List of Zooplankton Taxa in the Caspian SeaWaters of Iran

A total of 61 zooplankton taxa were found in the southwestern Caspian Sea between 1996 and 2010. irteen of them were meroplankton taxa and forty-eight were holoplankton taxa. e occurrence of 14 freshwater taxa indicated the in�uence of the Anzali wetland and river in�ows. e decrease in zooplankton taxa was detected since 1996-1997 and continued till 2010. Pleopis polyphemoides, the only one out of the nine recorded Cladocera species in 1996-1997, was found aer 2001. Similarly, of the �ve Copepoda species recorded in 1996-1997, only one, Acartia tonsa, was found abundant during the 2001–2010 sampling period. It was striking thatmany species whichwere abundant in theCaspian Sea in 1996-1997were not found aer 2000.Many reasons could have contributed to the changes in the zooplankton composition of the southern Caspian Sea, notably the serious environmental degradation since the early 1990s. It is also possible that invasive species might play a role in wiping out some sensitive endemic species.


Introduction
e Caspian Sea is a large inland water body.It is called a sea even though not being directly connected to any marine system due to its large size [1].Water is mainly sourced from the big river Volga in the north (almost 76.3% of the total), and other rivers like Kura, Ural, Terek, and Se�drood [2].In the Iranian coast, the Se�drood river is the largest river pouring into the Caspian Sea with 67,000 km 2 of catchment area and an average discharge of 4,037 million m 3 per year [3,4].e Caspian Sea has undergone signi�cant ecological alteration during the past 30 years.is could be linked to dramatic changes in the southern Caspian Sea due to increased pollution: sewage, industry effluent, and agricultural waste water discharges into the river as well as deforestation of the river's watersheds [5,6].
Zooplankton is recognized among the best indicators to be particularly useful to investigate and document environmental changes [7].Main zooplankton taxa have short life cycle and the community structure is able to re�ect real-time scenario as it is less enforced by the stability of individuals from previous years [8].Besides this, zooplankton is also the food of choice for many �shes and as such plays a very significant role in pilaring the upper stages of the food chain [9].
Bagirov [10] reported that the number of zooplankton taxa was almost 200 in the northern Caspian Sea with 70 taxa of Protista, 50 taxa of Rotatoria, 30 taxa of Cladocera, and 20 taxa of Copepoda.Meroplankton, represented mainly by larvae of bivalves and crustaceans, contributed to the biodiversity of plankton communities in the North.Whereas in the South of Caspian Sea, Hossieni et al. [11] documented that zooplankton community consisted of 36 taxa, including Cladocera (24 taxa), Copepoda (7 taxa), and meroplankton (2 taxa) along the Iranian coastal area of the Caspian Sea in 1996.Subsequently in 1999, Sabkara et al. [12] reported over 50 zooplankton taxa with holoplankton comprising >80% of the taxa sampled and Rotifera (22 species) dominating.Meroplankton accounted for the remaining diversity.Recently, Roohi et al. [13] noted that only 18 zooplankton taxa were observed in the southern Caspian Sea, of which �ve taxa belonged to holoplankton (four Copepoda and one Cladocera) and 13 to meroplankton.In recent years, few studies have been conducted on the distribution and abundance of zooplankton in the southern Caspian Sea [11][12][13][14], while there was hardly any work done to look at the composition of zooplankton taxa.In order to investigate the state of ecological condition of the Caspian Sea, an eleven-year study of the zooplankton community in the Caspian Sea waters of Iran was compiled between 1996 and 2010.

Materials and Methods
2.1.Study Area.e area under investigation is located at the southwestern corner of the Caspian Sea.e identi�cation of zooplankton taxa was carried out along three transects along the mouth of the Anzali wetland, Lisar and Se�drood rivers.e sampling was performed at 5 m, 10 m, 20 m, and 50 m depths during 1996-2010 (Figure 1).Table 1 shows the seasonal sample collection done in between 1996-2010.In some years, sampling was unable to be carried out due to logistic problems.In total, a collection of 132 samples were carried out during these periods (Table 1).

Data Collection.
Zooplankton was sampled using a Juday net (opening diameter: 36 cm, mesh size: 100 m).At every station, a vertical haul with a Juday net was carried out from bottom to surface using a handle pulley for heaving the net.Zooplankton samples were preserved in neutral 4% formaldehyde and analyzed in the laboratory.Samples were divided into subsamples using a 1 mL Hensen-Stempel pipette and transferred to a Bogorov chamber for identi�cation.At least 100 individuals were counted per sample and identi�ed to species, and life-cycle stages were determined using an inverted microscope [15].Zooplankton taxonomic classi�cation was performed based on Birshtain et al. [16], Kasimov [17], and James and Covich [18].

Results
A total of 61 zooplankton taxa belonging to 48 taxa of holozooplankton were found in the area of investigation (Tables 2 and 3).
Hossieni et al. [11] listed 24 Cladocera species in the southern Caspian Sea (cited by Roohi et al., [13]).ree of these taxa were repeated twice under different names as Apagis cylindrata (Cercopagis cylindrata), Apagis longicaudata (Cercopagis longicaudata), and Apagis ossiani (Cercopagis ossiani).Additionally fourteen taxa cited were not recognized as validly published taxa by CSBP (Caspian Sea Biodiversity Project), ITIS (Integrated Taxonomic Information System), MarBEF (Marine Biodiversity and Ecosystem Functioning), and WoRNS (World Register of Marine Species), while there were nine Cladocera listed in the present study in 1996-1997 and only two of them (Pleopis polyphemoides and Podonevadne sp.) could be found aer 2000.Five Copepoda species were present in 1996 [11] and the present study, but they were either absent or found in very low numbers during 2001 to 2010 (Table 2): Calanipeda aquae dulcis, Limnocalanus grimaldii, Eurytemora minor, and Eurytemora grimmi.
It was striking that many species which were abundant in the Caspian Sea since 1996-1997 were not found aer 2000 (Tables 3 and 4).However, a similar drastic decline in species numbers was not observed in other invaded seas [19].Possible reasons could be twofold: the endemic Caspian Sea fauna is very sensitive to disruptions of invaders [5,20], or it a results of serious environmental degradation which started since the beginning of the 1990s [5].Rodionov [21], Bilio and Niermann [22], and Polonskii et al. [23] theorized that hydrobiological changes in the Caspian Sea, Black Sea, and Baltic Sea during the 1990s and 2000s could de�nitely be correlated to these changes.Recent remarks on other seas indicated that the shiing plankton communities can also be related to climatic inconsistency [7,[24][25][26].
e survey helped to characterize the composition of the zooplankton taxa in the southwestern Caspian Sea between 1996 and 2010.In comparison with previous publications, the multiyear composition of zooplankton taxa was estimated for the �rst time.We call for a standardization in the result presentation during future studies in this area.A comprehensive database including international participation should be launched to facilitate long-term comparisons of planktonic species to monitor anthropogenic and climatic effects on the Caspian Sea ecosystem.