Nitrogen recycling in subducted mantle rocks and implications for the global nitrogen cycle

[1]  P. Cartigny,et al.  Nitrogen isotopes in ophiolitic metagabbros: A re-evaluation of modern nitrogen fluxes in subduction zones and implication for the early Earth atmosphere , 2011 .

[2]  M. Kendrick,et al.  High abundances of noble gas and chlorine delivered to the mantle by serpentinite subduction , 2011 .

[3]  C. Garrido,et al.  Metamorphic Record of High-pressure Dehydration of Antigorite Serpentinite to Chlorite Harzburgite in a Subduction Setting (Cerro del Almirez, Nevado–Filábride Complex, Southern Spain) , 2011 .

[4]  M. Frische,et al.  Dehydration of subducting serpentinite: Implications for halogen mobility in subduction zones and the deep halogen cycle , 2011 .

[5]  F. Hauff,et al.  A stable (Li, O) and radiogenic (Sr, Nd) isotope perspective on metasomatic processes in a subducting slab , 2011 .

[6]  G. Bebout,et al.  Nitrogen recycling in subducted oceanic lithosphere: The record in high- and ultrahigh-pressure metabasaltic rocks , 2010 .

[7]  D. Hilton,et al.  Nitrogen sources and recycling at subduction zones: Insights from the Izu‐Bonin‐Mariana arc , 2010 .

[8]  D. Garbe‐Schönberg,et al.  Subducted seamounts in an eclogite-facies ophiolite sequence: the Andean Raspas Complex, SW Ecuador , 2010 .

[9]  P. Weber,et al.  High-pressure highly reduced nitrides and oxides from chromitite of a Tibetan ophiolite , 2009, Proceedings of the National Academy of Sciences.

[10]  V. Manea,et al.  Subduction-related Volatile Recycling and Magma Generation beneath Central Mexico: Insights from Melt Inclusions, Oxygen Isotopes and Geodynamic Models , 2009 .

[11]  B. Marty,et al.  Nitrogen in peridotite xenoliths: Lithophile behavior and magmatic isotope fractionation , 2009 .

[12]  C. Garrido,et al.  Breakdown mechanisms of titanclinohumite in antigorite serpentinite (Cerro del Almirez massif, S. Spain): A petrological and TEM study , 2009 .

[13]  W. Heinrich,et al.  High-pressure ammonium-bearing silicates: Implications for nitrogen and hydrogen storage in the Earth’s mantle , 2009 .

[14]  J. Hermann,et al.  An experimental investigation of antigorite dehydration in natural silica-enriched serpentinite , 2009 .

[15]  Jun Gao,et al.  Blueschist-facies rehydration of eclogites (Tian Shan, NW-China): Implications for fluid–rock interaction in the subduction channel , 2008 .

[16]  I. Savov,et al.  Shallow slab fluid release across and along the Mariana arc-basin system: Insights from geochemistry of serpentinized peridotites from the Mariana fore arc , 2007 .

[17]  C. Doglioni,et al.  Evidence for serpentinite fluid in convergent margin systems: The example of El Salvador (Central America) arc lavas , 2007 .

[18]  P. Cartigny,et al.  Oxygen and nitrogen isotopes as tracers of fluid activities in serpentinites and metasediments during subduction , 2007 .

[19]  Long Li,et al.  Nitrogen concentration and δ15N of altered oceanic crust obtained on ODP Legs 129 and 185 : Insights into alteration-related nitrogen enrichment and the nitrogen subduction budget , 2007 .

[20]  R. Vissers,et al.  The pre-oceanic evolution of the Erro-Tobbio peridotite (Voltri Massif, Ligurian Alps, Italy) , 2007 .

[21]  M. Marroni,et al.  The architecture of an incipient oceanic basin: a tentative reconstruction of the Jurassic Liguria-Piemonte basin along the Northern Apennines–Alpine Corsica transect , 2007 .

[22]  D. Hilton,et al.  Tracing Nitrogen in Volcanic and Geothermal Volatiles from the Nicaraguan Volcanic Front , 2006 .

[23]  R. Anczkiewicz,et al.  Exhumation History of a Garnet Pyroxenite-bearing Mantle Section from a Continent–Ocean Transition (Northern Apennine Ophiolites, Italy) , 2006 .

[24]  R. Kerrich,et al.  Secular variations of N-isotopes in terrestrial reservoirs and ore deposits , 2006 .

