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Geochemie und Hydrogeologie

Prof. Dr. Thomas Pichler

Arbeitsgruppenleiter

Tel.:+49(0)421-218-65100
Fax:+49(0)421-218-65105

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Universität Bremen
Fachbereich Geowissenschaften
GEO1 - Raum 2070
Klagenfurter Straße 4
28359 Bremen

Forschung

Mein Forschungsinteresse gilt im weitesten Sinne der ganzheitlichen Betrachtung der Rolle der Wechselwirkung zwischen Wasser und Gestein im System Erde unter Verwendung chemischer, biologischer, hydrogeologischer, mineralogischer, mathematischer, thermodynamischer und technischer Ansätze. Von besonderem Interesse sind:

  1. Quelle, Transport und Verbleib von potenziell giftigen Elementen in natürlichen und anthropogenen Systemen mit Schwerpunkt auf den Elementen Arsen, Molybdän, Cadmium und Quecksilber
  2. Entwicklung und Verbesserung von Analysemethoden in der Wasser- und Lithogeochemie
  3. Untersuchung von hydrothermalen Flachwassersystemen.

Bubbles: Ein im Magazin Ocean Realm (November 2000) publizierter Artikel

Profil auf Research Gate

Profil auf Google Scholar

 

Publikationen (peer-reviewed)

  1. Pichler, T., 2023, Environmental Inventory of mercury (Hg) for the marine shallow water hydrothermal system at Panarea, Italy. Science fo the Total Environment, doi.org/10.106/j.stotenv.2023.168575. PDF
     
  2. Koopmann, S., Prommer, H., Siade, A. and Pichler, T., 2023, Molybdenum Mobility During Managed Aquifer Recharge in Carbonate Aquifers. Environmental Science and Technology doi.org/10.1021/acs.est.2c08619PDF
     
  3. Koopmann, S., Prommer, H. and Pichler, T., 2022, Molybdenum Release Triggered by Dolomite Dissolution: Experimental Evidence and Conceptual Model. Environmental Science and Technology, 10.1021/acs.est.2c04142. PDF
     
  4. Koopmann, S. and Pichler, T., 2022, Celestine and powellite as redox indicators during diagenesis of molybdenum-bearing carbonate aquifers. Applied Geochemistry, 144, doi.org/10.1016/j.apgeochem.2022.105399. PDF
     
  5. Roberts, H. and Pichler, T., 2022, Hg in the hydrothermal fluids and gases in Bahia di Levante, Vulcano, Itlay. Marine Chemistry, 10.1016/j.marchem.2022.104147. PDF
     
  6. Kubier, A., Budziak, D., de Vries, D., Elbracht, J., Hamer, K., and Pichler , T., 2021, Cadmium in groundwater of Northwestern Germany — origin, mobilization and assessment according to the European Water Framework Directive. Grundwasser, doi.org/10.1007/s00767-021-00488 -w. PDF
     
  7. Khalil, M. M., Abotalib, A. Z., Farag, M. M., Rabei, M., Abdelhady, A. A., and Pichler , T., 2021, Poor drainage-induced waterlogging in Saharan groundwater-irrigated lands: integration of geospatial, geophysical, and hydrogeological techniques. Catena, v. 207, 105615. PDF
     
  8. Scheplitz, J., Koopmann, S., Fröllje, H., and Pichler, T., 2021, Optimization and Assessment of a Sequential Extraction Procedure for Calcium Carbonate Rocks, Environmental Monitoring and Assessment, 193:577. PDF
     
  9. Khalil, M. M., Hamer, K., Pichler, T., and Abotalib, Z., 2021, Fault zone hydrogeology in arid environments: The origin of cold springs in the Wadi Araba Basin, Egypt. Hydrological Processes. doi.org/10.1002/hyp.14176. PDF
     
  10. Roberts, H., Price, R. E., Brombach, C. C., and Pichler, T., 2021, Mercury in the Hydrothermal Fluids and Gases in Paleochori Bay, Milos, Greece. Marine Chemistry, 10.1016/j.marchem.2021.103984. PDF
     
  11. Khimasia, A., Renshaw, C.E., Price, R.E. and Pichler, T., 2021, Hydrothermal flux and porewater geochemistry in Paleochori Bay, Milos, Greece. Chemical Geology, v. 571, 120188. PDF
     
