ORIGINAL ARTICLE Year : 2023  |  Volume : 10  |  Issue : 1  |  Page : 25-30

Bioecology of sandflies (Diptera: Psychodidae: Phlebotominae) in Khorramshahr County, the endemic focus of zoonotic cutaneous leishmaniasis in Khuzestan Province, Iran (2017–2018)

Hamid Kassiri, Samaneh Najafi
Infectious and Tropical Diseases Research Center, Health Research Institute; Department of Medical Entomology, School of Health, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran

Date of Submission19-Oct-2022Date of Decision06-Dec-2022Date of Acceptance19-Oct-2022Date of Web Publication27-Apr-2023

Correspondence Address:
Dr. Hamid Kassiri
Infectious and Tropical Diseases Research Center, Health Research Institute, Ahvaz Jundishapur University of Medical Sciences, Ahvaz
Iran

Source of Support: None, Conflict of Interest: None

DOI: 10.4103/iahs.iahs_148_22

Aims: The aim of this study was to determine the fauna and bioecology of sandflies in Khorramshahr County, southwest of Iran, where cutaneous leishmaniasis (CL) is endemic. Materials and Methods: Sandflies were caught indoors and outdoors by sticky paper traps in different areas. Sandflies were removed by needle and put in acetone and then transferred and preserved in 70% ethanol. In the laboratory, they were mounted in the Puri's medium and identified using identification key. The species richness, relative abundance, monthly prevalence, gender, and abdominal situation of sandflies in indoor and outdoor resting places were determined. Results: A total of 7172 sandflies representing 11 species were collected in 11 areas. Almost 29.9% of sandflies were collected from indoor places and 70.1% from outdoor places. About 60.8% of the specimens were Phlebotomus species while 39.2% were Sergentomyia. Phlebotomus papatasi and Sergentomyia sintoni were the most common species among Phlebotomus and Sergentomyia genera, respectively. The highest sex ratio was 1100 for Sergentomyia theodori. In total, 53.7% of sandflies were male and 46.3% were female. The majority of captured sandflies collected from indoor and outdoor places had an unfed stomach. The sandflies were more active in June and September. Conclusion: More detailed studies on leptomonad infection of the suspected vectors and amastigote infection of the potential reservoirs of the CL are recommended to detect the epidemiological characteristics of the disease in this county.

Keywords: Ecology, Iran, sandfly, sex ratio, species composition

How to cite this article:
Kassiri H, Najafi S. Bioecology of sandflies (Diptera: Psychodidae: Phlebotominae) in Khorramshahr County, the endemic focus of zoonotic cutaneous leishmaniasis in Khuzestan Province, Iran (2017–2018). Int Arch Health Sci 2023;10:25-30
How to cite this URL:
Kassiri H, Najafi S. Bioecology of sandflies (Diptera: Psychodidae: Phlebotominae) in Khorramshahr County, the endemic focus of zoonotic cutaneous leishmaniasis in Khuzestan Province, Iran (2017–2018). Int Arch Health Sci [serial online] 2023 [cited 2023 May 1];10:25-30. Available from: http://www.iahs.kaums.ac.ir/text.asp?2023/10/1/25/374876   Introduction 

Sandflies belong to the order Diptera, the suborder Nematocera, and the family Psychodidae. Although approximately 800 species of these insects have been identified, only 81 are medically significant and play a role in the transmission of some diseases to humans. Only female sandflies are blood feeders, and they feed on blood after sunset and at night.[1]

The Phlebotominae subfamily of sandflies is responsible for the transmission of at least three diseases to humans: bartonellosis, papatasi fever, and leishmaniasis.[1] Among these, the last two diseases are common in Iran. Leishmaniasis, a common zoonotic disease, manifests itself as cutaneous, visceral, and mucocutaneous lesions in most parts of the world.[2],[3] Despite the fact that cutaneous leishmaniasis (CL) is not a fatal disease, it has always received special attention due to the patient's long-term struggle with wounds and the lengthy healing process.[4],[5]

