Wedelia trilobata (L


Bangladesh J. Plant Taxon. 16(2): 185-194, 2009 (December) - Review paper 
© 2009 Bangladesh Association of Plant Taxonomists   

TAXONOMIC STRUCTURE OF THE ALGAL FLORA OF IRAN 
 

B. ZAREI-DARKI1
 

Department of Biology, Islamic Azad University, Falavarjan Branche, Esfahan, Iran. 
 

Keywords: Algal flora; Taxonomic quotient; Water body; Iran. 
 

Abstract 
Algal floristic work carried out in Iran between 1853 and 1981 have been reviewed and 
compared with the results obtained in a series of recent studies (2000-2007). Algal 
samples for the recent studies were collected mainly from different inland aquatic 
habitats. On the basis of data from published and the recent studies, the systematic list of 
algae shows the occurrence of 1304 species and 1559 infra-specific taxa in Iran. 
However, 1213 species (1443 infra-specific taxa) revealed from the recent studies 
included 812 species (979 infra-specific taxa) as new reports for Iran (63% of the total 
species recorded). Analysis on taxonomic structure of algal flora of Iran testifies its 
richness. The basic parameters of a regular diversification of flora, values of genera 
quotient, spectra of leading taxa confirm that the highest percentage is contributed by 
Bacillariophyta (43%) of the total number of specific and infra-specific taxa followed by 
Chlorophyta (25%), Cyanophyta (15%) and Euglenophyta (8%). On an interrelation 
among divisions of algae, the algal flora of Iran appeared to be closer to that of 
Turkmenistan. 
 

Introduction 
 Preserving biological diversity needs research on species richness of certain 
taxonomic groups in different administrative and natural territories. So far, the algal 
diversity of Iran has been investigated very insufficiently. According to Compere (1981) 
L. Rabenhorst (1853) reported first several species of freshwater diatoms 
(Bacillariophyta) from South Persia, Iran but without mentioning habitats. In 1842, soil 
samples were collected by Kotschy from the territories between Percipolis, Shiraz and 
Bushehr which cover modern provinces, namely Fars, Esfahan, Bahtiaria and 
Cheharmehal, Busher. Later Ehrenberg studied them and revealed 45 species of algae 
(Ehrenberg, 1854), out of which, 29 species became valid. In 1899, J.B. Petersen 
identified 8 species of algae studying samples collected by O. Paulsen  from the Purlieus 
of Tehran (Petersen, 1930). Later on, D.A. Tarnogradskiy collected 9 samples from the 
Anzali Swamp in November 1922 and Woronichin (1925) published 13 species of algae 
from those collections. 
 The first remarkable studies on the algal flora of Iran by Löffler (1959, 1961) 
appeared 100 years after the very first report by Rabenhorst (l.c.). The works of Löffler 
can be considered as the first authentic study on the algal flora of Iran. Later on, Hirano 
(1973) and Wasylik (1975) reported 406 infra-specific taxa. From the soil algae of 
Sahara-Gobi desert area, 29 species from the arid soils have been mentioned for Iran 
(Novichkova-Ivanova, 1980).  

 
1 E-mail: zareidarki@iaufala.ac.ir; zarei@mail.ru



186 ZAREI-DARKI 

 In autumn of 1972, the Belgian multi-purpose expedition investigated deserts of the 
central, eastern and middle Iran, mainly Dašt-e Kavir, Dašt-e Lut and hollow Jazmuriyãn. 
Botanist of the above-mentioned expedition J. Leonard collected samples of algae, which 
became a subject of study in P. Compere’s work (Compere, 1981). The samples of algae 
were collected from 21 different places and about 300 species and varieties were 
presented. Of these 66% was diatom, 17% green and 14% blue-green algae. Two species 
of diatom Nitzschia curvata Compere, N. iranica Compere and one form Navicula 
egregia Hust. fa. elongata Compere were described as new to science (Compere, 1981). 
Till 2000, an estimated 580 algal taxa were known from Iran.  
 A series of studies on algae of Iran was conducted between 2000 and 2007 based on 
535 samples collected from 125 water bodies from all over Iran (Dogadina et al. 2002; 
Zarei-Darki, 2002, 2004 a, b, 2006, 2007). The habitats included 64 rivers, 19 reservoirs, 
19 ponds, 7 lakes, 2 swamps, 2 Karizes (a kind of artificial underground channel), 2 
water-falls, and 10 springs of which 6 were thermal with water temperature ranged from 
34-52°С (Fig. 1). 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Fig. 1. Schematic map of Iran with sampling sites: deciduous vegetation (DCV), steppe mountain vegetation 

(SMV), friganoid mountain vegetation (FMV), desert vegetation (DV), complex vegetation of deserted 
coastal lowlands (CVDCL), meadow-salt marsh vegetation of southern coast of Caspian sea (MVCS), ● 
– author’s collections (2000-2007); ▲- the literary data.  



