The stable isotopic composition of Daphnia ephippia reflects changes in d13C and d18O values of food and water
The stable isotopic composition of Daphnia ephippia reflects changes in d13C and d18O values of food and water
The stable isotopic composition of fossil resting eggs (ephippia) of Daphnia spp. is being used to reconstruct past environmental conditions in lake ecosystems. However, the underlying assumption that the stable isotopic composition of the ephippia reflects the stable isotopic composition of the parent Daphnia, of their diet and of the environmental water have yet to be confirmed in a controlled experimental setting. We performed experiments with Daphnia pulicaria cultures, which included a control treatment conducted at 12 °C in filtered lake water and with a diet of fresh algae and three treatments in which we manipulated the stable carbon isotopic composition (?13C value) of the algae, stable oxygen isotopic composition (?18O value) of the water and the water temperature, respectively. The stable nitrogen isotopic composition (?15N value) of the algae was similar for all treatments. At 12 °C, differences in algal ?13C values and in ?18O values of water were reflected in those of Daphnia. The differences between ephippia and Daphnia stable isotope ratios were similar in the different treatments (?13C: +0.2 ± 0.4 ‰ (standard deviation); ?15N: ?1.6 ± 0.4 ‰; ?18O: ?0.9 ± 0.4 ‰), indicating that changes in dietary ?13C values and in ?18O values of water are passed on to these fossilizing structures. A higher water temperature (20 °C) resulted in lower ?13C values in Daphnia and ephippia than in the other treatments with the same food source and in a minor change in the difference between ?13C values of ephippia and Daphnia (to ?1.3 ± 0.3 ‰). This may have been due to microbial processes or increased algal respiration rates in the experimental containers, which may not affect Daphnia in natural environments. There was no significant difference in the offset between ?18O and ?15N values of ephippia and Daphnia between the 12 and 20 °C treatments, but the ?18O values of Daphnia and ephippia were on average 1.2 ‰ lower at 20 °C than at 12 °C. We conclude that the stable isotopic composition of Daphnia ephippia provides information on that of the parent Daphnia and of the food and water they were exposed to, with small offsets between Daphnia and ephippia relative to variations in Daphnia stable isotopic composition reported from downcore studies. However, our experiments also indicate that temperature may have a minor influence on the ?13C, ?15N and ?18O values of Daphnia body tissue and ephippia. This aspect deserves attention in further controlled experiments
3819-3830
Schilder, J.
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Tellenbach, C.
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Möst, M.
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Spaak, P.
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van Hardenbroek, M.
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Wooller, M.J.
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Heiri, O.
21199b62-05e6-48ca-ac1e-a4665e7e6801
2015
Schilder, J.
2bcce33e-a802-4faa-8084-b10987e7b553
Tellenbach, C.
1bf4a314-6bc3-4009-aa91-01e5b1ed40b1
Möst, M.
db3200bf-36f1-415c-92af-219c2c66e990
Spaak, P.
4fc1b57f-2bd8-425e-97ef-537e874c7f67
van Hardenbroek, M.
7ddff57e-78f7-444a-a3fc-946ef7f7bbfc
Wooller, M.J.
5b766f6f-7840-4a71-a037-031fcec30b69
Heiri, O.
21199b62-05e6-48ca-ac1e-a4665e7e6801
Schilder, J., Tellenbach, C., Möst, M., Spaak, P., van Hardenbroek, M., Wooller, M.J. and Heiri, O.
(2015)
The stable isotopic composition of Daphnia ephippia reflects changes in d13C and d18O values of food and water.
Biogeosciences, 12 (12), .
(doi:10.5194/bg-12-3819-2015).
Abstract
The stable isotopic composition of fossil resting eggs (ephippia) of Daphnia spp. is being used to reconstruct past environmental conditions in lake ecosystems. However, the underlying assumption that the stable isotopic composition of the ephippia reflects the stable isotopic composition of the parent Daphnia, of their diet and of the environmental water have yet to be confirmed in a controlled experimental setting. We performed experiments with Daphnia pulicaria cultures, which included a control treatment conducted at 12 °C in filtered lake water and with a diet of fresh algae and three treatments in which we manipulated the stable carbon isotopic composition (?13C value) of the algae, stable oxygen isotopic composition (?18O value) of the water and the water temperature, respectively. The stable nitrogen isotopic composition (?15N value) of the algae was similar for all treatments. At 12 °C, differences in algal ?13C values and in ?18O values of water were reflected in those of Daphnia. The differences between ephippia and Daphnia stable isotope ratios were similar in the different treatments (?13C: +0.2 ± 0.4 ‰ (standard deviation); ?15N: ?1.6 ± 0.4 ‰; ?18O: ?0.9 ± 0.4 ‰), indicating that changes in dietary ?13C values and in ?18O values of water are passed on to these fossilizing structures. A higher water temperature (20 °C) resulted in lower ?13C values in Daphnia and ephippia than in the other treatments with the same food source and in a minor change in the difference between ?13C values of ephippia and Daphnia (to ?1.3 ± 0.3 ‰). This may have been due to microbial processes or increased algal respiration rates in the experimental containers, which may not affect Daphnia in natural environments. There was no significant difference in the offset between ?18O and ?15N values of ephippia and Daphnia between the 12 and 20 °C treatments, but the ?18O values of Daphnia and ephippia were on average 1.2 ‰ lower at 20 °C than at 12 °C. We conclude that the stable isotopic composition of Daphnia ephippia provides information on that of the parent Daphnia and of the food and water they were exposed to, with small offsets between Daphnia and ephippia relative to variations in Daphnia stable isotopic composition reported from downcore studies. However, our experiments also indicate that temperature may have a minor influence on the ?13C, ?15N and ?18O values of Daphnia body tissue and ephippia. This aspect deserves attention in further controlled experiments
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Published date: 2015
Organisations:
Palaeoenvironment Laboratory (PLUS)
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Local EPrints ID: 378319
URI: http://eprints.soton.ac.uk/id/eprint/378319
ISSN: 1726-4170
PURE UUID: cd4a58df-63de-4c32-bdcd-fe2bd7a9d8e5
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Date deposited: 29 Jun 2015 13:29
Last modified: 14 Mar 2024 20:20
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Author:
J. Schilder
Author:
C. Tellenbach
Author:
M. Möst
Author:
P. Spaak
Author:
M. van Hardenbroek
Author:
M.J. Wooller
Author:
O. Heiri
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