{"id":27,"date":"2019-06-28T14:56:41","date_gmt":"2019-06-28T18:56:41","guid":{"rendered":"https:\/\/www2.whoi.edu\/staff\/template-blue-prepop\/?page_id=27"},"modified":"2025-11-19T15:13:22","modified_gmt":"2025-11-19T19:13:22","slug":"publications","status":"publish","type":"page","link":"https:\/\/www2.whoi.edu\/staff\/pbarry\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n\n\t<h1>Publications<\/h1>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-0\">2025 in review<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-0\"><i>Collapse<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Taylor, M., D.S. Stamps, Eliot. Atekwana, D. Mongovin, H. Mwongyera, Estella Atekwana, S. van der Lee, A. Kabanda, A. Katumwehe, R. Evans, <strong>P. H. Barry<\/strong>, F. Kolawole, J.M. Kiberu, J. Nakajigo, E. A. Njinju (2025) Inclusive Field Education in East Africa. Nature Communications Sustainability.<\/li>\n<li>Mwongyera, H., Taylor, M., van der Lee, S., Stamps, D.S., Atekwana, E.A., Katumwhehe, A., Evans, R., <strong>Barry, P.H.<\/strong>, Kabanda, A., Kwagalakwe, A., Kiberu, J.M., Nakajigo, J., Tugume, F. (2025) Active fault database for the northwestern branch of the East African Rift System. <em>GSA Today<\/em>. In Review<\/li>\n<li>Zhang, X.J., Parai, R., <strong>Barry, P.H.<\/strong>, F\u00fcri, E. (2025) Tracing Deep Earth Volatile Heterogeneities from Heavy Noble Gas Systematics of R\u00e9union Plume-influenced Central Indian Ridge Basalts. <em>EPSL<\/em>. In Review.<\/li>\n<li>Melaku, A.A., Teferi, G.B., Mihretie, T.M., Gudbrandsson, S., Sinetebeb, Y., <strong>Barry, P.H.<\/strong>, Fischer, T.P., Stuart, F., Balci, U., Halld\u00f3rsson, S.A., Bates, R., Stueeken, E., Hutchison, W. (2025) Mantle plume linked to high volatile emissions in the Central Ethiopian Rift. <em>EPSL<\/em>. In Review.<\/li>\n<li>Kwagalakwe, A.,\u00a0 Stamps, D.S., Njinju, E., Rajaonarison, T., Evans, R.L., Atekwana, E.A., Taylor, M., Katumwehe, A.B., <strong>Barry, P.H.<\/strong>, Mwongyera, H., Kiberu, M., Kabanda, A., Nakajigo, J. (2025) Investigating the Presence of Deep Melt in the Northern Western Branch of the East African Rift System. <em>Journal of Geophysical Research &#8211; Solid Earth<\/em>. In Review.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-1\">2025<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-1\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.<\/strong>, de Moor, J.M., Seltzer, A.M., Patil, K., Bartels, C., Young, E., Longworth, B.E., Broadley, M.W., Barosa, B., Bekaert, D.V., Turner, S.J., Tyne, R.L., Kumar, N., Anderson, M., Li, K., Curtice, J., Jessen, G.L., Ram\u00edrez, C.J., Chiodi, A., Aguilera, F., Mas\u00edas Alvarez, P., Lloyd, K.G., Giovannelli, D. (2025). Carbon, nitrogen, and noble gas isotopes reveal old and deep volatiles throughout the CVZ of the Andes. EPSL. <em>651<\/em>, p.119169. doi: https:\/\/doi.org\/10.1016\/j.epsl.2024.119169.<\/li>\n<li>Broadley, M.W., <strong>Barry, P.H.<\/strong>, Bekaert, D.V., Tyne, R.L., Karolyte, R., Hudak, M.R., Ramirez, C.J., Curtice, J., Mitchell, S., Lloyd, K.G., Ballentine, C.J., Marty, B., Young, E.D., Seltzer, A.M. (2025) Coupled noble gas isotope and nitrogen isotopologue study of Yellowstone gas permits mantle source signals to be distinguished from subsurface fractionation processes. <em>Special Issue in Honor of Reika Yokochi\u00a0in ACS Earth and Space Chemistry<\/em>. 9 (6), 1310-1321. doi:\u00a0https:\/\/doi.org\/10.1021\/acsearthspacechem.4c00349.<\/li>\n<li>Byrne, D.J., Broadley, M.W., Bekaert, D.V., Seltzer, A.M., Almayrac, M.G., Tyne, R.L., Lloyd, K.G., Ballentine, C.J., Marty, B., <strong>Barry, P.H.<\/strong> (2025) Helium, neon and argon isotope systematics of Yellowstone gases. <em>AGU Monograph<\/em>, doi: 10.1002\/9781394270958\/chX.<\/li>\n<li>de Moor, J.M., <strong>Barry, P.H.<\/strong>, Rodr\u00edguez, J., Aguilera, F., Aguilera, M., Gonzalez, C., Layana, S., Chiodi, A., Apaza, F., Masias, P., Kern, C., Barnes, J., Cullen, J., Bastoni, D., Bastianoni, A., Cascone, M., Jimenez, C., Salas-Navarro, J., Ram\u00edrez, C.J., Jessen, G., Giovannelli, D., Lloyd K., (2025) Origins and fluxes of gas emissions from the Central Volcanic Zone of the Andes. <em>JVGR<\/em>. p.108382. doi: https:\/\/doi.org\/10.1016\/j.jvolgeores.2025.108382.<\/li>\n<li>Gemeiner, H., Chang, H.K., Reis, M.M.,\u00a0 Alcara, L.N., Meneg\u00e1rio, A.A., <strong>Barry, P.H.,<\/strong> (2025) Tracing CO<sub>2<\/sub> origins of mineral spring water of the Water Circuit of Minas Gerais in Southeastern Brazil. <em>Chemical Geology<\/em>. \u00a0v. 691. p. 122939. doi: https:\/\/doi.org\/10.1016\/j.chemgeo.2025.122939.<\/li>\n<li>Giuliani, A., Kurz, M.D., <strong>Barry, P.H.<\/strong>, Curtice, J.M., Stuart, F.M., Oesch, S., Charbonnier, Q., Peters, B.J., Koornneef, J., Szilas, K., Pearson, D.G., (2025) Primordial Ne and the deep mantle origin of kimberlites. Nature Communications, <strong>16<\/strong>, 3281. doi: https:\/\/doi.org\/10.1038\/s41467-025-58625-5.<\/li>\n<li>Halford, D.T., Karolyt\u0117, R., <strong>Barry, P.H.<\/strong>, Tyne, R. L.<sub>,<\/sub> Hillegonds, D. J., Adeniyi, E. O., Bekaert, D. V., Broadley, M. W., Hudak, M. R., Lloyd, K. L., Marty, B., Ramirez, C. J., Seltzer, A. M., Ballentine, C. J. (2025) Examining the Effect of Heat from Yellowstone and Surrounding Environs on the Release of Helium Gases from the Crust. <em>GCA<\/em>. doi: https:\/\/doi.org\/10.1016\/j.gca.2025.06.015.<\/li>\n<li>Hudak, M.R., <strong>Barry, P.H.,<\/strong> Bekaert, D.V., Turner, S.J., Broadley, M.W., Walowski, K., Tyne, R.L., Li, K., Nielsen, S.G., Curtice, J.M. and Kurz, M.D. (2025). Deep Nitrogen fluxes and sources constrained by Arc Lava phenocrysts.\u00a0<em>Geophysical Research Letters<\/em>,\u00a0<em>51<\/em>(24), p.e2024GL111312. doi: https:\/\/doi.org\/10.1029\/2024GL111312.<\/li>\n<li>Kwagalakwe, A.,\u00a0 Stamps, D.S., Kolawole, F., Atekwana, E.A., Taylor, M., Atekwana, E.A. Katumwehe, A.B., <strong>Barry, P.H.<\/strong>, Njinu, E.A., Nyago, J., Tugume, F., Kiberu<sup>10<\/sup>, J.M., Nakajigo, J., Kabanda, A. (2025) Constraining the Kinematics of the Victoria Microplate and the Northern Western Branch of the East African Rift System. <em>GRL<\/em>. 52, 20. doi: https:\/\/doi.org\/10.1029\/2025GL116301.<\/li>\n<li>Lastes, A., Bekaert, D.V., Tibari, B., Seltzer, A.M., Broadley, M.W., <strong>Barry, P.H.<\/strong>, Marty, B., (2025) Characterization of the HIMU mantle source from noble gas isotopes in volcanic gas emissions in S\u00e3o Tom\u00e9 (Cameroon volcanic line). <em>Special Issue in Honor of Reika Yokochi\u00a0in ACS Earth and Space Chemistry<\/em>. doi: https:\/\/doi.org\/10.1021\/acsearthspacechem.5c00056.