{"id":27,"date":"2017-05-18T13:30:35","date_gmt":"2017-05-18T17:30:35","guid":{"rendered":"https:\/\/www2.whoi.edu\/staff\/template-blue-prepop\/?page_id=27"},"modified":"2020-10-31T10:08:22","modified_gmt":"2020-10-31T14:08:22","slug":"publications","status":"publish","type":"page","link":"https:\/\/www2.whoi.edu\/staff\/jhuber\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n\t

Publications<\/h1>\n\t\t\t2019<\/a>\n\t\t\t\t\t\t\tCollapse<\/i><\/a>\n\t\t

Galambos, D. Anderson, R.E., Reveillaud, J., and J.A. Huber. 2019. <\/em>Genome-resolved metagenomics and metatranscriptomics reveal niche differentiation in functionally redundant microbial communities at deep-sea hydrothermal vents. Environmental Microbiology. <\/em>doi.org\/10.1111\/1462-2920.14806<\/p>\n

Trembath-Reichert, E.*, Butterfield, D.A., and J.A. Huber. 2019. Active subseafloor microbial communities from Mariana back-arc venting fluids share metabolic strategies across different thermal niches and taxa. ISME Journal.<\/em> 13:2264\u20132279.<\/p>\n

Stewart, L.C., Algar, C.K.*, Fortunato, C.S.*, Larson, B.I., Vallino, J.J., Huber, J.A., Butterfield, D.A., and J.F. Holden. 2019. Fluid geochemistry, local hydrology, and metabolic activity define methanogen community size and composition in deep-sea hydrothermal vents. ISME Journal<\/em>. 13:1711\u20131721.<\/p>\n

Huber, J.A. and C. Preston. 2019. Take to the high seas: microbiology labs below the ocean surface. Crystal Ball Article. Environmental Microbiology Reports<\/em>. 11:23\u201325. (Invited)<\/p>\n\t\t\t2018<\/a>\n\t\t\t\t\t\t\tExpand<\/i><\/a>\n\t\t

Angermeyer, A., Crosby, S. C., & Huber, J. A. (2018). Salt marsh sediment bacterial communities maintain original population structure after transplantation across a latitudinal gradient. PeerJ, 6, 21 pages. doi:10.7717\/peerj.4735.<\/p>\nWalter, S R.S., Jaekel, U., Osterholz, H., Fisher, A.T., Huber, J.A., Pearson, A., Dittman, T., Girguis, P.R. (2018).
\nMicrobial decomposition of marine dissolved organic matter in cool oceanic crust. Nature Geoscience<\/em>, 11(5), 334-339. doi:10.1038\/s41561-018-0109-5.\n

Louca, S., Polz, M.F., Mazel, F., Albright, M.B.N., Huber, J.A., O’Connor, M.I., Ackermann, M., Hahn, A.S., Srivastava, D.S., Crowe, S.A., Doebeli, M., and Parfrey, L. W. (2018). Function and functional redundancy in microbial systems.. Nature ecology & evolution<\/em>, 2(6), 936-943. doi:10.1038\/s41559-018-0519-1.<\/p>\n

Reveillaud, J., Anderson, R., Reves-Sohn, S., Cavanaugh, C., & Huber, J. A. (2018). Metagenomic investigation of vestimentiferan tubeworm endosymbionts from Mid-Cayman Rise reveals new insights into metabolism and diversity. Microbiome<\/em>, 6, 15 pages. doi:10.1186\/s40168-018-0411-x.<\/p>\n

Fortunato, C. S., Larson, B., Butterfield, D. A., & Huber, J. A. (2018). Spatially distinct, temporally stable microbial populations mediate biogeochemical cycling at and below the seafloor in hydrothermal vent fluids. Environmental Microbiology<\/em>, 20(2), 769-784. doi:10.1111\/1462-2920.14011.<\/p>\n

Tully, B. J., Wheat, C. G., Glazer, B. T., & Huber, J. A. (2018). A dynamic microbial community with high functional redundancy inhabits the cold, oxic subseafloor aquifer. ISME Journal<\/em>, 12(1), 1-16. doi:10.1038\/ismej.2017.187<\/p>\n\t\t\t2017<\/a>\n\t\t\t\t\t\t\tExpand<\/i><\/a>\n\t\t

