Int. J. Aquat. Biol. (2017) 5(3): 193-200; DOI:  

ISSN: 2322-5270; P-ISSN: 2383-0956

Journal homepage: www.ij-aquaticbiology.com 
© 2017 Iranian Society of Ichthyology 

Original Article 
Gonad morphology and histology of an endemic tooth-carp, Aphanius sophiae (Heckel, 1847) 

from Iran 

  
Shadi Aminaghaie, Hamid Reza Esmaeili*1 

 
Developmental Biosystematics Research Laboratory, Zoology Section, Department of Biology, College of Sciences, Shiraz University, Shiraz, Iran.

 
Article history: 
Received 4 February 2017 

Accepted 27 April 2017 

Available online 2 5 June 2017 

Keywords:  
Reproduction 

Gonad histology 

Sexual maturation 

Gonado-somatic index 

Abstract: This study presents the first details on morphological and histological characteristics of 
gonads and gonadal development stages of an endemic tooth-carp, Aphanius sophiae (Heckel, 1847) 

from a spring-stream system (south of Iran). The sampling was done from March 2012 to March 

2013 using dip net, and a total of 223 individuals were collected. The gonads of specimens were 

removed, and then fixed in 10% formalin solution after checking their morphology and measuring 

their weights, lengths and widths. Based on the size, shape and weight of the gonads, degree of 

occupation of the body cavity, presence or absence of ripe oocytes or milt, diameter of the oocytes 

in the ovary, and histological observations, five stages of sexual maturation in females and males 

were determined by macroscopic and microscopic criteria. The results of the gonadal stages indicated 

that A. sophiae spawns at the beginning of spring. 

  
Introduction 

The species of the old-world tooth-carps, Aphanius 
(Teleostei: Cyprinodontidae) typically thrive in costal 

and freshwater environments along the Mediterranean 

Sea, Red sea, Persian Gulf and Arabian sea (Clavero 

et al., 2007; Esmaeili et al., 2014, 2016). Most species 

tolerate a wide range of temperature and salinity 

regimes, and their small size permits viable population 

to persist in restricted habitats (e.g., Wildekamp, 

1993). The genus Aphanius is the only genus of 
Cyprinodontidae available in Iran which is 

represented by 14 extant and one fissile species 

(Esmaeili et al., 2016, 2017). Aphanius sophiae is an 
endemic of Iran that inhabits in the Kor River basin, 

Fars Province, Southern Iran.  

The reproductive biology and gonad histological 

changes of several species of cyprinodontid fishes had 

been studied by Leonardos and Sinis (1999), Keyvani 

and Soofiani (2004), Esmaeili and Shiva (2006), 

Monsefi et al. (2009), Güҫlü and Küҫük (2008) and 

Karsli and Aral (2010). The genus is sexually 

dimorphic (Berra, 2001; Esmaeili et al., 2012; 2014; 
                                                           
* Corresponding author: Hamid Reza Esmaeili                                                                           DOI: https://doi.org/10.22034/ijab.v5i3.303 

E-mail address: hresmaeili@shirazu.ac.ir 

2016; Gholami et al., 2014, 2015a, b; Teimori et al., 

2014). As no study on the gonad histology of 

A. sophiae has been published, therefore this study 
presents the first detailed description of gonad 

histology of this tooth-carp fish. 

 

Materials and Methods 

A total of 223 A. sophiae specimens were monthly 
collected during one year from March 2012 to March 