<\/li>\n<li>Li, K., Hudak, M.R., Broadley, M.W., Anderson, M.K., Bekaert, D.V., Krantz, J.A., Kumar; N., Silva, M.P., Hahm, D., Curtice, J.M., Kurz, M.D., <strong>Barry, P.H.<\/strong>\u00a0(2025) Hybrid mantle plumes with recycled and primordial nitrogen: Insights from plume-influenced basaltic glasses from Reykjanes Ridge and Rochambeau Bank. <em>EPSL<\/em>. 667, 119538. doi: https:\/\/doi.org\/10.1016\/j.epsl.2025.119538.<\/li>\n<li>Marty,\u00a0 B., Contamine, D., Bekaert, D.V., Lastes, A., Pik, R., Labidi, J., Young, E.D., Broadley, M.W., <strong>Barry, P.H.<\/strong>, Byrne, D.J., Seltzer, A.M. (2025) Uncovering the xenon isotope composition of continental rift magmas: Insight from analysis of geothermal gases at Homa Hills, Kenya. <em>EPSL<\/em>. 653, 119224. doi: https:\/\/doi.org\/10.1016\/j.epsl.2025.119224.<\/li>\n<li>Njinju, E.A., Kolawole, F., Atekwana, E.A., Ajala, R., Atekwana, E.A., Stamps, D.S., Evans, R.L., Katumwehe, A., <strong>Barry, P.H.<\/strong>, van der Lee, S., Kiberu, J.M. , Tugume, F., Kabanda A., Taylor, M., Nakajigo, J., Isaac A.O. (2025) Density perturbations in the crust indicate potential for blind magmatism beneath magma-poor rifts. <em>Tectonophysics<\/em>. v. 913. p.230881.doi: https:\/\/doi.org\/10.1016\/j.tecto.2025.230881<\/li>\n<li>Seltzer, A.M., Tyne, R.L., Musan, I., Langman, J.B., Amaya, D.J., Karnauskas, K.B., Lora, J.M., Bowen, G.J., <strong>Barry, P.H.<\/strong>, Costantini, M., Broadley, M.W., Bekaert, D.V., Jenkins, W.J., (2025) Past aquifer responses to climate recorded by fossil groundwater. <em>Science Advances<\/em>. \u00a0<em>11<\/em>(24), p.eadu7812. doi: 10.1126\/sciadv.adu7812.<\/li>\n<li>Tyne, R.L., Broadley, M.W., Bekeart, D.V., <strong>Barry, P.H.<\/strong>, Warr, O., Langman, J.B., Musan, I., Jenkins, W.J., Seltzer A.M., (2025) Hidden flux of lithospheric volatiles in shallow young groundwater. <em>Nature Geoscience<\/em>, pp.1-6. doi: https:\/\/doi.org\/10.1038\/s41561-025-01702-7.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-2\">2024<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-2\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Basili, B., Rogers, T.J., Nakagawa, M., Yucel, M., de Moor, J.M., <strong>Barry, P.H.<\/strong>, Shrenk, M.O., Jessen, G., S\u00e1nchez-Murillo, R., Zahirovic, S., Bekaert, D.V., Ramirez, C.J., Bastoni, D., Cordone, A., Lloyd, K.G., Giovannelli, D (2024) Subsurface microbial community structure shifts along the geological features of the Central American Volcanic Arc. PLOS ONE<em>19<\/em>(11), p.e0308756. doi: https:\/\/doi.org\/10.1371\/journal.pone.0308756<\/li>\n<li>Bastoni, D., Blamey Alegria, J., Aguilera, F., Buongiorno, J., Chiodi, A., Krukenberg, V., Giardina, M., Ramirez, C.J., Rodriguez, A., Rogers, T.J., San Martin, J.S., Vallejos, H., Layana, S., Claudia, Gonzalez, C., Aguilera, M., <strong>Barry, P.H.<\/strong>, Jessen, G.L., Lloyd, K.G., de Moor, J.M., Schrenk, M., Giovannelli, D. (2024) Targeting deeply-sourced seeps along the Central Volcanic Zone. Open Research Europe, <em>4<\/em>(226), p.226. doi: https:\/\/doi.org\/10.12688\/openreseurope.17806.1.<\/li>\n<li>Bekaert, D.V., <strong>Barry, P.H.<\/strong>, Krantz, J.A., Curtice, J., Blusztajn, J., Hudak, M. Seltzer, A., Broadley, M.W., Wanless, V.D., Jones, M.R., Soule, S.A., Mittelstaedt, E., Kurz, M.D., (2024) Carbon, Nitrogen, and multi-isotope study of the upper mantle near 14\u00b0N on the Mid-Atlantic Ridge. Part A: Degassing effects. <em>Geochim. Cosmochim. Acta<\/em>. 369, 160-178. doi: https:\/\/doi.org\/10.1016\/j.gca.2023.12.015<\/li>\n<li>Bekaert, D.V., <strong>Barry, P.H.<\/strong>, Krantz, J.A., Curtice, J., Blusztajn, J., Hudak, M. Seltzer, A., Broadley, M.W., Wanless, V.D., Jones, M.R., Soule, S.A., Mittelstaedt, E., Kurz, M.D., (2024) Carbon, Nitrogen, and multi-isotope study of the upper mantle near 14\u00b0N on the Mid-Atlantic Ridge. Part B: Source effects. <em>Geochim. Cosmochim. Acta<\/em>. 369, 179-195. doi: https:\/\/doi.org\/10.1016\/j.gca.2023.12.017<\/li>\n<li>Bekaert, D.V., Caracausi, A., Byrne, D.J., Broadley, M.W., <strong>Barry, P.H<\/strong>., Marty, B., Seltzer A.M., (2024) Primordial and 244Pu-derived xenon missing from Earth&#8217;s convecting mantle. <em>EPSL<\/em>. 642, 118886. doi: https:\/\/doi.org\/10.1016\/j.epsl.2024.118886.<\/li>\n<li>Byrne, D.J., Broadley, M.W., Bekaert, D.V., Seltzer, A.M., Almayrac, M.G., Tyne, R.L., Lloyd, K.G., Ballentine, C.J., Marty, B., <strong>Barry, P.H.<\/strong> (2024) Helium, neon and argon isotope systematics of Yellowstone gases. AGU Monograph, doi: 10.1002\/9781394270958\/chX.<\/li>\n<li>Giovannelli, D., Selci, M., Cramm, M., Bradley, J.A., de Moor, J.M., <strong>Barry, P.H.<\/strong>, Morrison, S.M., Correggia, M., di Iorio, L., Cordone, A. and Caliro, S., (2024) Greenland 2022 GHOST project: Sampling Greenland geothermal springs-expedition report. <em>Open Research Europe<\/em>, 4(77), p.77.90. doi: https:\/\/doi.org\/10.12688\/openreseurope.17002.1.<\/li>\n<li>Grambling, T.A., Newell, D.L., Lloyd, K.G., Hiett, C.D., Upin, H., <strong>Barry, P.H.<\/strong>, Giovannelli, D., de Moor, J.M., Chiodi, A., Jessen, G., Szynkiewicz, A., (2024) Tracing the orogenic sulfur cycle in the Andes using stable isotope composition of dissolved sulfate in thermal springs. <em>Chemical Geology<\/em>. 122365. doi: https:\/\/doi.org\/10.1016\/j.chemgeo.2024.122365.<\/li>\n<li>Mccormick Kilbride, B.T., <strong>Barry, P.H.<\/strong>, Fischer, T.P., Nowicki, S., Hohn, M. Holland, G., Hudak, M., Itikarai, I, Liu, E., Mulina, K., (2024) Helium, carbon and nitrogen isotope evidence for slab influence on volcanic gas emissions at Rabaul caldera, Papua New Guinea. <em>Chem Geo<\/em>. 670, 122434. doi: https:\/\/doi.org\/10.1016\/j.chemgeo.2024.122434<\/li>\n<li>Selci, M., Correggia, M., Cordone, A., Guida, M., Quero, G.M., Piredda, R., Vetriani, C., Ramirez, C., Lloyd, K.G., de Moor, J.M. and <strong>Barry, P.H.<\/strong>, (2024) Recreational hot springs as environmental reservoir of potential multidrug-resistant pathogens. <em>Environmental Research<\/em>, p.119841. doi: https:\/\/doi.org\/10.1016\/j.envres.2024.119841.<\/li>\n<li>Stef\u00e1nsson, A., Ricci, A., Garnett, M., Gunnarsson-Robin, J., Kleine-Marshall, B.I., Scott, S.W., Lelli, M., Dantas Cardoso, C., Pik, R., Santinelli, C., Ono, S., <strong>Barry, P.H.