Body size and dispersal mode as key traits determining metacommunity structure of aquatic organisms.

Relationships between traits of organisms and the structure of their metacommunities have so far mainly been explored with meta-analyses. We compared metacommunities of a wide variety of aquatic organism groups (12 groups, ranging from bacteria to fish) in the same set of 99 ponds to minimise biases inherent to meta-analyses. In the category of passive dispersers, large-bodied groups showed stronger spatial patterning than small-bodied groups suggesting an increasing impact of dispersal limitation with increasing body size. Metacommunities of organisms with the ability to fly (i.e. insect groups) showed a weaker imprint of dispersal limitation than passive dispersers with similar body size. In contrast, dispersal movements of vertebrate groups (fish and amphibians) seemed to be mainly confined to local connectivity patterns. Our results reveal that body size and dispersal mode are important drivers of metacommunity structure and these traits should therefore be considered when developing a predictive framework for metacommunity dynamics.

Effects of peracetic acid and monochloramine on the inactivation of Naegleria lovaniensis.

Biocidal activities of monochloramine and peracetic acid were studied on cysts of Naegleria lovaniensis. Until recently the most commonly used biocide to disinfect cooling water systems was hypochlorite. Owing to its negative impact on the aquatic environment, ecologically less harmful alternatives have been sought. As the biocidal activity of monochloramine and peracetic acid makes them good candidates for inactivation of pathogenic Naegleria species, these biocides were tested against Naegleria lovaniensis, a relative of the pathogen Naegleria fowleri, as an alternative treatment to hypochlorite. Under laboratory conditions the biocidal activity of hypochlorite was 8- 10x stronger than that of the two investigated substances. Hypochlorite, at a concentration of 0.5 mg/L, killed 100% Naegleria lovaniensis after 1 h exposure (25 degrees C, pH 7.3- 7.4). To achieve similar results with monochloramine and peracetic acid, 3.94 mg/L or 5.33 mg/L had to be used respectively (25 degrees C, pH 8). It was known that the in situ biota of the biofilm, along with any organic material in the water column, had a negative impact on the efficiency of the biocides. There are, however, indications that the relative efficacy of monochloramine and peracetic acid was quite good under such conditions when compared with hypochlorite.