2013 using 1 mm mesh-size dip net from Beiza spring-

system in Denjan village (Beiza), Kor River basin, 

Fars Province (29˚57ʹ47.5"N, 52˚24ʹ12"E, alt. 1832 m 

asl). All collected specimens were deposited in the 

Zoological Museum, Collection of Biology 

Department, Shiraz University (ZM-CBSU). The 

biometry of specimens was carried out using a digital 

scale and a vernier caliper with accuracies of 0.001 g 

and 0.01 mm, respectively. For histological studies, 

the specimens were dissected and their ovary or testis 

were removed. The sexes and stages of sexual 

maturation were determined as possible as by naked 

eye examination and under a compound microscope 



194 
 

Aminaghaie and Esmaeili / Gonad morphology and histology of Aphanius sophiae 

(Olympus). Weight, length, width, color, and shape of 

each gonad were recorded and the maturity stage of 

them was recognized macroscopically based on 

Nikolsky (1963). The histological sections of ovary or 

testis of each maturing stages were prepared by 

routine histology method (Bancroft and Stevens, 

1991; Mirghiyasi et al., 2016; Eagderi et al., 2013) as 

follow: they dehydrated in alcohol, cleared in xylene, 

imbedded in paraffin wax at 56°C melting point, 

sectioned at 5-7 μm thickness, and then the sections 

were stained by Hemotoxylin and Eosin (H&E). The 

histological slides were studied under a light 

compound microscopy and their pictures were taken 

by a compound microscope equipped to a digital 

camera.  

 

Results 

Characteristics of ovaries: The ovary is composed of 
2 sac shaped parts extending along the body cavity in 

a dorsal position above the intestine (Fig. 1). In the 

mature individuals, eggs could easily be seen (beneath 

the ovarian membrane). Ovaries were in white color 

during non-spawning periods, and dirty yellow or gold 

yellow during the spawning period. The ovary 

composed of follicles that derived from the germinal 

epithelium and contain oogonia that develop into 

oocytes and ultimately ova, and the surrounding 

follicular epithelium (Guraya, 1988; Selman Wallace, 

1989). Based on the histological characteristic, ovaries 

are classified into five stages as follow: 

Stage I (Oogonia and chromatin nucleolar stage): In 

the chromatin nucleolus stage, oocytes were small 

spherical cells with a thin indistinct peripheral zone 

(primordial follicle) having strongly basophilic 

cytoplasm. The nucleus was spherical and large. The 

ratio of nucleus to cytoplasm was high, and a very thin 

layer of connective tissue originative from the ovarian, 

surrounded each oogonia (Fig. 2).  

Stage II (Perinuclear stage): In perinuclear stage, the 

growing follicles exhibited a weak basophilic 

cytoplasm. The ovary was composed of nests of 

oocytes of chromatin nucleolus stage and perinuclear 

stage of different sizes which increased both their 

cytoplasmic mass and nuclear volume. The nucleoli 

appeared randomly at various depths in the ooplasm. 

This stage was representing the oocytes with average 

diameters of 0.122 mm (Fig. 2). 

Stage III (Yolk vesicle (Cortical Alveoli) stage): The 

size of ovaries in this stage was enlarged. The 

cytoplasm became weekly basophilic and the nucleus 

still occupied a central position and it was contained a 

lot of nucleoli attached to the nuclear membrane; 

number and size of cortical alveoli increased 

arranging in two distinct layers; one close to the 

nuclear membrane and the other one located near the 

oocytes membrane. The yolk globules were formed in 

this stage with mostly oval or round in shape. In this 

stage, zona radiate was surrounded by zona granuloza 

and a thin external follicular layer of theca cells.  The 

average diameter of oocytes was 0.202 mm (Fig. 3). 

Stage IV (Vitellogenic stage): The most perennial 

phase of oogenesis was the vitellogenic phase. The 

ovary was filled mainly with previtellogenic and 

vitellogenic oocytes in different stage of yolk 

Figure 1. Position of the ovary in Aphanius sophiae, from Kor River basin, Fars Province, Iran. 



195 
 

Int. J. Aquat. Biol. (2017) 5(3): 193-200 

 

deposition, and the nucleus was slightly displaced 

from the central position to the animal pole. At the end 

of this stage, cytoplasm started to fill-up with yolk 

granules (proteins) and formation of fat vacuoles that 

reached their maximum size. The zona radiate was 

more conspicuous. The oocyte average diameter was 

0.405 mm (Fig. 4).  

Stage V (Maturation stage): This stage was disting-

uished by migration of the nucleus to the animal pole 

where it remained, but the nucleus membrane was 

disintegrated. During the migration of nucleus, it 

began to liberate its substances into the cytoplasm. 

