Your search keyword '"Volkman, JK"' showing total 32 results

1. Contaminants in the Derwent Estuary - 20 Years On

Author

Hydrology and Water Resources Symposium (23rd : 1996 : Hobart, Tas.), Butler, EC V, Green, G, Higgins, HW, Holdsworth, DG, Leeming, R, Mackey, DJ, Morgan, PR, Nichols, PD, O'Sullivan, JE, Plaschke, RB, Revill, AT, Volkman, JK, and Watson, RJ

Published

1996

2. The Royal Society of Tasmania commemorates 175 years of service to Tasmania

Author

Volkman, JK, primary

Published

2019

3. Niche Differentiation of Ammonia-Oxidising Archaea (AOA) and Bacteria (AOB) in Response to Paper and Pulp Mill Effluent

Author

Abell, GCJ, Ross, DJ, Keane, J, Holmes, BH, Robert, SS, Keough, MJ, Eyre, BD, Volkman, JK, Abell, GCJ, Ross, DJ, Keane, J, Holmes, BH, Robert, SS, Keough, MJ, Eyre, BD, and Volkman, JK

Abstract

Sediment organic loading has been shown to affect estuarine nitrification and denitrification, resulting in changes to sediment biogeochemistry and nutrient fluxes detrimental to estuarine health. This study examined the effects of organic loading on nutrient fluxes and microbial communities in sediments receiving effluent from a paper and pulp mill (PPM) by applying microcosm studies and molecular microbial ecology techniques. Three sites near the PPM outfall were compared to three control sites, one upstream and two downstream of the outfall. The control sites showed coupled nitrification-denitrification with minimal ammonia release from the sediment. In contrast, the impacted sites were characterised by nitrate uptake and substantial ammonia efflux from the sediments, consistent with a decoupling of nitrification and denitrification. Analysis of gene diversity demonstrated that the composition of nitrifier communities was not significantly different at the impacted sites compared to the control sites; however, analysis of gene abundance indicated that whilst there was no difference in total bacteria, total archaea or ammonia-oxidising archaea (AOA) abundance between the control and impacted sites, there was a significant reduction in ammonia-oxidising bacteria (AOB) at the impacted sites. The results of this study demonstrate an effect of organic loading on estuarine sediment biogeochemistry and highlight an apparent niche differentiation between AOA and AOB.

Published

2014

4. Nitrifying and denitrifying microbial communities and their relationship to nutrient fluxes and sediment geochemistry in the Derwent Estuary, Tasmania

Author

Abell, GCJ, primary, Ross, DJ, additional, Keane, JP, additional, Oakes, JM, additional, Eyre, BD, additional, Robert, SS, additional, and Volkman, JK, additional

Published

2013

5. Carbon and nitrogen cycling on intertidal mudflats of a temperate Australian estuary. III. Sources of organic matter

Author

Cook, PLM, primary, Revill, AT, additional, Clementson, LA, additional, and Volkman, JK, additional

Published

2004

6. Squalene content and neutral lipis composition of Livers from Deep-sea sharks caught in Tasmanian waters

Author

Deprez, PP, primary, Volkman, JK, additional, and Davenport, SR, additional

Published

1990

7. High incorporation of esential fatty acids by the Rotifer Brachionus plicatilis fed on the Prymnesiophyte Alga Pavlova lutheri

Author

Nichols, PD, Holdsworth, DG, Volkman, JK, Daintith, M, and Allanson, S

Abstract

The lipid and fatty acid compositions of rotifers (Brachionus plicatilis) fed on yeast or on the unicellular prymnesiophyte Pavlova lutheri, an alga commonly used in Australian hatcheries, were compared by TLC-FID, GC and GC-MS. Significantly higher relative proportions of energy-rich triacylglycerol were present in the Pavlova-fed rotifers than in the yeast-fed animals, and total lipid content reached a maximum between 12 and 24 h. High incorporation of the essential fatty acids eicosapentaenoic acid (EPA; 20: 5ω3) and docosahexaenoic acid (DHA; 22:6ω3) occurred in the Pavlova-fed rotifers. EPA and DHA content was 11.6% of total fatty acids after 3 h of feeding and reached 20 and 23% after 24 and 48 h respectively. The proportion of essential fatty acids in rotifers fed Pavlova compares very favourably with data obtained by overseas workers using a variety of microalgae and dietary supplements. On the basis of fatty acid composition alone, these results confirm the suitability of P. lutheri as a feedstock for Australian mariculture operations.

Published

1989

8. Occurrence of cis-6-hexadecenoic acid and other unusual monounsaturated fatty-acids in the lipids of oceanic particulate matter

Author

Nichols, Pd, Volkman, Jk, and Everitt, Da

Published

1989

9. Investigation of the presence of an aliphatic biopolymer in cyanobacteria: Implications for kerogen formation

Author

Patrick Biller, Andrew B. Ross, Stephen C. Skill, and Volkman, JK

Subjects

Cyanobacteria, food.ingredient, biology, Kerogen, Chlorogloeopsis, engineering.material, Algaenan, biology.organism_classification, Hydrolysis, chemistry.chemical_compound, food, chemistry, 13. Climate action, Geochemistry and Petrology, Microalgae, engineering, Organic chemistry, Biopolymer, Desiccation, Macromolecule

Abstract

Algaenan has been suggested to be one of the main precursors of certain kerogens. It is a non-hydrolysable and insoluble biomolecule of high molecular weight. It has been found in a limited number of microalgae species. There is considerable uncertainty about its formation and preservation, as well as its role in kerogen formation and the implications for the global C cycle. We tested whether the cyanobacterium Chlorogloeopsis fritschii can synthesise a biomacromolecule similar to algaenan with potential to contribute to kerogen via selective preservation. Two freshwater green microalgae, Pseudochoricystis ellipsoidea and Scenedesmus obliquus, as well as C. fritschii, were subjected to harsh solvent extraction and hydrolysis steps to obtain an insoluble and non-hydrolysable macromolecule. The residues from all three species were analysed using pyrolysis–gas chromatography–mass spectrometry and solid-state nuclear magnetic resonance spectroscopy. The analysis revealed that C. fritschii indeed contains a resistant biomacromolecule exhibiting the characteristic aliphatic structure of algaenan, similar to the algaenan residues from the two microalgae. Due to the robust nature of Chlorogloeopsis compared with eukaryotes, it can prevail in extreme environmental conditions such as freezing, thawing, desiccation and overheating – conditions prevalent on the primeval earth. The presence of a resistant aliphatic biopolymer in Chlorogloeopsis suggests that cyanobacteria could have contributed to kerogen via selective preservation.

