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Items: 13

1.

The Potential Impact of Hydrocarbons on Mussels in Port au Port Bay, Newfoundland.

Cook MC, May A, Kohl L, Van Biesen G, Parrish CC, Morrill PL.

Adv Mar Biol. 2018;81:1-22. doi: 10.1016/bs.amb.2018.09.003. Epub 2018 Oct 15.

PMID:
30471654
2.

Unusual metabolic diversity of hyperalkaliphilic microbial communities associated with subterranean serpentinization at The Cedars.

Suzuki S, Ishii S, Hoshino T, Rietze A, Tenney A, Morrill PL, Inagaki F, Kuenen JG, Nealson KH.

ISME J. 2017 Nov;11(11):2584-2598. doi: 10.1038/ismej.2017.111. Epub 2017 Jul 21.

3.

Phospholipid fatty acid (PLFA) analysis for profiling microbial communities in offshore produced water.

Fan F, Zhang B, Morrill PL.

Mar Pollut Bull. 2017 Sep 15;122(1-2):194-206. doi: 10.1016/j.marpolbul.2017.06.044. Epub 2017 Jun 24.

PMID:
28655458
4.

Methane cycling. Nonequilibrium clumped isotope signals in microbial methane.

Wang DT, Gruen DS, Lollar BS, Hinrichs KU, Stewart LC, Holden JF, Hristov AN, Pohlman JW, Morrill PL, K├Ânneke M, Delwiche KB, Reeves EP, Sutcliffe CN, Ritter DJ, Seewald JS, McIntosh JC, Hemond HF, Kubo MD, Cardace D, Hoehler TM, Ono S.

Science. 2015 Apr 24;348(6233):428-31. doi: 10.1126/science.aaa4326. Epub 2015 Mar 5.

5.

Investigations of potential microbial methanogenic and carbon monoxide utilization pathways in ultra-basic reducing springs associated with present-day continental serpentinization: the Tablelands, NL, CAN.

Morrill PL, Brazelton WJ, Kohl L, Rietze A, Miles SM, Kavanagh H, Schrenk MO, Ziegler SE, Lang SQ.

Front Microbiol. 2014 Nov 13;5:613. doi: 10.3389/fmicb.2014.00613. eCollection 2014.

6.

Physiological and genomic features of highly alkaliphilic hydrogen-utilizing Betaproteobacteria from a continental serpentinizing site.

Suzuki S, Kuenen JG, Schipper K, van der Velde S, Ishii S, Wu A, Sorokin DY, Tenney A, Meng X, Morrill PL, Kamagata Y, Muyzer G, Nealson KH.

Nat Commun. 2014 May 21;5:3900. doi: 10.1038/ncomms4900.

7.

Bacterial communities associated with subsurface geochemical processes in continental serpentinite springs.

Brazelton WJ, Morrill PL, Szponar N, Schrenk MO.

Appl Environ Microbiol. 2013 Jul;79(13):3906-16. doi: 10.1128/AEM.00330-13. Epub 2013 Apr 12.

8.

Variations in expression of carbon isotope fractionation of chlorinated ethenes during biologically enhanced PCE dissolution close to a source zone.

Morrill PL, Sleep BE, Seepersad DJ, McMaster ML, Hood ED, LeBron C, Major DW, Edwards EA, Lollar BS.

J Contam Hydrol. 2009 Nov 3;110(1-2):60-71. doi: 10.1016/j.jconhyd.2009.08.006. Epub 2009 Sep 11.

PMID:
19818530
9.
10.

Biological enhancement of tetrachloroethene dissolution and associated microbial community changes.

Sleep BE, Seepersad DJ, Kaiguo MO, Heidorn CM, Hrapovic L, Morrill PL, McMaster ML, Hood ED, Lebron C, Lollar BS, Major DW, Edwards EA.

Environ Sci Technol. 2006 Jun 1;40(11):3623-33.

PMID:
16786703
11.

Stable isotope evidence for biodegradation of chlorinated ethenes at a fractured bedrock site.

Chartrand MM, Morrill PL, Lacrampe-Couloume G, Lollar BS.

Environ Sci Technol. 2005 Jul 1;39(13):4848-56.

PMID:
16053083
12.

Quantifying chlorinated ethene degradation during reductive dechlorination at Kelly AFB using stable carbon isotopes.

Morrill PL, Lacrampe-Couloume G, Slater GF, Sleep BE, Edwards EA, McMaster ML, Major DW, Sherwood Lollar B.

J Contam Hydrol. 2005 Feb;76(3-4):279-93. Epub 2005 Jan 12.

PMID:
15683884
13.

Dynamic headspace: a single-step extraction for isotopic analysis of microg/L concentrations of dissolved chlorinated ethenes.

Morrill PL, Lacrampe-Couloume G, Lollar BS.

Rapid Commun Mass Spectrom. 2004;18(6):595-600.

PMID:
15052568

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