CL is present in Iran in two forms: zoonotic CL caused by Leishmania major and anthroponotic CL caused by Leishmania tropica, both of which are transmitted by female sandflies of Phlebotomus species. In the zoonotic form, wild rodents, particularly rats, are considered reservoirs of the disease, while in the anthroponotic form, sick humans and canines are considered reservoirs. The main vector in the first form is Phlebotomus sergenti and in the second form is Phlebotomus papatasi.[4],[5],[6],[7] CL is more common than other types, with approximately 1.5 million new cases reported annually. In Iran, the number of CL patients reduced from 23202 in 2008 (incidence rate 32/100,000) to 13,124 in 2019 (incidence rate 15.8/100,000).[8],[9],[10],[11]

Numerous molecular studies have been conducted in Iran to detect and isolate the parasite that causes zoonotic cutaneous leishmaniasis (ZCL) in sandflies. For example, in a cross-sectional study conducted by Oshaghi et al. in Arzuiyeh County in Kerman Province, using the semi-nested PCR technique, 92 (77%) of 172 female sandflies caught were reported to be P. papatasi, and L. major was reported to be at 6 (6.5%) P. papatasi.[12],[13] In another study conducted by Kassiri et al. in Chabahar County in Sistan-Baluchestan Province, out of 667 P. papatasi and 465 Phlebotomus salehi, 14 (2.1%) and 5 (1.07%) sandflies infected with L. major parasite were identified, respectively, using the PCR technique.[14]

In a study in Sistan-Baluchistan Province in 1997 and based on a paper in 2020 about sandflies in Iran,[15] Kassiri et al. collected and identified Phlebotomus salengensis (Artemiev, 1978), Phlebotomus kabulensis (Artemiev, 1978), Phlebotomus similis (Perfiliew, 1963), Sergentomyia dreyfussi turkestanica (Theodor and Mesghali, 1964), Sergentomyia indica (Theodor, 1931), Sergentomyia squamipleuris (Newstead, 1912), and Sergentomyia (Rondanomyia) sp. in Iran.

This study was carried out to investigate the fauna, monthly activity, and other ecological aspects of sandflies in Khorramshahr County, Southwestern Iran.

  Materials and Methods 

The altitude of Khorramshahr (30°26′23″N 48°09′59″E) is 3 m above the sea level. It is a plain county and has a hot and desert climate. It is a highly humid county with hot summer and mild winter.

This descriptive research was guided to characterize the bioecology of phlebotomine sandflies. Since this county is a CL-endemic focus, eleven villages and cities with higher prevalence of CL were chosen for collecting sandflies: Arayez, Kofaishie, Honaishieh, Haffar, Manikh, Ghazbanieh, Chomeh, Maslavi, Shalheh, Sabeh as well as the Khorramshahr City.

Trapping was done every 15 days during the sandflies' activity season. Sampling was done three times from each region both outdoors and indoors. Sandflies were then removed from papers impregnated with castor oil and transferred to a container of acetone for a few seconds. Finally, the acetone was evacuated and 70% ethanol was added to the container with the sandflies. To identify the species, sandflies were then placed on the Puri's medium drop placed on the slide. Data related to sandflies were inputted into SPSS (IBM SPSS software/Singapore, version 22.0), presented in descriptive tables, and its diagram was drawn. The sex ratio of all the species was calculated as: no. of males/no. of females × 100. The study was approved by the Committee of Ethics in Research, Ahvaz Jundishapur University of Medical Sciences, and registered as IR.AJUMS.REC.1396. 806.

