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151. Influence of ammonia oxidation rate on thaumarchaeal lipid composition and the TEX86 temperature proxy.

Author

Hurley, Sarah J., Elling, Felix J., Könneke, Martin, Buchwald, Carolyn, Wankel, Scott D., Santoro, Alyson E., Lipp, Julius Sebastian, Hinrichs, Kai-Uwe, and Pearson, Ann

Subjects
AMMONIA, OXIDATION, MEMBRANE lipids, OCEAN temperature, NITRIFICATION
Abstract

Archaeal membrane lipids known as glycerol dibiphytanyl glycerol tetraethers (GDGTs) are the basis of the TEX86 paleotemperature proxy. Because GDGTs preserved in marine sediments are thought to originate mainly from planktonic, ammonia-oxidizing Thaumarchaeota, the basis of the correlation between TEX86 and sea surface temperature (SST) remains unresolved: How does TEX86 predict surface temperatures, when maximum thaumarchaeal activity occurs below the surface mixed layer and TEX86 does not covary with in situ growth temperatures? Here we used isothermal studies of the model thaumarchaeon Nitrosopumilus maritimus SCM1 to investigate how GDGT composition changes in response to ammonia oxidation rate.We used continuous culture methods to avoid potential confounding variables that can be associated with experiments in batch cultures. The results show that the ring index scales inversely (R2 = 0.82) with ammonia oxidation rate (ϕ), indicating that GDGT cyclization depends on available reducing power. Correspondingly, the TEX86 ratio decreases by an equivalent of 5.4 °C of calculated temperature over a 5.5 fmol.cell-1.d-1 increase in ϕ. This finding reconciles other recent experiments that have identified growth stage and oxygen availability as variables affecting TEX86. Depth profiles from the marine water column show minimum TEX86 values at the depth of maximum nitrification rates, consistent with our chemostat results. Our findings suggest that the TEX86 signal exported from the water column is influenced by the dynamics of ammonia oxidation. Thus, the global TEX86-SST calibration potentially represents a composite of regional correlations based on nutrient dynamics and global correlations based on archaeal community composition and temperature. [ABSTRACT FROM AUTHOR]

Published
2016
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159. Corrigendum to “Randomised phase II trial of hyperbaric oxygen therapy in patients with chronic arm lymphoedema after radiotherapy for cancer” [Radiother Oncol 97 (2010) 101–107]

Author

Gothard, Lone, primary, Haviland, Joanne, additional, Bryson, Phil, additional, Laden, Gerard, additional, Glover, Mark, additional, Harrison, Steven, additional, Woods, Mary, additional, Cook, Gary, additional, Peckitt, Clare, additional, Pearson, Ann, additional, Somaiah, Navita, additional, Stanton, Anthony, additional, Mortimer, Peter, additional, and Yarnold, John, additional

Published
2011
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164. An interlaboratory study of TEX86and BIT analysis using high-performance liquid chromatography-mass spectrometry

Author

Schouten, Stefan, primary, Hopmans, Ellen C., additional, van der Meer, Jaap, additional, Mets, Anchelique, additional, Bard, Edouard, additional, Bianchi, Thomas S., additional, Diefendorf, Aaron, additional, Escala, Marina, additional, Freeman, Katharine H., additional, Furukawa, Yoshihiro, additional, Huguet, Carme, additional, Ingalls, Anitra, additional, Ménot-Combes, Guillemette, additional, Nederbragt, Alexandra J., additional, Oba, Masahiro, additional, Pearson, Ann, additional, Pearson, Emma J., additional, Rosell-Melé, Antoni, additional, Schaeffer, Philippe, additional, Shah, Sunita R., additional, Shanahan, Timothy M., additional, Smith, Richard W., additional, Smittenberg, Rienk, additional, Talbot, Helen M., additional, Uchida, Masao, additional, Van Mooy, Benjamin A. S., additional, Yamamoto, Masanobu, additional, Zhang, Zhaohui, additional, and Sinninghe Damsté, Jaap S., additional

Published
2009
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172. Biogeochemical Applications of Compound-Specific Radiocarbon Analysis

Author

WOODS HOLE OCEANOGRAPHIC INSTITUTION MA DEPT OF APPLIED OCEAN PHYSICS AND ENGINEERING, Pearson, Ann, WOODS HOLE OCEANOGRAPHIC INSTITUTION MA DEPT OF APPLIED OCEAN PHYSICS AND ENGINEERING, and Pearson, Ann

