J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ١ Review Article Phlebotomine Sand Flies (Diptera: Psychodidae) in Iran and their Role on Leishmania Transmission MR Yaghoobi-Ershadi Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran (Received 20 May 2012; accepted 11 June 2012) Abstract Sand fly research has a long history in Iran beginning with the work of Adler, Theodor and Lourie in 1930 and followed by Mesghali’s foundational taxonomic work on sand flies in 1943. Since then, research has been continued unabated throughout the country and official publications report the existence of at least 44 species of sand flies (26 of the genus Phlebotomus and 18 of genus Sergentomyia) in Iran. So far, seven Phlebotomus species and one Sergentomyia species have been collected and described by Iranian researchers for the first time. Natural promastigote infections have been repeatedly found in 13 species of sand flies and modern molecular techniques are used routinely to characterize Leishmania parasite isolates from endemic areas of cutaneous and visceral leishmaniasis. Because of anthropogenic environmental modifications or human population movements, data on phlebotomine sand flies should be regularly updated and verified at least every five years by fieldwork and taxonomy in foci of leishmaniasis, to incriminate vector species of relevance to the ecology of transmission and to support development and implementation of control programs. Keywords: Sand flies, taxonomy, vectors, Leishmania major, Leishmania tropica, Leishmania infantum, Leishmaniasis, Iran Introduction Cutaneous and visceral leishmaniasis are ancient endemic diseases in Iran (Maimandi- Nezhad 1965) and continue to be a growing health threat to community development and the environment in the country. Cutaneous leishmaniasis is endemic in two forms, Anth- roponotic Cutaneous Leishmaniasis (ACL) and Zoonotic Cutaneous Leishmaniasis (ZCL). About 20,000 cases of leishmaniasis (including ACL, ZCL and Zoonotic Visceral Leish- maniasis) are reported annually but the real figures are 4–5 folds. Anthroponotic cutaneous leishmaniasis is still a neglected tropical dis- ease in many parts of the country. It was greatly reduced in many foci by malaria con- trol measures but many foci remained active in some large and medium sized cities such as Tehran, Mashhad, Neishabur and Sabzevar in the north-east, Shiraz in the south, Kerman and Bam in the southeast, Yazd, Kashan and parts of the city of Esfahan in the central region (Nadim and Tahvildare-Bidruni 1977, Yaghoobi-Ershadi et al. 2002). The parasite is Leishmania tropica and the vector is sup- posed to be Phlebotomus (Para-phlebotomous) sergenti Parrot 1917. The main reservoir host is human but dogs have a role as animal res- ervoir host and active lesions in dogs have been reported in Tehran, Mashhad, Shiraz and Neishabur (Yaghoobi-Ershadi et al. 2002, Yaghoobi-Ershadi 2008). Zoonotic cutaneous leishmaniasis is en- demic in many rural areas of 17 out of 31 Corresponding author: Prof Mohammad Reza Yaghoobi- Ershadi, E-mail: yaghoobi.reza@gmail.com 1 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٢ provinces and still is a great health problem in Iran. About 80% of cases reported in the country are of ZCL form (Yaghoobi-Ershadi and Javadian 1995, Yaghoobi-Ershadi et al. 2001b, 2003, Akhavan et al. 2007). Rhom- bomys opimus, the great gerbil, is the main animal reservoir in foci in the north-east and central part of the country, Meriones libycus, the Libyan jird, is considered the principal res- ervoir host in some parts of central and south of the country. Tatera indica, the Indian ger- bil, is the main reservoir host in the southeast and Meriones hurrianae, the desert gerbil, is the reservoir in southeastern part of Iranian Ba- luchistan, neighboring Pakistan (Yaghoobi- Ershadi and Javadian 1996a, 1996b, Akhavan et al. 2010). Phlebotomus papatasi Scopoli 1786, the most prevalent species among Phlebotomus genus, is the only known vector (Nadim et al. 1968c, Yaghoobi-Ershadi and Javadian 1997). Cases of Zoonotic Visceral Leishmaniasis (ZVL) have been reported from all parts of the country (Nadim et al. 1978). About 9,000 parasitological confirmed human cases have been diagnosed and registered from all over the country during the period 1954–2011 (School of Public Health, unpublished data) and most of the cases are under five years old. The epidemiological studies show that the Mediterranean type of Kala-azar occurrs in different parts of Iran. Zoonotic visceral leish- maniasis