  Results 

In total, 7172 sandflies were collected from indoor and outdoor places by sticky traps and their species were determined. Sandfly species were isolated and identified separately based on whether they were collected indoors or outdoors. Out of these sandflies, 2142 sandflies (29.9%) were collected from indoor places and 5030 sandflies (70.1%) from outdoor places. Totally, 4358 sandflies (60.8%) were Phlebotomus, Rondani and Bert 1980, and 2814 (39.2%) were Sergentomyia, Franca and Parrot 1920. This study identified 11 sandfly species: P. papatasi, Scopoli 1786 (39.7%); Phlebotomus alexandri, Sinton 1928 (21.1%); Sergentomyia sintoni, Pringle 1953 (32.3%); Sergentomyia dentata, Sinton 1933 (5.24%); Sergentomyia tiberiadis, Adler, Theodor, and Lourie 1930 (0.8%); Sergentomyia baghdadis, Adler and Theodor 1929 (0.3%); Sergentomyia iranica, Lewis and Mesghali 1961 (0.25%); Sergentomyia theodori, Parrot 1942 (0.17%); Sergentomyia antennata, Newstead 1912 (0.1%); S. squamipleuris, Grassomyia 1942 (0.03%); and Sergentomyia palestinensis, Bott 1967 (0.01%) [Table 1].

Table 1: Total abundance of phlebotomine sandfly species of Khorramshahr County, Southwestern Iran (2017-2018)

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S. theodori, S. antennata, S. squamipleuris, and S. palestinensis were captured only in outdoor places. P. papatasi, P. alexandri, S. sintoni, S. dentata, S. baghdadis, and S. tiberiadis were collected from both indoor and outdoor places [Table 2] and [Table 3]. The abundance of phlebotomine sandfly species of human dwellings was as follows: P. papatasi (n = 268, 50.4%), P. alexandri (n = 89, 16.7%), S. sintoni (n = 166, 31.2%), S. dentata (n = 7, 1.32%), and S. tiberiadis (n = 2, 0.38%). Meanwhile, the abundance of phlebotomine sandfly species of stables was as follows: P. papatasi (n = 746, 46.3%), P. alexandri (n = 373, 23.2%), S. sintoni (n = 423, 26.3%), S. antennata (n = 53, 3.3%), S. tiberiadis (n = 10, 0.6%), S. baghdadis (n = 3, 0.18%), and S. iranica (n = 2, 0.12). P. papatasi (n = 1014, 47.3%), S. sintoni (n = 589, 27.5%), and P. alexandri (n = 462, 21.6%) accounted for the majority of sandflies in human habitats and stables.

Table 2: Abundance of phlebotomine sandfly species of outdoor places in Khorramshahr County, Southwestern Iran (2017-2018)

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Table 3: Abundance of phlebotomine sandfly species of indoor places in Khorramshahr County, Southwestern Iran (2017-2018)

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With respect to gonotrophic cycle stages of female sandflies based on abdominal appearance, the majority of captured sandflies collected from indoor and outdoor places had an unfed stomach. Abdominal status of phlebotomine sandflies of indoor places was as follows: empty (n = 1402, 65.5%), semi-gravid (n = 342, 16%), gravid (n = 175, 8.2%), and blood-fed (n = 223, 10.4%). Meantime, the abdominal status of phlebotomine sandflies of outdoor places was as follows: empty (n = 3458, 68.7%), semi-gravid (n = 965, 19.2%), gravid (n = 451, 9%), and blood-fed (n = 156, 3.1%).

In total, 3852 sandflies (53.7%) were male and 3320 sandflies (46.3%) were female. Moreover, 73% (n = 3182) of Phlebotomus species were male and 27% (n = 1176) were female. On the other hand, 23.8% (n = 670) and 76.2% (n = 2144) of Sergentomyia species were male and female, respectively. In general, the majority of sandflies were male [Table 1]. Studies on the determination of sex percent and sex ratio (number of males per 100 females) showed that the highest of P. papatasi, P. alexandri, S. tiberiadis, S. iranica, S. theodori, S. antennata, and S. palestinensis were male, whereas, the majority of S. sintoni, S. dentata, S, baghdadis, and S. squamipleuris species were female. The sex ratio of the sandflies of genus Phlebotomus and Sergentomyia was 270.6 and 31.25 males per 100 females, respectively. Furthermore, the sex ratio of phlebotomine species was 116. The sex ratio for P. papatasi, P. alexandri, S. sintoni, S. dentata, S. tiberiadis, S. baghdadis, S. iranica, S. theodori, S. antennata, S. squamipleuris, and S. palestinensis was 222.7, 414.3, 27.5, 30.8, 268.7, 26.3, 500, 1100, 700, 0, and 100, respectively.