<\/strong>, Broadley, M.W., Byrne, D.J., Halld\u00f3rsson, S.A., Fiebig, J., (2024) Origins of methane in hydrothermal fluids unraveled by stable and radiogenic isotope data and kinetic constraints.\u00a0<em>Geochim. Cosmochim. Acta<\/em>. 373, 84-97. doi: https:\/\/doi.org\/10.1016\/j.gca.2024.03.015.<\/li>\n<\/ul>\n<p>&nbsp;<\/p>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-3\">2023<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-3\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Adeniyi, E.O., Tyne, R.L., <strong>Barry, P.H.<\/strong>, Darrah, T.H., Hubbard, M.S., Myers, M.L., Bowen, D.H., Calavan, C.W., Shaw, C.A., (2023) Origin of CO2 in Upper Devonian Duperow Formation and the Bakken Petroleum System at Kevin Dome, Northwest Montana. <em>Chemical Geology<\/em>. p.121733. doi: https:\/\/doi.org\/10.1016\/j.chemgeo.2023.121733.<\/li>\n<li>Bekaert, D.V., <strong>Barry, P.H.<\/strong>, Broadley, M.W., Byrne, D.J., Marty, B., Ram\u00edrez, C.J., de Moor, J.M., Rodriguez, A., Hudak, M.R., Subhas, A.V. and Halld\u00f3rsson, S.A., (2023) Ultrahigh-precision noble gas isotope analyses reveal pervasive subsurface fractionation in hydrothermal systems.\u00a0<em>Science Advances<\/em>.\u00a0<em>9<\/em>(15), p.eadg2566. doi: 10.1126\/sciadv.adg2566.<\/li>\n<li>Helper, J.P., Barnes, J.D., de Moor, J.M., Rodr\u00edguez, A., <strong>Barry, P.H.<\/strong>, Ramos, E.J. and Lassiter J.C., (2023) Li isotope ratios of spring fluids as an effective tracer of slab-derived subducted sources across the Costa Rica forearc. <em>Geology<\/em>. doi: https:\/\/doi.org\/10.1130\/G51277.1<\/li>\n<li>Hutchison, W., Ogilvie, E.R.D., Gebrewold, Y., <strong>Barry, P.H.<\/strong>, Fischer, T.P., Biggs, J., Albino F., Gu\u00f0brandsson, S., <sup>\u00a0<\/sup>(2023) Gas emissions and sub-surface architecture of fault-controlled geothermal systems: a case study of the North Abaya geothermal area. <em>Geology, Geophysics, and Geosystems (G-Cubed)<\/em>. 24(4), e2022GC010822. doi: https:\/\/doi.org\/10.1029\/2022GC010822.<\/li>\n<li>Li, K., <strong>Barry, P.H.<\/strong>, Jie Yu, A. and Li, L., (2023) Oceanic serpentinites: A potentially critical reservoir for deep nitrogen recycling.<em> Geology<\/em>. doi: https:\/\/doi.org\/10.1130\/G51464.1<\/li>\n<li>Paul, R., Rogers, T.J., Fullerton, K.M., Selci, M., Cascone, M., Stokes, M.H., Steen, A.D., de Moor, J.M., Chiodi, A., Stef\u00e1nsson, A., Halld\u00f3rsson, S.A., Ramirez, C.J., Jessen, G.L., <strong>Barry, P.H.<\/strong>, Cordone, A., Giovannelli, D., Lloyd, K.G., (2023) Complex organic matter degradation by secondary consumers in chemolithoautotrophy based subsurface geothermal ecosystems. <em>PLOS One<\/em>. <em>18<\/em>(8), e0281277. doi: https:\/\/doi.org\/10.1371\/journal.pone.0281277.<\/li>\n<li>Ranta, E., Halld\u00f3rsson, S.A., <strong>Barry, P.H.<\/strong>, Ono, S., Gunnarsson-Robin, J, Kleine, B.I., Ricci, A., Fiebig, J., Sveinbj\u00f6rnsd\u00f3ttir, A.E., Stef\u00e1nsson, A., (2023) Deep magma degassing and volatile fluxes through volcanic hydrothermal systems: Insights from the Askja and Kverkfj\u00f6ll volcanoes, Iceland. <em>Journal of Volcanology and Geothermal Research<\/em>. 436. 107776. doi: https:\/\/doi.org\/10.1016\/j.jvolgeores.2023.107776.<\/li>\n<li>Rogers, T.J., Buongiorno, J., Jessen, G.L., Schrenk, M.O., Fordyce, J.A., de Moor, J.M., Ramirez, C.J., <strong>Barry, P.H.<\/strong>, Y\u00fccel, M., Selci, M., Cordone, A., Giovannelli, D., Lloyd, K.G., (2023) Patterns in chemolithoautotroph distribution across a subsurface convergent margin landscape. <em>ISME Journal<\/em>. 17 (1), 140-150. doi: https:\/\/doi.org\/10.1038\/s41396-022-01331-7.<\/li>\n<li>Seltzer, A.M., Nicholson, D.P., Smethie, W.M., Tyne, R.L., Le Roy, E., Stanley, R.H.R., Stute, M., <strong>Barry, P.H.<\/strong>, McPaul, K., Davidson, P.W., Chang, B.X., Rafter, P.A., Lethaby, P. Johnson, R.J., Khatiwala, S.P., Jenkins, W.J., (2023) Dissolved gases track deep ocean ventilation processes in the deep North Atlantic. <em>Proceedings of the National Academy of Sciences<\/em>. 120 (11) e2217946120. doi: https:\/\/doi.org\/10.1073\/pnas.2217946120.<\/li>\n<li>Tyne, R.L., <strong>Barry, P.H.<\/strong>, Lawson, M., Lloyd, K.G., Giovannelli, D., Summers, Z., Ballentine, C.J., (2023) Understanding the role of microbial methanogenesis in CO<sub>2<\/sub> storage. <em>Environmental Science &amp; Technology<\/em>. 57, 9459-9473. doi: https:\/\/doi.org\/10.1021\/acs.est.2c08652<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-4\">2022<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-4\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.<\/strong>, de Moor, J.M., Chiodi, A., Barraza F.A., Hudak, M.R., Bekaert, D.V., Turner, S.J., Curtice, J., Seltzer, A.M., Jessen, G.L., Osses, E., Blamey, J.M., Amen\u00e1bar M.J., Selci M., Cascone M., Bastianoni A., Nakagawa M., Filipovich R., Bustos E., Schrenk M.O., Buongiorno J., Ram\u00edrez C.J., Rogers T.J., Lloyd K.G., Giovannelli D. (2022) The helium and carbon isotope characteristics of the Andean Convergent Margin. <em>Frontiers in Earth Science<\/em>. Special Issue: Volcanism in the Central Volcanic Zone of the Andes. Vol. 10, <a href=\"https:\/\/doi.org\/10.3389\/feart.2022.897267\">https:\/\/doi.org\/10.3389\/feart.2022.897267<\/a><\/li>\n<li>Bekaert, D.V., Curtice, J., Meier, M.M, Byrne, D.J., Broadley, M.W., Seltzer, A., <strong>Barry, P.H.<\/strong>, Kurz, M.D., Nielsen, S.D. (2022) Determining the noble gas cosmic ray exposure ages of 23 meteorites (8 chondrites and 15 achondrites) from modeling and empirical methods. <em>MAPS,<\/em> doi: https:\/\/doi.org\/10.1111\/maps.13887. DOI:<a href=\"http:\/\/dx.doi.org\/10.1111\/maps.13887\" target=\"_blank\" rel=\"noopener\">10.1111\/maps.13887<\/a><\/li>\n<li>Danabalan, D., Gluyas, J.G.,\u00a0 Macpherson, C.M., Abraham-James, T.H., Bluett, J.J., <strong>Barry, P.H.<\/strong>, Ballentine, C.J. (2022) The Principles of Helium Exploration. <em>Petroleum Geoscience<\/em>. doi: https:\/\/doi.org\/10.1144\/petgeo2021-029.<\/li>\n<li>Halford, D., Karolyt\u0117, R., <strong>Barry, P.H.<\/strong>, Darrah, T., Cuzella, J., Ballentine, C.J., Sonnenberg, S. (2022) High Helium Reservoirs in the Four Corners Area of the Colorado Plateau, USA. <em>Chemical Geology<\/em>, 596, 120790. doi: https:\/\/doi.org\/10.1016\/j.chemgeo.2022.120790.<\/li>\n<li>Halld\u00f3rsson, S\u00e6mundur A., Hilton, David R, Marshall, Edward W.,\u00a0 Ranta, Eemu, Ingvason, Andri, Chakraborty, Subrata, Robin, J\u00f3hann Gunnarsson, Rasmussen, Maja B., Gibson, Sally A., Ono, Shuhei, Scarsi, Paolo, Abebe, Tsegeye, Hopp, Jens, Barry, Peter H., Castillo, Paterno R., (2022)\u00a0 Evidence from gas-rich ultramafic xenoliths for Superplume-derived recycled volatiles in the East African sub-continental mantle.