Anderson, R.E., Reveillaud, J., Reddington, E., Delmont, T.O., Eren, A.M., Mcdermott, J.M., Seewald, J.S. and Huber, J.A.<\/strong>, 2017. Genomic variation in microbial populations inhabiting the marine subseafloor at deep-sea hydrothermal vents. Nature Communications<\/em>, 8(1): 1114, 10.1038\/s41467-017-01228-6.<\/p>\n

Mackey, K.R.M, Hunter-Cevera, K., Britten, G.L., Murphy, L.G., Sogin, M.L, and J.A. Huber<\/strong>. 2017. Seasonal succession and spatial patterns of Synechococcus<\/em> microdiversity in estuarine waters of a salt marsh revealed through 16S rRNA gene oligotyping. Frontiers in Microbiology. <\/em>8:1496. doi: 10.3389\/fmicb.2017.01496.<\/p>\n

Sylvan, J., Wankel, S.D., LaRowe, D.E., Charoenpong, C.N., Huber, J.A.<\/strong>, Moyer, C.L, and K.J. Edwards. 2017. Evidence for microbial mediation of subseafloor nitrogen redox processes at Loihi Seamount, Hawaii. Geochemical et Cosmochimica Acta.<\/em> 198: 131\u2013150. doi: http:\/\/dx.doi.org\/10.1016\/j.gca.2016.10.029<\/p>\n\t\t\t2016<\/a>\n\t\t\t\t\t\t\tExpand<\/i><\/a>\n\t\t

Fernandez-Gonzalez, N.*, Huber, J.A.<\/u><\/strong> and J.J. Vallino. 2016. Microbial communities are well adapted to disturbances in energy input. mSystems. <\/em>1(5) e00117-16; doi: 10.1128\/mSystems.00117-16.<\/p>\n

Top\u00e7uo\u011flu, B.D., Stewart, L.C., Butterfield, D.A., Huber, J.A.<\/strong>, and J.F. Holden. 2016.\u00a0 Hydrogen limitation and syntrophic growth among natural assemblages of thermophilic methanogens at deep-sea hydrothermal vents. Frontiers in Microbiology.<\/em> 7:1240. doi: 10.3389\/fmicb.2016.01240<\/p>\n

*Meyer, J.L, Jaekel, U., *Tully, B. Glazer, B.T., Wheat, C.G., H-T, Lin., C-C, Hsieh, Cowen, J.P., Hulme, S.M., Girguis, P.R., and J.A. Huber<\/u><\/strong>. 2016. A distinct and active bacterial community in cold oxygenated fluids circulating beneath Mid-Atlantic seafloor. Scientific Reports. <\/em>6:22541. doi: 10.1038\/srep22541<\/p>\n

*Fortunato, C.F. and J.A. Huber<\/strong>. 2016. Coupled RNA-SIP and metatranscriptomics of active chemolithoautotrophic communities at a deep-sea hydrothermal vent. ISME Journal.<\/em> 10:1925-1938. doi:10.1038\/ismej.2015.258<\/p>\n

*Reveillaud, J., *Reddington, E., McDermott, J., *Meyer, J.L., *Algar, C., Sylva, S., Seewald, J., German, C.G., and J.A. Huber<\/u><\/strong>. 2016. Subseafloor microbial communities in hydrogen-rich vent fluids from hydrothermal systems along the Mid-Cayman Rise. Environmental Microbiology. <\/em>8:1970\u20131987. doi: 10.1111\/1462-2920.13173<\/p>\n

*Angermeyer, A.A., Crosby, S.C. and J.A. Huber<\/strong>. 2016. Decoupled distance-decay patterns between dsrA and 16S rRNA genes among salt marsh sulfate-reducing bacteria. Environmental Microbiology<\/em>. 18:75-86.<\/p>\n\t\t\t2015 and so on<\/a>\n\t\t\t\t\t\t\tExpand<\/i><\/a>\n\t\t

text<\/p>\n\t

2020<\/h3>\n

Fincker, M., Huber, J.A., <\/strong>Orphan, V.J, Rapp\u00e9, M.S., Teske, A., and A.M. Spormann. 2020. Metabolic strategies of marine subseafloor Chloroflexi inferred from genome reconstructions. Environmental Microbiology. <\/em>https:\/\/doi.org\/10.1111\/1462-2920.15061<\/p>\n

