1. Stimulation of metazooplankton by photochemically modified dissolved organic matter.
- Author
-
Daniel, Cesar, Granéli, Wilhelm, Kritzberg, Emma S., and Anesio, Alexandre M.
- Subjects
ZOOPLANKTON ,BACTERIA ,MASS (Physics) ,PROKARYOTES ,FUNGUS-bacterium relationships ,ORGANIC compounds ,RADIATION ,CARBON - Abstract
We examined the response of bacteria and proto- and metazooplankton to photomodified dissolved organic matter (DOM). Sterile filtered water from a eutrophic and a humic lake, that was either exposed to artificial ultraviolet (UV) radiation or kept dark, was added to semicontinuous laboratory microcosms that lasted for 7 weeks. Bacterial production responded positively to photochemical modification of DOM regardless of lake type. Final heterotrophic biomass (bacteria + proto + metazooplankton) was 47 ± 5 and 37 ± 5 µg carbon (C) L
-1 in microcosms with UV-exposed and unaltered eutrophic water DOM and 15 ± 4 and 11 ± 2 µg C L-1 in microcosms with UV-exposed and unaltered humic water DOM, respectively. For the eutrophic water, there were no significant differences in proto- or metazooplankton biomasses between microcosms receiving UV-exposed or nonexposed DOM. Differences between eutrophic water microcosms were not significant when flagellates, ciliates, cladocerans, and copepods were examined separately. In microcosms with UV-exposed humic water, biomasses of heterotrophic flagellates, rotifers, nauplii, and cladocerans were higher than in those with nonexposed DOM. Higher final metazooplankton biomass following addition of UV-exposed humic water indicates that photochemically modified DOM can be effectively transferred through the microbial loop. [ABSTRACT FROM AUTHOR]- Published
- 2006
- Full Text
- View/download PDF