\u00a0 Chemical Geology, 589, <a title=\"Persistent link using digital object identifier\" href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120682\" target=\"_blank\" rel=\"noreferrer noopener\" aria-label=\"Persistent link using digital object identifier\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120682<\/a><\/li>\n<li>Giovannelli, D., <strong>Barry, P.H.<\/strong>, de Moor, J.M., Jessen, G.L., Schrenk, M.O., Lloyd, K.G., (2022) Sampling across large-scale geological gradients to study geosphere-biosphere interactions. <em>Frontiers in Microbiology<\/em>. 4212. doi: 10.3389\/fmicb.2022.998133.<\/li>\n<li>Tyne, R.L., <strong>Barry, P.H.<\/strong>, Cheng, A., Kim, J.H., McIntosh, J.C., Hillegonds, D.J., Ballentine, C.J., (2022) Noble gases reveal the role of basin architecture in controlling the evolution of fluids in the Paradox Basin. <em>EPSL<\/em>, 589, <a title=\"Persistent link using digital object identifier\" href=\"https:\/\/doi.org\/10.1016\/j.epsl.2022.117580\" target=\"_blank\" rel=\"noreferrer noopener\" aria-label=\"Persistent link using digital object identifier\">https:\/\/doi.org\/10.1016\/j.epsl.2022.117580<\/a><\/li>\n<li>Werner, C., Schipper, C.I., Cronin, S., <strong>Barry, P.H.<\/strong>, Stewart, M.K., (2022) Magmatic carbon and helium in springs reveals the vitality of a dormant volcano, Taranaki, New Zealand. <em>Geophysical Research Letters<\/em>. vol 49, issue 18. doi: 10.1029\/2022GL099273.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-5\">2021<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-5\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.<\/strong> and Broadley M.W. (2021) Nitrogen and noble gases reveal a complex history of metasomatism in the Siberian lithospheric mantle. <em>EPSL<\/em>. 556, 116707. doi: <a href=\"https:\/\/nam02.safelinks.protection.outlook.com\/?url=https%3A%2F%2Fdoi.org%2F10.1016%2Fj.epsl.2020.116707&amp;data=04%7C01%7Cjowilly%40whoi.edu%7C2280b6599d5e4fae071908d8b1883b6a%7Cd44c5cc6d18c46cc8abd4fdf5b6e5944%7C0%7C0%7C637454546090506966%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&amp;sdata=V7iElPYsDxGoa6m6UhC%2BuEzS5gGGf%2B2AI7XDJyrA0iE%3D&amp;reserved=0\">https:\/\/doi.org\/10.1016\/j.epsl.2020.116707<\/a><\/li>\n<li><strong>Barry, P.H<\/strong>., Bekaert, D.V., Seltzer, A.M., Halld\u00f3rsson, S.A., de Moor, J.M., Fischer, T.P., Werner, C.A., Kelly, P.J., Franz, B.P., Krantz, J.A., Kulongoski, J.T., (2021) Helium-Carbon Systematics of Groundwaters in the Lassen Peak Region. <em>Chemical Geology<\/em>, 120535. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120535\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120535<\/a>.<\/li>\n<li>Bekaert, D.V., Krantz, J.A., Seltzer, A.M., Patel, B.S., de Moor, J.M., Nakagawa, M., Giovannelli, D., Ram\u00edrez, C.J., Schrenk, M., Gazel, E. Halld\u00f3rsson, S.A., Kulongoski, J.T., Turner, S., Ballentine, C.J., Beaudry, P., Fischer, T.P., Lloyd, K.G., <strong>Barry, P.H<\/strong>. (2021) Volatile fluxes in the volcanically-dormant portion of the Central American Subduction Zone: Southern Costa Rica and western Panama. <em>PNAS<\/em>. 118 (47). doi: <a href=\"https:\/\/doi.org\/10.1073\/pnas.2110997118\">https:\/\/doi.org\/10.1073\/pnas.2110997118<\/a>.<\/li>\n<li>Bekaert, D.V., Turner, S.J., Broadley M.W., Barnes, J.D., Halld\u00f3rsson, S.A. Labidi, J., Wade, J., Walowski, K.J., <strong>Barry, P.H.<\/strong> (2021) Terrestrial volatile recycling: a global mass-balance. Volume 49 of the\u00a0<em>Annual Review of Earth and Planetary Sciences, 49, p. 2021<\/em>. doi: <a href=\"https:\/\/nam02.safelinks.protection.outlook.com\/?url=https%3A%2F%2Fdoi.org%2F10.1146%2Fannurev-earth-071620-055024&amp;data=04%7C01%7Cjowilly%40whoi.edu%7C2280b6599d5e4fae071908d8b1883b6a%7Cd44c5cc6d18c46cc8abd4fdf5b6e5944%7C0%7C0%7C637454546090516964%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&amp;sdata=NAtcLk%2BUYivj8AjsyvPJ4zr34dO4x2386797UWH75QM%3D&amp;reserved=0\">https:\/\/doi.org\/10.1146\/annurev-earth-071620-055024<\/a><\/li>\n<li>Byrne, D.J., Broadley, M.W., Halld\u00f3rsson, S.A. Ranta, E., Ricci, A., Tyne R.L., Stef\u00e1nsson A., Ballentine C.J., <strong>Barry, P.H. <\/strong>(2021) The use of noble gas isotopes to trace subsurface boiling temperatures in Icelandic geothermal systems. <em>EPSL<\/em>, 560, 116805.\u00a0 https:\/\/doi.org\/10.1016\/j.epsl.2021.116805<\/li>\n<li>Cheng, A., Sherwood Lollar, B., Warr, O., Ferguson, G., Idiz, E., Mundle, S.O.C., <strong>Barry, P.H<\/strong>., Byrne, D.J., Mabry, J., Ballentine, C.J., (2021) Determining the role of diffusion and sedimentary basin architecture in 4He groundwater distribution and fluid age determination: the Willison Basin, Canada. <em>EPSL<\/em>, 117175. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.epsl.2021.117175\">https:\/\/doi.org\/10.1016\/j.epsl.2021.117175<\/a>.<\/li>\n<li>Fullerton, K.M., Schrenk, M.O, Yucel, M., Manini, E., Fattorini, D., di Carlo, M., Regoli, F., Nakagawa, M., Smedile, F., Vetriani, C., Miller, H., Morrison, S.M., Mart\u00ednez, M., de Moor, J.M., <strong>Barry, P.H.,<\/strong> Giovannelli, D., Lloyd, K.G. (2021) Plate tectonics drive deep biosphere microbial community compositions, <em>Nature Geoscience, <\/em>https:\/\/doi.org\/10.1038\/s41561-021-00725-0<\/li>\n<li>Giovannelli, D. <strong>Barry, P.H.,<\/strong> Bekaert, D.V., Chiodi A.,\u00a0 Cordone, A., Covone, G., Jessen, G.L., Lloyd, K.G., de Moor, J.M., Morrison, S.M., Schrenk, M.O., Vitale Brovarone, A. (2022). Subsurface life can modify volatile cycling on a planetary scale. <em>Astrobiology<\/em>. Vol. 92, 60..<\/li>\n<li>Halld\u00f3rsson, S.A., Scarsi, P., Abebe, T., Evans, T., Kulongoski, J.T., Castillo, P.R., <strong>Barry, P.H<\/strong>. (2021) He-CO2-N2 isotope and relative abundance characterization of geothermal fluids from the Ethiopian Rift. <em>Chemical Geology<\/em>, 589, 120682. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120682\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120682<\/a>.<\/li>\n<li>Karolyt\u0117, R., <strong>Barry, P.H.,<\/strong> Hunt, A.G., Kulongoski, J.T., Tyne, R.L., Davis, T.A., Wright, M.T., McMahon, P.G., Ballentine, C.J. (2021) Noble gas signatures constrain oil-field water as the carrier phase of hydrocarbons occurring in shallow aquifers in the San Joaquin Basin, USA,\u00a0<em>Chemical Geology<\/em>, p.120491. