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Original Article

Biodiversity of Aquatic Insects of Zayandeh Roud River and Its
Branches, Isfahan Province, Iran

Mansoreh Shayeghi 1, *Hassan Vatandoost 1, Abdollah Gorouhi 1, Ali Reza Sanei-Dehkordi 1,
Yaser Salim-Abadi 1, Mohsen Karami 1, Mohammad Reza Jalil-Navaz 1, Amir Ahmad

Akhavan 1, Zahra Shiekh 1, Sajad Vatandoost 3, Mohammad Hossein Arandian 2

1Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of
Medical Sciences, Tehran, Iran

2Isfahan Health Research Station, National Institute of Health Research, Tehran University of Medical
Sciences, Tehran, Iran

3Department of Zoology, University of Tehran, Tehran, Iran

(Received 15 Apr 2013; accepted 5 Feb 2014)

Abstract
Background: Aquatic insects are the  major groups of arthropods that spend  some parts of their life cycle in the
water. These insects play an important role for transmission of some human and animal diseases. There is few
information about the aquatic insects fauna of Iran.
Methods: To study the aquatic insects fauna, adult, nymphal and larval collections were carried out from different
habitats using the standard technique in Zayandeh Roud River, Isfahan Province,central Iran, during summer 2011.
Results: In total, 741 speimens of aquatic insects were collected and morphologically identified. They include 7
families and 12 genera representing 2 Orders. The order of  Diptera (92.31%) and Coleoptera (7.69%). The families
Culicidae, Syrphidae and Chironomidae from Diptera order, Gyrinidae, Dytiscidae, Haliplidae, Hydrophilidae from
Coleoptera order were identified.
Conclusion: Some aquatic insects play an important role for transmission of human and animal diseases. These
insects also are important for biological control. Therefore ecological study on aquatic insects can provide
information about ecology of insects in an area for any decision making.

Keywords: aquatic insects, Zayandeh Roud River, Iran

Introduction

Aquatic insects are a major group of arth-
ropods which at least one stage of their life
cycle  occurs  in water. Most of  them live in
water in primary stages that fallowed by
terrestrial adult (eg, Ephemeroptera, Odo-
nata, Plecoptera, Trichoptera, Megaloptera).
Semi aquatic insect are only associated with
aquatic and semi aquatic vegetation, the
water’s surface, or the margins of water
habitats (Merritt and  Cummins 1996).

Some species of aquatic insect are  medi-
cally important vectors that transmit diseases
such as malaria, dengue, filariasis, yellow fe-
ver, and some other main arboviruses (Foil

1989). Furthermore few numberof them have
a painful bite that cause dermatological effect
on human and animal host (Villiers 1987).
Some of them act as a host of termatods such
as dragonflyand  damselfly (Chae et al. 2000).

In some countries dragonfly are consi-
dered as a threat to the poultry industry be-
cause they transmit a parasitc flatworm of
Prosthogonimus spp (Angel 1973). Some
aquatic insects are used as an indicator of
water contamination. Water quality is eva-
luated by comparing the number of tolerant
species (some midge larva) to the number of
intolerant species (Ephemeroptera, Plecoptera,

*Corresponding author: Prof Hassan Vatandoost,
E-mail: hvatandoost1@yahoo.com

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198

and Trichoptera orders) (Voshell 2002). Fur-
thermore some of these insects are used in
toxicological researches in primary stages
(Merritt and Cummins 1996). Aquatic insect
are found in a wide variety of aquatic habi-
tats from pond, spring, stream to rivers
which are different in salinity, pH and other
characteristics. Apart from medically im-
portance of aquatic insects, they play an
important role in the ecosystem. For instance
they serve as food for fish, amphibians, and
water birds. They are also involved in the
breakdown of organic matter and nutrients.
Some of the aquatic insects are responsible
for breaking down the dead leaves and  plant
parts that fall on the water surface. This
material provides the base of the food chain
in some aquatic environments. Some of them
filter suspended particles in water and cause
light reach to bottom of streams where algae
grow. Another kind of aquatic insects mix
soft sediment of bottom while searching for
food and this makes bottom appropriate for
organisms and this phenomen is due to oxy-
gen enreachment of the bottom. Additional-
ly, predator quatic insects reduce the num-
bers of other invertebrates and help keep to
have a balance among different organism
and food reservoir (Voshell 2002).

