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Efficiency of different mesh sizes for isolating fossil chironomids for stable isotope and radiocarbon analyses

Efficiency of different mesh sizes for isolating fossil chironomids for stable isotope and radiocarbon analyses
Efficiency of different mesh sizes for isolating fossil chironomids for stable isotope and radiocarbon analyses
We examined the effects of sieving with different mesh sizes on the efficiency of processing fossil chironomids from lake sediments for isotope analyses. Results obtained for three different sediments indicate that each of the studied sieve fractions (100–150, 150–200, 200–250, 250–300, >300 ?m) contain a similar proportion of the overall mass of chironomid fossils in a sample. However, the sorting time needed to separate chironomids from other sieve residue is disproportionately large for smaller mesh sizes. Employing sieves with a 200-?m rather than the 100-?m mesh commonly used for standard palaeoecological analyses of fossil chironomids decreased processing time for a given mass of fossils by 30–58% in our study. For optimizing the efficiency of chironomid sample processing for stable isotope and radiocarbon analysis we therefore recommend a 200-?m mesh size sieve, although the sorting of all >100-?m fractions may be necessary in sediments with low chironomid abundances. Excluding certain small taxa from isotope analysis, may structurally bias isotope values of samples. Therefore, further studies on taxon-specific isotope analysis are required to quantify these effects.
fossil chironomids, stable isotopes, radiocarbon palaeolimnology, lake sediments
0921-2728
721-729
van Hardenbroek, Maarten
7ddff57e-78f7-444a-a3fc-946ef7f7bbfc
Heiri, Oliver
4f35ae4c-8a16-4177-8738-71277d0de09c
Lotter, André F.
0b85abc7-81ac-4644-aa86-c0f43255ca88
van Hardenbroek, Maarten
7ddff57e-78f7-444a-a3fc-946ef7f7bbfc
Heiri, Oliver
4f35ae4c-8a16-4177-8738-71277d0de09c
Lotter, André F.
0b85abc7-81ac-4644-aa86-c0f43255ca88

van Hardenbroek, Maarten, Heiri, Oliver and Lotter, André F. (2010) Efficiency of different mesh sizes for isolating fossil chironomids for stable isotope and radiocarbon analyses. Journal of Paleolimnology, 44 (2), 721-729. (doi:10.1007/s10933-009-9327-6).

Record type: Article

Abstract

We examined the effects of sieving with different mesh sizes on the efficiency of processing fossil chironomids from lake sediments for isotope analyses. Results obtained for three different sediments indicate that each of the studied sieve fractions (100–150, 150–200, 200–250, 250–300, >300 ?m) contain a similar proportion of the overall mass of chironomid fossils in a sample. However, the sorting time needed to separate chironomids from other sieve residue is disproportionately large for smaller mesh sizes. Employing sieves with a 200-?m rather than the 100-?m mesh commonly used for standard palaeoecological analyses of fossil chironomids decreased processing time for a given mass of fossils by 30–58% in our study. For optimizing the efficiency of chironomid sample processing for stable isotope and radiocarbon analysis we therefore recommend a 200-?m mesh size sieve, although the sorting of all >100-?m fractions may be necessary in sediments with low chironomid abundances. Excluding certain small taxa from isotope analysis, may structurally bias isotope values of samples. Therefore, further studies on taxon-specific isotope analysis are required to quantify these effects.

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van Hardenbroek et al 2010 Mesh size.pdf - Version of Record
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Published date: 1 August 2010
Keywords: fossil chironomids, stable isotopes, radiocarbon palaeolimnology, lake sediments
Organisations: Palaeoenvironment Laboratory (PLUS)

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Local EPrints ID: 355827
URI: http://eprints.soton.ac.uk/id/eprint/355827
DOI: doi:10.1007/s10933-009-9327-6
ISSN: 0921-2728
PURE UUID: 0326cc1b-3ad9-43e1-8433-e79a2a327f26

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Date deposited: 06 Sep 2013 08:18
Last modified: 14 Mar 2024 14:38

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Author: Maarten van Hardenbroek
Author: Oliver Heiri
Author: André F. Lotter

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