Gas migration along fault systems and through the vadose zone in the Latera caldera (central Italy): Implications for CO2 geological storage

[1]  J. Caine,et al.  Fault Zone Architecture and Fluid Flow: Insights from Field Data and Numerical Modeling , 2013 .

[2]  W. Landman Climate change 2007: the physical science basis , 2010 .

[3]  Salvatore Lombardi,et al.  The impact of a naturally occurring CO2 gas vent on the shallow ecosystem and soil chemistry of a Mediterranean pasture (Latera, Italy) , 2008 .

[4]  Stuart Marsh,et al.  The application of remote-sensing techniques to monitor CO2-storage sites for surface leakage: Method development and testing at Latera (Italy) where naturally produced CO2 is leaking to the atmosphere , 2008 .

[5]  C. Cardellini,et al.  Carbon dioxide degassing at Latera caldera (Italy): Evidence of geothermal reservoir and evaluation of its potential energy , 2007 .

[6]  C. M. Oldenburg,et al.  Surface CO2 leakage during two shallow subsurface CO2 releases , 2007 .

[7]  Hardy Pfanz,et al.  Photosynthetic performance (CO2-compensation point, carboxylation efficiency, and net photosynthesis) of timothy grass (Phleum pratense L.) is affected by elevated carbon dioxide in post-volcanic mofette areas , 2007 .

[8]  Sam Holloway,et al.  Natural emissions of CO2 from the geosphere and their bearing on the geological storage of carbon dioxide , 2007 .

[9]  S. Lombardi,et al.  Geostatistical analysis of soil gas data in a high seismic intermontane basin: Fucino Plain, central Italy , 2007 .

[10]  Grant S. Bromhal,et al.  The use of tracers to assess leakage from the sequestration of CO2 in a depleted oil reservoir, New Mexico, USA , 2007 .

[11]  Jennifer L. Lewicki,et al.  Natural and industrial analogues for leakage of CO2 from storage reservoirs: identification of features, events, and processes and lessons learned , 2007 .

[12]  Richard H. Worden,et al.  Geological storage of carbon dioxide , 2007, Geological Society, London, Special Publications.

[13]  Jennifer L. Lewicki,et al.  Dynamic coupling of volcanic CO2 flow and wind at the Horseshoe Lake tree kill, Mammoth Mountain, California , 2006 .

[14]  A. Aydin,et al.  Architecture and deformation mechanism of a basin-bounding normal fault in Mesozoic platform carbonates, central Italy , 2006 .

[15]  William C. Evans,et al.  Carbon dioxide emissions from vegetation-kill zones around the resurgent dome of Long Valley caldera, eastern California, USA , 2006 .

[16]  D. Ferrill,et al.  Fault-zone deformation in welded tuffs at Yucca Mountain, Nevada, USA , 2005 .

[17]  Rick Chalaturnyk,et al.  IEA GHG Weyburn CO2 monitoring and storage project , 2005 .

[18]  P. Jaffé,et al.  Modeling the effects of gas phase CO2 intrusion on the biogeochemistry of variably saturated soils , 2005 .

[19]  Sookyun Wang,et al.  Dissolution of a mineral phase in potable aquifers due to CO2 releases from deep formations; effect of dissolution kinetics , 2004 .

[20]  Luigi Marini,et al.  Fluxes of deep CO2 in the volcanic areas of central-southern Italy , 2004 .

[21]  Curtis M. Oldenburg,et al.  Coupled Vadose Zone and Atmospheric Surface-Layer Transport of Carbon Dioxide from Geologic Carbon Sequestration Sites , 2004 .

[22]  A. Minissale Origin, transport and discharge of CO2 in central Italy , 2004 .

[23]  M. Celia,et al.  Numerical modeling of carbon dioxide in unsaturated soils due to deep subsurface leakage , 2004 .

[24]  Toshihiko Shimamoto,et al.  Gas permeability evolution of cataclasite and fault gouge in triaxial compression and implications for changes in fault-zone permeability structure through the earthquake cycle , 2004 .

[25]  S. Lombardi,et al.  Carbon dioxide and radon gas hazard in the Alban Hills area (central Italy) , 2003 .

[26]  W. Evans,et al.  Shallow soil CO2 flow along the San Andreas and Calaveras Faults, California , 2003 .

[27]  H. Beltrami,et al.  Soil CO2 production and surface flux at four climate observatories in eastern Canada , 2002 .