Abstract

Compound-specific carbon isotopic (delta 13C and delta 14C) data are reported for lipid biomarkers isolated from Santa Monica Basin (SMB) and Santa Barbara Basin (SBB) surface sediments. These organic compounds represent phytoplanktonic, zooplanktonic, bacterial, archaeal, terrestrial, and fossil carbon sources. The lipids include long-chain n-alkanes, fatty acids (as FAMEs), n-alcohols, C(30) mid-chain ketols and diols, sterols, hopanols, and ether-linked C(40)-biphytanes of Archaca. The data show that the carbon source for most of the biomarkers is marine euphotic zone primary production or subsequent heterotrophic consumption of this biomass. Two lipid classes represent exceptions to this finding. Delta 14C values for the n-alkanes are consistent with mixed fossil and contemporary terrestrial plant sources. The archaeal isoprenoid data reflect chemoautotrophic growth below the euphotic zone. The biomarker class most clearly representing marine phytoplanktonic production is the sterols. It is suggested, therefore, that the sterols could serve as paleoceanographic tracers for surface-water DIC. The isotopic data are used to construct two algebraic models. The first calculates the contributions of fossil and modern vascular plant carbon to SMB n-alkanes. This model indicates that the delta 14C of the modern component is +235% (post-bomb) or 0% (pre-bomb). The second model uses these values to determine the origin of sedimentary TOC. The results are comparable to estimates based on other approaches and suggest that approx. 60% of SMB TOC is of marine origin, modern terrestrial and fossil sources contribute approx. 10% each, and the remaining approx. 20% is of unknown origin., Sponsored in part by National Science Foundation grant no. OCE-9708478, OCE-9301015, OCE-9807266 and National Institute of Standards and Technology grant no. 43ANB615740. Prepared in cooperation with the Massachusetts Institute of Technology, Cambridge, MA.

Published
2000

180. Re/Visioning : Ann Pearson

Author

Pearson, Ann and Pearson, Ann

Abstract

"I want my images to emphasize the individuality of each person's response to his or her environment. Each of our 'realities' is a construction based on cultural expectations, visual habits and memory -- as much as on how the eye and brain respond to a number of purely physiological stimuli." -- p. [2].

Published
1998

181. Hopanoid-free Methylobacterium extorquens DM4 overproduces carotenoids and has widespread growth impairment

Author

Bradley, Alexander S., Swanson, Paige K., Muller, Emilie E. L., Bringel, Françoise, Caroll, Sean M., Pearson, Ann, Vuilleumier, Stéphane, and Marx, Christopher J.

Subjects
Biology and Life Sciences, Genetics, Mutation, Mutant Strains, Biochemistry, Lipids, Fatty Acids, Physical Sciences, Chemistry, Chemical Compounds, Organic Compounds, Formaldehyde, Organic Chemistry, Enzymology, Enzymes, Cellulases, Proteins, Organisms, Bacteria, Methylobacterium, Materials Science, Materials by Attribute, Pigments, Organic Pigments, Carotenoids, Molecular Biology, Macromolecular Structure Analysis, Lipid Analysis
Abstract

Hopanoids are sterol-like membrane lipids widely used as geochemical proxies for bacteria. Currently, the physiological role of hopanoids is not well understood, and this represents one of the major limitations in interpreting the significance of their presence in ancient or contemporary sediments. Previous analyses of mutants lacking hopanoids in a range of bacteria have revealed a range of phenotypes under normal growth conditions, but with most having at least an increased sensitivity to toxins and osmotic stress. We employed hopanoid-free strains of Methylobacterium extorquens DM4, uncovering severe growth defects relative to the wild-type under many tested conditions, including normal growth conditions without additional stressors. Mutants overproduce carotenoids–the other major isoprenoid product of this strain–and show an altered fatty acid profile, pronounced flocculation in liquid media, and lower growth yields than for the wild-type strain. The flocculation phenotype can be mitigated by addition of cellulase to the medium, suggesting a link between the function of hopanoids and the secretion of cellulose in M. extorquens DM4. On solid media, colonies of the hopanoid-free mutant strain were smaller than wild-type, and were more sensitive to osmotic or pH stress, as well as to a variety of toxins. The results for M. extorquens DM4 are consistent with the hypothesis that hopanoids are important for membrane fluidity and lipid packing, but also indicate that the specific physiological processes that require hopanoids vary across bacterial lineages. Our work provides further support to emerging observations that the role of hopanoids in membrane robustness and barrier function may be important across lineages, possibly mediated through an interaction with lipid A in the outer membrane.