Sandfly activity started in April and ended in January. The sandflies were more active in June and September in Khorramshahr County [Figure 1].

Figure 1: Monthly activity of phlebotomine sandflies in Khorramshahr County, Southwestern Iran (20172018)

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  Discussion 

The most abundant species among the 7172 sandflies caught were P. papatasi (39.6%), S. sintoni (32.2%), and P. alexandri (21.1%). The significance of P. papatasi is due to the reality that it is noticed as the definitive and main vector of ZCL in all regions investigated across the country and the globe.[14] Moreover, P. papatasi is known as a vector of sandfly fever.[1]P. alexandri was reported as potential vector and known as a proven leishmaniasis vector in the globe and Iran.[4] Results of PCR showed that P. alexandri females from East Azerbaijan Province, Kermanshah Province, Fars Province, and Khuzestan Province were infected with Leishmania infantum; Leishmania major; L. major, L. infantum, Leishmania donovani, and L. tropica; and L. major and L. infantum, respectively.[16] Meanwhile, S. dentata and S. sintoni were introduced as the vectors of lizard leishmaniasis.[4],[17],[18] The current study's findings were consistent with those of a previous study conducted in 2003 on leishmaniasis vectors in the Bastak region of Hormozgan Province,[19] as well as those of a previous study conducted in 2005–2006 on the fauna, abundance, and distribution of sandflies in Nourabad Mamasani, Fars Province, Iran.[20] In Kassiri et al.'s research in Sistan-Baluchistan Province, ten Phlebotomus and eight Sergentomyia species were found outdoors, and nine Phlebotomus and 10 Sergentomyia species were found indoors. P. papatasi (58.4%) was the dominant species captured indoors in the plain area. Sergentomyia clydei, Sinton 1928 (64.7%), was captured to be the greatest species outdoors in the plain area. S. clydei (19.8%) and S. tiberiadis, Alder, Theodor, and Lourie, 1930 (35%), were the dominant indoor and outdoor species from the mountainous region, respectively.[21] In the study of sandfly fauna in Khash County, Southeast Iran, of the 21 species of sandflies identified, 9 and 12 belonged to Phlebotomus and Sergentomyia genus, respectively. The greatest species were Phlebotomus kazeruni Theodor and Mesghali, 1964, and S. tiberiadis, representing 39.3% of Phlebotomus spp. and 62.5% of Sergentomyia spp., respectively.[22] The dominant species in the above study was P. kazeruni. Due to differences in ecological, geographical, climatic, and geological conditions between the two regions, this result was different from that of the present study in which P. papatasi was the dominant species. According to a comparison of these two studies, the difference is most likely due to geographical and ecological conditions, as well as climatic differences, because Khash is a dry mountainous region, whereas Khorramshahr is located in the plain and has a humid climate. In the study of phlebotomine sandflies in Nikshahr County, Southeastern Iran, 27% of the specimens were Phlebotomus species while 73% were Sergentomyia. P. alexandri and S. tiberiadis were the most abundant species among Phlebotomus spp. and Sergentomyia spp., respectively.[23] In the study of Rudbar County in Northern Iran, ten species were identified. About 0.42% of the specimens related to Sergentomyia genus. The species Phlebotomus perfiliewi, Phlebotomus neglectus, Phlebotomus halepensis, S. tiberiadis, S. baghdadis, and S. clydei were reported for the first time in Guilan Province. The numbers were 79.8% and 57.7% for the most common species of P. perfiliewi and Phlebotomus tobbi, respectively.[24] In the study of Kassiri and Farhadi-Nezhad in Abadan County, Southwestern Iran, 2 species of Phlebotomus and 11 species of Sergentomyia were captured. P. papatasi (45.64%), P. alexandri (31.31%), and S. sintoni (14.3%) accounted for the majority of collected species.[4] In Chabahar County, Southeastern Iran, P. papatasi (34.83%), S. clydei (33.57%), S. sintoni (16.23%), and P. salehi (13.02%) were the four common species in the area.[25] Geographical, topographic, ecologic, and climatic differences are the reason for the difference in the results in the study of sandfly fauna.