Published

2015

10. Widespread Sterol Methyltransferase Participates in the Biosynthesis of Both C4α- and C4β-Methyl Sterols.

Author

Zhou W, Zhang X, Wang A, Yang L, Gan Q, Yi L, Summons RE, Volkman JK, and Lu Y

Subjects

Eukaryota metabolism, Eukaryotic Cells metabolism, Oxidoreductases, Methyltransferases metabolism, Sterols

Abstract

The 4-methyl steranes serve as molecular fossils and are used for studying both eukaryotic evolution and geological history. The occurrence of 4α-methyl steranes in sediments has long been considered evidence of products of partial demethylation mediated by sterol methyl oxidases (SMOs), while 4β-methyl steranes are attributed entirely to diagenetic generation from 4α-methyl steroids since possible biological sources of their precursor 4β-methyl sterols are unknown. Here, we report a previously unknown C4-methyl sterol biosynthetic pathway involving a sterol methyltransferase rather than the SMOs. We show that both C4α- and C4β-methyl sterols are end products of the sterol biosynthetic pathway in an endosymbiont of reef corals, Breviolum minutum, while this mechanism exists not only in dinoflagellates but also in eukaryotes from alveolates, haptophytes, and aschelminthes. Our discovery provides a previously untapped route for the generation of C4-methyl steranes and overturns the paradigm that all 4β-methyl steranes are diagenetically generated from the 4α isomers. This may facilitate the interpretation of molecular fossils and understanding of the evolution of eukaryotic life in general.

Published

2022

11. Ambrein: a minor, but common constituent of mammalian faeces?

Author

Rowland SJ, Sutton PA, von der Lühe B, Volkman JK, Vane CH, Ingram SN, Dunn C, and Claridge D

Subjects

Animals, Cattle, Feces, Mammals, Naphthols, Ambergris, Triterpenes

Abstract

For nearly 200 years, the only natural source of the alcohol ambrein has been coproliths produced in about 1% of sperm whales and in related jetsam. However, the finding of ambrein in adipocere/faeces of human corpses, led us to hypothesise that ambrein might occur in the faeces of other mammals. Herein, we used a recently developed gas chromatography-mass spectrometry method, with suitable derivatisation of the hindered hydroxy group of ambrein, to screen a number of extracts of mammalian faeces. Minor proportions of ambrein were detected in digested human sewage sludge and in the dung of elephant, domestic cattle, giraffe and buffalo. Whether ambrein formation in the terrestrial species is associated with coprolith formation, is unknown, but solid deposits known as enteroliths and fecaliths occur in humans and some domestic animals.

Published

2021

12. Algal origin of sponge sterane biomarkers negates the oldest evidence for animals in the rock record.

Author

Bobrovskiy I, Hope JM, Nettersheim BJ, Volkman JK, Hallmann C, and Brocks JJ

Subjects

Animals, Biomarkers, Eukaryota, Fossils, Sterols

Abstract

The earliest fossils of animal-like organisms occur in Ediacaran rocks that are approximately 571 million years old. Yet 24-isopropylcholestanes and other C 30 fossil sterol molecules have been suggested to reflect an important ecological role of demosponges as the first abundant animals by the end of the Cryogenian period (>635 million years ago). Here, we demonstrate that C 30 24-isopropylcholestane is not diagnostic for sponges and probably formed in Neoproterozoic sediments through the geological methylation of C 29 sterols of chlorophyte algae, the dominant eukaryotes at that time. These findings reconcile biomarker evidence with the geological record and revert the oldest evidence for animals back into the latest Ediacaran.

Published

2021

13. Niche differentiation of ammonia-oxidising archaea (AOA) and bacteria (AOB) in response to paper and pulp mill effluent.

Author

Abell GC, Ross DJ, Keane J, Holmes BH, Robert SS, Keough MJ, Eyre BD, and Volkman JK

Subjects

Archaea classification, Archaea genetics, Archaea metabolism, Archaeal Proteins genetics, Archaeal Proteins metabolism, Bacteria classification, Bacteria genetics, Bacteria metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Molecular Sequence Data, Oxidoreductases genetics, Oxidoreductases metabolism, Phylogeny, RNA, Ribosomal, 16S genetics, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Tasmania, Archaea drug effects, Bacteria drug effects, Biota drug effects, Industrial Waste, Rivers microbiology, Water Pollutants, Chemical pharmacology

Abstract

Sediment organic loading has been shown to affect estuarine nitrification and denitrification, resulting in changes to sediment biogeochemistry and nutrient fluxes detrimental to estuarine health. This study examined the effects of organic loading on nutrient fluxes and microbial communities in sediments receiving effluent from a paper and pulp mill (PPM) by applying microcosm studies and molecular microbial ecology techniques. Three sites near the PPM outfall were compared to three control sites, one upstream and two downstream of the outfall. The control sites showed coupled nitrification-denitrification with minimal ammonia release from the sediment. In contrast, the impacted sites were characterised by nitrate uptake and substantial ammonia efflux from the sediments, consistent with a decoupling of nitrification and denitrification. Analysis of gene diversity demonstrated that the composition of nitrifier communities was not significantly different at the impacted sites compared to the control sites; however, analysis of gene abundance indicated that whilst there was no difference in total bacteria, total archaea or ammonia-oxidising archaea (AOA) abundance between the control and impacted sites, there was a significant reduction in ammonia-oxidising bacteria (AOB) at the impacted sites. The results of this study demonstrate an effect of organic loading on estuarine sediment biogeochemistry and highlight an apparent niche differentiation between AOA and AOB.