Published
2017
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184. Nitrifying Microorganisms Linked to Biotransformation of Perfluoroalkyl Sulfonamido Precursors from Legacy Aqueous Film-Forming Foams

Author

Ruyle, Bridger J., Schultes, Lara, Akob, Denise M., Harris, Cassandra R., Lorah, Michelle M., Vojta, Simon, Becanova, Jitka, McCann, Shelley, Pickard, Heidi M., Pearson, Ann, Lohmann, Rainer, Vecitis, Chad D., and Sunderland, Elsie M.

Abstract

Drinking water supplies across the United States have been contaminated by firefighting and fire-training activities that use aqueous film-forming foams (AFFF) containing per- and polyfluoroalkyl substances (PFAS). Much of the AFFF is manufactured using electrochemical fluorination by 3M. Precursors with six perfluorinated carbons (C6) and non-fluorinated amine substituents make up approximately one-third of the PFAS in 3M AFFF. C6 precursors can be transformed through nitrification (microbial oxidation) of amine moieties into perfluorohexane sulfonate (PFHxS), a compound of regulatory concern. Here, we report biotransformation of the most abundant C6 sulfonamido precursors in 3M AFFF with available commercial standards (FHxSA, PFHxSAm, and PFHxSAmS) in microcosms representative of the groundwater/surface water boundary. Results show rapid (<1 day) biosorption to living cells by precursors but slow biotransformation into PFHxS (1–100 pM day–1). The transformation pathway includes one or two nitrification steps and is supported by the detection of key intermediates using high-resolution mass spectrometry. Increasing nitrate concentrations and total abundance of nitrifying taxa occur in parallel with precursor biotransformation. Together, these data provide multiple lines of evidence supporting microbially limited biotransformation of C6 sulfonamido precursors involving ammonia-oxidizing archaea (Nitrososphaeria) and nitrite-oxidizing bacteria (Nitrospina). Further elucidation of interrelationships between precursor biotransformation and nitrogen cycling in ecosystems would help inform site remediation efforts.

Published
2023
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189. An interlaboratory study of TEX86 and BIT analysis of sediments, extracts, and standard mixtures.

Author

Schouten, Stefan, Hopmans, Ellen C., Rosell-Melé, Antoni, Pearson, Ann, Adam, Pierre, Bauersachs, Thorsten, Bard, Edouard, Bernasconi, Stefano M., Bianchi, Thomas S., Brocks, Jochen J., Carlson, Laura Truxal, Castañeda, Isla S., Derenne, Sylvie, Selver, Ayça Doğrul, Dutta, Koushik, Eglinton, Timothy, Fosse, Celine, Galy, Valier, Grice, Kliti, and Hinrichs, Kai-Uwe

Published
2013
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192. Word power

Author

Pearson, Ann

Subjects
Oxford English Dictionary (Reference work) -- Public opinion, Vocabulary -- Personal narratives, Encyclopedias and dictionaries -- Usage
Published
1990

197. Export of submicron particulate organic matter to mesopelagic depth in an oligotrophic gyre.

Author

Close, Hilary G., Shah, Sunita R., Ingalls, Anitha E., Diefendorf, Aaron F., Brodie, Eoin L., Hsansman, Robert L., Freeman, Katherine H., Aluwihare, Lihini L., and Pearson, Ann

Subjects
ORGANIC compounds, CYANOBACTERIA, CARBON cycle, CARBON isotopes, OCEANOGRAPHY
Abstract