Male and female sandflies accounted for 53.7% and 46.3% of the specimens, respectively. Male sandflies were more common in this study. The sex ratios indicated that the sticky traps were more attractive for males. The sex ratio of the sandflies of genus Phlebotomus and Sergentomyia was 270.6 and 31.25, respectively. Furthermore, the overall sex ratio of phlebotomine species was 116. In the Chabahar, Khash, and Abadan sandfly studies, 59.1%, 74.7%, and 71.4% of the specimens were male. In Chabahar, the sex ratio was 241.3 for Phlebotomus genus, whereas it was 92.3 for Sergentomyia genus.[25] In Rudbar County, 64.4% and 67.2% of phlebotomine sandflies were females when light traps and hand catches were applied, respectively. Furthermore, 91.2% of captured sandflies by sticky paper traps were males. The overall sex ratio (M: F) of phlebotomines was 0.69.[24] In a study in Northwestern Iran, the maximum part of sandflies captured by light traps was female and by sticky paper traps was male. This greater frequency of males to females may be described by the greater hunting of sandflies by sticky paper traps than light traps in that study. They indicated a sex ratio of 1.1 for Sergentomyia and 1.3 for Phlebotomus.[26] Findings of a survey in Bam city show 81.3% of captured sandflies were male and the sex ratio was 618.[27] Sex ratio is not only a constant rate for all species but also in association with the collection method.

Abdominal appearance of female sandflies is applied for determining ovary development situation. A classification for abdominal appearances is as follows: gravid, semi-gravid, freshly fed, and empty (unfed). In the present study, the majority of sandflies collected from indoor and outdoor places had an empty abdomen (67.8%). In Norouzi et al.'s study, 71.6% of female phlebotomines were unfed.[24] In Kassiri et al.'s study in Abadan, the analysis of physiological status of sandflies in outdoors and indoors revealed that most of them were unfed (66.15%). A study in Sistan-Baluchistan Province revealed that 38.4% and 50.9% dissected P. papatasi and P. salehi were unfed, respectively.[28]

In the present study, sandfly activity began in April and ended in January. Furthermore, the sandflies were more active in June and September in Khorramshahr County. In the study of Abadan County, the sandflies were more active in June and September.[4] Yaghoobi-Ershadi et al. in Rafsanjan County, Southeastern Iran, reported P. papatasi with its two peaks of activity happening at the beginning of both June and August.[29] In Damghan County, Semnan Province, P. papatasi had one activity peak at the end of May and one at the beginning of September.[30] Since the climatic conditions differ in various geographical parts of Iran, the peak activity of sandflies is expected to differ in various areas. Different surveys have proved this conclusion.

The limitations of this study were as follows: collection of sandflies by only one method and the impossibility of sampling from all areas of the county. The strengths of the research included sampling in all months and seasons and the relatively large number of specimens collected. The highlight of this study was the rich fauna of sandflies in the area.

  Conclusion 

The findings of the present research show that different species of sandflies are active in Khorramshahr County . Among them, P. papatasi and P. alexandri are introduced as the main and secondary vectors of ZCL. Leptomonad infection of P. papatasi and P. alexandri is recommended for this area.

Financial support and sponsorship

This project has been financially supported by Infectious and Tropical Diseases Research Center, Health Research Institute, Chancellor for Research Affairs of Ahvaz Jundishapur University of Medical Sciences, with project number OG-96132. This study is subject of M. Sc. thesis of Mrs. Samaneh Najafi.

Conflicts of interest

There are no conflicts of interest.