The hydrated oocytes were spherical in shape and 

contain single yolk mass and large lipid droplets. The 

development of the eggshell was completed with the 

completely thickness of the zona radiate, and the outer 

layer (follicular epithelium) became ruptured. The 

oocyte average diameter reached 0.526 mm which was 

Figure 2. Microphotographs of the ovaries in Aphanius sophiae in different stages. (a and b) stage I (Chromatin nucleolar phase), and (c and d) 
stage II (Perinucleolar phase). N: Nucleus, Nu: Nucleoli, A: Alveoli, TL: Theca Layer, FCL: Follicular cell Layer, ZR: Zona Radiata. 

Figure 3. Microphotographs of the ovary in Aphanius sophiae in stage III (cortical alveolar phase). N: Nucleus, Nu: Nucleoli, A: Alveoli, TL: 
Theca Layer, FCL: Follicular cell Layer, ZR: Zona Radiata. 



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Aminaghaie and Esmaeili / Gonad morphology and histology of Aphanius sophiae 

the maximum size of the oocytes during the oogenesis 

(Fig. 4).  

Characteristics of testes: The pair testes of A. sophiae 

are an elongated milky white organ that have two 

lobes composed of numerous lobules that connective 

tissue surrounding the testicular surface as capsule 

(Fig. 6). The immature fish have a very thin, steak like 

organ which become steadily thicker and bigger as the 

mature. In mature fish, the organ becomes creamy in 

color. Based on the histological characteristic, testes 

are classified into five stages.  

Stage 1: Spermatogonia and primary spermatocytes 

were the dominant cells. The number of primary 

spermatogonia had increased which was parallel to the 

testicular development. Spermatogonia had a light 

cytoplasm and a large nucleus. Primary spermatocytes 

were smaller than spermatogonia and had a dense 

nucleus covered with small and pale cytoplasm. The 

secondary spermatocyte was smaller than primary 

spermatocyte (Fig. 7a).  

Stage 2: Spermatogonia, primary and secondary 

spermatocytes were more remarkable in the 

histological sections. Secondary spermatocytes were 

Figure 4. Microphotographs of the ovary in Aphanius sophiae. (a and b) stage IV (vitellogenic phase) and (c and d) stage V (Maturation phase). 
N: Nucleous, Nu: Nucleoli, A: Alveoli, TL: Theca Layer, FCL: Follicular cell Layer, ZR: Zona Radiata, YG: Yolk Globule, AF: Atretic Follicle, 

HYM: Homogeneous Yolk Mass. 

 
Figure 5. Microphotographs of a single mature oocyte of Aphanius 
sophiae. Nucleus migrated to the animal pole and oocyte contained 
single yolk mass. AP: Animal Pole, HYM: Homogeneous Yolk 

Mass, N:  Nucleus. 



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Int. J. Aquat. Biol. (2017) 5(3): 193-200 

 

similar to the primary spermatocytes but smaller. Few 

spermatids were also observed in some lobules. 

Spermatid was the smallest cell in lobules appeared 

during the spermiogenesis (Fig. 7b).  

Stage 3: The lobule diameter increased in this stage 

and spermatocytes were predominate, but the clusters 

of spermatozoa and spermatid were present. 

Spermatocytes were recognized by their smaller 

nucleus and darkly staining chromatin material (Fig. 

7c).  

Stage 4: In this stage, the gonad had well-defined 

lobules with the large numbers of small spermatids 

and spermatozoa (Fig. 7d). 

Stage 5: Tubules were characterized by presence of all 

developing germ cells. The predominant cells were 

spermatozoa with dark blue stain related to their 

nucleus. They were the smallest spermatogenic cells. 

A small number of spermatogonia were evident 

around the subcapsular lobules (Fig. 7e).  

  

Discussion 

Histology can be powerful tool, especially when used 

in association with measurements of reproductive 

factors such as vitellogenin and morphological 

studies. Classification keys of ovary development was 

gain with used of indices like color, size of egg, and 

degree of occupation of body cavity in teleost fishes 

(see Mirghiyasi et al., 2016). Based on interspecies 

similarities, maturity stages of ovary in fishes were 

divided into different steps between 5 and 8 stages 

(West, 1990; Salem et al., 1999; Ünver and Ünver-

Saraydin, 2004; Monsefi et al., 2007; Mirghiyasi et al., 

2016). This study provided the details on gonad 

morphology and histology of A. sophiae, an endemic 
fish of Fars Province that was found in the Kor River 