Sixty percent of the world ocean by area is contained in oligotrophic gyres [Longhurst A (1995) Prog Oceanog 36:77-16], the biomass of which is dominated by picophytoplankton, including cyanobacteria and picoeukaryotic algae, as well as picoheterotrophs. Despite their recognized importance in carbon cycling in the surface ocean, the role of small cells and their detrital remains in the transfer of particulate organic matter (POM) to the deep ocean remains disputed. Because oligotrophic marine conditions are projected to expand under current climate trends, a better understanding of the role of small particles in the global carbon cycle is a timely goal. Here we use the lipid profiles, radiocarbon, and stable carbon isotopic signatures of lipids from the North Pacific Subtropical Gyre to show that in the surface ocean, lipids from submicron POM (here called extrasmall POM) are distinct from larger classes of suspended POM. Remarkably, this distinct extrasmall POM signature dominates the total lipids collected at mesopelagic depth, suggesting that the lipid component of mesopelagic POM primarily contains the exported remains of small particles. Transfer of submicron material to mesopelagic depths in this location is consistent with model results that claim the biological origin of exported carbon should be proportional to the distribution of cell types in the surface community, irrespective of cell size [Richardson IL, Jackson GA (2007) Science 315:838-8401. Our data suggest that the submicron component of exported POM is an important contributor to the global biological pump, especially in oligotrophic waters. [ABSTRACT FROM AUTHOR]

Published
2013
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199. Dominant eukaryotic export production during ocean anoxic events reflects the importance of recycled NH4+.

Author

Higgins, Meytal B., Robinson, Rebecca S., Husson, Jonathan M., Carter, Susan J., and Pearson, Ann

Subjects
EUKARYOTIC cells, ANOXIC zones, NITROGEN isotopes, PORPHYRINS, BIOMARKERS
Abstract

The Mesozoic is marked by several widespread occurrences of intense organic matter burial. Sediments from the largest of these events, the Cenomanian-Turonian Oceanic Anoxic Event (OAE 2) are characterized by lower nitrogen isotope ratios than are seen in modern marine settings. It has remained a challenge to describe a nitrogen cycle that could achieve such isotopic depletion. Here we use nitrogen-isotope ratios of porphyrins to show that eukaryotes contributed the quantitative majority of export production throughout OAE 2. whereas cyanobacteria contributed on average approximately 20%. Such data require that any explanation for the OAE nitrogen cycle and its isotopic values be consistent with a eukaryote-dominated ecosystem. Our results agree with models that suggest the OAEs were high-productivity events, supported by vigorous upwelling. Upwelling of anoxic deep waters would have supplied reduced N species (i.e.. NH4+) to primary producers. We propose that new production during OAE 2 primarily was driven by direct NH4+-assimilation supplemented by diazotrophy, whereas chemocline denitrification and anammox quantitatively consumed NO3 -and NO2-. A marine nitrogen reservoir dominated by NH4+, in combination with known kinetic isotope effects, could lead to eukaryotic biomass depleted in 15N. [ABSTRACT FROM AUTHOR]

Published
2012
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200. Community genomic analysis of an extremely acidophilic sulfur-oxidizing biofilm.

Author

Jones, Daniel S, Albrecht, Heidi L, Dawson, Katherine S, Schaperdoth, Irene, Freeman, Katherine H, Pi, Yundan, Pearson, Ann, and Macalady, Jennifer L

Subjects
BIOFILMS, ACIDOPHILIC bacteria, HYDROGEN sulfide, OXIDIZING agents, PROTEOBACTERIA, BIOGEOCHEMISTRY, BACTERIAL genomes, BACTERIAL RNA
Abstract

Highly acidic (pH 0-1) biofilms, known as 'snottites', form on the walls and ceilings of hydrogen sulfide-rich caves. We investigated the population structure, physiology and biogeochemistry of these biofilms using metagenomics, rRNA methods and lipid geochemistry. Snottites from the Frasassi cave system (Italy) are dominated (>70% of cells) by Acidithiobacillus thiooxidans, with smaller populations including an archaeon in the uncultivated 'G-plasma' clade of Thermoplasmatales (>15%) and a bacterium in the Acidimicrobiaceae family (>5%). Based on metagenomic evidence, the Acidithiobacillus population is autotrophic (ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO), carboxysomes) and oxidizes sulfur by the sulfide-quinone reductase and sox pathways. No reads matching nitrogen fixation genes were detected in the metagenome, whereas multiple matches to nitrogen assimilation functions are present, consistent with geochemical evidence, that fixed nitrogen is available in the snottite environment to support autotrophic growth. Evidence for adaptations to extreme acidity include Acidithiobacillus sequences for cation transporters and hopanoid synthesis, and direct measurements of hopanoid membrane lipids. Based on combined metagenomic, molecular and geochemical evidence, we suggest that Acidithiobacillus is the snottite architect and main primary producer, and that snottite morphology and distributions in the cave environment are directly related to the supply of C, N and energy substrates from the cave atmosphere. [ABSTRACT FROM AUTHOR]

Published
2012
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