  12. Hamer, K., Gudenschwager, I. and Pichler, T., 2020, Manganese (Mn) Concentrations and the Mn-Fe Relationship in Shallow Groundwater: Implications for Groundwater Monitoring. SoilSystems, 4, 49; doi:10.3390/soilsystems4030049, p. 19. PDF
     
  13. Khimasia, A., Rovere, A. and Pichler, T., 2020, Hydrothermal areas, microbial mats and sea grass in Paleochori Bay, Milos, Greece. Journal of Maps, v. 16, no. 2, p. 348-356. PDF
     
  14. Kubier, A., Hamer, K. and Pichler, T., 2020, Cadmium background levels in groundwater in an area dominated by agriculture in Northwestern Germany. Integr Environ Assess Manag., 10.1002/ieam.4198. PDF
     
  15. Pichler, T. and Koopmann, S., 2020, Should Monitoring of Molybdenum (Mo) in Groundwater, Drinking Water and Well Permitting Made Mandatory?. Environmental Science and Technology, v. 54, no. 1, p. 1-2 PDF
     
  16. Koopmann, S., Fröllje, H., Hamer, K., Kubier, A., Pichler, T., 2020, Iron-manganese-anomalies of groundwater - Analysis of influencing processes. Grundwasser, v. 25, p. 113-126 PDF
     
  17. Kubier, A., Wilkin, R. T., and Pichler, T., 2019, Cadmium in soils and groundwater: A review. Applied Geochemistry, v. 108, p. 104388. PDF
     
  18. Zeng, J., Qi, P., Shi, J., Pichler, T., Wang, F., Wang, Y., and Sui, K., 2019, Chitosan functionalized iron nanosheet for enhanced removal of As(III) and Sb(III): Synergistic effect and mechanism: Chemical Engineering Journal. v. 382, doi.org/10.1016/j.cej.2019.122999 PDF
     
  19. Lehner, K., Fröllje, H., Kubier, A., and Pichler, T., 2019, Distribution of stable isotope values in groundwater in Northwestern Germany - Evaluation of continental, altitude and land use effects. Grundwasser, v. 24, no. 3, p. 185-196. PDF
     
  20. Kubier, A., and Pichler, T., 2019, Cadmium in groundwater − A synopsis based on a large hydrogeochemical data set. Science of The Total Environment, no. 689, p. 831-842. PDF
     
  21. Qi, P., Luo, R., Pichler, T., Zeng, J., Wang, Y., Fan, Y. and Sui, K., 2019. Development of a magnetic core-shell Fe3O4@TA@UiO-66 microsphere for removal of arsenic(III) and antimony(III) from aqueous solution. Journal of Hazardous Materials, v. 378, p.120721. PDF
     
  22. Seewald, J.S., Reeves, E.P., Bach, W., Saccocia, P., Craddock, P.R., Walsh, E., Shanks, W.C., Sylva, S.P., Pichler, T. and Rosner, M., 2019. Geochemistry of Hot-Springs at the SuSu Knolls Hydrothermal Field, Eastern Manus Basin: Advanced Argillic Alteration and Vent Fluid Acidity. Geochimica et Cosmochimica Acta: v. 255, p. 25-48. PDF
     
  23. Durán-Toro, V.M., Price, R.E., Maas, M., Brombach, C.-C., Pichler, T., Rezwan, K. and Bühring, S.I., 2019. Amorphous arsenic sulfide nanoparticles in a shallow water hydrothermal system. Marine Chemistry, v. 211, p. 25-36. PDF
     
  24. Brombach, C.-C., and Pichler, T., 2019. Determination of ultra-low volatile mercury concentrations in sulfur-rich gases and liquids: Talanta, v. 199, p. 277-284. PDF
     
  25. Pichler, T., Biscéré, T., Kinch, J., Zampighi, M., Houlbrèque, F., and Rodolfo-Metalpa, R., 2019, Suitability of the shallow water hydrothermal system at Ambitle Island (Papua New Guinea) to study the effect of high pCO2 on coral reefs: Marine Pollution Bulletin, v. 138, p. 148-158. PDF
     