is caused by Leishmania infantum LON 49 (Alborzi et al. 2007) and 4 sand fly species belonging to Larroussius subgenus and one species of Paraphlebotomus subgenus are the probable vectors of ZVL (Yaghoobi- Ershadi 2011). Dogs, foxes, jackals and wolves have been found infected in various parts of the country but dogs are the main reservoir hosts (Navid-Hamidi et al. 1982, Nadim 2008). There are seven endemic foci in the country including Fars Province in the south, Ardabil Province in the northwest, Azarbaijan-e-Sharqi Province in the northwest, Khorramabad area (Lorestan Province) in the west, Khuzestan Province in the southwest and Khorasan-e- Shomali Province in the northeast. At the moment most of ZVL cases are reported from Fars and Ardabil Provinces which both are tribe areas of Iran (Nadim 2008). Historical overview on sand flies from Iran Phlebotomine sand flies of Iran have been studied since 1930 by a limited number of Iranian and foreign entomologists such as Adler, Theodor and Lourie, who surveyed a small area of the north western part of the country including Kermanshah, Hamadan, Tehran and Rasht. Seven species were found, two of which proved new to science (Adler et al. 1930). Mesghali (1943) was the first Ira- nian to conduct basic studies on sand flies in Iran. Due to the importance of sand flies and leishmaniasis and the special interest of N. Ansari, Professor and Chairman, Department of Parasitology, University of Tehran, School of Medicine, Mesghali was appointed to carry out a study on the status and distribution of sand flies in Iran. Scientific research had be- gun at the same time in the country and was greatly facilitated with the establishment of the Institute of Parasitology and Malariology in 1952. Survey teams sent out by this Insti- tute during the preparatory phase of the ma- laria eradication program or for studying of parasitic diseases were also utilized for the compilation of data on sand flies (Mesghali 1961). Pervomaiski (1948) focused on sand flies in a small area in northern Iran, near the Caspian Sea in the Elburz Mountains. Lewis (1957) collected sand flies in the northeastern part of Iran (Khorassan, Sabzevar area), de- scribed a new species, Phlebotomus ansarii Lewis 1957 and reported on four species of Sergentomyia, three of which represented new country records. Subsequent work by Lewis (1961), Mesghali (1964, 1965, 1968), Theodor (1964), Nadim (1964, 1968, 1970), Javadian (1975, 1997a) and Seyedi-Rashti (1968, 1970) showed that the number of species of both 2 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٣ genera occurring in the country was much more than reported by earlier workers. In the first general review of the sand fly fauna of Iran, Mesghali (1961) reported 10 Phlebotomus and Sergentomyia species. In 1976 a key was prepared by Nadim and Javadian in which they reported 19 Phle- botomus species and 17 Sergentomyia species. In 1990, Seyedi-Rashti produced a pictorial key to 27 Phlebotomus and 16 Sergentomyia spe- cies (School of Public Health, Tehran Uni- versity of Medical Sciences, unpublished data). Due to the importance of this subject and the special interest of Iranian researchers, sand fly fauna studies have been updated in recent years with the aid of modern molec- ular techniques. Current times (2007–2011) In 2007, an intraspecific study on the morphological and molecular characteristics based on mtDNA sequences of Ph. sergenti s.l., was performed on 28 Iranian popula- tions from 11 provinces. Three morphotypes were identified as A, B and C. Morphotype A was considered as Ph. sergenti sergenti, morphotype B was considered Ph. sergenti similis, and morphotype C need further stud- ies (Moin-Vaziri et al. 2007a). Also in 2007, these same workers carried out a comparative morphological, morpho- metrical and molecular study on 11 different populations of Ph. caucasicus from seven provinces. The results showed that the spe- cies includes two morphotypes: C and G. Mor- photype C, described as Ph. caucasicus, re- ported in all foci of ZCL. But morphotype G, Ph. grimmi, was collected only in three prov- inces in the northwestern part of the country that are free ZCL (Moin-Vaziri et al. 2007b). In 2009, the population structure of Ph. papatasi was studied based on Multi-locus microsatellite typing of sand flies collected from seven provinces. The results showed that there are two population variants of Ph. papatasi: A2 from western Iran and A3 from eastern Iran ((Hamarsheh et al. 2009). More recently in 2010, a molecular