TAXONOMIC STRUCTURE OF THE ALGAL FLORA OF IRAN 187 
 
 The present paper attempts to analyze the taxonomic structure of algal flora of Iran 
based upon published information starting from L. Rabenhorst to P. Compere (1853-
1981) and also data obtained from recent studies based upon samples collected between 
2000 and 2007 by the author. The algal flora of Georgia (Chkhaidze, 1987), 
Turkmenistan (Kogan, 1973), Central Asia (Muzafarov, 1965), Vietnam (Tien, 1982) and 
Ukraine (Wasser and Tsarenko, 2000; Tsarenko and Petlevanniy, 2001) were also 
compared with that of Iran. 
 

Overall algal diversity of Iran 
 Algae from different water bodies of Iran revealed the occurrence of 1213 species 
and 1443 infra-specific taxa (infra-specific taxa), which included 812 species (979 infra-
specific taxa) as new report for Iran (about 63% of the general species diversity). But 91 
algal species (116 infra-specific taxa) from the previous studies on the territorial 
boundary of Iran could not be confirmed in the recent studies. So, by adding 91 species 
and 116 infra-specific taxa as obtained from the literature survey to the data accumulated 
in the recent studies, the total number of algal species now reached 1304 (1559 infra-
specific taxa) for Iran (Table 1). The algal species of Iran belong to 8 divisions, 15 
classes, 37 orders, 96 families and 262 genera (Table 1). Among the divisions, 
Bacillariophyta is the largest followed by Chlorophyta, Cyanophyta and Euglenophyta. 
The percentage of each division is given in Table 2. In the following sections, 
classification of Zerov (1972) is followed. 
 
Diversity within algal divisions 
 Cyanophyta has made up almost 15% of the total number of specific and infra-
specific taxa of Iran (Table 2). The recent studies revealed 174 species including 201 
infra-specific taxa. About 126 taxa appeared as new reports from Iran. From literary data 
the wide-spread cyanophytic species belonged to the genera Gloeocapsa (Kütz.) Hollerb., 
Merismopedia (Meyen) Elenk., Microcystis (Kütz.) Elenk., Oscillatoria Vauch., 
Phormidium Kütz. and Synechocystis Sauv. Some sporadically recorded cyanophytes are 
Synechocystis pevalekii Erceg. (Parišãn Lake), Microcystis testacea (Näg.) Elenk. 
(Lirbāzār rudgā River), Aphanothece nostocopsis Skuja (Parišãn Lake), Chamaesiphon 
incrustans Grun. (Toroq Reservoir), Phormidium paulsenianum Boye-Pet. (Orumiyeh 
Lake), Ph. toficola (Näg.) Gom (Šatt-e mongãr Lake), Microcoleus sociatus W. et G.S. 
West (Mahallãt Thermal spring), Anabaena azollae Straburg (Anzali Swamp), and 
Rivularia aquatica (de Wild.) Geitl. (Vošmgir Reservoir). 
 Euglenophyta is the fourth largest division in Iran in terms of species and infra-
specific numbers. In the research conducted during 2000-2007, 121 euglenoid taxa   were 
recorded as new reports. Earlier, four species of euglenoid algae recorded by Wasylik 
(1975)   and   Compere  (1981)  were  also  found  to  occur  in  the  present investigation.  