Moulana, A., Anderson, R.*, Fortunato, C.F.* and J.A. Huber. 2020. Selection is a significant driver of gene gain and loss in the pangenome of the bacterial genus Sulfurovum<\/em> in geographically distinct deep-sea hydrothermal vents. mSystems.<\/em> 5:e00673-19.<\/p>\n

Orcutt, B.N., Bradley, J., Brazelton, W.J., Estes, E.R., Goordial, J.M., Huber, J.A., <\/strong>Jones, R.M., Mahmoudi, N., Marlow, J.J., Murdock, S. and M. Pachiadaki. 2020. Impacts of deep-sea mining on microbial ecosystem services. Limnology and Oceanography<\/em>. 65:1489-1510.<\/p>\n

2019<\/h3>\n

Galambos, D. Anderson, R.E.*, Reveillaud, J.*, and J.A. Huber<\/strong>. 2019. <\/em>Genome-resolved metagenomics and metatranscriptomics reveal niche differentiation in functionally redundant microbial communities at deep-sea hydrothermal vents. Environmental Microbiology. <\/em>21:4395-4410.<\/p>\n

Trembath-Reichert, E.*, Butterfield, D.A., and J.A. Huber<\/strong>. 2019. Active subseafloor microbial communities from Mariana back-arc venting fluids share metabolic strategies across different thermal niches and taxa. ISME Journal.<\/em> 13:2264\u20132279.<\/p>\n

Stewart, L.C., Algar, C.K.*, Fortunato, C.S.*, Larson, B.I., Vallino, J.J., Huber, J.A.<\/strong>, Butterfield, D.A., and J.F. Holden. 2019. Fluid geochemistry, local hydrology, and metabolic activity define methanogen community size and composition in deep-sea hydrothermal vents. ISME Journal<\/em>. 13:1711\u20131721.<\/p>\n

Huber, J.A.<\/strong> and C. Preston. 2019. Take to the high seas: microbiology labs below the ocean surface. Crystal Ball Article. Environmental Microbiology Reports<\/em>. 11:23\u201325. (Invited)<\/p>\n

2018<\/h3>\n

Vallino, J.J. and J.A. Huber<\/strong>. 2018. Using maximum entropy production to describe microbial biogeochemistry over time and space in a meromictic pond. Frontiers in Environmental Science.<\/em> 6:100. doi: 10.3389\/fenvs.2018.00100<\/p>\nAngermeyer, A., Crosby, S.C., & Huber, J.A.<\/strong> (2018). Salt marsh sediment bacterial communities maintain original population structure after transplantation across a latitudinal gradient. PeerJ<\/em>, 6, 21 pages.
\ndoi:10.7717\/peerj.4735.\n

Walter, S R.S., Jaekel, U., Osterholz, H., Fisher, A.T., Huber, J.A.<\/strong>, Pearson, A., Dittman, T., Girguis, P.R. (2018). Microbial decomposition of marine dissolved organic matter in cool oceanic crust. Nature Geoscience<\/em>, 11(5), 334-339. doi:10.1038\/s41561-018-0109-5.<\/p>\n