Published

2014

14. High-throughput analysis of ammonia oxidiser community composition via a novel, amoA-based functional gene array.

Author

Abell GC, Robert SS, Frampton DM, Volkman JK, Rizwi F, Csontos J, and Bodrossy L

Subjects

Archaea classification, Archaea isolation & purification, Bacteria classification, Bacteria isolation & purification, Biomarkers metabolism, Environmental Monitoring, Gene Expression Profiling, High-Throughput Screening Assays, Nitrification, Nitrites metabolism, Oligonucleotide Array Sequence Analysis, Oxidation-Reduction, Oxidoreductases metabolism, Soil Microbiology, Ammonia metabolism, Archaea genetics, Archaeal Proteins genetics, Autotrophic Processes physiology, Bacteria genetics, Bacterial Proteins genetics, Oxidoreductases genetics

Abstract

Advances in microbial ecology research are more often than not limited by the capabilities of available methodologies. Aerobic autotrophic nitrification is one of the most important and well studied microbiological processes in terrestrial and aquatic ecosystems. We have developed and validated a microbial diagnostic microarray based on the ammonia-monooxygenase subunit A (amoA) gene, enabling the in-depth analysis of the community structure of bacterial and archaeal ammonia oxidisers. The amoA microarray has been successfully applied to analyse nitrifier diversity in marine, estuarine, soil and wastewater treatment plant environments. The microarray has moderate costs for labour and consumables and enables the analysis of hundreds of environmental DNA or RNA samples per week per person. The array has been thoroughly validated with a range of individual and complex targets (amoA clones and environmental samples, respectively), combined with parallel analysis using traditional sequencing methods. The moderate cost and high throughput of the microarray makes it possible to adequately address broader questions of the ecology of microbial ammonia oxidation requiring high sample numbers and high resolution of the community composition.

Published

2012

15. Effects of estuarine sediment hypoxia on nitrogen fluxes and ammonia oxidizer gene transcription.

Author

Abell GC, Banks J, Ross DJ, Keane JP, Robert SS, Revill AT, and Volkman JK

Subjects

Archaea enzymology, Bacteria enzymology, DNA, Archaeal genetics, DNA, Bacterial genetics, Geologic Sediments analysis, Geologic Sediments microbiology, Molecular Sequence Data, Nitrification, Phylogeny, Polymorphism, Restriction Fragment Length, Transcription, Genetic, Archaea genetics, Bacteria genetics, Nitrogen metabolism, Oxidoreductases genetics, Oxygen analysis, Water Microbiology

Abstract

The effects of sediment hypoxia, resulting from increased carbon loads or decreased dissolved oxygen (DO), on nitrogen cycling in estuarine environments is poorly understood. The important role played by bacterial and archaeal ammonia oxidizers in the eventual removal of nitrogen from estuarine environments is likely to be strongly affected by hypoxic events. In this study, an analysis of the effects of different levels of sediment hypoxia (5%, 20% and 75% DO) was performed in a microcosm experiment. Changes in the nutrient fluxes related to nitrification at 5% DO were observed after 4 h. Quantification of the key nitrification gene ammonium monooxygenase (amoA) in both DNA and RNA extracts suggests that bacterial amoA transcription was reduced at both of the lower DO concentrations, while changes in DO had no significant effect on archaeal amoA transcription. There was no change in the diversity of expressed archaeal amoA, but significant change in bacterial amoA transcriptional diversity, indicative of low- and high-DO phylotypes. This study suggests that groups of ammonia oxidizers demonstrate differential responses to changes in sediment DO, which may be a significant factor in niche partitioning of different ammonia oxidizer groups., (© 2010 CSIRO. FEMS Microbiology Ecology © 2010 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd.)

Published

2011

16. Potential alteration of U37K' paleothermometer due to selective degradation of alkenones by marine bacteria isolated from the haptophyte Emiliania huxleyi.

Author

Zabeti N, Bonin P, Volkman JK, Jameson ID, Guasco S, and Rontani JF

Subjects

Bacteria genetics, Bacteria isolation & purification, DNA, Bacterial genetics, Oxidation-Reduction, RNA, Ribosomal, 16S genetics, Bacteria metabolism, Chlorophyta microbiology, Ketones metabolism, Temperature

Abstract

The unsaturation ratio of C(37) alkenones (U(37)(K')) produced by haptophyte microalgae such as Emiliania huxleyi is often used as proxy for past sea surface temperature. In this study, 29 bacterial strains were isolated from cultures of the strain E. huxleyi TWP1. Among alkenone-degrading isolates, the strain Dietzia maris sp. S1 appeared to be able to selectively degrade alkenones leading to increases in the palaeoenvironmental proxy U(37)(K') by +0.05 to +0.10 units, which is equivalent to the change seen when the growth temperature is increased by 1.5-3.0 degrees C. This degradation was shown to involve initial epoxidation of the alkenone double bonds presumably by a monooxygenase, which showed a preference for oxidation of the omega29 double bond. Inconsistencies observed in previous studies of the aerobic microbial degradation of alkenones may simply reflect which species of bacteria were present. Our results confirm that intense aerobic bacterial degradative processes can introduce a bias in palaeotemperature reconstructions especially when there is evidence of substantial aerobic bacterial degradation of the deposited organic matter. The widespread occurrence of epoxyalkenones in the marine environment strongly suggests that selective aerobic bacterial degradation could be major source of uncertainty for palaeotemperature estimation.

