Marc Pagano

Influence of salinity on the distribution of Acartia tonsa (Copepoda, Calanoida)

Abstract The calanoid copepod Acartia tonsa is the most abundant copepod species in the Berre Lagoon near Marseilles, France. This species can be found in a wide range of environments and therefore should be capable of colonizing the neighboring region of the Gulf of Fos. We test the hypothesis that differences in salinity between the Berre Lagoon and the Gulf of Fos prevents colonization of the latter by A. tonsa . The degree of tolerance of this species for changes in salinity was tested through laboratory experiments carried out with samples taken during a year long cycle. Its resistance towards different kinds of osmotic shocks was tested, and the optimal salinity for the population of A. tonsa of the Berre Lagoon was determined. The euryhalinity of A. tonsa was confirmed with these experiments, although it was demonstrated that this species shows high mortalities if the instantaneous change in salinity is greater than 10–15‰. Other complementary experiments were undertaken to define the maximum and minimum values of salinity on which this species could survive. The maximum salinity was 72‰, and the minimum was lower than 1‰. The optimal adaptation was found between 15 and 22‰.

Comparison of the metabolism of Acartia clausi and A. tonsa: influence of temperature and salinity.

In the Marseilles region (French Mediterranean coast), A. clausi is one of the most abundant copepod species of the Gulf of Fos while A. tonsa constitutes the almost exclusive copepod species of the Berre lagoon, a neighbouring semi-closed brackish area communicating with the gulf. As different ecophysiological capabilities to stand the various temperature, salinity and food conditions could explain why these two species do not coexist in the same environment, comparative experiments were performed on metabolism and feeding. The respiration and ammonia excretion of the two species were measured in different combinations of temperature (10, 15 and 20 degrees C) and salinity (15, 25 and 35 per thousand). For each temperature, at the salinity of 35 per thousand, respiration rates were less in A. clausi than in A. tonsa, the contrary being observed at the lowest salinity. At any temperature ammonia excretion was greater at the intermediate salinity in A. tonsa and least in A. clausi. In Acartia tonsa, Q(10) of respiration and excretion were minimum at the lowest salinity, while in A. clausi they were unaffected by salinity variation. The O:N atomic ratio (from respiration and ammonia excretion rates) was significantly more elevated in A. clausi (mean 21.2; range 13.6-28.7) than in A. tonsa (mean 11.3; range 4.2-25) suggesting a more proteinic oriented metabolism in the later. Feeding experiments where Dunaliella tertiolecta30 per thousand) or lagoon (<16 per thousand) salinity. The relationships between ingestion and food concentration in the two species were not significantly different. These different results are compared to other ecophysiological information concerning these Acartia species (survival tolerances, osmotic regulation, feeding behaviour) and are discussed in relation with the characteristics of their niches in the studied region.

Can tropical freshwater zooplankton graze efficiently on cyanobacteria

Zooplankton may at times graze cyanobacteria. However, their top-down effects are considered to be low, particularly in tropical regions dominated by small-size grazers that may be unable to consume efficiently filamentous or colonial species. Recently, cyanobacteria blooms were reported in the Senegal River hydrosystem. We conducted feeding experiments to assess the ability of copepods (Pseudodiaptomus hessei and Mesocyclops ogunnus), cladocerans (Moina micrura and Ceriodaphnia cornuta), and rotifers (Brachionus angularis, B. falcatus, and Keratella sp.) to control different cyanobacteria (Cylindrospermopsis raciborskii, Anabaena solitaria, A. flos-aquae, and Microcystis aeruginosa). None of the zooplankton species ingested M. aeruginosa. Mesocyclops ogunnus did not consume any of the cyanobacteria. Both cladocerans consumed the smallest filaments of cyanobacteria, whereas all the rotifers and P. hessei consumed a broader food-size spectrum. The functional feeding responses suggest that the concentration and size of the filaments are not the sole criteria for food consumption. The high zooplankton community grazing rates, estimated by applying the clearance rates measured in the laboratory to the in situ zooplankton abundance, indicate that grazing by zooplankton potentially constitutes an important controlling factor for the filamentous cyanobacteria in the tropics.