Louca, S., Polz, M.F., Mazel, F., Albright, M.B.N., Huber, J.A.<\/strong>, O’Connor, M.I., Ackermann, M., Hahn, A.S., Srivastava, D.S., Crowe, S.A., Doebeli, M., and Parfrey, L. W. (2018). Function and functional redundancy in microbial systems.. Nature ecology & evolution<\/em>, 2(6), 936-943. doi:10.1038\/s41559-018-0519-1.<\/p>\nReveillaud, J., Anderson, R., Reves-Sohn, S., Cavanaugh, C., & Huber, J.A<\/strong>. (2018). Metagenomic investigation of vestimentiferan tubeworm endosymbionts from Mid-Cayman Rise reveals new insights into
\nmetabolism and diversity. Microbiome<\/em>, 6, 15 pages. doi:10.1186\/s40168-018-0411-x.\nFortunato, C.S., Larson, B., Butterfield, D.A., & Huber, J.A.<\/strong> (2018). Spatially distinct, temporally stable microbial populations mediate biogeochemical cycling at and below the seafloor in hydrothermal vent
\nfluids. Environmental Microbiology<\/em>, 20(2), 769-784. doi:10.1111\/1462-2920.14011.\nTully, B.J., Wheat, C.G., Glazer, B.T., & Huber, J.A.<\/strong> (2018). A dynamic microbial community with high functional redundancy inhabits the cold, oxic subseafloor aquifer. ISME Journal<\/em>, 12(1), 1-16.
\ndoi:10.1038\/ismej.2017.187\n

2017<\/h3>\n

Anderson, R.E., Reveillaud, J., Reddington, E., Delmont, T.O., Eren, A.M., Mcdermott, J.M., Seewald, J.S. and Huber, J.A<\/strong>., 2017. Genomic variation in microbial populations inhabiting the marine subseafloor at deep-sea hydrothermal vents. Nature Communications<\/em>, 8(1): 1114, 10.1038\/s41467-017-01228-6.<\/p>\n

Mackey, K.R.M, Hunter-Cevera, K., Britten, G.L., Murphy, L.G., Sogin, M.L, and J.A. Huber<\/strong>. 2017. Seasonal succession and spatial patterns of Synechococcus<\/em> microdiversity in estuarine waters of a salt marsh revealed through 16S rRNA gene oligotyping. Frontiers in Microbiology. <\/em>8:1496. doi: 10.3389\/fmicb.2017.01496.<\/p>\n

Sylvan, J., Wankel, S.D., LaRowe, D.E., Charoenpong, C.N., Huber, J.A.<\/strong>, Moyer, C.L, and K.J. Edwards. 2017. Evidence for microbial mediation of subseafloor nitrogen redox processes at Loihi Seamount, Hawaii. Geochemical et Cosmochimica Acta.<\/em> 198: 131\u2013150. doi: http:\/\/dx.doi.org\/10.1016\/j.gca.2016.10.029<\/p>\n

2016<\/h3>\n

Fernandez-Gonzalez, N.*, Huber, J.A.<\/u><\/strong> and J.J. Vallino. 2016. Microbial communities are well adapted to disturbances in energy input. mSystems. <\/em>1(5) e00117-16; doi: 10.1128\/mSystems.00117-16.<\/p>\n

Top\u00e7uo\u011flu, B.D., Stewart, L.C., Butterfield, D.A., Huber, J.A.<\/strong>, and J.F. Holden. 2016.\u00a0 Hydrogen limitation and syntrophic growth among natural assemblages of thermophilic methanogens at deep-sea hydrothermal vents. Frontiers in Microbiology.<\/em> 7:1240. doi: 10.3389\/fmicb.2016.01240<\/p>\n

*Meyer, J.L, Jaekel, U., *Tully, B. Glazer, B.T., Wheat, C.G., H-T, Lin., C-C, Hsieh, Cowen, J.P., Hulme, S.M., Girguis, P.R., and J.A. Huber<\/u><\/strong>. 2016. A distinct and active bacterial community in cold oxygenated fluids circulating beneath Mid-Atlantic seafloor. Scientific Reports. <\/em>6:22541. doi: 10.1038\/srep22541<\/p>\n

*Fortunato, C.F. and J.A. Huber<\/strong>. 2016. Coupled RNA-SIP and metatranscriptomics of active chemolithoautotrophic communities at a deep-sea hydrothermal vent. ISME Journal.<\/em> 10:1925-1938. doi:10.1038\/ismej.2015.258<\/p>\n

*Reveillaud, J., *Reddington, E., McDermott, J., *Meyer, J.L., *Algar, C., Sylva, S., Seewald, J., German, C.G., and J.A. Huber<\/u><\/strong>. 2016. Subseafloor microbial communities in hydrogen-rich vent fluids from hydrothermal systems along the Mid-Cayman Rise. Environmental Microbiology. <\/em>8:1970\u20131987. doi: 10.1111\/1462-2920.13173<\/p>\n