 

  References 
1.Dehghani R, Kassiri H, Khodkar I, Karami S. A comprehensive overview on Sandfly fever. J Acute Dis 2021;10:98-106.  
  [Full text]  2.Markle WH, Makhoul K. Cutaneous leishmaniasis: Recognition and treatment. Am Fam Physician 2004;69:1455-60.  
    3.Torres-Guerrero E, Quintanilla-Cedillo MR, Ruiz-Esmenjaud J, Arenas R. Leishmaniasis: A review. F1000Res 2017;6:750.  
    4.Kassiri H, Farhadi nezhad R. Determination of fauna and seasonal activity of phlebotomine sandflies (Diptera: Psychodidae: Phlebotominae) as vectors of disease agents in Southwestern Iran. Int Arch Health Sci 2021;8:206-11.  
  [Full text]  5.Kassiri H, Jalali A, Mardani- Kataki M, Lotfi M. Ten years clinical and epidemiological picture of cutaneous Leishmaniasis in the Dasht-e-Azadegan County, Southwestern Iran. Kwait M J 2021;53:44-50.  
    6.Ershadi MR, Zahraei-Ramazani AR, Akhavan AA, Jalali-Zand AR, Abdoli H, Nadim A. Rodent control operations against zoonotic cutaneous leishmaniasis in rural Iran. Ann Saudi Med 2005;25:309-12.  
[PUBMED]  [Full text]  7.Mohebali M, Yaghoobi P, Hooshmand B, Khamesipour A. Efficacy of paromomycin ointment prepared in Iran (Paromo –U) against cutaneous leishmaniasis caused by leishmania major in mouse model. Iranian J Dermato 2004;26:8894.  
    8.Kassiri H, Khodkar I, Ahmad Jalali A, Lotfi M. Sociodemographic, clinical, laboratory, diagnostic, therapeutic and public health aspects of cutaneous leishmaniasis in Southwestern Iran. J Clin Diagnostic Res 2019;13:LC10-4.  
    9.Hajjaran H, Mohebali M, Akhavan AA, Taheri A, Barikbin B, Soheila Nassiri S. Unusual presentation of disseminated cutaneous leishmaniasis due to leishmania major: Case reports of four Iranian patients. Asian Pac J Trop Med 2013;6:333-6.  
    10.Doroodgar M, Doroodgar M, Doroodgar A. Unusual presentation of cutaneous leishmaniasis: Ocular leishmaniasis. Case Rep Infect Dis 2017;2017:1-4.  
    11.Razavi MR, Shirzadi MR, Mohebali M, Yaghoobi-Ershadi MR, Vatandoost H, Shirzadi M, et al. Human cutaneous leishmaniosis in Iran, Up to Date-2019. J Arthropod Borne Dis 2021;15:143-51.  
    12.Sharifi I, Aflatoonian MR, Fekri AR, Hakimi Parizi M, Aghaei Afshar A, Khosravi A, et al. A comprehensive review of cutaneous leishmaniasis in Kerman province, southeastern Iran-narrative review article. Iran J Public Health 2015;44:299-307.  
    13.Oshaghi MA, Yaghobi-Ershadi MR, Abbassi M, Parvizi P, Akhavan AR, Rahimi Foroshani A, et al. Detection of leishmania major in naturally infected sand flies using semi nested-PCR. Iran J Public Health 2008;37:59-64.  
    14.Kassiri H, Naddaf S, Mohebali M, Javadian E. Molecular characterization of Leishmania infection in sand flies from Sistan-Baluchistan province, Southeastern Iran. Jundishapur J Microbiol 2012;5:430-3.  
    15.Kasiri H, Javadian E, Seyedi-Rashti MA. List of phlebotominae (Diptera: Psychodidae) of Iran. Bull Soc Pathol Exot 2000;93:129-30.  
    16.Naghian A, Oshaghi MA, Moein-Vaziri V, Rassi Y, Sedaghat MM, Mostafavi E, et al. Molecular identification of leishmania Species in Phlebotomus alexandri (Diptera: Psychodidae) in Western Iran. J Arthropod Borne Dis 2020;14:8-16.  
