The effect of the salinity, light regime and food source on carbon and nitrogen uptake in a benthic foraminifer

Autor(en)

Michael Lintner, Bianca Lintner, Wolfgang Wanek, Nina Keul, Petra Heinz

Abstrakt

Foraminifera are unicellular organisms that play an important role in marine organic matter cycles. Some species are able to isolate chloroplasts from their algal food source and incorporate them as kleptoplasts into their own metabolic pathways, a phenomenon known as kleptoplastidy. One species showing this ability is Elphidium excavatum, a common foraminifer in the Kiel Fjord, Germany. The Kiel Fjord is fed by several rivers and thus forms a habitat with strongly fluctuating salinity. Here, we tested the effects of the food source, salinity and light regime on the food uptake (via N-15 and C-13 algal uptake) in this kleptoplast-bearing foraminifer. In our study E. excavatum was cultured in the lab at three salinity levels (15, 20 and 25) and uptake of C and N from the food source Dunaliella tertiolecta (Chlorophyceae) and Leyanella arenaria (Bacillariophyceae) were measured over time (after 3, 5 and 7 d). The species was very well adapted to the current salinity of the sampling region, as both algal N and C uptake was highest at a salinity of 20. It seems that E. excavatum coped better with lower than with higher salinities. The amount of absorbed C from the green algae D. tertiolecta showed a tendency effect of salinity, peaking at a salinity of 20. Nitrogen uptake was also highest at a salinity of 20 and steadily increased with time. In contrast, C uptake from the diatom L. arenaria was highest at a salinity of 15 and decreased at higher salinities. We found no overall significant differences in C and N uptake from green algae vs. diatoms. Furthermore, the food uptake at a light-dark rhythm of 16 : 8 h was compared to continuous darkness. Darkness had a negative influence on algal C and N uptake, and this effect increased with incubation time. Starving experiments showed a stimulation of food uptake after 7 d. In summary, it can be concluded that E. excavatum copes well with changes of salinity to a lower level. For changes in light regime, we showed that light reduction caused a decrease of C and N uptake by E. excavatum.

Organisation(en)

Institut für Paläontologie, Department für Mikrobiologie und Ökosystemforschung

Externe Organisation(en)

Christian-Albrechts-Universität zu Kiel, Universität Wien

Journal

Biogeosciences

Band

18

Seiten

1395-1406

Anzahl der Seiten

12

ISSN

1726-4170

DOI

https://doi.org/10.5194/bg-18-1395-2021

Publikationsdatum

08-2020

Peer-reviewed

Ja

ÖFOS 2012

106026 Ökosystemforschung

Schlagwörter

ASJC Scopus Sachgebiete

Earth-Surface Processes, Ecology, Evolution, Behavior and Systematics

Sustainable Development Goals

SDG 14 – Leben unter Wasser

Link zum Portal

https://ucrisportal.univie.ac.at/de/publications/df37e5bb-b0fc-4b44-af89-7973600c8393