Published

2010

17. Archaeal ammonia oxidizers and nirS-type denitrifiers dominate sediment nitrifying and denitrifying populations in a subtropical macrotidal estuary.

Author

Abell GC, Revill AT, Smith C, Bissett AP, Volkman JK, and Robert SS

Subjects

Crenarchaeota genetics, DNA, Archaeal genetics, Ecosystem, Molecular Sequence Data, Nitrogen metabolism, Queensland, Ammonia metabolism, Crenarchaeota isolation & purification, Crenarchaeota metabolism, Geologic Sediments microbiology, Seawater microbiology

Abstract

Nitrification and denitrification are key steps in nitrogen (N) cycling. The coupling of these processes, which affects the flow of N in ecosystems, requires close interaction of nitrifying and denitrifying microorganisms, both spatially and temporally. The diversity, temporal and spatial variations in the microbial communities affecting these processes was examined, in relation to N cycling, across 12 sites in the Fitzroy river estuary, which is a turbid subtropical estuary in central Queensland. The estuary is a major source of nutrients discharged to the Great Barrier Reef near-shore zone. Measurement of nitrogen fluxes showed an active denitrifying community during all sampling months. Archaeal ammonia monooxygenase (amoA of AOA, functional marker for nitrification) was significantly more abundant than Betaproteobacterial (beta-AOB) amoA. Nitrite reductase genes, functional markers for denitrification, were dominated by nirS and not nirK types at all sites during the year. AOA communities were dominated by the soil/sediment cluster of Crenarchaeota, with sequences found in estuarine sediment, marine and terrestrial environments, whereas nirS sequences were significantly more diverse (where operational taxonomic units were defined at both the threshold of 5% and 15% sequence similarity) and were closely related to sequences originating from estuarine sediments. Terminal-restriction fragment length polymorphism (T-RFLP) analysis revealed that AOA population compositions varied spatially along the estuary, whereas nirS populations changed temporally. Statistical analysis of individual T-RF dominance suggested that salinity and C:N were associated with the community succession of AOA, whereas the nirS-type denitrifier communities were related to salinity and chlorophyll-alpha in the Fitzroy river estuary.

Published

2010

18. Late-Holocene succession of dinoflagellates in an Antarctic fjord using a multi-proxy approach: paleoenvironmental genomics, lipid biomarkers and palynomorphs.

Author

Boere AC, Abbas B, Rijpstra WI, Versteegh GJ, Volkman JK, Sinninghe Damsté JS, and Coolen MJ

Subjects

Animals, Antarctic Regions, Biodiversity, Cluster Analysis, DNA, Protozoan chemistry, DNA, Protozoan genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Genes, rRNA, Molecular Sequence Data, Phylogeny, RNA, Protozoan genetics, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, DNA, Protozoan isolation & purification, Dinoflagellida genetics, Geologic Sediments parasitology, Lipids isolation & purification

Abstract

Recent work has shown that paleoenvironmental genomics, i.e. the application of genomic tools to analyze preserved DNA in sedimentary records, is a promising approach to reconstruct the diversity of past planktonic communities. This provides information about past ecological and environmental changes. A major advantage of this approach is that individual species, including those that did not leave other characteristic markers, can be identified. In this study, we determined which dinoflagellate marker (i.e. 18S rDNA, dinosterol or dinocysts) provided the most detailed information about the late-Holocene succession of dinoflagellates in an Antarctic Fjord (Ellis Fjord, Vestfold Hills). The preserved rDNA revealed two intervals in the 2750-year-old sediment record. The dinoflagellate diversity was the highest until approximately 1850 cal yr bp and included phylotypes related to known dinosterol producers. A lower concentration of dinosterol in sediments <1850 cal yr bp coincided with a community shift towards a predominance of the autotrophic sea-ice dinoflagellate Polarella glacialis, which is not a source of dinosterol. Remarkably, cultures of P. glacialis are known to produce other diagnostic sterols, but these were not recovered here. In addition, conspicuous resting cysts of P. glacialis were not preserved in the analyzed sediments. Overall, dinocysts were rare and the paleoenvironmental genomics approach revealed the highest diversity of dinoflagellates in Ellis Fjord, and was the only approach that recorded a shift in dinoflagellate composition at approximately 1850 cal yr bp indicative of a colder climate with more extensive ice cover - this timing coincides with a period of changing climate reported for this region.

Published

2009

19. Sources for sedimentary bacteriohopanepolyols as revealed by 16S rDNA stratigraphy.

Author

Coolen MJ, Talbot HM, Abbas BA, Ward C, Schouten S, Volkman JK, and Damsté JS

Subjects

DNA, Bacterial genetics, DNA, Ribosomal genetics, Geologic Sediments microbiology, Methylococcaceae genetics, Methylococcaceae isolation & purification, Molecular Sequence Data, RNA, Ribosomal, 16S genetics, Fresh Water microbiology, Methylococcaceae classification, Phylogeny, RNA, Ribosomal, 16S analysis

Abstract

Bacteriohopanoids are widespread lipid biomarkers in the sedimentary record. Many aerobic and anaerobic bacteria are potential sources of these lipids which sometimes complicates the use of these biomarkers as proxies for ecological and environmental changes. Therefore, we applied preserved 16S ribosomal RNA genes to identify likely Holocene biological sources of bacteriohopanepolyols (BHPs) in the sulfidic sediments of the permanently stratified postglacial Ace Lake, Antarctica. A suite of intact BHPs were identified, which revealed a variety of structural forms whose composition differed through the sediment core reflecting changes in bacterial populations induced by large changes in lake salinity. Stable isotopic compositions of the hopanols formed from periodic acid-cleaved BHPs, showed that some were substantially depleted in (13)C, indicative of their methanotrophic origin. Using sensitive molecular tools, we found that Type I and II methanotrophic bacteria (respectively Methylomonas and Methylocystis) were unique to the oldest lacustrine sediments (> 9400 years BP), but quantification of fossil DNA revealed that the Type I methanotrophs, including methanotrophs related to methanotrophic gill symbionts of deep-sea cold-seep mussels, were the main precursors of the 35-amino BHPs (i.e. aminopentol, -tetrol and -triols). After isolation of the lake approximately 3000 years ago, one Type I methanotroph of the 'methanotrophic gill symbionts cluster' remained the most obvious source of aminotetrol and -triol. We, furthermore, identified a Synechococcus phylotype related to pelagic freshwater strains in the oldest lacustrine sediments as a putative source of 2-methylbacteriohopanetetrol (2-Me BHT). This combined application of advanced geochemical and paleogenomical tools further refined our knowledge about Holocene biogeochemical processes in Ace Lake.