Zooplankton Variability in 49 Shallow Tropical Reservoirs of Ivory Coast (West Africa)

Zooplankton samples were collected from 49 small reservoirs of northern Ivory Coast in April 1997. Thirty taxa were identified, including 20 rotifers, 3 copepods and 6 cladocerans. The number of taxa per lake ranged between 12 to 22 and decreased with the total abundance of zooplankton. Copepods dominated standing biomass. Coinertia analysis suggested the role of seston food abundance, oxygen depletion and turbidity for zooplankton abundance and community structure. Rotifers, and particularly Brachionus angularis, Polyarthra and Filinia, were more abundant than copepods in the most eutrophic, turbid and deoxygenated reservoirs. The role of oxygen as a determinant of community structure is probably linked to the specific tolerance of taxa, but turbidity role could not be evaluated with certainty in the absence of information on visual predators.

Feeding behaviour and migrations in a natural population of the copepod Acartia tonsa

This paper deals with the variations on feeding activities and diel migrations of Acartia tonsa Dana, the dominant copepod species in Berre lagoon (west Mediterranean French coasts).A 27 hour in situ study was carried out during June 1989, at a station located in the south west of the lagoon. Vertical profiles of salinity, temperature and dissolved oxygen taken each 12 hours showed a stratification of the water column in two distinct layers: (1) a superficial layer with higher temperature, moderate salinity, and high oxygen concentrations; (2) a colder, more saline and almost anoxic deep layer. In situ chlorophyll a measurements were made at −1, −3 and −5 m; concentrations were relatively homogeneous through the water column during the whole sampling period.Zooplankton samples were collected every 3 hours with a 200 µm mesh net, in three strata (0–2 m, 2–4 m, 4–6 m). A complete dominance of A. tonsa was observed in the zooplankton community. Our results point out clearly a nocturnal migration, with individuals concentrating in both superficial layers; thus an unimodal migratory pattern can be inferred. Gut flourescence measured following the Mackas & Bohrer technique (1976), showed higher values during night time, and values for females were the highest with wider day—night variations. Similar results were found in laboratory experiments with copepods fed with a culture of Dunaliella tertiolecta.Gut evacuation rate was measured in two laboratory experiments either mixing or separating males and females. Evacuation rate was 17.92 and 27.25 min for males and females respectively.Phytoplankton daily ration for A. tonsa calculated by gut flourescence and gut evacuation rate was particularly low, for it represents only 10% of the individual carbon weight.Moreover, grazing impact on phytoplankton is very restricted, it represents less than 1% of the daily phytoplankton stock.

Répartition verticale du phytoplancton, des bactéries et du zooplancton dans un milieu stratifié en Baie de Biétri (Lagune Ebrié, Cote d'Ivoire). Relations trophiques

During the period of September–November 1981, a stratified condition was observed in Biétri Bay, a part of Ebrié Lagoon (Ivory Coast, Africa). The epilimnion was oxidised and in the hypolimnion, high concentrations of hydrogen sulfide were noted (200–400 mg · l−1).At the surface of the hypolimnion, a large population of phototrophic bacteria developed, constituting a brown layer composed of the purple and green bacteria Rhodopseudomonas sp., Chromatium gracile, Chlorobium vibrioforme, C. phaeobacteroides and Pelodictyon sp. These bacteria can be considered as particulate organic matter producers. Their production is estimated at about 1 530 mg C · m−2 · day−1. In the epilimnion, the algal production is 2 200 mg C · m−2 · day−1. Therefore, phototrophic bacterial production represented 41% of the total photosynthetic production. In the epilimnion, the zooplankton community (composed of copepods, rotifers and some cyclopids) was particularly concentrated near the chemocline where only low concentration of dissolved oxygen was available.Analysis of gut contents of the copepod Acartia clausi, which is the dominant species of the zooplankton, shows the importance of phototrophic bacteria and especially Rhodospirillaceae and Chromatium in its diet. This copepod seems to prefer phototrophic bacteria to both heterotrophic bacteria and phytoplancton. The vertical migration of the zooplankton community is partly conditioned by the search for nutrients i.e. phototrophic bacteria. Thus, bacteria contribute to the first trophic level of the food chain in this lagoon. Since they derive part of their energy from organic matter formed by primary producers, they cannot be considered as pure primary producers. However, in respect to the food chain they form food material for secondary producers (zooplankton).