*Angermeyer, A.A., Crosby, S.C. and J.A. Huber<\/strong>. 2016. Decoupled distance-decay patterns between dsrA and 16S rRNA genes among salt marsh sulfate-reducing bacteria. Environmental Microbiology<\/em>. 18:75-86.<\/p>\n

2014<\/h3>\n

*Meyer, J.L. and J.A. Huber<\/strong>. 2014. Strain-level genomic variation in natural populations of Lebetimonas<\/em> from an erupting deep-sea volcano. ISME Journal<\/em>. 8:867\u2013880.<\/p>\n

*Reveillaud, J., Maignien, L, Eren, M., Apprill, A., Huber, J.A<\/strong>., Sogin, M.L, and A. Vanreusel. 2014. Host-specificity among abundant and rare taxa in the sponge microbiome. ISME Journal<\/em>. 8:1198-1209.<\/p>\n

Vallino, J.J., *Algar, C.K., *Fernandez Gonzalez, N., and J.A. Huber<\/strong>. 2014. Use of receding horizon optimal control to solve MaxEP-based biogeochemistry problems. In<\/em> Dewar, R.C., Lineweaver, C., Niven, R. and Regenauer-Lieb, K., (eds), 337-359. Beyond the Second Law: Entropy Production and Non-Equilibrium Systems<\/em>. Springer, Berlin, Germany.<\/p>\n

Reed, D.C., *Algar, C.K, Huber, J.A.<\/strong> and G.J. Dick. 2014. Gene-centric approach to integrating environmental genomics and biogeochemical models. Proceedings of the National Academy of Sciences USA<\/em>. 111:1879-84.<\/p>\n

Orcutt, B. N., LaRowe, D. E., Lloyd, K. G., Mills, H., Orsi, W., Reese, B. K., Sauvage, J., Huber, J. A.<\/strong>, and Amend, J. 2014. IODP Deep Biosphere Research Workshop report \u2013 a synthesis of recent investigations, and discussion of new research questions and drilling targets. Scientific Drilling<\/em>. 17:61\u201366.<\/p>\n

2013<\/h3>\n

*Merkel, A., Huber, J.A.<\/strong>, Chernyh, N., Bonch-Osmolovskaya, E. and A. Lebedinsky. 2013. Detection of putatively thermophilic anaerobic methanotrophs (ANMEs) in diffuse hydrothermal vent fluids. Applied and Environmental Microbiology<\/em>. 79:915-923.<\/p>\n

Bennett, S.A., Coleman, M., Huber, J.A.<\/strong>, *Reddington, E., Kinsley, J.C., McIntyre, C., Seewald, J.S., and C.R. German. 2013. Trophic regions of a hydrothermal plume dispersing away from an ultramafic-hosted vent-system: Von Damm vent-site, Mid-Cayman Rise. Geochemistry Geophysics Geosystems<\/em>. 14:317-327.<\/p>\n

Ver Eecke H.C., *Akerman, N.H., Huber, J.A<\/strong>., Butterfield, D.A., and J.F. Holden. 2013. Growth kinetics and energetics of a deep-sea hyperthermophilic methanogen under varying environmental conditions. Environmental Microbiology Reports<\/em>. 5:665-671.<\/p>\n

*Meyer, J.L., *Akerman, N.H., Proskurowski, G. and J.A. Huber<\/u><\/strong>. 2013. Microbiological characterization of post-eruption \u201csnowblower\u201d vents at Axial Seamount, Juan de Fuca Ridge. Frontiers in Microbiology<\/em>. 4:153. doi: 10.3389\/fmicb.2013.00153<\/p>\n

*Akerman, N.H, Butterfield, D.A, and J.A. Huber<\/u><\/strong>. 2013. Phylogenetic diversity and functional gene patterns of sulfur-oxidizing subseafloor Epsilonproteobacteria<\/em> in diffuse hydrothermal vent fluids. Frontiers in Microbiology<\/em>. 4:185. doi: 10.3389\/fmicb.2013.00185<\/p>\n