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120491\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120491<\/a>.<\/li>\n<li>Kimani, C., Kasanzu, C., Tyne, R.L., Mtili, K.M., Byrne, D.J., Kazimoto, E.O., Hillegonds, D.J., Ballentine, C.J., <strong>Barry, P.H<\/strong>. (2021) He, Ne, Ar and CO2 systematics of the Rungwe Volcanic Province, Tanzania: Implications for fluid source and dynamics. <em>Chemical Geology<\/em>. 120584. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120584\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120584<\/a>.<\/li>\n<li>Labidi, J., Young, E.D., Fischer, T.P., <strong>Barry, P.H<\/strong>., Ballentine, C.J., de Moor, J.M. (2021) Constraining the nitrogen and light noble gas cycles in a subduction zone with 15N15N, <em>EPSL<\/em>, 571(2021)117112. doi:<br \/>\n<a href=\"https:\/\/doi.org\/10.1016\/j.epsl.2021.117112\">https:\/\/doi.org\/10.1016\/j.epsl.2021.117112<\/a>.<\/li>\n<li>Mtili, K.M., Byrne, D.J., Tyne, R.L., Kazimoto, E.O., Kimani, C., Kasanzu, C., Hillegonds, D.J., Ballentine, C.J. and <strong>Barry, P.H<\/strong>., 2021. The origin of high helium concentrations in the gas fields of southwestern Tanzania. <em>Chemical Geology<\/em>, 120542. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120542\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120542<\/a>.<\/li>\n<li>Seltzer, A.M, Bekaert, D.V., <strong>Barry, P.H.<\/strong>, Durkin, K.E., Mace, E.K., Aeselth, C., Zappala, J.C., Mueller, P., Jurgens, B., Kulongoski, J.T. (2021) Groundwater residence times obscured by anthropogenic carbonate dissolution. <em>Science Advances<\/em>, Vol. 7, no. 17, eabf3503<br \/>\nDOI: 10.1126\/sciadv.abf3503 .<\/li>\n<li>Seltzer, A.M., Krantz, J.A., Ng, J., Danskin, W.R., Bekaert, D.V., <strong>Barry, P.H<\/strong>., Kimbrough, D.L., Kulongoski, J.T., Severinghaus, J.P., (2021) The Triple Argon Isotope Composition of Groundwater on Ten-Thousand-Year Timescales. <em>Chemical Geology<\/em>, p.120458. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120458\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120458<\/a>.<\/li>\n<li>Tyne, R.L., <strong>Barry, P.H<\/strong>., Karolyt\u0117, R., Byrne, D.J., Kulongoski, J.T., Hillegonds, D.J., Ballentine, C.J., (2021) Investigating the effect of enhanced oil recovery on the noble gas signature of casing gases and produced waters from selected California oil fields. <em>Chemical Geology<\/em>, 120540. doi: <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120540\">https:\/\/doi.org\/10.1016\/j.chemgeo.2021.120540<\/a>.<\/li>\n<li>Tyne, R.L., <strong>Barry, P.H<\/strong>., Lawson, M., Byrne, D.J., Warr, O., Xie, H., Hillegonds, D.J., Formolo, M., Summers, Z., Eiler, J.M., Ballentine, C.J. (2021) Rapid methanogenesis of CO2 in geological carbon storage analogues. <em>Nature<\/em>, 600 (7890), 670-674. doi: <a href=\"https:\/\/doi.org\/10.1038\/s41586-021-04153-3\">https:\/\/doi.org\/10.1038\/s41586-021-04153-3<\/a>.<\/li>\n<li>Zhang, M., Guo, Z., Xu, S., Hilton, D.R., <strong>Barry, P.H.<\/strong>, Sano, Y., Halld\u00f3rsson, S.A., Zhang, L., Cheng, Z., Liu, C., Li, S, Lnag, Y., Li, Z. and Li, L. (2021) Mantle degassing responses to late Cenozoic southeastward growth of the Tibetan Plateau. <em>Nature Communications<\/em>, 12(1), pp.1-10. doi: https:\/\/doi.org\/10.1038\/s41467-021-24415-y.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-6\">2020<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-6\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Marty, B., Almayrac, M. <strong>Barry, P.H.<\/strong>, Bekaert, D.V., Broadley, M.W., Byrne, D.J., Ballentine, C.J., Caracausi, A (2020) <a href=\"https:\/\/www.sciencedirect.com\/science\/article\/pii\/S0012821X20305185\">An evaluation of the C\/N ratio of the mantle from natural CO2-rich gas analysis: Geochemical and cosmochemical implications<\/a>. EPSL. 551, 116574.<\/li>\n<li><strong>Barry, P.H.<\/strong>, Negrete-Aranda, R., Spelz, R.M., Seltzer, A.M., Bekaert, D.V., Virrueta, C. and Kulongoski, J.T., 2020. <a href=\"https:\/\/www.sciencedirect.com\/science\/article\/pii\/S0009254120302618\">Volatile sources, sinks and pathways: A helium\u2011carbon isotope study of Baja California fluids and gases<\/a>. <em>Chemical Geology<\/em>: <strong>550<\/strong>(119722).<\/li>\n<li>Broadley M.W., <strong>Barry, P.H.<\/strong>, Bekaert, D.V., Caracausi, A., Ballentine, C.J., Marty, B., (2020) <a href=\"https:\/\/www.pnas.org\/content\/117\/25\/13997.short\">Chondritic Krypton and Xenon in the Yellowstone Mantle Plume<\/a>. <em>PNAS, <\/em>Jun 2020,\u00a0202003907.<\/li>\n<li>Labidi, J., <strong>Barry, P.H.<\/strong>, Bekaert, D.V., Broadley M.W., Marty, B., Giunta, T. Warr, O., Sherwood Lollar, B., Fischer T.P., Avice, G., Caracausi, A., Ballentine, C.J., Halld\u00f3rsson, S.A., Stef\u00e1nsson, A., Kurz, M., Kohl, I., Young E.D., (2020) <a href=\"https:\/\/www.nature.com\/articles\/s41586-020-2173-4\">Hydrothermal <sup>15<\/sup>N<sup>15<\/sup>N abundances constrain the origins of mantle nitrogen<\/a>. <em>Nature<\/em>. <strong>580<\/strong>(7803), pp.367-371.<\/li>\n<li>Giovannelli, D., <strong>Barry<\/strong>,<strong> P.H.<\/strong>, de Moor, J. M., Lloyd, K.G., Schrenk, M.O. (2020) <a href=\"https:\/\/doi.org\/10.1029\/2020EO140906\">The role of biology in volatile cycling across a subduction zone<\/a>. <em>EOS, <\/em>101<em>, <\/em>https:\/\/doi.org\/10.1029\/2020EO140906.<\/li>\n<li>Byrne, D.J.,<strong> Barry, P.H.<\/strong>, Lawson, M., Ballentine, C.J., (2020) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2019.10.001\">Tracing subsurface fluid flow in the East Texas Basin using noble gas isotopes<\/a>. <em>Geochim. Cosmochim. 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(2019) <a href=\"https:\/\/doi.org\/10.1038\/s41597-019-0302-4\">Helium, inorganic and organic carbon isotopes of fluids and gases across the Costa Rica convergent margin<\/a>. <em>Nature, Sci Data<\/em> 6, 284. doi:10.1038\/s41597-019-0302-4.<\/li>\n<li>Tyne, R.L., <strong>Barry, P.H.<\/strong>, Hillegonds, D.J., Hunt, A.G. Kulongoski, J.T., Landon, M.K., Stephens, M.J., Byrne, D.J., Ballentine C.J. (2019) <a href=\"https:\/\/doi.org\/10.1029\/2019GC008552\">A novel method for the extraction, purification and characterisation of noble gases in produced waters<\/a>. <em>Geology, Geophysics, and Geosystems<\/em> (G-Cubed), Technical Briefs. doi: https:\/\/doi.org\/10.1029\/2019GC008552.<\/li>\n<li>Pernet-Fisher, J.F., <strong>Barry, P.H.