Zooplankton food limitation and grazing impact in a eutrophic brackish-water tropical pond (Côte d'Ivoire, West Africa)

Gut fluorescence, feeding and egg production rates of zooplankton assemblages were measured in a shallow, eutrophic brackish-water pond for 24 days. Brachionus plicatilis, Hexarthra intermedia and Apocyclops panamensis successively developed and exhibited differences in food selectivity. Rotifers selected small particles but also had a preference for larger particles (15–21 μm, Equivalent Spherical Diameter, ESD). B. plicatilis appeared less selective than H. intermedia, which fed mostly on particles <6 μm. A. panamensis adults showed a selectivity for 6–21 μm ESD particles. Laboratory experiments suggested that A. panamensis adults were able to shift from seston to carnivorous feeding, depending on the availability of these food resources. Measurements of gut fluorescence and grazing gave comparable ingestion rates. Rotifers displayed the highest ingestion rates (up to 486% body C d-1). Despite high total phytoplankton and seston biomasses, the high ingestion rates and selective grazing of rotifers induced auto food-limitation phenomena and caused major changes in seston abundance and size structure. Grazing impact was less important when A. panamensis dominated.

Metazooplankton communities in the Ahe atoll lagoon (Tuamotu Archipelago, French Polynesia): Spatiotemporal variations and trophic relationships

Metazooplankton abundance, biomass (<80 μm, 200-500 μm and >500 μm) and community structure in the Ahe atoll were studied together with their relationships with environmental factors (temperature, salinity, wind) and trophic factors (phytoplankton, bacteria, heterotrophic nanoflagellates (HNF) and ciliates) during three periods in 2008-2009. Meroplankton, mainly bivalve and gastropod larvae, was dominant. Holoplankton was dominated by copepods, the main species being Oithona spp., Paracalanus parvus, Clausocalanus spp., Corycaeus spp., Acartia fossae and Undinula vulgaris. The results suggest a clear wind influence on the structure and horizontal distribution of the zooplankton communities. The metazooplankton appeared to be controlled mainly by food resources, suggesting a bottom-up control. The low nanophytoplankton biomass in contrast to the high abundance of picophytoplankton, HNF and nano-particle grazers (mainly Oithona spp., Paracalanus and bivalve larvae) highlighted the importance of the microbial loop in the food web.

Man-induced hydrological changes, metazooplankton communities and invasive species in the Berre Lagoon (Mediterranean Sea, France).

The Berre Lagoon has been under strong anthropogenic pressure since the early 1950s. The opening of the hydroelectric EDF power plant in 1966 led to large salinity drops. The zooplankton community was mainly composed of two common brackish species: Acartia tonsa and Brachionus plicatilis. Since 2006, European litigation has strongly constrained the input of freshwater, maintaining the salinity above 15. A study was performed between 2008 and 2010 to evaluate how these modifications have impacted the zooplankton community. Our results show that the community is more diverse and contains several coastal marine species (i.e., Centropages typicus, Paracalanus parvus and Acartia clausi). A. tonsa is still present but is less abundant, whereas B. plicatilis has completely disappeared. Strong predatory marine species, such as chaetognaths, the large conspicuous autochtonous jellyfish Aurelia aurita and the invasive ctenophore Mnemiopsis leidyi, are now very common as either seasonal or permanent features of the lagoon.

Peuplements et biomasse zooplanctonique dans des etangs de pisciculture lagunaire (Layo, Côte d'Ivoire)

Abstract Variation of physico-chemical parameters, phytoplankton biomass, and the composition and abundance of zooplankton were studied in brackish water pisciculture ponds after liming and filling. Two successive peaks of abundance were observed for both phyto- and zooplankton, followed by a decrease in biomass which then became more or less stable at lower values. The first zooplankton peak (2–2.5 g DW/m3) was almost exclusively made up of rotifers and it occurred 8–10 days after liming. Crustacea developed later and dominated the second peak of abundance (1.2–1.4 g) occurring 13–20 days after liming. Total biomass then fell and fluctuated around 0.3 g. The distribution in size classes was estimated in terms of numbers and biomasses. It shows that the population of the ponds studied is composed mainly of small organisms in spite of the lack of predators. Results are analysed with regard to possible application in rearing fish larvae.