2012<\/h3>\n

Ver Eecke, H.C., Butterfield, D.A., Huber, J.A.<\/strong>, Lilley, M.D., Olson, E.J., Roe, K.K., Evans, L.J., *Merkel, A.Y., *Cantin, H.V., and J.F. Holden. 2012. Hydrogen-limited growth of hyperthermophilic methanogens at deep-sea hydrothermal vents. Proceedings of the National Academy of Sciences USA. <\/em>109:13,674\u201313,679.<\/p>\n

Breier, J.A., Gomez-Ibanez, D., *Reddington, E., Huber, J.A.<\/strong>, and D. Emerson. 2012. A precision multi-sampler for deep-sea hydrothermal microbial mat studies. Deep-Sea<\/em> Research<\/em> Part I: Oceanographic Research Papers.<\/em>70:83-90.<\/p>\n

2011<\/h3>\n

Resing, J.A, Rubin, K.H., Embley, R.W., Lupton, J.E., Baker, E.T. Dziak, R.P., Baumberger, T., Lilley, M.D., Huber, J.A.<\/strong>, Shank, T.M., Butterfield, D.A., Clague, D.A., Keller, N.S., Merle, S.G., Buck, N.J., Michael, P.J., Soule, A. Caress, D.W., Walker, S.L. Davis, R., Cowen, J.P., Reysenbach, A-L., and H. Thomas. 2011. Active submarine eruption of boninite in the northeastern Lau Basin. Nature Geoscience<\/em>. 4:799-806.<\/p>\n

2010<\/h3>\n

German, C.R., Bowen, A., Coleman, M.L., Honig, D.L., Huber, J.A.<\/strong>, Jakuba, M.V., Kinsey, J.C., Kurz, M.D., Leroy, S., McDermott, J.M, Mercier de L\u00e9pinay, B., Nakamura, K., Seewald, J.S., *Smith, J.L., Sylva, S.P., Van Dover, C.L., Whitcomb, L.L., and D.R. Yoerger. 2010. Diverse styles of submarine venting on the ultraslow spreading Mid-Cayman Rise. Proceedings of the National Academy of Sciences USA.<\/em> 107:14,020-14,025.<\/p>\n

Schrenk M,O., Huber, J.A.<\/strong>, and K.J. Edwards. 2010. Microbial Provinces in the Subseafloor. Annual Review of Marine Science<\/em>. 2:279-304.<\/p>\n

Huber, J.A.<\/u><\/strong>, *Cantin, H.V., Huse, S.M., Mark Welch, D.B., Sogin, M.L., and D.A. Butterfield. 2010. Isolated communities of Epsilonproteobacteria<\/em> in hydrothermal vent fluids of the Mariana Arc seamounts. FEMS Microbiology Ecology. <\/em>73:538-549.<\/p>\n

2009<\/h3>\n

Huber, J.A.<\/u><\/strong>, Morrison, H.G., Huse, S.M., Neal, P.R, Sogin, M.L., and D.B. Mark Welch. 2009. Effect of PCR amplicon size on assessments of clone library microbial diversity and community structure. Environmental Microbiology.<\/em> 11:1292-1302.<\/p>\n

2008<\/h3>\n

Huber, J.A.<\/u><\/strong> and J.F. Holden. 2008. Modeling the impact of diffuse vent microorganisms along mid-ocean ridges and flanks. In<\/em> Lowell, R.P., J. S. Seewald, A. Metaxas, and M.R. Perfit (eds.), 215-231. Magma to Microbe: Modeling Hydrothermal Processes at Oceanic Spreading Ridges<\/em>. American Geophysical Union Press, Washington, D.C.<\/p>\n

Huse, S.M., Dethlefsen, L., Huber, J.A.<\/strong>, Mark Welch, D.B., Relman, D.A., and M.L. Sogin. 2008. Exploring microbial diversity and taxonomy using SSU rRNA hypervariable tag sequencing. PLoS Genetics<\/em> 4:e1000255.<\/p>\n