188 ZAREI-DARKI 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 



TAXONOMIC STRUCTURE OF THE ALGAL FLORA OF IRAN 189 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 



190 ZAREI-DARKI 

Euglena anabaena Mainx was found only in Halil rud River and E. mutabilis Schmitz 
was recorded both from Halil rud and Minãb Rivers; while E. oxyuris Schmarda in a 
number of rivers, reservoirs, ponds and swamp habitats (water temperature 16-28°С, рН 
6.5-8.0). Trachelomonas hispida (Perty) Stein emend. Defl. var. duplex Defl. occurred in 
Qešlāq River and Hasanlu Reservoir.  
 The occurrence of Chrysophyta is known only from the recent studies. The most 
frequently occurring and wide-spread species are Dinobryon divergens Imhof., 
Kephyrion rubri-claustri Conr. and Lagynion triangulare (Stokes) Pasch. Occasionally 
occurring species include Chrysococcus оrnatus Pasch., Dinobryon sertularia Ehr., D. 
sociale Ehr., Kephyrion valkanovii Huber-Pest. and Pseudokephyrion schilleri (Schill.) 
Conr. 
 Altogether 56 species and 58 infra-specific taxa of Xanthophyta have been recorded 
in the recent studies; but the occurrence of species like Botrydiopsis eriensis Snow, 
Botryochloris minima Pasch. (Novichkova-Ivanova, 1980) and Vaucheria sessilis 
(Vauch.) D.C. (Woronichin, 1925) reported in previous studies could not be confirmed. 
The majority of Xanthophytа representatives was noted seldom, and a few of these 
species, namely Arachnochloris striata Pasch., Chlorothecium clava Pasch., 
Stipitococcus apiculatus Prescott and Tetraedriella impressa Pasch., were recorded only 
in Šãdgãn Pond, and Mohammad ãbãd and Sivand Rivers, and Anzali Swamp, 
respectively. 
 Diatoms (Bacillariophyta) dominated in all the investigated water bodies of Iran. 
More than 90% of species and infra-species (i.e. 479 species and 612 infra-specific taxa) 
were revealed by the recent studies with 217 species (303 infra-specific taxa) as new 
records for Iran. Some of the newly recorded diatom species of Iran are Aulacoseira 
italica (Ehr.) Sim., Cyclotella bodanica Grun., C. caspia Grun., Diatoma ehrenbergii 
Kütz., Eunotia diodon Ehr., Melosira lineate Ag., M. undulata (Ehr.) Kütz. var. 
normannii Arn., Stephanodiscus astraea (Ehr.) Grun., Synedra gaillonii (Bory) Ehr. and 
Thalassiosira bramaputrae (Ehr.) Hak. 
 Out of 36 species of dinophytes, only two were known before (Löffler, 1961; 
Wasylik, 1975), namely Ceratium hirundinella (O. Müll.) Bergh. and Peridiniopsis 
oculatum (Stein) Bourr. Dinophytes represented in the plankton of Qešlāq River and 
Reservoir, Sanandaj City were Glenodinium lemmermannii Zach., Gonyaulax polyedra 
Stein, Gymnodinium palustre Schill., Peridiniopsis charkowiensis (Matv.) Bourr., P. 
oculatum (Stein) Bourr., Peridinium aciculiferum Lemm. and P. pseudolaeve Lef. 
 No species of Cryptophyta was recorded for Iran before the recent studies. Most 
frequent cryptophytes are Chroomonas acuta Uterm., Ch. coerulea (Geitl). Skuja, Ch. 
rosenbergae Hub.-Pest., Cryptomonas borealis Skuja, C. marssonii Skuja and C. 
parapyrenoidifera Skuja.  



TAXONOMIC STRUCTURE OF THE ALGAL FLORA OF IRAN 191 
 
 Chlorophyta is the second largest algal division in Iran. Class Chlorophyceae 
occupies leading position among other classes of green algae and is represented by 9 
orders, 27 families, 209 species and 221 infra-specific taxa. As a result of processing 
samples from polytypic water bodies of Iran during 2000-2007, 200 species (211 infra-
specific taxa) were identified, of them 165 species (176 infra-specific taxa) are new for 
the country. Frequently occurring species are Chlamydomonas angulosa Dill, Ch. 
snowiae Printz, Coelastrum microporum Näg. in A. Br., Dunaliella minuta Lerche, 
Kirchneriella irregularis (G. Sm.) Korsch., Micractinium pusillum Fres., Monoraphidium 
irregulare (G. Sm.) Kom.-Legn. in Fott, Oocystis borgei Snow, Pediastrum boryanum 
(Turp). Menegh., Planctococcus sphaerocystiformis Korsch., Scenedesmus acuminatus 
(Lagerh.) Chod., S. ellipticus (W. et G. S. West) Chod., S. quadricauda (Turp.) Breb., 
Schroederia setigera (Schröd.) Lemm., Tetraedron minimum (A. Br.) Hansg. and 
Tetrastrum triangulare (Chod.) Kom. From the order Chlorodendrales under the class 
Prasinophyceae, two species, namely Tetraselmis arnoldii (Pr.-Lavr.) Norris, Hori & 
Chihara and T. contracta (Carter) Butcher, were recorded from rivers, reservoirs and 
swamps. 
 Among the new findings from Ulvophyceae, noteworthy species are Geminellopsis 
fragilis Korsch., Klebsormidium dissectum (Gay) Ettl et Gärtn., Stichococcus bacillaris 
Näg., Ulothrix flacca (Dilw.) Thur., U. zonata (Web. et Mohr.) Kütz. and Uronema 
confervicolum Lagerh. 
 From Zygnematophyceae, Mougeotia sphaerocarpa Wolle, Spirogyra bogeana 
Trans., S. condensata (Vauch). Kütz., S. ellipsospora Trans., S. micropunctata Jao, S. 
pratensis Trans., Zygnema insigne (Hass.) Kütz. and Z. pectinatum (Vauch.) Ag. have 
been recorded for the first time in Iran during recent studies. 
 Charophyceae known earlier (Compere, 1981) have also been found to occur during 
the recent studies. Chara gymnophylla A. Br. was found to grow within water 
temperature 14-28°С, рН 6.5-7.0 in the Halil rud River and Šatt-e mongãr Lake, and Ch. 
vulgaris L. emend. Wallr. in Halil Rud River, Šãdgãn Pond and Gãvxuni Swamp (14-28 
°С, рН 6.5-8.5). For the first time in Iran, Chara uzbekistanica Hollerb. was found in the 
Šatt-e mongãr Lake and Gãvxuni Swamp (20-28°С, рН 6.5-8.5). However, Nitella 
hyalina (DC.) Ag. could not be recorded in the recent studies. 
 
