Abstract
Rotifers are microscopic organisms that could be present in fresh as in brackish water. Some species are widely tolerant of the environmental conditions, while others are characteristic of fresh water.
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1 Introduction
Rotifers are microscopic organisms that could be present in fresh as in brackish water. Some species are widely tolerant of the environmental conditions, while others are characteristic of fresh water (Brummett 2000). Knowledge of rotifer fauna in Algeria is very limited. For this purpose the main objective of this work was to update the list of rotifers species in Algeria. The study area is Foum El Ghis dam characterized by a maximum depth that does not exceed 2 m and a transparency of less than 0.5 m, as well as the presence of emerging aquatic vegetation.
2 Materials and Methods
Plankton samples were collected seasonally between spring 2014 and winter 2015, using a 50-μm mesh net. Samples were fixed in 5% formalin solution. Rotifers were identified using conventional light microscopy and appropriate identification keys. We used a bottle with a capacity of 1 L. Six physico-chemical variables were measured in situ (temperature, pH, conductivity, salinity and dissolved oxygen by a multiparameters analyser of the type WTW 340i and transparency by a Secchi disk).
3 Results and Discussion
The temperature values of the water are high in summer 22.6 °C and low in winter 12.9 °C. (The high value was related to the time of collection which was at 6:10 Am) but generally follows a seasonal trend. The minimum concentration of dissolved oxygen was 4.9 mg/l. The very low values of this latter recorded during the summer season are related to the increase in water temperature (Arrignon 1998). Salinity varied between 0 and 0.2 psu, and conductivity between 520 and 844 μs cm−1. The average pH value was 7.59. The depth is 0.5 in summer and 5 m in spring. Transparency values varied between 0.1 m during summer season and 0.2 m in spring.
The faunistic census of the rotifer species shows the presence of 23 species, two are mentioned for the first time in Algeria. These species are Lecane stenroosi (Meissner 1908) and Trichocerca lophoessa (Gosse 1886). Their distribution in each season is shown in Table 1.
The total absence of rotifer species during spring is related to the high turbidity of the water (depth: 5 m and transparency: 0.2 m). The decline in specific richness in winter is due to floods. K. tecta is the most abundant species in our study site, despite the presence of its predator As. priodonta. According to (Gopko and Telesh 2013), this species has the ability to reproduce under favorable conditions despite their predator which is present in low density, reflecting that our environment is favorable for its development. The second species K. tropica is abundant especially in summer. This species is widespread in tropical fresh waters, extending into sub-tropical areas in the summer (Green 1980). It has the capacity to tolerate high temperatures (Khalifa et al. 2015). The two species Lecane stenroosi and Trichocerca lophoessa have a wide distribution. They are present in Afrotropical, Australian, Nearctic, Neotropical, Oriental and Palearctic regions (Segers 2007). Most of the studied species develop in similar intervals of temperature and pH to those described by De manuel (2000). Some species such as K. tropica, F. terminalis, F. longiseta, As. priodonta, L. stenroosi and Trichocerca sp. can develop at low oxygen values.
4 Conclusion
This study allowed us to better our knowledge about the richness of rotifer species in the Algerian fresh waters and also to discover Two new species for the Algerian fauna. The temporal evolution of the rotifers community depended on several environmental factors, some of them are tolerant of anoxic conditions, whereas others require high concentrations of oxygen. Other factors (e.g. floods) can also influence the species composition.
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Doukhandji, N., Hamil, S., Arab, A. (2018). Rotifers of Foum El Ghis Dam. In: Kallel, A., Ksibi, M., Ben Dhia, H., Khélifi, N. (eds) Recent Advances in Environmental Science from the Euro-Mediterranean and Surrounding Regions. EMCEI 2017. Advances in Science, Technology & Innovation. Springer, Cham. https://doi.org/10.1007/978-3-319-70548-4_118
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DOI: https://doi.org/10.1007/978-3-319-70548-4_118
Publisher Name: Springer, Cham
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