2007<\/h3>\n

Huber, J.A.<\/u><\/strong>, Mark Welch, D.B., Morrison, H.G., Huse, S.M., Neal, P.R., Butterfield, D.A., and M.L. Sogin. 2007. Microbial population structures in the deep marine biosphere. Science. <\/em>318:97-100.<\/p>\n

Wells, L.E, Armstrong, J.C. and J.A. Huber<\/strong>. 2007. Disciplinary aspirations and educational opportunities. In<\/em> W.T. Sullivan III and J.A. Baross (eds.), 547-557. Planets and Life:The <\/em>Emerging Science of Astrobiology<\/em>. Cambridge University Press, Cambridge, UK.<\/p>\n

Baross, J.A., Schrenk, M.O, and J.A. Huber<\/strong>. 2007. Limits of Carbon Life on Earth and Elsewhere. In<\/em> W.T. Sullivan III and J.A. Baross (eds.), 275-291. Planets and Life: The Emerging Science of Astrobiology<\/em>, Cambridge University Press, Cambridge, UK.<\/p>\n

Huse, S.M., Huber, J.A.<\/strong>, Morrison, H.G., Sogin, M.L., and D.B. Mark Welch. 2007. <\/em>Accuracy and quality of massively-parallel DNA pyrosequencing. Genome Biology<\/em>. 8: R143.<\/p>\n

2006<\/h3>\n

Huber, J.A.<\/u><\/strong>, Butterfield, D.A, and J.A. Baross. 2006. Diversity and distribution of subseafloor Thermococcales<\/em> populations in diffuse hydrothermal vents at an active deep-sea volcano in the northeast Pacific Ocean. Journal of Geophysical Research, Biogeosciences<\/em>. 111:G04016.<\/p>\n

Huber, J.A.<\/u><\/strong>, Butterfield, D.A., Johnson, H.P., and J.A. Baross. 2006. Microbial life in ridge flank crustal fluids. Environmental Microbiology.<\/em> 88:88-99.<\/p>\n

Sogin, M.L., Morrison, H.G., Huber, J.A.<\/strong>, Mark Welch, D.B., Huse, S.M., Neal, P.R., Arrieta, J.M., and G.J. Herndl. 2006. Microbial diversity in the deep sea and the under-explored \u201crare biosphere.\u201d Proceedings of the National Academy of Sciences USA.<\/em> 103:12,115-12,120.<\/p>\n

2005<\/h3>\n

Mehta, M.P., Huber, J.A.<\/strong>, and J.A. Baross. 2005. Incidence of novel and potentially archaeal nitrogenase genes in the deep NE Pacific Ocean. Environmental Microbiology<\/em>. 7:1525-1534.<\/p>\n

2004<\/h3>\n

Butterfield, D.A., Lilley, M.D., Huber, J.A<\/strong>., Roe, K.K., Embley, R.W., Baross, J.A., and G.J. Massoth. 2004. Mixing, reaction, and microbial activity in sub-seafloor hydrothermal upflow zones: Evidence from diffuse flow outcrops across the 1998 Axial Volcano Sea-floor eruption area through time. In <\/em>W.S.D. Wilcock, E.F. DeLong, D.S. Kelley, J.A.Baross, and S.C. Cary (eds.), 269-289. The Subseafloor Biosphere at Mid-Ocean Ridges<\/em>. American Geophysical Union Press, Washington, D.C.<\/p>\n

2003<\/h3>\n

Huber, J.A.<\/u><\/strong>, Butterfield, D.A., and J.A. Baross. 2003. Bacterial diversity in a subseafloor habitat following a deep-sea volcanic eruption. FEMS Microbiolology Ecology<\/em>. 43:393-409.<\/p>\n

2002<\/h3>\n

Huber, J.A.<\/u><\/strong>, Butterfield, D.A., and J.A. Baross. 2002. Temporal changes in archaeal diversity and chemistry in a mid-ocean ridge subseafloor habitat. Applied and Environmental Microbiology<\/em>. 68:1585-1594.<\/p>\n

 <\/p>\n\t

Download\u00a0full list<\/h3>\n

\"pdf\"Upload and link your PDF file<\/a><\/p>\n\t

Highlighted publications<\/h3>\n