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Molecular diagnostics of polycyclic aromatic hydrocarbon biodegradation in manufactured gas plant soils (1993)

Sanseverino, J. ; Werner, C. ; Fleming, J. ; [et al.]

Springer

Biodegradation 4 (1993), S. 303-321

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ISSN: 1572-9729

Keywords: bioavailability ; bioluminescence ; gene probe ; in situ microbial analysis ; mRNA ; polynuclear aromatic hydrocarbons

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Traditional methods for quantifying specific catabolic bacterial populations underestimate the true population count due to the limitations of the necessary laboratory cultivation methods. Likewise,in situ activity is also difficult to assess in the laboratory without altering the sample environment. To circumvent these problems and achieve a truein situ bacterial population count and activity measurement, new methods based on molecular biological analysis of bacterial nucleic acids were applied to soils heavily contaminated with polycyclic aromatic hydrocarbons (PAH). In addition, a naphthalene-lux reporter system was used to determine bioavailability of naphthalene within these soils. DNA extracted from seven PAH-contaminated soils and hybridized with thenahA gene probe indicated that the naphthalene degradative genes were present in all samples in the range of 0.06 to 0.95 ng/100 µl DNA extract which was calculated to represent 3.2×106 to 1.1×1010 cells/g soil (assuming one copy of these genes per cell).14C-naphthalene mineralization was observed in all contaminated soils with14CO2 mineralization rates ranging from 3.2×10−5 to 304,920.0×10−5 µg g soil−1h−1. Phenanthrene, anthracene, and benzo(a)pyrene were mineralized also in several soils. Messenger RNA transcripts ofnahA were isolated and quantified from 4 soils. Only one soil tested, soil B, was inducible with salicylate above thein situ nahA gene transcript level. Two of the soils, C and G, were already fully inducedin situ. The naphthalene mineralization rate correlated positively with the amount ofnahA gene transcripts present (r=0.99). Naphthalene was bioavailable in soils A, D, E, G, and N as determined by a bioluminescent response from the naphthalene-lux reporter system. Taken together, these data provided information on what the naphthalene-degrading bacterial population was experiencingin situ and what approaches would be necessary to increase activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00695976

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Particulate organic matter in a mountain stream in the south-western Cape, South Africa (1987)

King, J. M. ; Day, J. A. ; Davies, B. R. ; [et al.]

Springer

Hydrobiologia 154 (1987), S. 165-187

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ISSN: 1573-5117

Keywords: fynbos biome ; mountain stream ; spring leaf fall ; allochthonous detritus retention ; discharge ; calorific values ; C:N ratios ; annual cycles

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The quality and quantity of allochthonous inputs and of benthic organic matter were investigated in a second-order, perennial mountain stream in the south-west Cape, South Africa, between April 1983 and January 1986. Although the endemic, riparian vegetation is sclerophyllous, low and evergreen, inputs of allochthonous detritus to the stream (434 to 500 g m−2y−1) were similar to those recorded for riparian communities worldwide, as were calorific values of these inputs (9548 to 10 032 KJ m−2y−1). Leaf fall of the riparian vegetation is seasonal, occurring in spring (November) as discharge decreases, resulting in retention of benthic organic matter (BOM) on the stream bed during summer and early autumn (maximum 224 g m−2). Early winter rains (May) scoured the stream almost clean of benthic detritus (winter minimum 8 g m−2). Therefore, BOM was predictably plentiful for about half of each year and predictably scarce for the other half. Coarse BOM (CBOM) and fine BOM (FBOM) constituted 46–64% of BOM standing stock, ultra-fine BOM (UBOM) 16–33% and leaf packs 13–24%. The mean annual calorific value of total BOM standing stock was 1709 KJ m−2. Both standing stocks and total calorific values of BOM were lower than those reported for streams in other biogeographical regions. Values of C:N ratios decreased with decrease in BOM particle size (CBOM 27–100; FBOM 25–27; UBOM 13–19) with no seasonal trends. The stream is erosive with a poor ability to retain organic detritus. Its character appears to be dictated by abiotic factors, the most important of which is winter spates.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00026838

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