basin. Based on diameter of the oocytes in the ovary 

and yolk vesicle oocytes, five stage of ovarian 

development were observed. Similar five develop-

mental stages have also been reported in the ovary of 

A. persicus (Monsefi et al., 2007) which be similar to 
many species such as Thunnus albacares, Cyprinus 
carpio and Lutjanus fulviflamma. Zona radiata (ZR) 
of A. sophiae was observed at the cortical alveolar 
stage and became thicker along with progress of 

oocyte development and yolk deposition. It can be 

concluded that ZR has no functional features at early 

oocyte development. The reproductive cycle of male 

A. sophiae is characterized by relative testicular size 
and developmental stage. Five stage of testicular 

development according to the most advanced type of 

germ cell were observed in lobular testis: 

spermatogonia (stage 1), spermatogonia and sperm-

atocytes (stage 2), spermatogonia, spermatocytes and 

spermatids (stage 3), spermatogonia, sprrmatocytes, 

spermatids and spermatozoa (stages 4 and 5). 

The results of the present study showed that 

A. sophiae spawns in the spring. Percentage of late 
gonad maturation stages (IV and V) and high 

frequency of large oocyte confirmed the spawning 

season. The season of spring reported as the spawning 

Figure 6. Position of testes in Aphanius sophiae, from Kor River basin. Fars Province, Iran. 



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Aminaghaie and Esmaeili / Gonad morphology and histology of Aphanius sophiae 

season for some other Aphanius such as, A. fasciatus 
(Lenardos and Sinis, 1998), A. mento (Güclü and 
Kücük, 2008), and A. disaper disaper (Bibak et al., 
2012). In the spring, the ecological factors, such as 

temperature, photoperiod and nutrition increased fat 

storage in oocyte and thus increase fish size and to 

increase the size of gonads. Based on histological 

section in which oocytes are in different stage of 

development, A. sophiae is asynchronous. Batch 
spawning of an individual in a spawning season is an 

advantage for this fish that lives in unstable and 

changeable environments, such as temporary lagoon 

or a very small pool. This strategy of spawning allows 

relatively large eggs to be laid, which have a greater 

chance of survival (Wooton, 1990; Leonardos and 

Sinis, 1998).  

 

Acknowledgments 

We are thankful to M. Masoudi for his kind help in 

fish collection, and Environment Department and 

 

 

 

Figure 7. Microphotographd of testis of Aphanius sophiae 

in different stages.(a) stage 1, (b) stage 2, (c) stage 3, (d) 

stage 4, and (e) stage 5. S: Spermatogonia, PS: Primary 

Spermatocytes, SS: Secondary Spermatocytes, St: 

Spermatids, and Sz: Spermatozoa. 

 



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Int. J. Aquat. Biol. (2017) 5(3): 193-200 

 
Shiraz University for financial support 

 

References 
Bancroft J.D., Stevens A. (1990). Theory and practice of 

histological technique. Churchill Living stone, New 

York. 800 p.  

Berra T.M. (2001). Freshwater fish distribution. Academic 

Press, A Harcout Science and Technology Company, 

New York. 615 p. 

Bibak M., Rakhshani M., Hosseini S.A., Koohani M., 

Moein M. (2012). Reproduction of Aphanius dispar 
dispar (Rüppell, 1829) in Dalaki River, Bushehr, south 
of Iran. World Journal of Fish and Marine Sciences, 6: 

594-596. 

Clavero M., Blanco-Garrido F., Prenda J. (2007). 

Population and Microhabitat effects of interspecific 

interactions on the endangered Andalusian toothcrap 

(Aphanius baeticus). Environmental Biology of Fishes, 
78: 173-182. 

Eagderi S., Mojazi Amiri B., Adriaens D. (2013). 

Description of the ovarian follicle maturation of the 

migratory adult female bulatmai barbel (Luciobarbus 
capito, Güldenstädt 1772) in captivity. Iranian Journal 
of Fisheries Sciences, 12(3): 550-560. 

Esmaeili H.R., Shiva A.H. (2006). Reproductive biology of 

the Persian tooth-crap, Aphanius persicus (Jenkins, 
1910) (Cyprinodontidae) in southern Iran. Zoology in 

the Middle East, 37: 39-46. 