[28]  J. Hering,et al.  Comparative characterization of volcanic ash soils exposed to decade-long elevated carbon dioxide concentrations at Mammoth Mountain, California , 2002 .

[29]  J. Toutain,et al.  Soil gas profiles as a tool to characterise active tectonic areas: the Jaut Pass example (Pyrenees, France) , 2002 .

[30]  T. Gerlach,et al.  Soil efflux and total emission rates of magmatic CO2 at the Horseshoe Lake tree kill, Mammoth Mountain, California, 1995–1999 , 2001 .

[31]  G. Chiodini,et al.  Carbon dioxide degassing from the Albani Hills volcanic region, Central Italy , 2001 .

[32]  D. E. Anderson,et al.  Eddy covariance measurement of CO2 flux to the atmosphere from an area of high volcanogenic emissions, Mammoth Mountain, California , 2001 .

[33]  S. Cox,et al.  Enhancement of fluid permeability during shear deformation of a synthetic mud , 2000 .

[34]  C. Morley,et al.  Normal fault displacement characteristics, with particular reference to synthetic transfer zones, Mae Moh mine, northern Thailand , 2000 .

[35]  J. Fountain,et al.  Detection of buried faults and fractures using soil gas analysis , 2000 .

[36]  Richard H. Sibson,et al.  Fluid involvement in normal faulting , 2000 .

[37]  S. Lombardi,et al.  Volcano–tectonic structures, gravity and helium in geothermal areas of Tuscany and Latium (Vulsini volcanic district), Italy , 1999 .

[38]  T. Wong,et al.  Network modeling of the evolution of permeability and dilatancy in compact rock , 1999 .

[39]  T. Tullis,et al.  THE EFFECT OF FAULT SLIP ON PERMEABILITY AND PERMEABILITY ANISOTROPY IN QUARTZ GOUGE , 1998 .

[40]  R. Azzaro,et al.  New evidence for the form and extent of the Pernicana Fault System (Mt. Etna) from structural and soil–gas surveying , 1998 .

[41]  James P. Evans,et al.  Permeability of fault-related rocks, and implications for hydraulic structure of fault zones , 1997 .

[42]  D. Palladino,et al.  Pumice fall deposits of the western Vulsini Volcanoes ( central Italy) , 1997 .

[43]  Teng-fong Wong,et al.  The transition from brittle faulting to cataclastic flow: Permeability evolution , 1997 .

[44]  James P. Evans,et al.  Fault zone architecture and permeability structure , 1996 .

[45]  Richard H. Sibson,et al.  Structural permeability of fluid-driven fault-fracture meshes , 1996 .

[46]  W. Evans,et al.  Spatial radon anomalies on active faults in California , 1996 .

[47]  G. Valentine,et al.  Coarse-tail vertical and lateral grading in pyroclastic flow deposits of the Latera Volcanic Complex (Vulsini, central Italy): origin and implications for flow dynamics , 1995 .

[48]  M. Zoback,et al.  Fluid flow along potentially active faults in crystalline rock: Geology , 1995 .

[49]  Giovanni Chiodini,et al.  Deep structures and carbon dioxide degassing in Central Italy , 1995 .

[50]  W. T. Parry,et al.  Fracturing and hydrothermal alteration in normal fault zones , 1994 .

[51]  D. Pollard,et al.  Microstructure of deformation bands in porous sandstones at Arches National Park, Utah , 1994 .

[52]  James P. Evans,et al.  Internal structure and weakening mechanisms of the San Andreas Fault , 1993 .

[53]  B. N. Turbeville 40Ar/39Ar Ages and stratigraphy of the Latera caldera, Italy , 1992 .

[54]  Patience A. Cowie,et al.  Growth of faults by accumulation of seismic slip , 1992 .

[55]  Angelo Minissale,et al.  Chemical relationship between discharging fluids in the Siena-Radicofani graben and the deep fluids produced by the geothermal fields of Mt Amiata, Torre Alfina and Latera (Central Italy) , 1992 .

[56]  A. Renzulli,et al.  Evidence of incremental growth in the Vulsinian calderas (central Italy) , 1991 .

[57]  Luigi Carmignani,et al.  Crustal extension in the northern Apennines: The transition from compression to extension in the Alpi Apuane Core Complex , 1990 .