  26. Biscere, T., Ferrier-Pages, C., Gilbert, A., Pichler, T., and Houlbreque, F., 2018, Evidence for mitigation of coral bleaching by manganese: Scientific Reports, v. 8, no. 1, p. 16789. PDF
     
  27. Wallis, I. and Pichler, T., 2018. Generating false negatives and false positives for As and Mo concentrations in groundwater due to well installation, Science of the Total Environment. v. 631-632, p. 723-732. PDF
     
  28. Brombach, C.-C., Froellje, H., Pichler, T., Guzzonato, A., and Lindemann, T., 2018, Speciation analysis of methylmercury via species specific isotope dilution GC-ICP-MS. ThermoFisher, Technical Note 30465, pp. 6. PDF
     
  29. Oehler, T., Mogollón, J.M., Moosdorf, N., Winkler, A., Kopf, A., Pichler, T., 2017. Subbmarine groundwater discharge within a landslide scar at the French Mediterranean coast. Estuarine, Coastal and Shelf Science, v. 198, no. Part A, p. 128-137. PDF
     
  30. Pop Ristova, P., Pichler, T., Friedrich, M. W., and Bühring, S. I., 2017, Bacterial Diversity and Biogeochemistry of Two Marine Shallow-Water Hydrothermal Systems off Dominica (Lesser Antilles): Frontiers in Microbiology, v. 8, 10.3389/fmicb.2017.02400. PDF
     
  31. Kleint, C., Pichler, T. and Koschinsky, A. (2017) Geochemical characteristics, speciation and size-fractionation of iron (Fe) in two marine shallow-water hydrothermal systems, Dominica, Lesser Antilles. Chemical Geology, v. 454, p. 44-53. PDF
     
  32. Qi, P. and Pichler, T., 2017. Competitive adsorption of As(III), As(V), Sb(III) and Sb(V) onto ferrihydrite in multi-component systems: Implications for mobility and distribution. Journal of Hazardous Materials, v. 330, p. 142-148. PDF
     
  33. Villinger, H. W., Pichler, T., Kaul, N., Stephan, S., Pälike, H. and Stephan, F. 2017, Formation of hydrothermal pits and the role of seamounts in the Guatemala Basin (Equatorial East Pacific) from heat flow, seismic, and core studies, Geochem. Geophys. Geosyst., 18, doi:10.1002/2016GC006665. PDF
     
  34. Pichler, T., Mozaffari, A., 2017. Reply to a comment to "Distribution and mobility of geogenic molybdenum and arsenic in a limestone aquifer matrix, Applied Geochemistry", doi:10.1016/j.apgeochem.2016.06.004. PDF
     
  35. Masoumi, R., Calagari, A.A., Siahcheshm, K., Porkhial, S. and Pichler, T. (2017) Consideration of geological aspects and geochemical parameters of fluids in geothermal field, south of mount Sabalan, NW Iran. Journal of African Earth Sciences, v. 129, p.. 692-700. PDF
     
  36. Pichler, T., Renshaw, C.E. and Sültenfuß, J., 2017. Geogenic As and Mo groundwater contamination caused by an abundance of domestic supply wells. Journal of Applied Geochemistry, v. 77, p. 68-79. PDF
     
  37. Price, R.E., Breuer, C., Reeves, E., Bach, W., Pichler, T., 2016. Arsenic bioaccumulation and biotransformation in deep-sea hydrothermal vent organisms from the PACMANUS hydrothermal field, Manus Basin, PNG. Deep Sea Research Part I: Oceanographic Research Papers v. 117, p. 95-106. PDF
     
  38. Qi, P. and Pichler, T., 2016. Competitive Adsorption of As(III) and As(V) by Ferrihydrite: Equilibrium, Kinetics, and Surface Complexation. Water Air and Soil Pollution v. 227:387, p. 1-9. PDF
     
  39. Gomez-Saez, G.V., Niggemann, J., Dittmar, T., Pohlabeln, A.M., Lang, S.Q., Noowong, A., Pichler, T., Wörmer, L. and Bühring, S.I., 2016. Molecular evidence for abiotic sulfurization of dissolved organic matter in marine shallow hydrothermal systems. Geochimica et Cosmochimica Acta v. 190, p. 35-52. PDF
     
