Publication Date:
2014-05-16
Description:
In order to determine and understand the stable isotope fractionation of 18O and 15N manifested during assimilation of NO3− in marine macro-benthic algae, two species (Ulva sp. and Agardhiella sp.) have been grown in a wide range of NO3- concentrations (2–500 μM). Two types of experiments were performed. The first was one in which the concentration of the NO3− was allowed to drift downward as it was assimilated by the algae, between 24 h replacements of media. These experiments proceeded for periods of between seven and ten days. A second set of experiments maintained the NO3− concentration at a low steady state value by means of a syringe pump. The effective fractionation during the assimilation of the NO3− was determined by measuring the δ15N of both the (i) new algal growth, and (ii) residual NO3− in the free drift experiments after 0, 12, 24, and 48 h. Fitting models to these data show that the fractionation during assimilation is dependent upon the concentration of NO3− and is effectively zero at concentrations of less than 1 μM. The change in the fractionation with respect to concentration is the greatest at lower concentrations (1–10 μM). The fractionation determined using the δ15N of the NO3− or the solid algal material provided statistically the same result. Therefore, at typical marine concentrations of NO3−, fractionation during assimilation can probably be considered to be negligible. Although the δ18O and δ15N of NO3− in the residual solution were correlated, the slope of the relationship varied with NO3− concentration, with slopes of greater than unity at low concentration. These results suggest shifts in the dominant fractionation mechanism between 1 and 10 μM NO3−. At typical marine concentrations of NO3−, fractionation during assimilation can be considered to be negligible. However, at higher concentrations, fractionation during assimilation will lead to both δ15N values for algal biomass lower than the NO3− source, but also 15N enrichments in the residual NO3−.
Print ISSN:
1810-6277
Electronic ISSN:
1810-6285
Topics:
Biology
,
Geosciences
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