study on sand flies from three Iranian provinces showed Ph. caucasicus and Ph. mongholensis to be indistinguishable by the mitochondrial cyto- chrome b gene (Parvizi et al. 2010). During 2009–2010 a preliminary morpho- logical and morphometric study was performed on two populations of Ph. major s.l. from en- demic and nonendemic foci of visceral leish- maniasis. The results showed that there were two morphotypes (Badakhshan et al. 2011a). Based on ITS2 and EF-1α sequences, these two taxa were separated into two well-defined lineages. Moreover, the close similarity of these morphotypes to Phlebotomus neglectus spec- imens deposited by Esseghir et al. (2000) in GenBank, was highly informative, suggesting that there are two populations of Ph. neglectus in the country (Badakhshan et al. 2011b). So far eight new species of sand flies in- cluding seven Phlebotomus species and one Sergentomyia species have been collected and described by Iranian researchers for the first time as follows: (i) Ph. (Syn.) ansarii Lewis, 1957, (ii) Ph. (Adl.) brevis Theodor and Mesghali, 1964, (iii) Ph. (Lar.) ilami Javadian, 1997, (iv) Ph. (Par.) kazeruni Theodor and Mesghali, 1964, (v) Ph. (Eup.) mesghalii Rashti and Nadim, 1970, (vi) Ph. (Eup.) nadimi Javadian, 1997, (vii) Ph. (Phl.) salehi Mesghali and Rashti, 1968, (viii) Se. (Par.) iranicus Lewis and Mesghali, 1961. Current composition of sand fly fauna of Iran National and international publications on sand flies show that in Iran the number of sand fly species account for a total of 44 (Table 1). Sand fly fauna include 26 Phlebotomus species of 6 subgenera and 18 Sergentomyia species of 6 subgenera. Phlebotomus sergenti sergenti and 3 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ۴ Ph. sergenti similis reported in Table 1 are not counted, being considered subspecies. The presence of further seven species in- cluding: Ph. (Adl.) kabulensis Artemiev, 1978, Ph. (Adl.) salangensis Artemiev, 1978, Ph. (Lar.) langeroni Nilzulesco, 1930, Ph. (Trans- phlebotomus.) mascittii Grassi, 1908, Ph. (Lar.) smirnovi Perfiliew, 1941, Ph. (Eup.) caudatus Artemiev, 1978, Ph. (Adl.) turanicus Artemiev, 1974 -doubtful in the country, because Iranian senior sand fly specialists have not confirmed them yet and must be verified by further studies. Most entomologists believe that the sand flies of Iran are predominantly Palearctic, with Mediterranean elements entering from the northwest and central Asiatic elements from the northeast. The area along the Persian Gulf contains both Indian and African elements en- tering through southern Arabia (Theodor and Mesghali 1964). The emergence of new sand fly populations in Iran may have resulted from the introduction recently or historically with people who settled in the agricultural areas stretching from the Nile River to the southern coast of the Mediterranean Sea, around the Syrian Desert and north of Saudi Arabia and Yemen to the Persian Gulf. Known as the Fertile Crescent, this area has an impressive record of past human activity and transporta- tion, including migrations of some of the ear- liest known peoples (Hamarsheh et al. 2009). Studies on Leishmania vector incrim- ination Studies on the vectors of various Leish- manias in Iran began in 1964 and continue, especially in newly discovered foci. Natural promastigote infections have been found repeatedly in 13 species of sand flies (10 Phlebotomus and 3 Sergentomyia species). Phlebotomus sergenti s.l. Natural promastigote infections have been found in this species in two ACL foci due to, Mashhad in the northeast with an infection rate of 1.5% (Mesghali et al. 1967) and Es- fahan City in central Iran with an infection rate of 0.1 % (Nadim and Seyedi-Rashti 1991). Phlebotomus sergenti was reported as L. tropica host by PCR in Shiraz City, south of Iran (Oshaghi et al. 2010). Two (66.6%) out of 3 Ph. sergenti females have been found infected with Leishmania turanica based on PCR detection of parasite ITS2-rDNA in the city of Bushehr, southwestern Iran in 2011 (Yaghoobi-Ershadi, unpublished data). Phle- botomu sergenti has a wide distribution in the country that includes and extends beyond the distribution of L. tropica. Phlebotomus papatasi The main vector of Leishmania major to humans and gerbils is Ph. papatasi. In almost all ZCL foci natural promastigote infections have been found in this species, ranging from 0.2 to 10.9% in flies captured from rodent burrows during 1967–1990 with an average infection rate of 5.6%. (Yaghoobi-Ershadi and Akhavan 1999, Yaghoobi-Ershadi et al. 