Esmaeili H.R., Masoudi M., Ebrahimi M., Elmi A. (2016). 

Review of Aphanius farsicus: a criticall endangered 
species (Teleostei: Cyprinodontidae) in Iran. Iranian 

Journal Ichthyology, 3(1): 1-18. 

Esmaeili H.R., Teimori A., Gholami Z., Zarei N., 

Reichenbacher B. (2012). Re-validation and re-

description of an endemic and endangered species, 

Aphanius pluristriatus (Jenkins, 1910) (Teleostei, 
Cyprinodontiade), from southern Iran. Zootaxa, 3208: 

58-67.  

Esmaeili H.R., Teimori A., Gholami Z., Reichenbacher B. 

(2014). Two new species of the tooth-carp Aphanius 
(Teleostei: Cyprinodontidae) and the evolutionary 

history of the Iranian inland and inland-related 

Aphanius species. Zootaxa, 3786(3): 246-268. 

Esmaeili H.R., Masoudi M., Ebrahimi M., Elmi A. (2016). 

Review of Aphanius farsicus: a critically endangered 
species (Teleostei: Cyprinodontidae) in Iran. Iranian 

Journal of Ichthyology, 3(1): 1-18. 

Esmaeili H.R., Mehraban H., Abbasi K., Keivany Y., Coad 

B. (2017). Review and updated checklist of freshwater 

fishes of Iran: Taxonomy, distribution and conservation 

status. Iranian Journal of Ichthyology, 4(Suppl. 1): 1-

114. 

Gholami Z., Esmaeili H.R., Erpenbeck D., Reichenbacher 

B. (2014). Phylogenetic analysis of Aphanius from the 
endorheic Kor River Basin in the Zagros Mountains, 

Southwestern Iran (Teleostei: Cyprinodontiformes: 

Cyprinodontidae). Journal of Zoological Systematics 

and Evolutionary Research, 52(2): 130-141. 

Gholami Z., Esmaeili H.R., Reichenbacher B. (2015a). 

New data on the zoogeography of Aphanius sophiae 
(Teleostei: Cyprinodontidae) in the Central Zagros 

(Southwest Iran). Limnologica, 51: 70-82.  

Gholami Z., Esmaeili H.R., Erpenbeck D., Reichenbacher 

B. (2015b). Genetic connectivity and phenotypic 

plasticity in the cyprinodont Aphanius farsicus from the 
Maharlu Basin, south-western Iran. Journal of Fish 

Biology, 86: 882-906. 

Güclü S.S., Kücük F. (2008). Population age, sex structure, 

growth and diet of Aphanius mento Heckel in; 
Russegger, 1843 (Cyprinodontidae: Teleostei), at 

Kirkgöz spring. Antalya-Türkiye. Turkish Journal of 

Fisheries and Aquatic Sciences, 8: 269-274. 

Guraya S.S. (1986). The cell and Molecular Biology of 

Fish Oogenesis. In: H.W. Sauer (Ed.). Monographs in 

Developmental Biology, Vol. 18, Karger, Basel. 223 p 

Karsli Z., Aral O. (2010). Population age, sex structure and 

growth of Aphanius danfordii (Bboulenger, 1890) to 
Sirakaraağaḉlar stream, Turkey. Journal of Animalia 

Veterinary Advances, 9(10): 1427-1431. 

Keyvani Y., Soofiani N. (2004). Contribution to the 

biology of Zagros tooth-crap, Aphanius vladykovi 
(Cyprinodontidae) in central Iran. Environmental 

Biology of Fishes, 71: 165-169. 

Leonardos I., Sinis A. (1999). Population and sex structure 

of Aphanius fasciatus Nardo, 1827 (Pisces: 
Cyprinodontidae) in the Mesolongi and Etolikon 

lagoons (W. Greece). Fisheries Research, 40:227-235. 

Mirghiyasi S., Esmaeili H.R., Nokhbatolfoghahai M. 

(2016). Morpho-histological characteristics of gonads 

and reproductive index in an endemic fish species, 

Oxynoemacheilus persa (Heckel, 1847) (Teleostei: 
Nemacheilidae) from Kor River basin, Iran. 

International Journal of Aquatic Biology, 4(1): 31-42. 