  40. Qi, P. and Pichler, T., 2016. Sequential and simultaneous adsorption of Sb(III) and Sb(V) on ferrihydrite: Implications for oxidation and competition. Chemosphere, v. 145, p. 55-60. PDF
     
  41. Purnomo, B., Pichler, T., 2016. Boron isotope variations in geothermal systems on Java, Indonesia, Journal of Volcanology and Geothermal Research, v. 311, p. 1-8. PDF
     
  42. Gomez-Saez, G.V., Riedel, T., Niggemann, J., Pichler, T., Dittmar, T. and Bühring, S.I., 2015. Interaction between iron and dissolved organic matter in a marine shallow hydrothermal system off Dominica Island (Lesser Antilles). Marine Chemistry, v. 177, p. 677-686. PDF
     
  43. Wu, D., Pichler, T., 2016. Preservation of co-occuring As, Sb and Se species in water with EDTA and acidification. Geochemistry: Exploration, Environment, Analysis, v. 16, p. 117-125. PDF
     
  44. Godelitsas, A., Price, R.E., Pichler, T., Amend, J., Gamaletsos, P., Göttlicher, J., 2015. Amorphous As-sulfide preciptates from the shallow-water hydrothermal vents off Milos Island (Greece), Marine Chemistry, v. 177, p. 687-696. PDF
     
  45. Purnomo, B., Pichler, T., 2015. Geothermal systems on the island of Bali, Indonesia, Journal of Volcanology and Geothermal Research, v. 304, p. 349-358. PDF
     
  46. Pichler, T., Mozaffari, A., 2015. Distribution and mobility of geogenic molybdenum and arsenic in a limestone aquifer matrix, Applied Geochemistry, v. 63, p. 623-633. PDF
     
  47. Seewald J.S., Reeves E.P., Bach W., Saccocia P., Craddock P.R., Shanks W.C., Sylva, S.P., Pichler, T., Rosner, M., Walsh, E., 2015. Submarine Venting of Magmatic Volatiles in the Eastern Manus Basin, Papua New Guinea. Geochimica et Cosmochimica Acta, v.163, p. 178-99. PDF
     
  48. Price, R.E., LaRowe, D.E., Italiano, F., Savov, I., Pichler, T. and Amend, J.P. Subsurface hydrothermal processes and the bioenergetics of chemolithoautotrophy at the shallow-sea vents off Panarea Island (Italy). Chemical Geology, v. 407-408, p. 21-45. PDF
     
  49. Engel, B.E., Hallock, P., Price, R.E. and Pichler, T., 2015. Shell dissolution in larger benthic fromainfers exposed to pH and temperature extremes: results from an in situ experiment. Journal of Foraminiferal Research, v. 45(2), p. 190-203. PDF
     
  50. Lazareva, O., Druschel, G., and Pichler, T., 2015. Understanding arsenic behavior in carbonate aquifers: Implications for aquifer storage and recovery (ASR). Applied Geochemistry, v. 52, no. 0, p. 57-66. PDF
     
  51. Qi, P and Pichler, T., 2014. Closer look at As(III) and As(V) adsorption onto ferrihydrite under competitive conditions. Langmuir, 30, 11110-11116. PDF
     
  52. Purnomo, B.J. and Pichler, T., 2014. Geothermal systems on the island of Java, Indonesia. Journal of Volcanology and Geothermal Research 285, 47-59. PDF
     
  53. Wu, D. and Pichler, T., 2014. Simultaneous speciation analysis of As, Sb and Se redox couples by SF-ICP-MS coupled to HPLC. Analytical Methods, 6, 5112-5119. PDF
     
  54. Price, R.E., Lesniewski, R., Nitzsche, K.S., Meyerdierks, A., Saltikov, C., Pichler, T., Amend, J.P., 2013. Archaeal and bacterial diversity in an arsenic-rich shallow-sea hydrothermal system undergoing phase separation. Front. Microbiol. 4, Article 158, p. 1-19. PDF
     
  55. Bundschuh, J., Pichler, T., 2013. Arsenic in marine hydrothermal systems: Source, fate and environmental implications. Chemical Geology 348, 1. PDF
     