Published

2008

20. Free radical oxidation (autoxidation) of alkenones and other lipids in cells of Emiliania huxleyi.

Author

Rontani JF, Jameson I, Christodoulou S, and Volkman JK

Subjects

Borates chemistry, Fatty Acids chemistry, Fatty Acids metabolism, Fatty Acids, Unsaturated chemistry, Fatty Acids, Unsaturated metabolism, Free Radicals metabolism, Gas Chromatography-Mass Spectrometry, Molecular Structure, Oxidation-Reduction, Sterols chemistry, Sterols metabolism, Eukaryota metabolism, Free Radicals chemistry, Lipids chemistry

Abstract

Cells of the coccolithophorid Emiliania huxleyi strain CS-57 grown under an atmosphere of air+0.5% CO(2) showed oxidative damage after 10 days growth with concomitant and major changes to the lipid composition. The fatty acid profile was strongly altered and lacked appreciable amounts of the polyunsaturated fatty acids (PUFA: C(18:5), C(18:3) and C(22:6)) typical of healthy cells. Oxidation products of these PUFA could not be detected, but monounsaturated fatty acids proved to be good indicators of oxidative processes. The presence (after NaBH(4)-reduction) of a high proportion of 11-hydroxyoctadec-cis-9-enoic and 8-hydroxyoctadec-cis-9-enoic acids showed that the degradation of oleic acid involved mainly free radical oxidation processes (70-75% autoxidation and 20-25% photooxidation). We also detected large amounts of degradation products of the oxidation product 9,10-epoxyoctadecanoic acid including diols, methoxyhydrins and chlorohydrins. These oxidative effects were found in all the lipid classes examined. Products included significant amounts of chlorophyll side-chain autooxidation products Z- and E-3,7,11,15-tetramethylhexadec-3-ene-1,2-diols and Z-and E-3,7,11,15-tetramethylhexadec-2-ene-1,4-diols, while phytyldiol was present in relatively low proportions. Delta(5)-3beta,7-epimeric unsaturated steroidal diols arising from the autooxidation of the Delta(5) double bond of epi-brassicasterol and minor amounts of Delta(4)-3beta,6-diols were also detected. Long-chain unsaturated ketone (alkenone) content per cell was much higher in the presence of 0.5% CO(2) likely due to carbon storage under these conditions. The proportions of di- and tri-unsaturated alkenones was relatively stable throughout the growth cycle in the absence of additional CO(2), but not when grown with 0.5% CO(2). The detection of characteristic alkenone autoxidation products in cells grown under these latter conditions allowed us to attribute the significant increase in index observed to the involvement of free radical oxidation processes.

Published

2007

21. Characterization of unusual alkenones and alkyl alkenoates by electron ionization gas chromatography/mass spectrometry.

Author

Rontani JF, Prahl FG, and Volkman JK

Abstract

Unusual long-chain, diunsaturated alkenones and alkyl alkenoates exhibiting double bonds separated by three methylene units instead of the more usual five were characterized by electron ionization (EI) gas chromatography/mass spectrometry. In a first step, the positions of the double bonds of these compounds (isolated from Holocene Black Sea sediments) were confirmed after OsO4 treatment and silylation. Mass spectra of the resulting tetratrimethylsilyloxy derivatives allowed unambiguous determination of the positions of unsaturations. The EI mass spectra of the non-derivatized compounds were then compared with those of the alkenones and alkyl alkenoates having double bonds separated by five methylene units. Specific fragment ions resulting from gamma-H rearrangements were found to be prominent in EI mass spectra of these unusual 'Black Sea' diunsaturated alkenones and alkyl alkenoates. These fragment ions can be used to characterize these compounds in natural samples without the need for laborious derivatization treatments., (Copyright 2006 John Wiley & Sons, Ltd.)

Published

2006

22. Cryptophyceae and rhodophyceae; chemotaxonomy, phylogeny, and application.

Author

Dunstan GA, Brown MR, and Volkman JK

Subjects

Animals, Aquaculture, Crassostrea metabolism, Eukaryota genetics, Eukaryota growth & development, Fatty Acids biosynthesis, Phytosterols metabolism, Eukaryota chemistry, Eukaryota classification, Phylogeny