<\/strong>, Day, J.M.D., Pearson, D.G., Woodland, S., Agashev, A.M., Pokhilenko, L.N. (2019) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2019.07.054\">Heterogeneous kimberlite metasomatism revealed from a combined He-Os isotope study of Siberian dunite xenoliths<\/a>. <em>Geochim. Cosmochim. Acta<\/em>. 226, 220-236. doi: https:\/\/doi.org\/10.1016\/j.gca.2019.07.054.<\/li>\n<li><strong>\u00a0<\/strong>McMahon, P.B., Vengosh, A., Davis, T.A., Landon, M.K., Tyne, R.L., Wright, M.T., Kulongoski, J.T., Hunt, A.G., <strong>Barry, P.H.<\/strong>, Kondash, A.J., Wang, Z., Ballentine, C.J. (2019) <a href=\"https:\/\/doi.org\/10.1021\/acs.est.9b02395\">Occurrence and Sources of Radium in Groundwater Associated with Oil Fields in the Southern San Joaquin Valley, California<\/a>. <em>Environmental Science &amp; Technology<\/em>. 53, 16, 9398-9406. doi: https:\/\/doi.org\/10.1021\/acs.est.9b02395<\/li>\n<li><strong> Barry<\/strong>,<strong> P.H.<\/strong>, de Moor, J. M., Giovannelli, D. Schrenk, M.O., Hummer, D.R., Lopez, T., Pratt, C.A., Alp\u00edzar Segura, Y., Battaglia, A., Beaudry, P., Bini, G., Cascante, M. d&#8217;Errico, G., di Carlo, M., Fattorini, D., Fullerton, K., Gazel, E., Gonz\u00e1lez, G., Halld\u00f3rsson, S. A., Iacovino, K., Kulongoski, J.T., Manini, E., Mart\u00ednez, M., Miller, H., Nakagawa, M., Ono, S., Patwardhan, S., Ram\u00edrez, C.J., Regoli, F., Smedile, F., Turner, S., Vetriani, C., Y\u00fccel, M., Ballentine, C.J., Fischer, T.P., Hilton, D.R., Lloyd, K.G., (2019) <a href=\"https:\/\/doi.org\/10.1038\/s41586-019-1131-5\">Forearc carbon sequestration reduces long-term volatile recycling into the mantle<\/a>. <em>Nature<\/em>, 568, 487-492. doi: https:\/\/doi.org\/10.1038\/s41586-019-1131-5.<\/li>\n<li>Le Voyer, M., Hauri, E.H., Cottrell, E., Kelley, K.A., Salters, V.J.M, Langmuir, C.H., Hilton, D.R., <strong>Barry, P.H.<\/strong>, F\u00fcri, E., (2019) <a href=\"https:\/\/doi.org\/10.1029\/2018GC007630\">Carbon fluxes and primary magma CO<sub>2<\/sub> contents along the global mid-ocean ridge system<\/a>. <em>Geology, Geophysics, and Geosystems<\/em> (G-Cubed). <em>20<\/em>(3), 1387-1424.\u00a0 doi: https:\/\/doi.org\/10.1029\/2018GC007630.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-8\">2018<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-8\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.<\/strong>, Lawson, M., W.P. Meurer, Cheng, A., Ballentine, C.J., (2018) <a href=\"https:\/\/doi.org\/10.1029\/2018GC007654\">Noble gases in deep-water oils of the U.S. Gulf of Mexico<\/a>. <em>Geology, Geophysics, and Geosystems<\/em> (G-Cubed). <em>19<\/em>(11), 4218-4235.\u00a0 doi: https:\/\/doi.org\/10.1029\/2018GC007654.<\/li>\n<li>Byrne, D.J.,<strong> Barry, P.H.<\/strong>, Lawson, M., Ballentine, C.J., (2018) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2018.08.042\">Determining gas expulsion vs retention during hydrocarbon generation in the Eagle Ford Shale using noble gases<\/a>. <em>Geochim. Cosmochim. Acta<\/em>, 241, 240-254. doi: 10.1016\/j.gca.2018.08.042.<\/li>\n<li>Broadley, M.W., <strong>Barry, P.H.<\/strong>, Ballentine, C.J., Taylor, L.A., Burgess, R. (2018) <a href=\"https:\/\/doi.org\/10.1038\/s41561-018-0215-4\">Plume-induced liberation of recycled volatiles triggers global environmental change<\/a>. <em>Nature Geoscience<\/em>, 11 (9), 682. doi: 10.1038\/s41561-018-0215-4.<\/li>\n<li>Gannon, R.S., Saraceno, J.F., Kulongoski, J.T., Teunis, J.A., <strong>Barry, P.H.<\/strong>, Tyne, R.L., Kraus, T.E.C., Hansen, A.M., and Qi, S.L., (2018) <a href=\"https:\/\/www.sciencebase.gov\/catalog\/item\/5a569e73e4b01e7be2444dab\">Produced water chemistry data for the Lost Hills, Fruitvale, and North and South Belridge study areas, Southern San Joaquin Valley, California<\/a>: <strong>U.S. Geological Survey data release<\/strong>. doi: 10.5066\/F7X929H9.<\/li>\n<li><strong>Barry, P.H.<\/strong>, Kulongoski, J.T., Landon, M.K., Tyne, R.L., Gillespie, J.M., M.J. Stephens, Hillegonds, D.J., Byrne, D.J., Ballentine, C.J. (2018) <a href=\"https:\/\/doi.org\/10.1016\/j.epsl.2018.05.028\">Tracing enhanced oil recovery signatures in casing gases using noble gases<\/a>. <em>Earth and Planetary Science Letters<\/em>, 496, 57-67. doi: 10.1016\/j.epsl.2018.05.028.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-9\">2017<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-9\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Hunt, J.A., Zafu, A., Mather, T.A., Pyle, D.M., <strong>Barry, P.H., <\/strong>(2017) <a href=\"https:\/\/doi.org\/10.1002\/2017GC006975\">Spatially Variable CO<sub>2<\/sub> Degassing in the Main Ethiopian Rift: Implications for Magma Storage, Volatile Transport, and Rift\u2010Related Emissions<\/a>.\u00a0<em>Geochemistry, Geophysics, Geosystems<\/em>,\u00a018(10), 3714-3737. doi: 10.1002\/2017GC006975.<\/li>\n<li>Byrne, D.J.,<strong> Barry, P.H.<\/strong>, Lawson, M., Ballentine, C.J., (2017) <a href=\"https:\/\/doi.org\/10.1144\/SP468.5\">Noble gases in conventional and unconventional petroleum systems<\/a>.\u00a0Geological Society, London, Special Publications,\u00a0468, SP468-5. doi: 10.1144\/SP468.5.<\/li>\n<li><strong>Barry, P.H.<\/strong>, (2017) <a href=\"https:\/\/doi.org\/10.1038\/ngeo3001\">Deep mantle: Enriched carbon source detected<\/a>.\u00a0<em>Nature Geoscience<\/em>,\u00a010(9), 625. doi: 10.1038\/ngeo3001.<\/li>\n<li><strong>Barry, P.H.<\/strong>, Lawson, M., Meurer, D. Danabalan, Mabry, J.C., and Ballentine, C.J., (2017) <a href=\"https:\/\/doi.org\/10.1130\/G38900.1\">Determining fluid migration and isolation times in multiphase crustal domains using noble gases<\/a>, <em>Geology<\/em> 45 (9), 775-778. doi: 10.1130\/G38900.1.<\/li>\n<li>Ballentine, C.J. and <strong>Barry, P.H.<\/strong>, (2017) <a href=\"https:\/\/doi.org\/10.1007\/978-3-319-39193-9_195-1\">Noble gases<\/a>. Springer Earth Sciences Series. <em>Encyclopedia of Geochemistry<\/em>. doi: 10.1007\/978-3-319-39193-9_195-1.<\/li>\n<li>Mikhail, S., <strong>Barry, P.H.<\/strong>, and Sverjensky, D.A., (2017) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2017.04.007\">The relationship between mantle pH and the deep nitrogen cycle.<\/a> <em>Geochim. Cosmochim. Acta<\/em>, 209, 149-160. doi: 10.1016\/j.gca.2017.04.007<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-10\">2016<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-10\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.<\/strong>, Lawson, M., Meurer, W.P., Warr, O., Mabry, J.C., Byrne, D.J., and Ballentine, C.J. (2016) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2016.08.021\">Noble gases solubility models of hydrocarbon charge mechanisms in the Sleipner Vest methane field<\/a>. <em>Geochim. Cosmochim. Acta<\/em>, 194, 291-309. doi: 10.1016\/j.gca.2016.08.021.