Your search keyword '"Grey J"' showing total 5 results

1. Methane cycling in lake sediments and its influence on chironomid larval delta13C.

Author

Eller G, Deines P, Grey J, Richnow HH, and Krüger M

Subjects

Analysis of Variance, Animals, Chromatography, High Pressure Liquid, Colony Count, Microbial, Fresh Water, Geologic Sediments analysis, Germany, In Situ Hybridization, Fluorescence, Larva metabolism, Methylococcaceae genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Carbon Isotopes metabolism, Chironomidae metabolism, Food Chain, Geologic Sediments microbiology, Methane metabolism, Methylococcaceae metabolism, Phylogeny

Abstract

Stable carbon isotope analysis of chironomid larvae gave rise to the hypothesis that methane-oxidizing bacteria can provide an important food source for higher trophic levels in lakes. To investigate the importance of the methane cycle for the larval stable carbon signatures, isotope analysis and microbiological and biogeochemical investigations were combined. The study was based on comparison of a dimictic lake (Holzsee) and a polymictic, shallow lake (Grosser Binnensee), both located in northern Germany. Both lakes are inhabited by Chironomus plumosus larvae, which exhibited a stronger (13)C-depletion in Holzsee than in Grosser Binnensee, indicating a greater contribution of methane-carbon in the former. Indeed, the processes involved in the microbial methane cycle were found to be more active in Holzsee, showing higher potential methane production and methane oxidation rates. Consistently, cell numbers of methane-oxidizing bacteria were with 0.5 - 1.7 x 10(6) cells g(dw)(-1) about one order of magnitude higher in Holzsee than in Grosser Binnensee. Molecular analysis of the microbial community structure revealed no differences in the methanotrophic community between the two lakes, with a clear dominance of type I methanotrophs. The methanogenic population seemed to be adapted to the prevailing substrate in the respective lake (H(2)/CO(2) in Holzsee and acetate in Grosser Binnensee), even though differences were minor. In conclusion, the stronger larval (13)C-depletion in Holzsee was not reflected in differences in the microbial community structure, but in the activity and size of the methanogenic and methanotrophic populations in the lake sediment.

Published

2005

2. Stable isotope analyses provide new insights into ecological plasticity in a mixohaline population of European eel.

Author

Harrod C, Grey J, McCarthy TK, and Morrissey M

Subjects

Animals, Demography, Ireland, Multivariate Analysis, Sodium Chloride analysis, Water chemistry, Anguilla metabolism, Carbon Isotopes metabolism, Ecosystem, Nitrogen Isotopes metabolism

Abstract

Recent studies have shown that anguillid eel populations in habitats spanning the marine-freshwater ecotone can display extreme plasticity in the range of catadromy expressed by individual fishes. Carbon and nitrogen stable isotope analysis was used to differentiate between European eels (Anguilla anguilla) collected along a short (2 km) salinity gradient ranging from <1 per thousand to approximately 30 per thousand in Lough Ahalia, a tidal Atlantic lake system. Significant differences were recorded in mean delta13C, delta15N and C:N values from eels collected from fresh, brackish and marine-dominated basins. A discriminant analysis using these predictor variables correctly classified ca. 85% of eels to salinity zone, allowing eels to be classified as freshwater (FW), brackish (BW) or marine (MW) residents. The results of the discriminant analysis also suggested that a significant proportion of eels moved between habitats (especially between FW and BW). Comparisons of several key population parameters showed significant variation between eels resident in different salinity zones. Mean condition and estimated age was significantly lower in MW eels, whilst observed length at age (a correlate of growth) was significantly higher in MW eels, intermediate in BW and lowest in FW eels. This study has demonstrated that the ecology of eels found along a short salinity gradient can be extremely plastic and that stable isotope analysis has considerable utility in demonstrating intra-population variation in diadromous fishes.

Published

2005

3. Stable isotope analysis provides fresh insights into dietary separation between Chironomus anthracinus and C. plumosus

Author

Kelly, Andrew, Jones, R. I., and Grey, J.

Published

2004

4. Stable Isotope Analysis of Zooplankton Carbon Nutrition in Humic Lakes

Author

Jones, R. I., Grey, J., Sleep, D., and Arvola, L.

Published

1999

5. Ontogeny and dietary specialization in brown trout ( Salmo trutta L.) from Loch Ness, Scotland, examined using stable isotopes of carbon and nitrogen.

Author

Grey, J.

Subjects

*ONTOGENY, *BROWN trout, *STABLE isotopes, *CARBON isotopes, *ANIMAL species, *NITROGEN isotopes

Abstract

- The trophic ecology of many fish species in cold temperate lakes is often characterized by a generalist or opportunist strategy. In this study, the diets of polytrophic brown trout in Loch Ness, Scotland, have been examined using stable isotopes of carbon and nitrogen to complement gut content analyses and aging by otolith annuli counts. Using the stable isotope ratios, it was possible to trace trout ontogeny from parr development in a natal river to piscivory in the pelagic. Potential dilution of maternal isotope signatures from eggs to parr was also demonstrated. Despite the low productivity of the loch, intraspecific variability in isotope ratios suggested dietary specialization, rather than opportunism, in some individuals. [ABSTRACT FROM AUTHOR]

Published

2001