Rich Lab:Publications: Difference between revisions
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===PUBLICATIONS=== | ===PUBLICATIONS=== | ||
Angly FE, Heath C, Morgan TC, Tonin H, Rich V, Schaffelke B, Bourne DG, Tyson GW. 2016. [http://openwetware.org/wiki/Image:Angly_2016_PeerJ_Marine_microbial_communities_of_the_Great_Barrier_Reef_lagoon_are_influenced_by_riverine_floodwaters_and_seasonal_weather_events.pdf#filelinks Marine microbial communities of the Great Barrier Reef lagoon are influenced by riverine floodwaters and seasonal weather events.] PeerJ 4:e1511; DOI 10.7717/peerj.1511 | |||
Woodcroft* BJ, Mondav* R, Kim E-H, Hodgkins SB, Crill PM, Chanton JP, VerBerkmoes N, Saleska SR, Hugenholtz P, Rich VI, Tyson GW. [http://http://www.nature.com/ncomms/2014/140214/ncomms4212/full/ncomms4212.html A novel archaeal lineage drives methane flux in thawing permafrost.] Nature Communications. 5:3212. | Hodgkins SB, Chanton JP, Langford LC, McCalley CK, Saleska SR, Rich VI, Crill PM, Cooper WT. 2015. [http://openwetware.org/wiki/Image:Hodgkins_2015_Biogeochemistry_plusSupplement.pdf Soil incubations reproduce field methane dynamics in a subarctic wetland.] Biogeochemistry. 126: 241-249. | ||
Hodgkins SB, Tfaily MM, McCalley CK, Logan T, Crill PM, Saleska SR, Rich VI, Chanton JP. 2014. [http://www.pnas.org/content/early/2014/04/02/1314641111.short Changes in peat chemistry associated with permafrost thaw increase greenhouse gas production.] Proceedings of the National Academy of Sciences, USA. doi: 10.1073/pnas.1314641111 | |||
Woodcroft* BJ, Mondav* R, Kim E-H, Hodgkins SB, Crill PM, Chanton JP, VerBerkmoes N, Saleska SR, Hugenholtz P, Rich VI, Tyson GW. 2014. [http://http://www.nature.com/ncomms/2014/140214/ncomms4212/full/ncomms4212.html A novel archaeal lineage drives methane flux in thawing permafrost.] Nature Communications. 5:3212. | |||
Revision as of 17:32, 5 January 2016
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PUBLICATIONS
Angly FE, Heath C, Morgan TC, Tonin H, Rich V, Schaffelke B, Bourne DG, Tyson GW. 2016. Marine microbial communities of the Great Barrier Reef lagoon are influenced by riverine floodwaters and seasonal weather events. PeerJ 4:e1511; DOI 10.7717/peerj.1511
Hodgkins SB, Chanton JP, Langford LC, McCalley CK, Saleska SR, Rich VI, Crill PM, Cooper WT. 2015. Soil incubations reproduce field methane dynamics in a subarctic wetland. Biogeochemistry. 126: 241-249.
Hodgkins SB, Tfaily MM, McCalley CK, Logan T, Crill PM, Saleska SR, Rich VI, Chanton JP. 2014. Changes in peat chemistry associated with permafrost thaw increase greenhouse gas production. Proceedings of the National Academy of Sciences, USA. doi: 10.1073/pnas.1314641111
Woodcroft* BJ, Mondav* R, Kim E-H, Hodgkins SB, Crill PM, Chanton JP, VerBerkmoes N, Saleska SR, Hugenholtz P, Rich VI, Tyson GW. 2014. A novel archaeal lineage drives methane flux in thawing permafrost. Nature Communications. 5:3212.
Rich, V, Pham V, Eppley J, Shi Y, DeLong EF. 2011. Time-series analyses of Monterey Bay coastal microbial picoplankton using a ‘genome proxy’ microarray. Environmental Microbiology. 13: 116-134.
Rich, V, Konstantinidis K, DeLong EF. 2008. Design and testing of “genome proxy” microarrays to profile marine microbial communities. Environmental Microbiology, 10: 506-521.
• Faculty of 1000 “Must Read” paper, 4 Feb 2008.
DeLong EF, Preston CM, Mincer T, Rich V, Hallam SJ, Frigaard NU, Martinez A, Sullivan MB, Edwards R, Brito BR, Chisholm SW, Karl DM. 2006. Community genomics among stratified microbial assemblages in the ocean's interior. Science. 311:496-503.
• Faculty of 1000 “Recommended” paper, 17 Feb 2006
Horz, H-P, Rich V, Avrahami S, and Bohannan BJ. 2005. Methane-oxidizing bacteria in a California upland grassland soil: diversity and response to simulated global change. Applied and Environmental Microbiology. 71(5): 2642-2652.
PUBLICATIONS – IN REVIEW / SUBMITTED
McCalley CK, Woodcroft BJ, Hodgkins SB, Mondav R, Chanton JP, Crill PM, Kim E-H, Wehr RA, Tyson GW, Rich VI, Saleska SR. Changes in microbial community composition track shifts in the isotopic composition of emitted methane under permafrost thaw. Submitted.