<\/li>\n<li><strong>Barry P.H.<\/strong>, and Hilton, D.R. (2016) <a href=\"https:\/\/www.geochemicalperspectivesletters.org\/article1614\">Release of subducted sedimentary nitrogen throughout Earth&#8217;s mantle<\/a>. <em>Geochemical Perspectives Letters<\/em>, 2, 138-147. doi: 10.7185\/geochemlet.1614.<\/li>\n<li>Correale, A., Rizzo, A.L., <strong>Barry, P.H.<\/strong>, Lu, J., Zheng, J. (2016) <a href=\"https:\/\/doi.org\/10.1016\/j.gr.2016.01.003\">Refertilization of lithospheric mantle beneath the Yangtze Craton, South East China: evidence from the noble gas geochemistry<\/a>. <em>Gondwana<\/em>, 38, 289-303. https:\/\/doi.org\/10.1016\/j.gr.2016.01.003.<\/li>\n<li>Halld\u00f3rsson, S.A., Hilton, D.R.,<strong> Barry, P.H.<\/strong>, F\u00fcri, E., Gr\u00f6nvold, K. (2016) <a href=\"http:\/\/10.1016\/j.gca.2015.12.021\">Recycling of Phanerozoic crustal material by the Iceland mantle plume: new evidence from nitrogen elemental and isotope systematics of subglacial basalts<\/a>. <em>Geochim. Cosmochim. Acta<\/em>, 176, 206-226. doi:10.1016\/j.gca.2015.12.021.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-11\">2015<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-11\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>F\u00fcri, E., <strong>Barry, P.H.<\/strong>, Taylor, L.A., Marty, B. (2015) <a href=\"https:\/\/doi.org\/10.1016\/j.epsl.2015.09.022\">Indigenous nitrogen in the Moon: Constraints from coupled nitrogen-noble gas analyses of mare basalts<\/a>. <em>Earth and Planetary Science Letters<\/em>, 431, 195-205. doi:10.1016\/j.epsl.2015.09.022.<\/li>\n<li>Fischer, T. P., Ramirez, C., Mora Amador, R. A., Hilton, D. R., Barnes, J. D., Sharp, Z. D., Le Brun, M., de Moor, J. M., <strong>Barry, P. H.<\/strong>, F\u00fcri, E., and Shaw, A. M. (2015) <a href=\"https:\/\/doi.org\/10.1016\/j.jvolgeores.2015.02.002\">Temporal variations in fumarole gas chemistry at Po\u00e1s volcano, Costa Rica<\/a>. <em>Journal of Volcanology and Geothermal Research<\/em>, 294, 56-70. doi:10.1016\/j.jvolgeores.2015.02.002.<\/li>\n<li>Pernet-Fisher, J.F., Howarth, G.H., Pearson D.G., <strong>Barry, P.H.<\/strong>, Woodland S., Pokhilenko N.P., Pokhilenko L.N., Agashev A.M. and Taylor, L.A. (2015) <a href=\"https:\/\/doi.org\/10.1016\/j.lithos.2015.01.010\">Plume impingement on the Siberian SCLM: Evidence from Re-Os isotope systematics<\/a>. <em>Lithos<\/em>, 218, 141-154. doi: 10.1016\/j.lithos.2015.01.010.<\/li>\n<li>Day, J. M. D., <strong>Barry, P. H.<\/strong>, Hilton, D.R., Burgess, R., Pearson D.G., and Taylor, L.A. (2015) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2015.01.008\">The helium flux from the continents and ubiquity of low-<sup>3<\/sup>He\/<sup>4<\/sup>He recycled crust and lithosphere<\/a>. <em>Geochim. Cosmochim. Acta<\/em>, 153, 116-133. doi: 10.1016\/j.gca.2015.01.008.<\/li>\n<li><strong>Barry, P. H.<\/strong>, Hilton, D. R., Day J.M.D., Pernet-Fisher, J.F., Howarth, G.H., Agashev A.M., Pokhilenko N.P., Pokhilenko L.N., and Taylor, L.A. (2015) <a href=\"https:\/\/doi.org\/10.1016\/j.lithos.2014.12.001\">Helium isotope evidence for modification of the cratonic lithosphere during the Permo-Triassic Siberian flood basalt event<\/a>. <em>Lithos<\/em>, 216-217, 73-80. doi: 10.1016\/j.lithos.2014.12.001.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-12\">2014<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-12\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Howarth, G. H., Pernet-Fisher, J. F., Balta, B. J., <strong>Barry, P. H.<\/strong>, Bondar, R. J. and Taylor, L. A. (2014)<a href=\"https:\/\/doi.org\/10.1111\/maps.12357\"> Two-stage polybaric formation of the new enriched, pyroxene-oikocrystic\/lherzolitic shergottite, NWA 7397<\/a>. <em>Meteoritics and Planetary Science<\/em>, 1-19. doi: 10.1111\/maps.12357.<\/li>\n<li>Howarth, G.H., Sobolev, N.V, Pernet-Fisher, J.F., <strong>Barry, P.H.<\/strong>, Penumadu, D., Puplampu, S., Ketcham, R.A., Maisano, J., Taylor, D., and Taylor, L.A. (2014) <a href=\"https:\/\/doi.org\/10.1080\/00206814.2014.926784\">The secondary origin of diamonds: multi-modal radiation tomography of diamondiferous mantle xenoliths<\/a>. <em>International Geology Review<\/em>, 56 (9), 1172-1180. doi: 10.1080\/00206814.2014.926784.<\/li>\n<li><strong>Barry, P.H.<\/strong>, Hilton, D.R., F\u00fcri, E., Halld\u00f3rsson, S.A., Gr\u00f6nvold, K. (2014) <a href=\"http:\/\/dx.doi.org\/10.1016\/j.gca.2014.02.038\">Carbon isotope and abundance systematics, and CO<sub>2<\/sub> fluxes from Icelandic geothermal gases, fluids and subglacial basalts<\/a>, <em>Geochim. Cosmochim. Acta<\/em>, 134, 74-99. doi: http:\/\/dx.doi.org\/10.1016\/j.gca.2014.02.038.<\/li>\n<li>Pernet-Fisher, J.F., Howarth, G.H., Lui, Y. <strong>Barry, P.H.<\/strong>, Carmody, L., Valley, J.W., Bodnar, R.J., Spetsius, Z.V., Taylor, L.A. (2014) <a href=\"https:\/\/doi.org\/10.1007\/s00410-014-0981-y\">Komsomolskaya Diamondiferous Eclogites: Evidence for Oceanic Crustal Protoliths<\/a>. <em>Contributions to Mineralogy and Petrology<\/em>, 167, 981. doi: 10.1007\/s00410-014-0981-y.<\/li>\n<li>Howarth, G.H., <strong>Barry, P.H.<\/strong>, Pernet-Fisher, J.F., Baziotis, I.P., Pokhilenko, N.P., Pokhilenko, L.N., Bodnar, R.J., Taylor, L.A. (2014) <a href=\"https:\/\/doi.org\/10.1016\/j.lithos.2013.09.006\">Superplume Metasomatism: Evidence from Siberian mantle xenoliths<\/a>, <em>Lithos<\/em>, 184-187, 209-224. doi: 10.1016\/j.lithos.2013.09.006<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-13\">2013<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-13\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Carmody, L., <strong>Barry, P.H.<\/strong>, Shervais J.W., Kluesner, J.W. Taylor, L.A. (2013) <a href=\"https:\/\/doi.org\/10.1002\/ggge.20220\">Oxygen Isotopes in Subducted Oceanic Crust: A New Perspective from Siberian Diamondiferous Eclogites<\/a>. <em>Geology, Geophysics, and Geosystems<\/em> (G-Cubed), 14. doi: 10.1002\/ggge.20220.<\/li>\n<li>Mposkos, E., Baziotis, I., Leontakianakos, G., <strong>Barry, P.H.<\/strong> (2013) <a href=\"http:\/\/dx.doi.org\/10.1016\/j.lithos.2013.06.012\">The metamorphic evolution of the high-pressure Kechros complex in East Rhodope (NE Greece): implications from Na-Al-rich leucocratic rocks within antigorite serpentinites<\/a>. <em>Lithos<\/em> 177, 17-33. doi: http:\/\/dx.doi.org\/10.1016\/j.lithos.2013.06.012.<\/li>\n<li><strong>Barry, P.H.