This paper attempts to investigate aquatic
insect fauna in Isfahan Province. Apart from
researches that have been conducted on
Culicidae family members, there is a few
studies on aquatic insects.

Materials and Methods

Study area
Present study conducted in the Zayandeh

Roud River of Isfahan Province during
summer 2011. The Isfahan Province located
in the center of Iran and situated 340 kilo-
meters far away of Iran’s capital. Isfahan
region has generally arid climate with hot
summer with maximum temperature around

36 °C and cool winter. It has an average an-
nual rainfall of 150 millimeter Zayandeh
Roud River in this region provides a suitable
habitat for aquatic insect. Isfahan Province is
surrounded by Qoum, Semnan and Markazi
Provinces to the north, Fars and Kohkiloiye
Province to the south, Yazd Province to the
east, and Lorestan, Khuzestan and Chahar-
mahal to the west. With a total area of
around 105, 937 square kilometers (6.57 %
total area of Iran). It lies at an altitude of
1575 meters above sea level at a latitude of
30° 42′ N to 34° 30′ N and a longitude 49°
36′ E to 55° 32′ E. The climate is temperate.
It has the warm and semi-humid climate in
north and east parts and cold climate in
south. The studied areas were selected by
clustered random sampling consist of several
localities in the study area. We started our
survey from Zarinshahr City, ca. 1684 m (32º
22’ N, 51º 22’ E) to Baghbahadoran City, ca.
1751 m (32º 23’ N, 51º 10’ E), (Fig. 1).

Data sampling
Aquatic insects collected in different

habitats. The sampling was carried out from
rifles, under stones, aquatic vegetation, over
hanging terrestrial vegetation, within bur-
rows, leaf packs and fine sediment. The
specimens collected by D frame net-collec-
tor, plastic pipette and forceps. After collec-
tion, all specimens were preserved in 70%
alcohol, date and time of sampling and place
of collection were recorded on each con-
tainer. The samples were transferred to the
laboratory of medical entomology depart-
ment, Tehran University of Medical Sciences.
Then the samples were identified using
stereo-typed microscope, and valid identi-
fication keys (Clifford 1991, Borror and
White 1998, Epler 2001, Bouchard 2004,
Sangradub and Boonsoong 2006, Subrama-
nian and Sivaramakrishnan 2007, Azari-
Hamidian and Harbach 2009, Mullen and
Durden 2009).

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Results

During several times sampling in the
study area a total of 741 aquatic insects were
collected that including: 2 Orders, 7 families
and 12 genera witch summarized in Table 1.
In the Diptera order there are 3 families:
Culicidae (n=384, 51.82%), Syrphidae (n=4,
0.54%) and Chironomidae (n=296, 39.95%)
and Coleoptera order was including 4 families:

Gyrinidae (n= 6, 0.81%), Dytiscidae (n=24,
3.23%), Haliplidae (n=7, 0.94%), Hydro-
philidae (n=20, 2.7%) and Culex theileri be-
long to Culicidae family was the most fre-
quent (51.82%) moreover Peltodytes in the
Haliplidae family with 0.40% of all collected
samples  was the least frequent (Table 1 and
Fig. 2, 3).