Abstract

The biochemical compositions of seven strains of marine cryptomonad and a rhodophyte were determined in logarithmic phase batch (1.4 L flask) and semi-continuous (10 L carboy) culture. Lipid ranged from 13% to 28%, protein ranged from 53% to 68%, and carbohydrate ranged from 9% to 24% of the organic weight. The major lipid classes in the species examined were polar lipids (78-88% of total lipid). The major sterol in the Cryptophyceae and the Rhodophyceae was 24-methylcholesta-5,22E-dien-3beta-ol (62-99% of total sterols); which is also the major sterol in some diatoms and haptophytes. Smaller proportions of cholest-5-en-3beta-ol (1-17.7%) were also found in the Cryptophyceae. Most cryptomonads contained high proportions of the n-3 polyunsaturated fatty acids (PUFA), 18:3n-3 (20.7-29.9% of the total fatty acids), 18:4n-3 (12.5-30.2%), 20:5n-3 (7.6-13.2%) and 22:6n-3 (6.4-10.8%). However, the blue-green cryptomonad Chroomonas placoidea was characterized by a low proportion of 22:6n-3 (0.2% of total fatty acids), and a significant proportion of 22:5n-6 (4.5%), and the presence of 24-ethylcholesta-5,22E-dien-3beta-ol (35.5% of total sterols). The fatty acid composition of the rhodophyte Rhodosorus sp. was similar to those of the Cryptophyceae except for lower proportions of 18:4n-3 and lack of C21 and C22 PUFA. It is postulated that the primary endosymbiosis of a photosynthetic n-3 C18 PUFA-producing prokaryote and a eukaryotic host capable of chain elongation and desaturation of exogenous PUFA, resulted in the Rhodophyceae capable of producing n-3 C20 PUFA. The secondary endosymbiosis of a photosynthetic n-3 C20 PUFA-producing eukaryote (such as a Rhodosorus sp. like-rhodophyte) and a eukaryotic host capable of further chain elongation and desaturation, resulted in the Cryptophyceae being capable of producing n-3 C20 and C22 PUFA de novo. Selected isolates were examined further in feeding trials with juvenile Pacific oysters (Crassostrea gigas). Rhodomonas salina CS-24(containing elevated 22:6n-3) produced high growth rates in oysters; equivalent to the microalga commonly used in aquaculture, Isochrysis sp. (T.ISO).

Published

2005

23. Unsaturated diether lipids in the psychrotrophic archaeon Halorubrum lacusprofundi.

Author

Gibson JA, Miller MR, Davies NW, Neill GP, Nichols DS, and Volkman JK

Subjects

Glycolipids isolation & purification, Halobacteriaceae growth & development, Mass Spectrometry, Membrane Lipids analysis, Membrane Lipids isolation & purification, Phospholipids isolation & purification, Temperature, Fatty Acids, Unsaturated isolation & purification, Glycolipids analysis, Halobacteriaceae chemistry, Phospholipids analysis

Abstract

The major phospholipids of Halorubrum lacusprofundi grown at 25 degrees C were archaeol phosphatidylglycerol, archaeol phosphatidylglycerylsulphate and archaeol phosphatidylglycerylphosphate methyl ester. Glycolipids included a monoglycosyl archaeol and the sulphate ester of a diglycosyl archaeol. Cultures grown at 12 degrees C contained the same suite of phospho- and glycolipids, with the addition of a series of unsaturated analogues with up to six double bonds. The patterns of unsaturation were similar for all the phospholipid series, but a different pattern occurred in the glycolipids. The analytical techniques used in this study allow facile detection of unsaturated archaeal cell membrane lipids that are degraded by commonly used chemical derivatization procedures.

Published

2005

24. Regiospecific oxygenation of alkenones in the benthic haptophyte Chrysotila lamellosa Anand HAP 17.

Author

Rontani JF, Beker B, and Volkman JK

Subjects

Eukaryota enzymology, Gas Chromatography-Mass Spectrometry, Molecular Structure, Oxidation-Reduction, Time Factors, Eukaryota chemistry, Ketones chemistry, Ketones metabolism

Abstract

Two groups of previously unidentified C37-C39 epoxyalkenones and alkenediones were detected in late stationary phase cultures of the haptophyte microalga Chrysotila lamellosa. The formation of these compounds is attributed to the involvement of enzymatic processes acting specifically on the C-21 or C-22 allylic carbon and the omega15 double bond of methyl and ethyl alkenones respectively. Thus, the epoxyalkenones appear to be derivatives of alkenones where the omega15 double bond is oxidized to the epoxide. These epoxyalkenones disappear as the cells age to be replaced by a series of alkenediones. The structures of these compounds indicate that they are derivatives of methyl and ethyl alkenones with an additional carbonyl group on the C-21 or C-22 carbon respectively and without the omega15 double bond. We propose that these compounds are formed by an initial regiospecific lipoxygenase-catalyzed peroxidation of methyl and ethyl alkenones on their C-21 or C-22 allylic carbon, respectively. Lipohydroperoxidase-catalyzed homolytic cleavage of the O-O bond could then result in the formation of conjugated ketones which may then undergo a saturation reaction to form the diketones identified. This work demonstrates that alkenones can be degraded by enzymatic reactions in senescent cells, and by implication this could also occur in the natural environment.

Published

2004

25. Long-chain alkenones and related compounds in the benthic haptophyte Chrysotila lamellosa Anand HAP 17.

Author

Rontani JF, Beker B, and Volkman JK

Subjects

Alcohols analysis, Alcohols chemistry, Chemical Fractionation methods, Esters analysis, Esters chemistry, Eukaryota genetics, Eukaryota growth & development, Eukaryota metabolism, Gas Chromatography-Mass Spectrometry methods, Lipids analysis, Lipids chemistry, Sterols analysis, Sterols chemistry, Alkenes analysis, Alkenes chemistry, Eukaryota chemistry, Ketones analysis, Ketones chemistry

Abstract

The neutral lipid compositions of the coastal haptophyte Chrysotila lamellosa HAP 17 grown in batch culture at 10 and 20 degrees C have been determined. A comparison was also made between the lipid compositions of cells harvested in early and late stationary phase. This species contains a suite of very long-chain C(37)-C(40) alkenones and alkenoates as found in a few microalgae from the Haptophyta. The distributions of these compounds show some differences to earlier reports of different strains of this alga, which are only in part attributable to culture conditions. A suite of long-chain alkenols, the reduced form of the alkenones, was characterized for the first time. The abundance of these compounds was only 1.5% of that of the corresponding alkenones, and the relative proportion of C(37)-C(38) constituents depended on growth temperature. These data show that haptophyte algae are a possible source of the alkenols found in some marine sediments, but the small amounts found suggest that other sources such as bacterial reduction of alkenones are more likely in highly reducing sediments. A mixture of C(29)-C(33) n-alkenes, dominated by the C(31:1) monoene, was found in marked contrast to previous analyses of other strains which reported only the presence of a C(31:2) diene. The sterol distribution included the common haptophyte sterol 24alpha-methylcholesta-5,22E-dien-3beta-ol (epi-brassicasterol) as well as significant amounts of Delta(5)- and Delta(5,22)-C(29) sterols.

