The minimum depth (2.5 m) was measu

The minimum depth (2.5 m) was measured in January while the maximum depth (62 m) was measured in April and May at station III. When observed closely, TSI values (average) are 21 at the lowest (May) and 66 at the highest (February). Stations I, II, and IV were found to be gradually transforming from a mesotrophic – eutrophic state to a eutrophic one. However, station III was in a mesotrophic – eutrophic state (Table 2, Figure 3). In his study based on the methods of Carlson (1977), Akkoyunlu (2003) reported that TSI values were between 40 and 60 and the lake was in mesotrophic – eutrophic state, which supports our study (Table 2, Figure 3). When a general evaluation was done according to all the physicochemical parameters, and when an examination of the quality criteria was carried ot based on inland water resources classification criteria, it was found tht the quality of water was in category I – II. In the present study a total of 8 species were the same as the ones reported by Noodt (1954), Tokat (1975), Ongan (1982), Dumont and de Ridder (1987), Gϋndϋz (1997), Akbulut (1999), Gϋndϋz (1999), and Gaygusuz et al. (2004); from the rotifers: B. quadridentatus, B. urceolaris, K. cochlearis, K. quadrata, P. dolichoptera, and F. longiseta; from the cladocerans B. longirostris; and from the copepods N. hibernica (Table 3).Of the species identified in previous studies, Acanthocyclops niceae, reported by Mann (1940); Nitocrella kosswigi, Paraleptastacus spincaudata, Parastenocaris phyllophora, Nannopus palustris, Limnocletodes behningi, and onychocamptus mohammed, reported by Toparlak (1975) and Ongan (1982); Hexarthra mira, reported by Tokat (1975) and Ongan (1982); Kellicottia longispina, Brachionus plicatilis, and Brachionus diversicornis, reported by Tokat (1975); Brachionus rubens, reported by Dumont and de Ridder (1987); Arctodiaptomus bacillifer, reported by Mann (1940), Toparlak (1975), and Ongan (1982); Diaphanosoma brachyurum, reported by Gϋndϋz (1999) and Gaygusuz et al. (2004); and Asplanchna pridonta, Synchaeta grandis, Trichocerca harveyensis, and Leptodora kindtii, reported by Gaygusuz et al. (2004) were not observed in our stud (Table 3). This may be explained by the fact that the species reported by Noodt (1954) were benthic species and the trophic state of the lake had changed over time. In determining the trophic state of the lake, rotifer species are used as an indicator. In the study carried out on Lake Īznik, Q was found to be 0.8. Thus, an evaluation based on the rotifer index says that the lake has oligotrophic characteristics in terms of zooplankton. Of the zooplanktonic organisms identified in the lake: B. urceolaris, B. calyciflorus, B. angularis, K. quadrata, K. cochlearis, P. quadricornis, E. dilatata, L. luna, F. longiseta, T. cylindrical, B. longirostris, C. sphaericus, C. vicinus, and T. crassus and among the species characteristic of eutrophic waters (Ustaoğlu, 1989; Makarewicz, 1993; Gutiérrez – Aguirre and Suárez – Morales, 2000). Of the rotifers: L. bulla (oligotrophic), B. urceolaris, B. calyciflorus, B. angularis, K. quadrata, K. cochlearis, P. quadricornis, E. dilatata, L. luna, F. longiseta, T. cylindrical, and T. patina (eutrophic);
Annotation: species marked by an asterisk are new records for Lake Īznik
(1) Mann (1940); (2) Noodt (1954); (3) Tokat (1975); (4) Toparlak (1975); (5) Ongan (1982); (6) Dumont & De Ridder (1987); (7) Gϋndϋz (1997); (9) Gϋndϋz (1999); (10) Gaygusuz et al. (2004); (11) current study.