  56. Breuer, C. and Pichler, T. 2013, Arsenic in marine hydrothermal fluids, Chemical Geology, v. 348. p. 2-14, doi:10.1016/j.chemgeo.2012.10.044. PDF
     
  57. Price, R.E., Planer-Friedrich, B., Savov, I., Bühring , S., Amend, J. and Pichler, T. 2013, Processes influencing extreme As enrichment in shallow-sea hydrothermal fluids of Milos Island, Greece, Chemical Geology, v. 348. p. 15-26, doi:10.1016/j.chemgeo.2012.06.007. PDF
     
  58. Ruiz-Chancho, M.J., Pichler, T., and Price, R.E., 2013, Arsenic occurrence and speciation in Cyclope neritea, a gastropod inhabiting the arsenic-rich marine shallow-water hydrothermal system off Milos Island, Greece, Chemical Geology, v. 348. p. 56-64, doi:10.1016/j.chemgeo.2012.05.017. PDF
     
  59. Price, R.E., London, J., Walllschäger, D., Ruiz-Chancho, M.J., Pichler, T., 2013, Enhanced bioaccumulation and biotransformation of As in coral reef organisms surrounding a marine shallow-water hydrothermal vent system, Chemical Geology, v. 348. p. 48-55, doi:10.1016/j.chemgeo.2012.02.023. PDF
     
  60. Fox, D.I., Pichler, T., Yeh, D.H. and Alcantar, N., 2012, Removing Heavy Metals in Water: The Interaction of Cactus Mucilage and Arsenate (As (V)), Environmental Science and Technology v. 46(8), p. 4553-4559. DOI: 10.1021/es2021999. PDF
     
  61. Pichler, T. Young, K. and Alcantar, N., 2012, Eliminating turbidity in drinking water using the mucilage of a common cactus. Water Supply, v. 12(2), p. 179-186. doi:10.2166/ws.2012.126. PDF
     
  62. Meyer-Dombard, D.R., Price, R.E., Pichler, T., and Amend, J.P., 2012, Prokaryotic Populations in Heated, Arsenic-rich Sediments of a Shallow-Sea Hydrothermal System, Ambitle Island, Papua New Guinea. Geomicrobiology Journal, v. 29, p. 1-17. PDF
     
  63. Wallis, I., Prommer, H., Pichler, T., Post, V., Norton, S., Annable, M., Simmons, C., 2011, A process-based reactive transport model to quantify arsenic mobility during aquifer storage and recovery of potable water, Environmental Science and Technology, v. 45(16), p. 6294-6931. PDF
     
  64. Akerman, N. H., Price, R. E., Pichler, T., and Amend, J. P., 2011, Energy sources for chemolithotrophs in an arsenic- and iron-rich shallow-sea hydrothermal system, Geobiology,, v. 9, p. 436-445. PDF
     
  65. Lazareva, O. and Pichler, T., 2011, Evaluating complex hydrogeological settings in a constructed wetland: An isotopic/chemical mass balance approach, Wetlands, v. 31, p. 521-534. PDF
     
  66. Pichler, T., Price, R. E., Lazareva, O., and Dippold, A., 2011, Sampling strategies for the determination of arsenic concentration and distribution in the Floridan Aquifer System, Journal of Geochemical Exploration, doi:10.1016/j.gexplo.2011.02.004. PDF
     
  67. Mottl, M.J., Seewald, J.S., Wheat, G.C., Tivey, M.K., Proskurowski, G., Reeves, E.P., Sharkey, J., You, C.-F., Chan, L.H., Pichler, T., and Michael, P., 2011, Chemistry of hot springs along the Eastern Lau Spreading Center. Geochimica Cosmochimica Acta, v. 75(4), p. 1013-1038. PDF
     
  68. Reeves, E.P., Seewald, J.S., Saccocia, P., Walsh, E., Bach, W., Craddock, P., Shanks, W.C., Sylva, S., Pichler, T., and Rosner, M., 2011, Geochemistry of hydrothermal fluids from the Vienna Woods and PACMANUS hydrothermal fields, Manus Basin. Geochimica Cosmochimica Acta, v. 75(4), p. 1088-11238. PDF
     
  69. Price, R.E., Planer-Friedrich, B., Savov, I., and Pichler, T., 2010, Arsenic cycling, thioarsenates and orpiment precipitation at a shallow sea hydrothermal system, Milos Island, Greece, in Jiin-Shuh, J., Bundschuh, J., and Bhattacharya, eds., Arsenic in Geosphere and Human Diseases: Boca Raton, CRC Press, p. 66-69.
     