Published

2004

26. The effect of growth phase on the lipid class, fatty acid and sterol composition in the marine dinoflagellate, Gymnodinium sp. in batch culture.

Author

Mansour MP, Volkman JK, and Blackburn SI

Subjects

Animals, Chromatography, Gas, Culture Media, Docosahexaenoic Acids metabolism, Lipids classification, Stereoisomerism, Sterols biosynthesis, Time Factors, Triglycerides metabolism, Dinoflagellida growth & development, Dinoflagellida metabolism, Fatty Acids metabolism, Lipid Metabolism, Sterols metabolism

Abstract

We have studied the effects of growth phase on the lipid composition in batch cultures of Gymnodinium sp. CS-380/3 over 43 days of culturing. The lipid content increased two fold, from late logarithmic (day 6) to linear growth phase (day 22) then decreased at stationary phase (day 43) while the lipid yield (mg l(-1)) increased 30-fold from day 6 to 30 mg l(-1) at day 43. Changes in fatty acid content mirrored those observed for the total lipid, while the sterol content continued to increase with culture age through to stationary phase. The largest changes occurred in the lipid classes, especially the polar lipids and triacylglycerols (oil). The proportion of triacylglycerols increased from 8% (of total lipids) at day 6 to 30% at day 43, with a concomitant decrease in the polar lipid fraction. The proportions of 16:0 and DHA [22:6(n-3)] increased while those of 18:5(n-3) and EPA [20:5(n-3)] decreased with increasing culture age. The proportion of the major sterol, dinosterol, decreased from 41% (day 6) to 29% (day 43), while the major dinostanol epimer (23R,24R) increased from 33% (day 6) to 38% (day 22). Despite small changes in the proportion of the main sterols, the same sterols were present at all stages of growth, indicating their value as a chemotaxonomic tool for distinguishing between strains within the same genus. Growth phase could be a useful variable for optimising the oil and DHA content with potential for aquaculture feeds and a source of DHA-rich oils for nutraceuticals.

Published

2003

27. Sterols in microorganisms.

Author

Volkman JK

Subjects

Animals, Bacteria isolation & purification, Cyanobacteria chemistry, Cyanobacteria isolation & purification, Eukaryota isolation & purification, Fungi isolation & purification, Pharmaceutical Preparations, Sterols classification, Yeasts chemistry, Yeasts isolation & purification, Bacteria chemistry, Eukaryota chemistry, Fungi chemistry, Sterols analysis

Abstract

Sterols are vital components of all eukaryotic cells. This review describes the variety of sterol structures found in microalgae, yeasts, fungi, protozoans and microheterotrophs. Reports of the occurrence of sterols in prokaryotic cells are critically assessed. Methylotrophic bacteria contain unusual 4-methylsterols, but reports of 4-desmethyl sterols in cyanobacteria and other bacteria are limited and many of these seem dubious. Possible application areas for sterols derived from mass culture of microalgae and other microorganisms are highlighted.

Published

2003

28. Factors influencing the distributions of polyunsaturated terpenoids in the diatom, Rhizosolenia setigera.

Author

Rowland SJ, Allard WG, Belt ST, Massé G, Robert JM, Blackburn S, Frampton D, Revill AT, and Volkman JK

Subjects

Alkenes classification, Alkenes metabolism, Diatoms chemistry, Diatoms classification, Gas Chromatography-Mass Spectrometry methods, Magnetic Resonance Spectroscopy methods, Salts, Temperature, Alkenes analysis, Diatoms metabolism, Terpenes metabolism

Abstract

Polyunsaturated highly branched isoprenoid (HBI) hydrocarbon distributions of laboratory cultures of five strains of the planktonic diatom Rhizosolenia setigera (Brightwell) are shown herein to be highly variable. Some strains produced both haslenes with from three to five double bonds and rhizenes. The haslenes comprised not only Delta5 alkenes but also those with C7(20) unsaturation, including hasla-7(20),9E,Z, 23-trienes and hasla-7(20),9E,Z-13, 23-tetraenes. The rhizenes contained C7(25) unsaturation and the vinyl moiety common to all algal haslenes so far characterised. The effects of temperature and salinity on HBI composition, along with isotopic content, were determined in strain CS 389/A. Increase in growth temperature from 18 to 25 degrees C increased the degree of unsaturation in the haslenes and E to Z isomerisation in the triene. There was also an increase in unsaturation in the rhizenes at the highest growth temperature, with hexaenes dominant over the pentaenes but in the rhizenes, Z to E isomerisation increased. Increased salinity from 15 to 35 psu increased cell growth and rhizene production but decreased haslene production. Unsaturation in haslenes was not changed by increased salinity but unsaturation in the rhizenes decreased. These may reflect growth rate differences. The carbon isotopic compositions of the haslenes and rhizenes were similar to that of the major sterol at 18 degrees C, but the major HBI isomers were 3-4 per mil depleted relative to phytol released by saponification from chlorophyll a. This suggests biosynthesis of HBIs from a different isotopic pool of isopentenyl biphosphate to that from which phytol is biosynthesised. At 25 degrees C, further isotopic differences were observed. The variables controlling HBI distributions in R. setigera are still not fully understood and rationalisation of the environmental controls on the sedimentary distributions of the HBIs from R. setigera may only be possible once such factors are established.

Published

2001

29. Biodegradation of free phytol by bacterial communities isolated from marine sediments under aerobic and denitrifying conditions.