[25]  H. Ohmoto,et al.  Evolution of early earth's atmosphere, hydrosphere, and biosphere : constraints from ore deposits , 2006 .

[26]  M. Bonifacie,et al.  Nitrogen content and isotopic composition of oceanic crust at a superfast spreading ridge: A profile in altered basalts from ODP Site 1256, Leg 206 , 2005 .

[27]  Long Li,et al.  Carbon and nitrogen geochemistry of sediments in the Central American convergent margin: Insights regarding subduction input fluxes, diagenesis, and paleoproductivity , 2005 .

[28]  D. Hilton,et al.  Nitrogen isotopes of the mantle: Insights from mineral separates , 2005 .

[29]  C. Garrido,et al.  Petrology of titanian clinohumite and olivine at the high-pressure breakdown of antigorite serpentinite to chlorite harzburgite (Almirez Massif, S. Spain) , 2005 .

[30]  D. Craw,et al.  The behavior of nitrogen and nitrogen isotopes during metamorphism and mineralization: Evidence from the Otago and Alpine Schists, New Zealand , 2005 .

[31]  Katherine A. Kelley,et al.  Geochemistry of serpentinized peridotites from the Mariana Forearc Conical Seamount, ODP Leg 125: Implications for the elemental recycling at subduction zones , 2005 .

[32]  C. Garrido,et al.  Enrichment of HFSE in chlorite‐harzburgite produced by high‐pressure dehydration of antigorite‐serpentinite: Implications for subduction magmatism , 2005 .

[33]  L. H. Li,et al.  High-Precision Isotopic Analysis of Nanomole Quantities of Silicate Nitrogen , 2007 .

[34]  Z. Sharp,et al.  Water-soluble chlorides in massive seafloor serpentinites: a source of chloride in subduction zones , 2004 .

[35]  T. Pettke,et al.  Serpentinite Subduction: Implications for Fluid Processes and Trace-Element Recycling , 2004 .

[36]  Matthias Hort,et al.  Serpentine and the subduction zone water cycle , 2004 .

[37]  G. Bebout,et al.  Nitrogen geochemistry of subducting sediments: New results from the Izu‐Bonin‐Mariana margin and insights regarding global nitrogen subduction , 2004 .

[38]  P. Cartigny,et al.  Massive recycling of nitrogen and other fluid-mobile elements (K, Rb, Cs, H) in a cold slab environment: evidence from HP to UHP oceanic metasediments of the Schistes Lustrés nappe (western Alps, Europe) , 2003 .

[39]  A. Gupta,et al.  15 N-enriched Gondwana lamproites, eastern India: crustal N in the mantle source , 2003 .

[40]  J. Morgan,et al.  Bending-related faulting and mantle serpentinization at the Middle America trench , 2003, Nature.

[41]  G. Layne,et al.  Decoupling of fluids and fluid‐mobile elements during shallow subduction: Evidence from halogen‐rich andesite melt inclusions from the Izu arc volcanic front , 2003 .

[42]  G. Bebout,et al.  Record of forearc devolatilization in low‐T, high‐P/T metasedimentary suites: Significance for models of convergent margin chemical cycling , 2003 .

[43]  B. Marty,et al.  The nitrogen record of crust–mantle interaction and mantle convection from Archean to Present , 2003 .

[44]  R. Poreda,et al.  Sources of nitrogen and methane in Central American geothermal settings: Noble gas and 129I evidence for crustal and magmatic volatile components , 2003 .

[45]  G. Abers,et al.  Subduction factory 1. Theoretical mineralogy, densities, seismic wave speeds, and H2O contents: SUBDUCTION ZONE MINERALOGY AND PHYSICAL PROPERTIES , 2003 .

[46]  Simon M. Peacock,et al.  Subduction factory 1. Theoretical mineralogy, densities, seismic wave speeds, and H 2 O contents , 2003 .

[47]  M. Lehmann,et al.  Preservation of organic matter and alteration of its carbon and nitrogen isotope composition during simulated and in situ early sedimentary diagenesis , 2002 .

[48]  D. Hilton,et al.  Subduction and Recycling of Nitrogen Along the Central American Margin , 2002, Science.

[49]  B. Marty,et al.  Noble gases and volatile recycling at subduction zones , 2002 .

[50]  P. Cartigny,et al.  Volatile (C, N, Ar) variability in MORB and the respective roles of mantle source heterogeneity and degassing: the case of the Southwest Indian Ridge , 2001 .