    17.Rassi Y, Javadian E, Nadim A, TahvildarBidruni GH. Natural promastigote infection of sand flies and its first occurrence in Sergentomyia Dentata in Ardabil province, North West of Iran. Iran J Publ Health 1997;26:7-12.  
    18.Kassiri H, Jahanifard E. First report on Sergentomyia sintoni and Sergentomyia clydei (Diptera: Psychodidae): Their natural promastigote infection and some aspects of biology in Sistan – Baluchistan province, Southeastern Iran. Asian Pac J Trop Dis 2012;20:S370-3.  
    19.Soleimani- Ahmadi M, Dindarloo K, Zare SH. Vectors of cutaneous leishmaniasis in Hormozgan province in the region Bastak. Med J Hormozgan 2004;8:85-90.  
    20.Javadian E, Yaghoobi-Ershadi MR, Jalali M, Kalantari M. The fauna and bioecology of vectors of leishmaniasis (Phlebotominae sandflies) in Nourabad Mamassani county fars province. J Armaghane Danesh 2008;13:51-52.  
    21.Kassiri H, Javadian E, Sharififard M. Monthly activity of Phlebotominae sand flies in Sistan-Baluchistan Province, Southeast Iran. J Insect Sci 2013;13:153.  
    22.Kassiri H, Javadian E. Composition of the sand fly fauna in Khash County, Southeast Iran. J Insect Sci 2012;12:132.  
    23.Kassiri H, Javadian E, Hanafi-Boj AA. Species composition of Phlebotomine sandflies (Diptera: Psychodidae) in Nikshahr county, South -Eastern Iran. J Vector Borne Dis 2011;48:159-62.  
    24.Norouzi B, Hanafi-Bojd AA, Moin-Vaziri V, Noorallahi A, Azari-Hamidian S. An inventory of the sand flies (Diptera: Psychodidae) of Rudbar County, a new focus of leishmaniasis in Northern Iran, with a Taxonomic Note on the subgenus larroussius. J Arthropod Borne Dis 2020;14:302-16.  
    25.Kassiri H, Javadian E, Hanafi-Bojd AA. Faunistic survey of sandflies (Diptera: Psychodidae) in Chabahar County, Southeast of Iran. J Exp Zool India 2011;14:663-6.  
    26.Akhoundi M, Mirzaei A, Baghaei A, Alten B, Depaquit J. Sand fly (Diptera: Psychodidae) distribution in the endemic and non-endemic foci of visceral leishmaniasis in Northwestern Iran. J Vector Ecol 2013;38:97-104.  
    27.Aghasi M, Sharifi I. Survey of the fauna and monthly activity of the Sandfly as the vectors of the cutaneous leishmaniasis in the city of Bam. J Kerman Univ Med Sci 2003;10:85-91.  
    28.Kassiri H, Hanafi-Bojd AA, Javadian E. Nocturnal activity, monthly leptomonad infection, parity rate and physiological status vectors of zoonotic cutaneous leishmaniasis (Diptera: Psychodidae) in Southeastern Iran. Jundishapur J Microbiol 2013;6:51-6.  
    29.Yaghoobi-Ershadi MR, Hakimiparizi M, Zahraei-Ramazani AR, Abdoli H, Akhavan AA, Aghasi M, et al. Sand fly surveillance with an emerging epidemic focus of cutaneous leishmaniasis in Southeast Iran. Iranian J Arthropod-Borne Dis 2010;4:17-23.  
    30.Mohamadi Azani S, Rassi Y, Abaei MR, Oshaghi MA, Yaghoobi-Ershadi MR, Mohebali M, et al. Fauna and monthly activity of sand flies at zoonotic cutaneious leishmaniasis focus in Damehan district, semnan province (2008). Sci J Semnan Univ Med Sci 2009;11:107-13.  
    
  [Figure 1]
 
 
  [Table 1], [Table 2], [Table 3]