  70. Ruiz-Chancho, M.J., Pichler, T., and Price, R.E., 2010, Arsenic occurrence and speciation in Cyclope neritea, a gastropod found in the arsenic-rich marine shallow-water hydrothermal system off Milos Island, Greece, in Jiin-Shuh, J., Bundschuh, J., and Bhattacharya, eds., Arsenic in Geosphere and Human Diseases: Boca Raton, CRC Press, p. 226-228.
     
  71. Lazareva, O. and Pichler, T., 2010. Long-Term Performance of a Constructed Wetland/Filter Basin System Treating Wastewater. Chemical Geology v. 262, p. 137-152. PDF
     
  72. Karlen D.J., Price R.E., Pichler T. and Garey, J.R., 2010. Changes in benthic macrofaunal community structure along a shallow-water hydrothermal gradient. Pacific Science v. 64(2), p. 391-404. PDF
     
  73. Mailloux, B., Alexandrova, E., Keimowitz, A., Wovkulich, K., Freyer, G., Herron, M., Stolz, J., Kenna, T., Pichler, T., Polizzotto, M., Dong, H., Bishop, M., and Knappett, P., 2009, Microbial mineral weathering for nutrient acquisition releases arsenic. Applied and Environmental Microbiology, v. 75, p. 2558-2565. PDF
     
  74. Pichler, T., Brinkmann, R. and Scarzella, G.I., 2008. Arsenic abundance and variation in golf course lakes. Science of the Total Environment, v. 394(2-3), p. 313-320. PDF
     
  75. Price, R.E. and Pichler, T., 2007. Enhanced geochemical gradients in a marine shallow-water hydrothermal system: unusual arsenic speciation in horizontal and vertical pore water profiles. Applied Geochemistry, 22, 2595-2605. PDF
     
  76. Berquó, T.S. , Banerjee, S.K., Ford, R., Penn, R.L. and Pichler, T., 2007. High Crystallinity Si-Ferrihydrite: An Insight into its Neel Temperature and Size Dependence of Magnetic Properties. Journal of Geophysical Research, 112, B02102, doi:10.1029/2006JB004583. PDF
     
  77. Fortin, D., Pichler, T. and Saltikov, C., 2007. Biogeochemical Gradients: Microbes, Measurements, and Modeling. Applied Geochemistry, 22(12): 2567-2568. PDF
     
  78. Lazareva, O. and Pichler, T., 2007. Naturally occurring arsenic in the Miocene Hawthorn Group, Southwestern Florida: implication for phosphate mining. Applied Geochemistry, v. 22, no. 5, p. 953-973. PDF
     
  79. Jones, G.W. and Pichler, T., 2007. The Relationship between Pyrite Stability and Arsenic Mobility During Aquifer Storage and Recovery in Southwest Central Florida. Environmental Science and Technology, v. 41-3, p. 723-730. PDF
     
  80. Ahmed, M.F., Ahuja, S., Alauddin, M., Hug, S.J., Lloyd, J.R., Pfaff, A., Pichler, T., Saltikov, C., Stute, M., van Geen, A., 2006. Ensuring safe drinking water in Bangladesh. Science, v. 314. no. 5806, p. 1687 - 1688. PDF
     
  81. Pichler, T., Amend, J., Garey, J., Hallock, P., Hsia, N., Karlen, D., McCloskey, B., Meyer-Dombard, D. and Price, R., 2006. A Natural Laboratory to Study Arsenic Geobiocomplexity. EOS, v. 87-23, 221-25. PDF
     
  82. Price, R.E. and Pichler, T., 2006. Abundance and mineralogical associations of naturally occurring arsenic in the Suwannee Limestone, Upper Floridan Aquifer. Chemical Geology, 228, p. 44-56. PDF
     
  83. McCarthy, K.T., Pichler, T. and Price, R.E., 2005. Geochemistry of Champagne Hot Springs Shallow Hydrothermal Vent Field and Associated Sediments, Dominica, Lesser Antilles.Chemical Geology v. 224, p. 55-68. PDF
     
