An approach to measure ciliate grazing on living heterotrophic nanoflagellates

TY - JOUR

T1 - An approach to measure ciliate grazing on living heterotrophic nanoflagellates

AU - Christoffersen, K.

AU - González, J. M.

PY - 2003

Y1 - 2003

N2 - The complicated routes by which organic material is channelled up to higher trophic levels via bacteria and protozoans is a major issue in aquatic microbial ecology. Because of the fragile nature of protists it is not straightforward to perform experimental studies of prey–predator interactions. Here we present an approach for the assessment of ciliate grazing on living heterotrophic nanoflagellates. Stationary phase cultures of a heterotrophic nanoflagellate (Cafeteria sp.) were live-stained by allowing them to take up fluorescently labelled macromolecules. Controls revealed that this label persisted for several hours. Fluorescently labelled living flagellates (FLLF) were added into enriched natural assemblages of marine oligotrich ciliates and uptake of FLLF was monitored over time. Oligotrich ciliates did not incorporate fluorescent-labelled macromolecules but a linear FLLF uptake over time was observed for 20–30 min at 20°C. Ingestion rates were 21–46 FLLF h–1 at a concentration of about 2×104 FLLF ml–1, which corresponded to clearance rates of 0.7–0.8 l ciliate–1 h–1. These results are in the same order of reported ciliate grazing on phytoplankton of similar size. This method represents a direct approach to measure ciliate grazing specifically on living heterotrophic nanoflagellates.

AB - The complicated routes by which organic material is channelled up to higher trophic levels via bacteria and protozoans is a major issue in aquatic microbial ecology. Because of the fragile nature of protists it is not straightforward to perform experimental studies of prey–predator interactions. Here we present an approach for the assessment of ciliate grazing on living heterotrophic nanoflagellates. Stationary phase cultures of a heterotrophic nanoflagellate (Cafeteria sp.) were live-stained by allowing them to take up fluorescently labelled macromolecules. Controls revealed that this label persisted for several hours. Fluorescently labelled living flagellates (FLLF) were added into enriched natural assemblages of marine oligotrich ciliates and uptake of FLLF was monitored over time. Oligotrich ciliates did not incorporate fluorescent-labelled macromolecules but a linear FLLF uptake over time was observed for 20–30 min at 20°C. Ingestion rates were 21–46 FLLF h–1 at a concentration of about 2×104 FLLF ml–1, which corresponded to clearance rates of 0.7–0.8 l ciliate–1 h–1. These results are in the same order of reported ciliate grazing on phytoplankton of similar size. This method represents a direct approach to measure ciliate grazing specifically on living heterotrophic nanoflagellates.

U2 - 10.1023/A:1024459605469

DO - 10.1023/A:1024459605469

M3 - Journal article

SN - 0018-8158

VL - 491

SP - 159

EP - 166

JO - Journal of Aquatic Ecosystem Health

JF - Journal of Aquatic Ecosystem Health

IS - 1-3

ER -