Fig. 1. Map of study area in Isfahan Province, Iran

Table 1. The prevalence of some aquatic insects in the study area

Order Family Genus No. Percent (%)

Diptera
Culicidae Culex (Culex theileri) 384 51.82
Syrphidae Eristalis 4 0.54

Chironomidae Chironomus 296 39.95

Coleoptera

Gyrinidae Gyrinus 6 0.81

Dytiscidae
Agabus 5 0.67
Dytiscus 13 1.75

Hydroporus 6 0.81

Haliplidae
Haliplus 4 0.54

Peltodytes 3 0.40

Hydrophilidae
Laccobius 10 1.35
Enochrus 4 0.54
Hydrobius 6 0.81

Total 7 families 12 Genus 741 100

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Fig. 2. Aquatic insect genus and family composition
in study area

Fig. 3. Families of collected aquatic insects, A: Hydro-
philidae B: Haliplidae C: Gyrinidae D: Dytiscidae E:
Culicidae F: Chironomidae G: Syrphidae

Discussion

Total number of 741 samples belongs to 2
Orders and 7 families and 12 genera were
identified using stereo-typed microscope.
The results are summarized in Table 1.
Culex theileri with 51.82% of collected
sample was the most abundance frequent

(Table 1 and Fig. 2). In the same study that
conducted in the our study area by Shayeghi
et al. in 2011, their result were compatible
with our result, for the study on the aquatic
insects of Isfahan Province and also their
probable use of biological control, Coleoptera
order was one of the abundance collected
aquatic insect and this result was likely to
our result (Shayeghi et al. 2012) Cx. theileri
was one of the collected samples in the study
area. Research conducted by Mousa-kazemi
et al. in 2002, Cx. theileri was the most
abundance frequency and their results were
agree with our results (Mousa-kazemi et al.
2000). This species is the more prevalent
species at higher altitudes in rural areas of
Zanjan Province (Ghavami and Ladonni
2005) and East Azerbaijan Province (Abai et
al. 2007). Dehghani et al. (2007) conducted
a study for studying fauna of aquatic insects
in sewage maturation ponds of Kashan. The
families of Chironomidae and Hydrophilidae
were prevalent. In the other study that con-
ducted by Vafaei et al. 2007 for surveying of
the aquatic beetles (Coleoptera: polyphaga)
of Markazi Province (central Iran) after
investigation In freshwater habitats of study
area, 24 species (Coleoptera: Hydrophilidae,
Helophoridae, Hydraenidae, Elmidae, and
Dryopidae) belonging to 13 genera and five
families were identified and in this study
Hydrophilidae family was one of the col-
lected samples like present study (Vafaei et
al. 2007). Some aquatic insect are an impor-
tant for biological control of larvae and
adults of mosquitoes in the breeding places
also some of these insects play an important
role in transmission of some human and ani-
mal diseases, for example in Iran several
species belong to Anophelinae sub family
including Anopheles culicifacies s.l., An.
stephensi, An. dthali, An. fluviatilis s.l., An.
superpictus, are known to be the malaria vec-
tors (Naddaf et al. 2003, Doosti et al. 2006,
Oshaghi et al. 2006, Vatandoost et al. 2006,
Hanafi-Bojd et al. 2011, Mehravaran et al. 2011,

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Oshaghi et al. 2011, Vatandoost et al. 2011,
Hanafi-Bojd et al. 2012a, 2012b, 2012c, Vatan-
doost and Abai 2012a, Soleimani-Ahmadi et
al. 2012a, 2012b, Vatandoost and Hanafi-
Bojd 2012). Therefore the ecological specifi-
cations of these insects could provide a clue
for further Arthropod-borne disease control.

Conclusion

According to the results it could be con-
cluded that there are several species of in-
sects in the study area. They are involved in
the food chain of aquatic insects. They also
could be considered as biological control
agent for vectors as well as bio indicators.

Acknowledgements

The authors wish to appreciate the staff of
Isfahan Health Research Centre, National
Institute of Health Research, Tehran Univer-
sity of Medical Sciences (TUMS) for their
collaboration along the study. Some partially
expenses are founded by Tehran University
of Medical Sciences grant Number 11840.

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