Taxonomic quotients 
 It is known that the factor which testifies connection between number of species, 
genera and families determines the ‘face’ of flora with the greatest clarity (Tolmachev, 
1974). 'Proportions of flora' and generic factor concern to a group of parameters of 
taxonomic diversity. The s/f (species/families) is estimated as a ratio between the number 
of species and number of family of a particular group (e.g. class); g/f (genera/families) 
and s/g (species/genera) are determined in a like manner. Generic factor shows generic 



192 ZAREI-DARKI 

richness of algal flora by species and infra-specific taxa. According to some authors, 
richer floras differ from less rich floras by higher values of these parameters (Shmidt, 
1980, 1984). Additionally, generic factor is considered as a factor of taxonomic diversity 
that does not depend on area.  
 Comparison of genera quotient values among divisions shows that the greatest 
specific richness is seen in Bacillariophyta followed by Euglenophyta, Cryptophyta and 
Cyanophyta (Table 1). In spite of high number of species in algal flora, Chlorophyta 
occupies sixth place. Apparently, it is explained by the presence of the large number of 
genera with little species number, e.g. 84 genera represented only by one or two species 
out of 116 total genera in Iran’s algal flora. 
 For the algal flora of Iran as a whole, rather high values of general genera quotient 
(4.9) (Table 1) testifies the richness of investigated flora. Such conclusion is proved to be 
true by the comparison of values of the genera quotient for some other floras. For 
example, genera quotient was 2.8 for system of lake Chany (Safonova, 1973), and 3.8 for 
water bodies of Yakutia (Vasilieva, 1989).  
 
Comparison of algal flora of Iran with those of other countries 
 Table 2 shows a comparison of taxonomic spectrum of algal flora of different 
countries with that of Iran. The choice of the countries was arbitrary. The only 
generalized data brought in the literature (Muzafarov, 1965; Kogan, 1973; Tien, 1982; 
Chkhaidze, 1987; Wasser and Tsarenko, 2000; Tsarenko and Petlevanniy, 2001) were 
used in the paper. The compared countries and regions rather differ on the terrain, natural 
settings, remoteness from Iran, a degree of a level of algal flora knowledge and many 
other attributes. However, ostensibly such comparison is useful to reveal general 
regularity and characteristic features in the algal structures of these regions. 
 Absolute values of all comparable floras differ markedly and indeed depend on 
degree of algal study in the country. Therefore, proportion (in %) a division occupies in 
the total algal flora was preferred than its absolute value. 
 In all the compared floras as presented in Table 2, the basic role is played by two 
divisions, namely Chlorophyta and Bacillariophyta, occupying top two positions in 
taxonomic spectra. Contribution of these two divisions in the algal flora of Iran looks 
very close to the algal flora of Turkmenistan. This can be explained by the geographical 
location and presence of the general orographical and climatic attributes of the two 
countries. In other floras, the 1st place is occupied by the green algae considerably leaving 
behind diatoms as it is evident in the flora of Ukraine range. In all the compared floras, 
the 3rd place in taxonomic spectra is occupied by blue-green algae. It is evident that the 
diversity of Cyanophyta in some neighboring geographical regions (Turkmenistan, 
Central Asia) is very high compared with Iran. But contrary to it, in Iran, luxuriant 
growth of Cyanophyta is common in the rice fields and obviously a study on these 



TAXONOMIC STRUCTURE OF THE ALGAL FLORA OF IRAN 193 
 
habitats could add a few more taxa to the list of Iran. Parameters of the relative 
contribution on other divisions of algae when compared, the data obtained for Iran shows 
a concurrence with the data of other floras in most cases. 
 
Acknowledgement 
 The author expresses sincere gratitude to Prof. T.V. Dogadina under whose direction 
the present piece of research was carried out. 
 
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(Manuscript received on 1 August 2008; revised on 5 June 2009) 

 
 


	TAXONOMIC STRUCTURE OF THE ALGAL FLORA OF IRAN
	Introduction
	References