<\/strong> and Taylor, L.A. (2013) <a href=\"https:\/\/doi.org\/10.1007\/978-94-007-6326-5_65-7\">Age of the Earth<\/a>. In: Rink W., Thompson J. (Ed.) <em>Encyclopedia of Scientific Dating Methods<\/em>. doi: 10.1007\/978-94-007-6326-5_65-7.<\/li>\n<li>de Moor, J.M., Fischer, T.P., King, P.L., Botcharnikov, R.E., Hervig, R., Hilton, D.R., <strong>Barry, P.H.<\/strong>, Mangasini, F., and Ramirez, C. (2013) <a href=\"http:\/\/dx.doi.org\/10.1016\/j.epsl.2012.11.006\">Volatile-rich silicate melts from Oldoinyo Lengai volcano (Tanzania): Implications for carbonatite genesis and eruptive behavior<\/a>. <em>Earth and Planetary Science Letters<\/em> 361, pp 379-390. doi: http:\/\/dx.doi.org\/10.1016\/j.epsl.2012.11.006.<\/li>\n<li><strong>Barry, P.H.<\/strong>, Hilton, D.R., Fischer, T.P., de Moor, J.M., Mangasini, F, Ramirez, C.J., (2013) <a href=\"https:\/\/doi.org\/10.1016\/j.chemgeo.2012.07.003\">Helium and carbon isotope systematics of cold &#8220;mazuku&#8221; CO<sub>2<\/sub> vents and hydrothermal gases and fluids from Rungwe Volcanic Province, southern Tanzania<\/a>, <em>Chemical Geology<\/em> 339, pp 141-156. doi: 10.1016\/j.chemgeo.2012.07.003.<\/li>\n<li>Karlstrom, K.E., Crossey, L.J., Hilton, D.R., and <strong>Barry, P.H.<\/strong> (2013) <a href=\"https:\/\/doi.org\/10.1130\/G34007.1\">Mantle <sup>3<\/sup>He and CO<sub>2<\/sub> degassing in carbonic and geothermal springs of Colorado and implications for neotectonics of the Rocky Mountains<\/a>, <em>Geology<\/em> 41, pp\u00a0495-498. doi: 10.1130\/G34007.1.<\/li>\n<li>Kulongoski, J.T., Hilton, D.R., <strong>Barry, P.H.<\/strong>, Esser, B., Hillegonds, D., and Belitz, K. (2013) <a href=\"http:\/\/dx.doi.org\/10.1016\/j.chemgeo.2012.09.007\">Mantle-volatile weakening of the Big Bend Section of the San Andreas Fault, California: helium and carbon-dioxide systematics<\/a>, <em>Chemical Geology<\/em> 339 pp 92-102. doi: http:\/\/dx.doi.org\/10.1016\/j.chemgeo.2012.09.007.<\/li>\n<li>de Moor, J.M., Fischer, T.P., Sharp, Z.D., Hilton, D.R., <strong>Barry, P.H.<\/strong>, Mangasini, F., and Ramirez, C. (2013) Gas chemistry and nitrogen isotope compositions of cold mantle gases from Rungwe Volcanic Province, southern Tanzania, Chemical Geology 339, pp 20-32. doi: http:\/\/dx.doi.org\/10.1016\/j.chemgeo.2012.08.004.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-14\">2012<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-14\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.<\/strong>, Hilton, D.R., Halld\u00f3rsson S. A., Hahm, D. and Marti, K. (2012) <a href=\"https:\/\/doi.org\/10.1029\/2011GC003878\">High precision nitrogen isotope measurements in oceanic basalts using a static triple collection noble gas mass spectrometry<\/a>. <em>Geology, Geophysics, and Geosystems<\/em> (G-Cubed), (Technical Briefs) 13, Number 1. doi: 10.1029\/2011GC003878, 2012.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-15\">2011<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-15\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>Hilton, D.R., Halld\u00f3rsson, S.A., <strong>Barry, P.H.<\/strong>, Fischer, T.P., de Moor, J.M., Ramirez, C.J., Mangasini, F. and Scarsi, P. (2011) <a href=\"https:\/\/doi.org\/10.1029\/2011GL049589\">Helium isotopes at Rungwe Volcanic Province, Tanzania, and the origin of East African plateaux<\/a>. <em>Geophysical Research Letters<\/em>. 38, pp 21. doi: 10.1029\/2011GL049589.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-16\">2010<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-16\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li>F\u00fcri, E., Hilton, D.R., Halld\u00f3rsson, S.A., <strong>Barry, P.H.<\/strong>, Hahm, D., Fischer, T.P. and Gr\u00f6nvold, K. (2010) <a href=\"https:\/\/doi.org\/10.1016\/j.gca.2010.03.023\">Apparent decoupling of the He and Ne isotope systematics of the Icelandic mantle: the role of He depletion, melt mixing, degassing fractionation and air interaction<\/a>. <em>Geochim. Cosmochim. Acta<\/em>. 74, pp 3307-3332. doi: http:\/\/dx.doi.org\/10.1016\/j.gca.2010.03.023.<\/li>\n<li>Hilton, D.R., Ramirez, C., Amador, R.A., Fischer, T.P., F\u00fcri, E, <strong>Barry, P.H.,<\/strong> and Shaw, A.M. (2010) <a href=\"http:\/\/dx.doi.org\/10.2343\/geochemj.1.0085\">Monitoring of temporal and spatial variations in fumarole helium and carbon dioxide characteristics at Poas and Turrialba volcanoes, Costa Rica (2001-2009)<\/a>. <em>Geochemical Journal<\/em> 44, pp 431-440. doi: http:\/\/dx.doi.org\/10.2343\/geochemj.1.0085.<\/li>\n<\/ul>\n\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--label-17\">2009<\/a>\n\t\t\t\t\t\t\t\t\t\t\t<a href=\"#\" id=\"fl-accordion--icon-17\"><i>Expand<\/i><\/a>\n\t\t\t\t\t<ul>\n<li><strong>Barry, P.H.,<\/strong> Hilton, D.R., Tryon, M.D., Brown, K.M., and Kulongoski, J.T. (2009)<a href=\"https:\/\/doi.org\/10.1029\/2009GC002422\"> A New Syringe Pump Apparatus for the Retrieval and Temporal Analysis of Helium (SPARTAH) in groundwaters and geothermal fluids<\/a>, <em>Geology, Geophysics, and Geosystems<\/em> (G-Cubed), (Technical Briefs) 10, Number 5, doi: 10.1029\/2009GC002422, 2009.<\/li>\n<\/ul>\n\t<h3>Download\u00a0full list<\/h3>\n<p><a href=\"#\"><img loading=\"lazy\" src=\"https:\/\/www2.whoi.edu\/staff\/wp-content\/uploads\/sites\/3\/2017\/03\/PDF.png\" alt=\"pdf\" width=\"38\" height=\"40\" \/><\/a><a href=\"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-content\/uploads\/sites\/210\/2024\/11\/Barry-pubs-11_2024.pdf\">Barry pubs 11_2024<\/a><\/p>\n\n","protected":false},"excerpt":{"rendered":"<p>Publications 2025 in review Collapse Taylor, M., D.S. Stamps, Eliot. Atekwana, D. Mongovin, H. Mwongyera, Estella Atekwana, S. van der Lee, A. Kabanda, A. Katumwehe, R. Evans, P. H. Barry, F. Kolawole, J.M. Kiberu, J. Nakajigo, E. A. Njinju (2025) Inclusive Field Education in East Africa. Nature Communications Sustainability. Mwongyera, H., Taylor, M., van der&hellip;<\/p>\n","protected":false},"author":206,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/pages\/27"}],"collection":[{"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/users\/206"}],"replies":[{"embeddable":true,"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/comments?post=27"}],"version-history":[{"count":3,"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/pages\/27\/revisions"}],"predecessor-version":[{"id":473,"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/pages\/27\/revisions\/473"}],"wp:attachment":[{"href":"https:\/\/www2.whoi.edu\/staff\/pbarry\/wp-json\/wp\/v2\/media?parent=27"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}