  84. Price, R.E. and Pichler, T., 2005. Distribution, speciation and bioavailability of arsenic in a shallow-water submarine hydrothermal system, Tutum Bay, Ambitle Island, PNG.Chemical Geology, v. 224, p. 122-135. PDF
     
  85. Pichler, T., 2005. Delta 34S isotope values of dissolved sulfate as a tracer for battery acid H2SO4 contamination. Environmental Geology, v. 47, p. 215-224. PDF
     
  86. Pichler, T., 2005. Stable and radiogenic isotopes as tracers for the origin, mixing and subsurface history of fluids in shallow-water hydrothermal systems. Journal of Volcanology and Geothermal Research, 139 3-4: 211-226. PDF
     
  87. Pichler, T. and Veizer, J., 2004. The precipitation of aragonite from shallow-water hydrothermal fluids in a coral reef, Tutum Bay, Ambitle Island, Papua New Guinea. Chemical Geology, 207 1-2 : 31-45. PDF
     
  88. Daughney, J.D., Rioux, J.-P., Fortin, D. and Pichler, T., 2004. Laboratory Investigation of the Role of Bacteria In the Weathering of Basalt near Deep Sea Hydrothermal Vents. Geomicrobiology Journal, 21: 21-31. PDF
     
  89. Pichler, T. and Humphrey, J. D., 2001, The formation dolomite in island-arc sediments due to gas-seawater-sediment interaction. Journal of Sedimentary Research, v. 71, no. 3, p. 394-399. PDF
     
  90. Pichler, T., Hendry, J. and Hall, G.E.M., 2001, The Mineralogy of Arsenic in Uranium Mine Tailings at the Rabbit Lake In-pit Facility, Northern Saskatchewan, Canada. Environmental Geology, v.40, 4-5, p. 495-506. PDF
     
  91. Rancourt, D. G., Fortin, D., Pichler, T. and Lamarche, G., 2001, Mineralogical characterization of a natural very As-rich hydrous ferric oxide coprecipitate formed by mixing of hydrothermal fluid and sea water. American Mineralogist, v. 86, p. 834-851. PDF
     
  92. Pichler, T., Heikoop, J., Risk, M., Veizer, J. and Cambell, I., 2000, Hydrothermal effects on isotope and trace element records in modern reef corals: an introductory study of Porites lobata from Tutum Bay, Ambitle Island, Papua New Guinea. Palaios, v. 15, No. 3. PDF
     
  93. Pichler, T. and Veizer, J., 1999, Precipitation of Fe III oxyhydroxide deposits from shallow-water hydrothermal fluids in Tutum Bay, Ambitle Island, Papua New Guinea. Chemical Geology v. 162, no. 1, p. 15-31. PDF
     
  94. Pichler, T., Ridley, W. I. and E. P. Nelson, 1999, Low-temperature alteration of dredged volcanics from the Southern Chile ridge: additional information about early stages of seafloor weathering. Marine Geology, v. 159, no. 1-4, 272-285. PDF
     
  95. Pichler, T., Giggenbach, W.F., McInnes, B.I.A. and Duck, B., 1999, Fe-sulfide formation due to seawater-gas-sediment interaction in a shallow-water hydrothermal system, Lihir Island, Papua New Guinea. Economic Geology V. 94, No. 2. PDF
     
  96. Pichler, T., Veizer, J. and Hall, G.E.M., 1999, The natural input of extremely high arsenic concentrations into a coral reef ecosystem by hydrothermal fluids and its removal by Fe III oxyhydroxides. Environmental Science and Technology, v. 33, no. 9, p. 1373-1378. PDF
     
  97. Pichler, T., Veizer, J. and Hall, G.E.M., 1999, The origin and chemical composition of shallow-water hydrothermal fluids in Tutum Bay, Ambitle Island, Papua New Guinea and their effect on ambient seawater, Marine Chemistry, v. 64, no. 3, p. 229-252. PDF
     
  98. Pichler, T. And Dix, G. R., 1996, Hydrothermal venting within a coral reef ecosystem, Ambitle Island, Papua New Guinea, Geology, v.24, no. 5, p. 435-438. PDF
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