Hydrocarbon Distribution of Algae and Bacteria, and Microbiological Activity in Sediments

Han, Jian; Calvin, Melvin

doi:10.1073/pnas.64.2.436

Cited by 358 publications

(156 citation statements)

References 7 publications

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“…As shown for the cyanobacteria Nostoc muscorum, the n-alkanes are formed by decarboxylation of fatty acids, e.g. stearic acid yielding n-C 17 (Han and Calvin, 1969). However, in algae n-alkanes are also formed through biosynthesis from acetate and pyruvate, since when these precursors were incubated as radiolabelled material with the blue-green algae Anabena variabilis, incorporation of radioactivity into heptadecane was observed (Fehler and Light, 1972, cited by Lester, 1979).…”

Section: Saturated Hydrocarbons Naturally Occurring In Biotamentioning

confidence: 99%

Scientific Opinion on Mineral Oil Hydrocarbons in Food

2012

EFS2

102

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Consumers are exposed to a range of mineral oil hydrocarbons (MOH) via food. Mineral oil saturated hydrocarbons (MOSH) consist of linear and branched alkanes, and alkyl-substituted cyclo-alkanes, whilst mineral oil aromatic hydrocarbons (MOAH) include mainly alkyl-substituted polyaromatic hydrocarbons. Products, commonly specified according to their physico-chemical properties, may differ in chemical composition depending on the oil source. Technical grade MOH contain 15 -35 % MOAH, which is minimised in food grade MOSH (white oils). Major sources of MOH in food are food packaging and additives, processing aids, and lubricants. Estimated MOSH exposure ranged from 0.03 to 0.3 mg/kg b.w. per day, with higher exposure in children. Specific production practices of bread and grains may provide additional MOSH exposure. Except for white oils, exposure to MOAH is about 20 % of that of MOSH. Absorption of alkanes with carbon number above C 35 is negligible. Branched and cyclic alkanes are less efficiently oxidised than n-alkanes. MOSH from C 16 to C 35 may accumulate and cause microgranulomas in several tissues including lymph nodes, spleen and liver. Hepatic microgranulomas associated with inflammation in Fischer 344 rats were considered the critical effect. The no-observed-adverse-effect level for induction of liver microgranulomas by the most potent MOSH, 19 mg/kg b.w. per day, was used as a Reference Point for calculating margins of exposure (MOEs) for background MOSH exposure. MOEs ranged from 59 to 680. Hence, background exposure to MOSH via food in 1 On request from the European Commission, Question No EFSA-Q-2010-00170, adopted on 3 May 2012. 2 SUMMARYFollowing a request from the European Commission, the EFSA Panel on Contaminants in the Food Chain (CONTAM Panel) was asked to deliver a scientific opinion on mineral oil hydrocarbons (MOH) in Food. Mineral oil hydrocarbons occur in food both as a result of contamination and from various intentional uses in food production. In order to assess the need for possible regulatory measures as regards MOH in food, EFSA was requested to assess the risks related to their occurrence in food. More specifically, the opinion should evaluate whether new toxicity data are available and whether the current acceptable daily intakes (ADIs) are still applicable, explore whether certain classes (or subclasses) of MOH are more relevant due to their toxicity or to differences in the way they are metabolised by the human body, and identify the different background sources, other than from adulteration or misuse, of MOH occurrence in food. In addition a dietary exposure assessment was requested for the general population and for specific subgroups of the population (e.g. infants, children and people following specific diets), by taking into account the background occurrence of MOH in food. Included in the request was also to advise on MOH and food classes to be included if monitoring were to be set up for their presence in food.The scientific literature and other sources were s...

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Section: Saturated Hydrocarbons Naturally Occurring In Biotamentioning

confidence: 99%

Scientific Opinion on Mineral Oil Hydrocarbons in Food

2012

EFS2

102

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“…Besides these two n-alkanes, a number of hydrocarbons are also indicative of autochthonous inputs. Thus, the linear and branched C,,-Czo monounsaturated olefins are common in algae and cyanobacteria (HAN and CALVIN, 1969;GELPI et al, 1968) the methylheptadecanes are specific cyanobacterial indicators of the distributions of n-alkenes found in lacustrine environ-(HAN et GELPI et al, 1970). ments.…”

Section: Hydrocarbonsmentioning

confidence: 99%

“…Peak identifications and concentration ranges are given in Tables 3 and 4. n-Heptadecane is the dominant hydrocarbon in both sediment and water particulates, a compound that usually represents algal contributions (CLARK and BLUMER, 1967;HAN et al, 1968). Another important component in the sediments is n-octadecane, the most abundant hydrocarbon in many yeast and bacterial species (HAN and CALVIN, 1969;BIRD and LYNCH, 1974;HAN et al, 1968). Besides these two n-alkanes, a number of hydrocarbons are also indicative of autochthonous inputs.…”

Section: Hydrocarbonsmentioning

confidence: 99%

Sedimentary lipid biogeochemistry of an hypereutrophic alkaline lagoon

Grimalt

Yruela

Sáiz‐Jiménez

et al. 1991

Geochimica et Cosmochimica Acta

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“…The response of algal « lipid/water values to salinity is markedly consistent at 0.9‰ ± 0.2‰ ppt −1 (7). Heptacosane (nC 17 ) is a general biomarker for algae (36) and is abundant in lake sediments from Olduvai Gorge. Modern studies establish an apparent fractionation between freshwater and nC 17 equal to −172‰ (7), and we use this value to determine algal « lipid/water values at different salinities-termed « lake values:…”

mentioning

confidence: 99%

Water, plants, and early human habitats in eastern Africa

Magill

Ashley

Freeman

2012

Proc. Natl. Acad. Sci. U.S.A.

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Water and its influence on plants likely exerted strong adaptive pressures in human evolution. Understanding relationships among water, plants, and early humans is limited both by incomplete terrestrial records of environmental change and by indirect proxy data for water availability. Here we present a continuous record of stable hydrogen-isotope compositions (expressed as δD values) for lipid biomarkers preserved in lake sediments from an early Pleistocene archaeological site in eastern Africa-Olduvai Gorge. We convert sedimentary leaf-and algal-lipid δD values into estimates for ancient source-water δD values by accounting for biochemical, physiological, and environmental influences on isotopic fractionation via published water-lipid enrichment factors for living plants, algae, and recent sediments. Reconstructed precipitation and lakewater δD values, respectively, are consistent with modern isotopic hydrology and reveal that dramatic fluctuations in water availability accompanied ecosystem changes. Drier conditions, indicated by less negative δD values, occur in association with stable carbon-isotopic evidence for open, C 4 -dominated grassland ecosystems. Wetter conditions, indicated by lower δD values, are associated with expanded woody cover across the ancient landscape. Estimates for ancient precipitation amounts, based on reconstructed precipitation δD values, range between approximately 250 and 700 mm·y −1 and are consistent with modern precipitation data for eastern Africa. We conclude that freshwater availability exerted a substantial influence on eastern African ecosystems and, by extension, was central to early human proliferation during periods of rapid climate change.paleohydrology | plant waxes | carbon isotopes

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Hydrocarbon Distribution of Algae and Bacteria, and Microbiological Activity in Sediments

Cited by 358 publications

References 7 publications

Scientific Opinion on Mineral Oil Hydrocarbons in Food

Scientific Opinion on Mineral Oil Hydrocarbons in Food

Sedimentary lipid biogeochemistry of an hypereutrophic alkaline lagoon

Water, plants, and early human habitats in eastern Africa

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