Author

Rontani JF, Bonin PC, and Volkman JK

Subjects

Aerobiosis, Anaerobiosis, Bacteria isolation & purification, Biodegradation, Environmental, Biotransformation, Geologic Sediments, Bacteria metabolism, Phytol metabolism, Seawater microbiology, Water Microbiology

Abstract

Biodegradation of (E)-phytol [3,7,11, 15-tetramethylhexadec-2(E)-en-1-ol] by two bacterial communities isolated from recent marine sediments under aerobic and denitrifying conditions was studied at 20 degrees C. This isoprenoid alcohol is metabolized efficiently by these two bacterial communities via 6,10, 14-trimethylpentadecan-2-one and (E)-phytenic acid. The first step in both aerobic and anaerobic bacterial degradation of (E)-phytol involves the transient production of (E)-phytenal, which in turn can be abiotically converted to 6,10,14-trimethylpentadecan-2-one. Most of the isoprenoid metabolites identified in vitro could be detected in a fresh sediment core collected at the same site as the sediments used for the incubations. Since (E)-phytenal is less sensitive to abiotic degradation at the temperature of the sediments (15 degrees C), the major part of (E)-phytol appeared to be biodegraded in situ via (E)-phytenic acid. (Z)- and (E)-phytenic acids are present in particularly large quantities in the upper section of the core, and their concentrations quickly decrease with depth in the core. This degradation (which takes place without significant production of phytanic acid) is attributed to the involvement of alternating beta-decarboxymethylation and beta-oxidation reaction sequences induced by denitrifiers. Despite the low nitrate concentration of marine sediments, denitrifying bacteria seem to play a significant role in the mineralization of (E)-phytol.

Published

1999

30. Production of wax esters during aerobic growth of marine bacteria on isoprenoid compounds

Author

Rontani JF, Bonin PC, and Volkman JK

Abstract

This paper describes the production of isoprenoid wax esters during the aerobic degradation of 6,10,14-trimethylpentadecan-2-one and phytol by four bacteria (Acinetobacter sp. strain PHY9, Pseudomonas nautica [IP85/617], Marinobacter sp. strain CAB [DSMZ 11874], and Marinobacter hydrocarbonoclasticus [ATCC 49840]) isolated from the marine environment. Different pathways are proposed to explain the formation of these compounds. In the case of 6,10, 14-trimethylpentadecan-2-one, these esters result from the condensation of some acidic and alcoholic metabolites produced during the biodegradation, while phytol constitutes the alcohol moiety of most of the esters produced during growth on this isoprenoid alcohol. The amount of these esters formed increased considerably in N-limited cultures, in which the ammonium concentration corresponds to conditions often found in marine sediments. This suggests that the bacterial formation of isoprenoid wax esters might be favored in such environments. Although conflicting evidence exists regarding the stability of these esters in sediments, it seems likely that, under some conditions, bacterial esterification can enhance the preservation potential of labile compounds such as phytol.

Published

1999

31. Identification of natural, anthropogenic and petroleum hydrocarbons in aquatic sediments.

Author

Volkman JK, Holdsworth DG, Neill GP, and Bavor HJ Jr

Subjects

Australia, Chromatography, Gas, Gas Chromatography-Mass Spectrometry, Humans, Seawater, Hydrocarbons analysis, Petroleum, Water Pollutants analysis

Abstract

Complex distributions of hydrocarbons occur in most aquatic sediments. Total concentrations can range from a few parts per million in non-polluted intertidal and oceanic areas to parts per thousand in heavily contaminated estuarine, lake and near-shore environments. Iatroscan TLC-FID provides a quick assessment of the total hydrocarbon load, but capillary GC, HPLC and GC-MS are essential for obtaining detailed composition data from which information on possible sources can be derived. Alkenes from microalgae, such as n-C21:6, n-C17:1 and unusual C25 and C30 isoprenoid alkenes, are often the most abundant single components in sedimentary hydrocarbon distributions. Some hydrocarbons are also produced from diagenetic transformation of functionalised lipids present in the sediment. Long-chain alkanes typical of plant waxes can be important constituents, even in marine sediments far from the coast. These distributions display a strong predominance of odd chain lengths, whereas n-alkane distributions in oils usually show little or no predominance of either odd or even chain lengths. However, the presence of this type of distribution in a sediment may not indicate petroleum contamination since biological sources for similar distributions are now recognised. Petroleum-derived residues are common in coastal and estuarine areas, particularly those near urban or industrial centers. This contamination is readily seen in capillary gas chromatograms of the alkanes as an unresolved complex mixture (UCM). The source of the oil can often be deduced from characteristic distributions of biomarker steranes, rearranged steranes, hopanes and methyl hopanes determined by capillary gas chromatography-mass spectrometry. Methyl hopanes are major polycyclic alkanes in oils from carbonate source rocks, such as those from the Middle East, but are uncommon in Australian oils. GC-MS fingerprinting techniques show that lubricating oils are a major source of hydrocarbon pollution in many estuaries and coastal areas around Australia. It has been estimated that natural oil seeps may also contribute as much as 10% of the hydrocarbons in the global marine environment. Examples of this include major oil seepage in the Gulf of California and the widespread occurrence of bitumen strandings on South Australian beaches. Examples from marine and estuarine environments around Australia are presented to illustrate the use of modern analytical techniques to identify, quantify and determine the origins of hydrocarbons in aquatic sediments.

Published

1992

32. trans-Monounsaturated Acids in a Marine Bacterial Isolate.

Author

Gillan FT, Johns RB, Verheyen TV, Volkman JK, and Bavor HJ

Abstract

A sedimentary bacterial isolate has been shown to contain trans-monounsaturated fatty acids (6% of the total fatty acids). The ratio of trans- to cis-acids in this isolate was in the range 3.2 to 7.6. The identification of trans-monounsaturated acids in a marine bacterium implied that the trans-acids which have been reported in recent sediments could derive, in whole or part, from direct bacterial input.

Published

1981