAO K, MORATA D, SYLVESTER P. 2017, SLAB-DERIVED COMPONENTS IN THE SUBCONTINENTAL LITHOSPHERIC MANTLE BENEATH CHILEAN PATAGONIA: GEOCHEMISTRY AND SR–ND–PB ISOTOPES OF MANTLE XENOLITHS AND HOST BASALT, LITHOS, 292-293, 10.1016/j.lithos.2017.09.008. [VIEW DATA]

 

21.KONRAD K, GRAHAM D W, KENT A J R, KOPPERS A. 2017, SPATIAL AND TEMPORAL VARIABILITY IN MARQUESAS ISLANDS VOLCANISM REVEALED BY 3 HE/ 4 HE AND THE COMPOSITION OF OLIVINE-HOSTED MELT INCLUSIONS, CHEMICAL GEOLOGY, 477, 10.1016/j.chemgeo.2017.12.025. [VIEW DATA]

 

22.LEHTONEN M L, OBRIEN H E. 2009, MANTLE TRANSECT OF THE KARELIAN CRATON FROM MARGIN TO CORE BASED ON P-T DATA FROM GARNET AND CLINOPYROXENE XENOCRYSTS IN KIMBERLITES, BULL GEOL SOC FINLAND, 81, 10.17741/bgsf/81.2.001. [VIEW DATA]

 

23.LIU C-Z, XU Y, WU F-Y. 2018, LIMITED RECYCLING OF CRUSTAL OSMIUM IN FOREARC MANTLE DURING SLAB DEHYDRATION, GEOLOGY, 10.1130/g39869.1. [VIEW DATA]

 

24.MANZINI M, BOUVIER A-S, BARNES J D, BONIFACIE M, ROSE-KOGA E, ULMER P, METRICH N, BARDOUX G, WILLIAMS J, LAYNE G, STRAUB S, BAUMGARTNER P, JOHN T. 2017, SIMS CHLORINE ISOTOPE ANALYSES IN MELT INCLUSIONS FROM ARC SETTINGS, CHEMICAL GEOLOGY, 449, 10.1016/j.chemgeo.2016.12.002. [VIEW DATA]

 

25.NEAVE D, SHORTTLE O, OESER M, WEYER S, KOBAYASHI K. 2018, MANTLE-DERIVED TRACE ELEMENT VARIABILITY IN OLIVINES AND THEIR MELT INCLUSIONS, EARTH AND PLANETARY SCIENCE LETTERS, 483, 10.1016/j.epsl.2017.12.014. [VIEW DATA]

 

26.NGWA C, HANSTEEN T H, DEVEY C W, VAN DER ZWAN F M, SUH C. 2017, ORIGIN AND EVOLUTION OF PRIMITIVE MELTS FROM THE DEBUNSCHA MAAR, CAMEROON: CONSEQUENCES FOR MANTLE SOURCE HETEROGENEITY WITHIN THE CAMEROON VOLCANIC LINE, LITHOS, 288-289, 10.1016/j.lithos.2017.06.028. [VIEW DATA]

 

27.ODRISCOLL B, WALKER R J, CLAY P, DAY J M D, ASH R D, DALY J S. 2018, LENGTH-SCALES OF CHEMICAL AND ISOTOPIC HETEROGENEITY IN THE MANTLE SECTION OF THE SHETLAND OPHIOLITE COMPLEX, SCOTLAND, EARTH AND PLANETARY SCIENCE LETTERS, 488, 10.1016/j.epsl.2018.02.020. [VIEW DATA]

 

28.ROSE-KOGA E, KOGA K T, MOREIRA M, VLASTELIC I, JACKSON M G, WHITEHOUSE M J, SHIMIZU N, HABIB N. 2017, GEOCHEMICAL SYSTEMATICS OF PB ISOTOPES, FLUORINE, AND SULFUR IN MELT INCLUSIONS FROM SÃO MIGUEL, AZORES, CHEMICAL GEOLOGY, 458, 10.1016/j.chemgeo.2017.03.024. [VIEW DATA]

 

29.ROUBINET C, MOREIRA M. 2018, ATMOSPHERIC NOBLE GASES IN MID-OCEAN RIDGE BASALTS: IDENTIFICATION OF ATMOSPHERIC CONTAMINATION PROCESSES, GEOCHIMICA ET COSMOCHIMICA ACTA, 222, 10.1016/j.gca.2017.10.027. [VIEW DATA]

 

30.TANG M, MCDONOUGH W F, ASH R D. 2017, EUROPIUM AND STRONTIUM ANOMALIES IN THE MORB SOURCE MANTLE, GEOCHIM COSMOCHIM ACTA, 197, 10.1016/j.gca.2016.10.025. [VIEW DATA]