[51]  R. Vannucci,et al.  Incompatible element-rich fluids released by antigorite breakdown in deeply subducted mantle , 2001 .

[52]  P. Cartigny,et al.  Diamond genesis, mantle fractionations and mantle nitrogen content: a study of δ13C–N concentrations in diamonds , 2001 .

[53]  K. Bräuer,et al.  Ammonium concentration and nitrogen isotope composition in metasedimentary rocks from different tectonometamorphic units of the European Variscan Belt , 2001 .

[54]  T. Fischer,et al.  Volcanic flux of nitrogen from the Earth , 2001 .

[55]  P. Ulmer,et al.  Petrogenesis of the mafic igneous rocks of the Betic Cordilleras: A field, petrological and geochemical study , 2000 .

[56]  Marty,et al.  Heavy nitrogen in carbonatites of the kola peninsula: A possible signature of the deep mantle , 1999, Science.

[57]  B. Marty,et al.  Volatiles (He, C, N, Ar) in mid-ocean ridge basalts: assesment of shallow-level fractionation and characterization of source composition , 1999 .

[58]  J. Nieto,et al.  Petrology and metamorphic evolution of ultramafic rocks and dolerite dykes of the Betic Ophiolitic Association Mulhacen ´ / Complex, SE Spain : evidence of eo-Alpine subduction following an ocean-floor metasomatic process , 1999 .

[59]  S. Poli,et al.  Experimentally based water budgets for dehydrating slabs and consequences for arc magma generation , 1998 .

[60]  M. T. Gomez-Pugnaire,et al.  High pressure breakdown of antigorite to spinifex-textured olivine and orthopyroxene, SE Spain , 1998 .

[61]  M. Marroni,et al.  The association of continental crust rocks with ophiolites in the Northern Apennines (Italy): implications for the continent-ocean transition in the Western Tethys , 1998 .

[62]  P. Cartigny,et al.  Subduction-related diamonds? — The evidence for a mantle-derived origin from coupled δ13C–δ15N determinations , 1998 .

[63]  M. Javoy The birth of the Earth's atmosphere: the behaviour and fate of its major elements , 1998 .

[64]  B. Marty,et al.  The evolution of terrestrial volatiles: a view from helium, neon, argon and nitrogen isotope modelling , 1998 .

[65]  K. Minoura,et al.  Late Pleistocene-Holocene paleoproductivity circulation in the Japan Sea: sea-level control on δ13C and δ15N records of sediment organic material , 1997 .

[66]  B. Marty,et al.  NITROGEN AND ARGON ISOTOPES IN OCEANIC BASALTS , 1997 .

[67]  G. Bebout Nitrogen isotope tracers of high-temperature fluid-rock interactions: Case study of the Catalina Schist, California , 1997 .

[68]  L. Negretti,et al.  High salinity fluid inclusions formed from recycled seawater in deeply subducted alpine serpentinite , 1997 .

[69]  T. Kogiso,et al.  Trace element transport during dehydration processes in the subducted oceanic crust: 2. Origin of chemical and physical characteristics in arc magmatism , 1997 .

[70]  M. Javoy The major volatile elements of the Earth: Their origin, behavior, and fate , 1997 .

[71]  G. B. Piccardo,et al.  Chloritoid-bearing assemblages in mafic systems and eclogite-facies hydration of Alpine Mg-Al metagabbros (Erro-Tobbio Unit, Ligurian Western Alps) , 1995 .

[72]  P. Ulmer,et al.  Serpentine Stability to Mantle Depths and Subduction-Related Magmatism , 1995, Science.

[73]  A. Hofmann,et al.  Petrology, Mineral and Isotope Geochemistry of the External Liguride Peridotites (Northern Apennines, Italy) , 1995 .

[74]  R. Vissers,et al.  Subsolidus Emplacement of Mantle Peridotites during Incipient Oceanic Rifting and Opening of the Mesozoic Tethys (Voltri Massif, NW Italy) , 1993 .

[75]  M. Fogel,et al.  Nitrogen-isotope compositions of metasedimentary rocks in the Catalina Schist, California: Implications for metamorphic devolatilization history , 1992 .

[76]  U. Wand,et al.  Isotopic variations of the fixed nitrogen in metamorphic rocks , 1986 .

[77]  L. Beccaluva,et al.  Petrology of lherzolitic rocks from the Northern Apennine ophiolites , 1984 .

[78]  K. Peters,et al.  Correlation of carbon and nitrogen stable isotope ratios in sedimentary organic matter 1 , 1978 .