[58]  S. Pignatti,et al.  Volcano-tectonic scenario of Vulsini Volcanoes (Central Italy) from LANDSAT-MSS images and digital elevation data , 1990 .

[59]  C. Scholz Wear and gouge formation in brittle faulting , 1987 .

[60]  F. Tecce,et al.  Evolution of the latera geothermal system II: metamorphic, hydrothermal mineral assemblages and fluid chemistry , 1985 .

[61]  J. Byerlee,et al.  Permeability of fault gouge under confining pressure and shear stress , 1984 .

[62]  F. Innocenti,et al.  The evolution of latera caldera (central Italy) in the light of subsurface data , 1984 .

[63]  G. L. Hutchinson,et al.  Improved Soil Cover Method for Field Measurement of Nitrous Oxide Fluxes , 1981 .

[64]  Richard H. Sibson,et al.  Fault rocks and fault mechanisms , 1977, Journal of the Geological Society.

[65]  R. Sparks Stratigraphy and geology of the ignimbrites of Vulsini Volcano, central Italy , 1975 .

[66]  M. Zoback,et al.  The effect of microcrack dilatancy on the permeability of westerly granite , 1975 .

[67]  Salvatore Lombardi,et al.  GPR, TDR, and geochemistry measurements above an active gas vent to study near-surface gas-migration pathways , 2008 .

[68]  Salvatore Lombardi,et al.  Natural analogues and test sites for CO2 geological sequestration: experience at Latera, Italy , 2008 .

[69]  R. Valentini,et al.  The methane sink associated to soils of natural and agricultural ecosystems in Italy. , 2007, Chemosphere.

[70]  Salvatore Lombardi,et al.  Advances in the geological storage of carbon dioxide : international approaches to reduce anthropogenic greenhouse gas emissions , 2006 .

[71]  J. Pearce,et al.  WHAT CAN WE LEARN FROM NATURAL ANALOGUES , 2006 .

[72]  Andy Chadwick,et al.  GEOPHYSICAL MONITORING OF THE CO 2 PLUME AT SLEIPNER, NORTH SEA , 2006 .

[73]  Salvatore Lombardi,et al.  NEAR-SURFACE GAS GEOCHEMISTRY TECHNIQUES TO ASSESS AND MONITOR CO2 GEOLOGICAL SEQUESTRATION SITES , 2006 .

[74]  H. Pauwels,et al.  Comparison of long-term geochemical interactions at two natural CO2-analogues: Montmiral (Southeast Basin, France) and Messokampos (Florina Basin, Greece) case studies , 2005 .

[75]  D. Palladino,et al.  The Latera Volcanic Complex (Vulsini, Central Italy) : Eruptive Activity and Caldera Evolution , 2005 .

[76]  D. Hyman,et al.  Isotopic analysis of natural CO2 fields: How long has nature stored CO2 underground? , 2005 .

[77]  Salvatore Lombardi,et al.  Potential hazards of CO2 leakage in storage systems—Learning from natural systems , 2005 .

[78]  Richard H. Worden,et al.  The long-term fate of CO2 in the subsurface: natural analogues for CO2 storage , 2004, Geological Society, London, Special Publications.

[79]  C. Wibberley,et al.  Internal structure and permeability of major strike-slip fault zones: the Median Tectonic Line in Mie Prefecture, Southwest Japan , 2003 .

[80]  L. Carmignani,et al.  Note Illustrative della Carta Geologica d'Italia alla scala 1:50.000 "Foglio 249 - Massa Carrara" , 2011 .

[81]  G. Rawling,et al.  Internal architecture, permeability structure, and hydrologic significance of contrasting fault-zone types , 2001 .

[82]  J. Lewicki,et al.  CO2 degassing along the San Andreas Fault, Parkfield, California , 2000 .

[83]  Margaret E. Hinkle,et al.  Environmental conditions affecting concentrations of He, CO2, O2 and N2 in soil gases , 1994 .

[84]  P. Fredi,et al.  Some relations between morphological characteristics and geologica structure in the Vulsini volcanic complex (northern Latium, Italy) , 1989 .

[85]  G. Gianelli,et al.  The Latera geothermal system (Italy): Chemical composition of the geothermal fluid and hypotheses on its origin , 1989 .

[86]  Frederick M. Chester,et al.  Implications for mechanical properties of brittle faults from observations of the Punchbowl fault zone, California , 1986 .