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Seasonal Succession (seasonal + succession)

Distribution by Scientific Domains
Life Sciences80%

Selected Abstracts

Seasonal succession of Cylindrospermopsis raciborskii and Aphanizomenon ovalisporum blooms with cylindrospermopsin occurrence in the volcanic Lake Albano, Central Italy

ENVIRONMENTAL TOXICOLOGY, Issue 1 2010
Valentina Messineo
Abstract The cyanobacterial toxin cylindrospermopsin is rapidly spreading in the European temperate Countries. Cylindrospermopsin was detected for the first time in Italy in 2004; in this study, the presence of this toxin in Albano Lake (Central Italy) has been correlated to the cyanobacterial species Cylindrospermopsis raciborskii and Aphanizomenon ovalisporum and their population dynamics. In 2004, these two species succeeded in the lake during spring, summer, and early autumn without overlapping, causing superficial blooms. Cylindrospermopsin was detected in lake samples by LC-MS/MS and ELISA immunoassay, showing extracellular superficial values ranging from 2.6 to 126 ,g/L, and water column values ranging from 0.41 to 18.4 ,g/L. Twenty-six of 30 positive water samples (86%) exceeded the recommended limit of 1 ,g/L. Intracellular values up to 42.3 ,g/g were measured. Moreover, cylindrospermopsin was detected in tissues from two Salmo trutta trouts (up to 2.7 ng/g) and in a well for drinking water supply (1.6 ,g/L). For the first time, two cyanobacterial species producing cylindrospermopsin were detected in the same lake in Italy. © 2009 Wiley Periodicals, Inc. Environ Toxicol 2010. [source]

How well can the fatty acid content of lake seston be predicted from its taxonomic composition?

FRESHWATER BIOLOGY, Issue 9 2010
A. BEC
Abstract 1. Results from the few field studies that have tried to relate seston taxonomic and fatty acid (FA) composition suggest that phytoplankton composition only partially explains seston FA composition. However, in these studies, the heterotrophic components of seston (i.e. bacteria and heterotrophic protists) have not been accounted for. 2. The general premise of this article was that including the contribution of heterotrophs to seston biomass can improve understanding of the variability in seston FA composition. This was tested for an oligotrophic clearwater lake, in which the taxonomic and FA compositions of seston, fractionated into three size classes, were monitored every 2 weeks over a growth season. The relationship between seston taxonomic and FA composition was studied using canonical correlation analyses. 3. Because of their relative richness in branched FA and lack of highly unsaturated FAs (HUFA) compared to autotrophs and other protists, the contribution of bacteria to seston biomass was shown to explain an important part of the differences in FA composition between the different seston size classes. Phytoplankton seasonal succession also affected the FA composition of seston but only for size classes that were dominated by autotrophs. 4. The results also indicated that heterotrophic protists such as ciliates and heterotrophic nanoflagellates might substantially influence the seston FA, and especially, HUFA, composition. 5. The per cent of variability in seston FA composition that was explained by its taxonomic composition was still relatively low, even when taking account of heterotrophs. Hence, other possible influences, such as phytoplankton species composition, physiological state and the contribution of terrestrial detritus, need investigation. [source]

Cladoceran community responses to biomanipulation and re-oligotrophication in Lake Vesijärvi, Finland, as inferred from remains in annually laminated sediment

FRESHWATER BIOLOGY, Issue 6 2010
MIRVA NYKÄNEN
Summary 1. We studied the role of zooplankton in biomanipulation and the subsequent recovery phase in the Enonselkä basin of Lake Vesijärvi, using subfossil cladocerans in annually laminated sediment. Measures to restore the Enonselkä basin included reduction in external nutrient loading and mass removal of plankti- and benthivorous fish. Water clarity increased and the lake changed from a eutrophic to a mesotrophic state. However, some signs of increased turbidity were observed after 5,10 years of successful recovery. 2. Annual laminae in a freeze core sample were identified and sliced, based on the seasonal succession of diatoms. Cladoceran remains and rotifer eggs were counted, and Daphnia ephippia and Eubosmina and Bosmina ephippia and carapaces were measured. Annual changes in pelagic species composition were studied with principal component analysis. Individual species abundance, size measurements and various cladoceran-based indices or ratios (commonly used to reconstruct changes in trophic state and fish predation) were tested for change between four distinct periods: I (1985,1988) dense fish stocks, poor water quality; II (1989,1992) fish removal; III (1993,1997) low fish density, improved water quality; IV (1998,2002) slightly increased fish density and poorer water quality. 3. After the removal of fish, the mean size of Daphnia ephippia and Eubosmina crassicornis ephippia and carapaces increased significantly. In contrast, the percentage of Daphnia did not increase. When based on ephippia, the ratio Daphnia/(Daphnia + E. crassicornis) increased, but the interpretation was obscured by the tolerance of fish predation by small Daphnia and by the fact that bosminids were the preferred food of roach. Moreover, ephippial production by E. crassicornis decreased in recent years. 4. The abundance of Diaphanosoma brachyurum and Limnosida frontosa increased significantly after the fish population was reduced, while that of Ceriodaphnia and rotifers decreased. 5. The expanding littoral vegetation along with improved water clarity was clearly reflected in the concentration of littoral species in the deep sediment core. The species diversity index for the entire subfossil community also increased. 6. The period of faltering recovery was characterised by greater interannual variability and an increased percentage of rotifers. Nevertheless, the mean sizes of Daphnia ephippia and E. crassicornis ephippia and carapaces indicated a low density of fish. The deteriorating water quality was apparently related to multiple stressors in the catchment after rehabilitation, such as intensified lakeshore building, as well as to exceptional weather conditions, challenging the management methods in use. [source]

Diversity and seasonal succession of coastal mosquitoes (Diptera: Culicidae) in the northern Adelaide region of South Australia

AUSTRALIAN JOURNAL OF ENTOMOLOGY, Issue 2 2009
Craig R Williams
Abstract Northern coastal suburbs in metropolitan Adelaide, South Australia are often subject to extreme levels of mosquito nuisance biting. The diversity and seasonality of the mosquito community in the coastal area of northern Adelaide was investigated over 7 years (2000,2007) in the suburb of Globe Derby Park, which is adjacent to both mangrove and samphire swamps. Eight species were identified from adult mosquito collections, with the salt marsh mosquitoes Aedes camptorhynchus (Thomson) (55.7%) and Ae. vigilax (Skuse) (29.5%) most abundant. These two species display seasonal succession, with the former most abundant in spring and early summer, giving way to the latter in mid-late summer and autumn. Logistic regression showed that Ae. camptorhynchus abundance spikes were associated with lower temperatures, higher rainfall and increasing day length (r2 = 0.38). Aedes vigilax abundance spikes were associated with higher temperatures and decreasing day length (r2 = 0.52). The description of such temporal succession in salt marsh mosquitoes in southern Australia is novel. The analysis presented might therefore lead to the development of mosquito nuisance predictive tools and novel mosquito management strategies. [source]