Monsefi M., Shiva A.H., Esmaeili H.R. (2009). Gonad 

histology of the Persian tooth-carp Aphanius persicus 
(Jenkins, 1910) (Cyprinodontidae) in southern Iran. 



200 
 

Aminaghaie and Esmaeili / Gonad morphology and histology of Aphanius sophiae 

Turkish Journal of Zoology, 33(1): 27-33. 

Nikolsky G.V. (1963). The Ecology of Fishes, Academic 

Press, New York. 352 p. 

Salem S.B., Zak M.I., E-Charabawy, M.M. El-Shorbagy 

I.K., El-Boray K.F. (1999). Seasonal histological in the 

ovaries of Mugil seheii from Suez Bay. National 
Institute of Oceanography and Fisheries, 20: 235-249. 

Selman K., Wallace R.A. (1989). Cellular aspects of oocyte 

growth in Teleosts. Zoological Science, 6: 211-231. 

Teimori A., Esmaeili H.R., Erpenbeck D., Reichenbacher 

B. (2014). A new and unique species of the genus 

Aphanius (Teleostei: Cyprinodontidae) from Southern 
Iran: a case of regressive evolution. Zoologischer 

Anzeiger - A Journal of Comparative Zoology, 253(4): 

327-337. 

Ünver B., Ünver-Saradin S. (2004). Histological 

Examination of ovarian development of shemaya, 

Chalcalburnus living in Lake Tödürge (Sivas/Turkey). 
Folia Zoology, 53(1): 99-106. 

West G. (1990). Methods of assessing ovarian development 

in fishes: a Review. Australian Journal of Marine and 

Freshwater Research, 41: 199-222. 

Wildekamp R.H. (1993). A world of killies. Atlas of the 

oviparous cyprinodontiform fishes of the world. 

Volume 1. The genera Adams, Adinia, Aphanius, 
Aphyoplatys and Aphyosemion. American Killifish 
Association, Mishawaka, Indiana. 311 p. 

Wooton R.J. (1990). Ecology of Teleost Fishes, Chapman 

and Hall, New York. 404 p. 

 

 



  

Int. J. Aquat. Biol. (2017) 5(3): 193-200 

E-ISSN: 2322-5270; P-ISSN: 2383-0956

Journal homepage: www.ij-aquaticbiology.com 

© 2017 Iranian Society of Ichthyology 

 چکیده فارسی

 

 ایران در Aphanius sophiae (Heckel, 1847) کر ماهیگور جنسی غدد  شناسیبافت و شناسیریخت
 

  *اسماعیلی حمیدرضا آقایی، امین شادیه

 .ايران شیراز، شیراز، دانشگاه علوم، دانشکده جانورشناسی، بخش شناسی،زيست گروه تکوينی، سیستماتیک و شناسیماهی آزمايشگاه

  چکیده:

 يک که ،Aphanius sophiae (Heckel, 1847)  کر گورماهی ماده و نر گنادهاي جنسی بلوغ مراحل و بافتی ريختی، هايويژگی مطالعه، اين در

 ماهی قطعه 223 تعداد کل در وشد  انجام دستی تور وسیلهبه ،2013 مارچ تا 2012 مارچ ماه از بردارينمونه. است شده ارائه است، ايران بومزاد گونه

 ها،آن عرض و طول وزن، گیرياندازه ريختی، بررسی از پس و خارج ماهی بدن از گنادها. گرديد آوري جمع کر رودخانه حوضه در جويباري چشمه از

 وجود عدم يا و وجود شکمی، حفره طول به نسبت گناد اندازه گنادها، وزن و شکل اندازه، اساس بر .گرديد تثبیت درصد 10 فرمالین محلول در

 و نر افراد براي جنسی بلوغ مرحله 5 شناسی،بافت مشاهدات و تخمدان در تخمک قطر نر، گناد در میلت رنگ شیري مايع يا و ماده گناد در تخمک

 .ندکمی تخمريزي بهار درآغاز ماهی اين که داد نشان کر گورماهی ماده و نر گنادهاي جنسی بلوغ مراحل بررسی نتايج. گرديد منظور ماده

 .بدنی-گنادي نمايه جنسی، بلوغ گناد، شناسیبافت تولیدمثل، :کلمات کلیدی