Size-specific opal-bound nitrogen isotope measurements in North Pacific sediments
The nitrogen isotope composition of diatom opal (delta N-15(db)) is a valuable recorder of nitrate utilization in the polar surface oceans and a measure of the efficiency of the biological pump. Past down-core records of delta N-15(db) involved the measurement of the biogenic opal fraction up to 150...
| Published in: | Geochimica et Cosmochimica Acta |
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| Main Authors: | , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | unknown |
| Published: |
Elsevier
2013
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| Subjects: | |
| Online Access: | https://edoc.unibas.ch/73045/ https://doi.org/10.1016/j.gca.2013.06.041 |
| Summary: | The nitrogen isotope composition of diatom opal (delta N-15(db)) is a valuable recorder of nitrate utilization in the polar surface oceans and a measure of the efficiency of the biological pump. Past down-core records of delta N-15(db) involved the measurement of the biogenic opal fraction up to 150 mu m in size, which should represent the bulk of the preserved diatoms but may also include non-diatom opal such as radiolaria and sponge spicules. In this study, the opal from subarctic Pacific and Bering Sea sediments from the Holocene back to the last glacial was separated into different size fractions to measure their individual delta N-15. We found a general trend of decreasing delta N-15 with increasing size at all sites and through time. Microscopic investigation of smear slides and image area analysis of microphotographs of the analyzed opal revealed that the larger size fractions contained greater proportions of sponge spicules and radiolaria. Manual isolation and measurement of the sponge spicules showed that they have a very low delta N-15 (similar to -11 parts per thousand). Ultrasonication during sample preparation caused greater spicule and radiolaria contamination due to fragmentation of these relatively large fossils, leading to a dramatic delta N-15(db) decrease with increasing size and lower delta N-15(db) across all size fractions in sonicated versus non-sonicated samples. Nevertheless, these contaminants were also present albeit less abundant in the various size fractions of samples separated without sonication, and these samples also showed a delta N-15(db) decrease with increasing size. Simple isotope mass-balance calculations of Holocene Bering Sea sediments indicate that most of the delta N-15(db) variations among the larger size fractions can be explained by the relative abundance of low-delta N-15 sponge spicules in each fraction. However, some of the size fraction delta N-15 differences in the downcore records require a different explanation. Both diatom inter-or intra-species effects are ... |
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