 

31.TRUONG T, CASTILLO P R, HILTON D R, DAY J M D. 2018, THE TRACE ELEMENT AND SR-ND-PB ISOTOPE GEOCHEMISTRY OF JUAN FERNANDEZ LAVAS REVEAL VARIABLE CONTRIBUTIONS FROM A HIGH- 3 HE/ 4 HE MANTLE PLUME, CHEMICAL GEOLOGY, 476, 10.1016/j.chemgeo.2017.11.024. [VIEW DATA]

 

32.UMINO S, KANAYAMA K, KITAMURA K, TAMURA A, ISHIZUKA O, SENDA R, ARAI S. 2017, DID BONINITE ORIGINATE FROM THE HETEROGENOUS MANTLE WITH RECYCLED ANCIENT SLAB?, ISLAND ARC, 10.1111/iar.12221. [VIEW DATA]

 

33.VALER M, SCHIANO P, BACHELERY P. 2017, GEOCHEMICAL CHARACTERISTICS OF THE LA RÉUNION MANTLE PLUME SOURCE INFERRED FROM OLIVINE-HOSTED MELT INCLUSIONS FROM THE ADVENTIVE CONES OF PITON DE LA FOURNAISE VOLCANO (LA RÉUNION ISLAND), CONTR MIN PETROL, 172, 10.1007/s00410-017-1397-2. [VIEW DATA]

 

34.VAN DE LOECHT J, HOFFMANN J E, LI C, WANG Z, BECKER H, ROSING M, KLEINSCHRODT R, MUENKER C. 2018, EARTH’S OLDEST MANTLE PERIDOTITES SHOW ENTIRE RECORD OF LATE ACCRETION, GEOLOGY, 10.1130/g39709.1. [VIEW DATA]

 

35.VAN DER ZWAN F M, DEVEY C W, HANSTEEN T H, ALMEEV R, AUGUSTIN N, FRISCHE M, HAASE K M, BASAHAM A, SNOW J E. 2017, LOWER CRUSTAL HYDROTHERMAL CIRCULATION AT SLOW-SPREADING RIDGES: EVIDENCE FROM CHLORINE IN ARCTIC AND SOUTH ATLANTIC BASALT GLASSES AND MELT INCLUSIONS, CONTRIBUTIONS TO MINERALOGY AND PETROLOGY, 172, 10.1007/s00410-017-1418-1. [VIEW DATA]

 

36.WANG Z-Z, LIU S-A, LIU JINGAO, HUANG J, XIAO Y, CHU Z-Y, ZHAO X-M, TANG L-M. 2016, ZINC ISOTOPE FRACTIONATION DURING MANTLE MELTING AND CONSTRAINTS ON THE ZN ISOTOPE COMPOSITION OF EARTH’S UPPER MANTLE, GEOCHIM COSMOCHIM ACTA, 198, 10.1016/j.gca.2016.11.014. [VIEW DATA]

 

37.YU H-M, LI Y-H, GAO Y, HUANG J, HUANG F. 2018, SILICON ISOTOPIC COMPOSITIONS OF ALTERED OCEANIC CRUST: IMPLICATIONS FOR SI ISOTOPE HETEROGENEITY IN THE MANTLE, CHEMICAL GEOLOGY, 479, 10.1016/j.chemgeo.2017.12.013. [VIEW DATA]

38. ZHANG G-L, CHEN L-H, JACKSON M G, HOFMANN A W. 2017, EVOLUTION OF CARBONATED MELT TO ALKALI BASALT IN THE SOUTH CHINA SEA, NATURE GEOSCIENCE, 10.1038/ngeo2877. [VIEW DATA]

 

39.ZHU H, LIU F, LI XIAN, WANG G-Q, ZHANG Z, SUN W-D. 2018, CALCIUM ISOTOPIC COMPOSITIONS OF NORMAL MID-OCEAN RIDGE BASALTS FROM THE SOUTHERN JUAN DE FUCA RIDGE, JOURNAL OF GEOPHYSICAL RESEARCH: SOLID EARTH, 10.1002/2017jb014699. [VIEW DATA]

 

40.ZOU D, ZHANG H-F, HU Z-C, SANTOSH M. 2016, COMPLEX METASOMATISM OF LITHOSPHERIC MANTLE BY ASTHENOSPHERE-DERIVED MELTS: EVIDENCE FROM PERIDOTITE XENOLITHS IN WEICHANG AT THE NORTHERN MARGIN OF THE NORTH CHINA CRATON, LITHOS, 264, 10.1016/j.lithos.2016.08.036. [VIEW DATA]