2001c). In 1991, Leishmania promastigotes isolated from this species in central Iran, they were typed at the faculty of Medicine in Mont- pellier by the examination of 15 isoenzymes and identified as L. major zymodeme MON- 26 (Yaghoobi-Ershadi et al. 1995b). Natural infections with Leishmania pro- mastigotes were monitored in sand flies from rodent burrows in Borkhar in central Iran from late June to mid October 1991. Phlebotomus papatasi infections appeared at the end of July peaked in September with a rate of 17.3% and fell to zero early in October (Yaghoobi-Ershadi and Javadian 1996b). Specimens of this spe- cies collected from rodent burrows in villages of Badrood, in central Iran in 1998 were also found to be naturally infected with L. major zymodeme MON-26. Promastigote infection rates varied between 6.7–22% during the sand 4 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ۵ fly season, being greatest in September, co- incident with second activity peak of Ph. papatasi, 2–3 months before the highest in- cidence of human ZCL cases in November- December. The promastigote infection rate was 1.1% in 94 Ph. papatasi in indoors (Yaghoobi- Ershadi et al. 2001a). During the last decade on many occasions L. major isolates from Ph. papatasi have been detected and identified by Nested-PCR, Semi Nested PCR and Rapd-PCR or isoenzyme characterization in different foci of ZCL in the country (Yaghoobi-Ershadi and Akhavan, 1999, Yaghoobi-Ershadi et al. 2001c, Rassi et al. 2008, Oshaghi et al. 2008). Parvizi and Ready (2008) conducted surveys in two foci of ZCL in Esfahan and Golestan Provinces lo- cated in the central and northeastern parts of the country respectively, detected and identi- fied L. major, L. turanica and Leishmania gerbilli in Ph. papatasi collected from gerbil burrows and animal shelters using Nested- PCR and sequencing of nuclear ITS-rDNA fragments. This species plays the key vectorial role in the transmission cycle of ZCL due to L. major in many rural areas of 17 out of 31 provinces of the country (Fig. 1). Phlebotomus caucasicus, Phlebotomus mongolensis and Phlebotomus andrejevi Besides Ph. papatasi, the three species, Ph. caucasicus, Ph. mongoloensis and Ph. andrejevi, are believed to maintain the en- zootic cycle of L. major among gerbils and jirds. The females of these sand flies are not distinguishable morphologically. Natural pro- mastigote infection rates in Ph. caucasicus from 3.3–20% have been reported in specimens collected from rodent burrows, with frequent observation of parasites in the anterior midgut and head (Yaghoobi-Ershadi and Javadian 1996b, 1997). In 1994, promastigotes were isolated from heavily infected Ph. caucasicus collected from gerbil and jird burrows in the main focus of Esfahan and typed by isoenzymes as L. major zymodeme MON-26 at the WHO Leishmania reference Center, Faculty of Medicine, University of Montpellier, France (Yaghoobi-Ershadi et al. 1994). The same Leishmania species was isolated again from Ph. caucasicus collected in gerbil burrows in Jarghooyeh rural district, southeastern Esfahan in 1997 (Yaghoobi-Ershadi et al. 2001c). In 2008, L. major and Leishmania near gerbilli were detected and identified in Ph. caucasicus by Nested PCRs and DNA se- quence analysis from specimens collected in rodent burrows and animal shelters in Esfahan, central Iran and Golestan Province in north- eastern Iran respectively (Parvizi and Ready 2008). These findings combined with a human blood index of 20% provide strong evidence that Ph. caucasicus is indeed a natural vector of L. major in central Iran and a secondary vector to humans in the country (Yaghoobi-Ershadi et al. 1995a). Phlebotomus ansarii This species has been found so far only in Iran. Several studies have reported infection rates ranging from 3.7–11.5% in specimens collected from rodent burrows in the Esfahan focus of ZCL central Iran (Nadim et al. 1968c, Yaghoobi-Ershadi and Javadian 1996). In 2008 L. near gerbilli was identified by Nested PCR of ITS-rDNA in specimens of this spe- cies collected from gerbil burrows in Esfahan (Parvizi and Ready 2008). Phlebotomus salehi This species is considered to be a vector in the enzootic cycle of L. major among gerbils and has been collected in rodent burrows on the plain of Chabahar in Baluchistan and also Hormozgan Provinces in southern Iran (Mesghali 1965, Mesghali and seyedi- Rashti 1968). The average natural promastigote infection rate in specimens collected from rodent burrows in southeastern Iran was 1.07% in 1997 (Kasiri and Javadian 2000). 5 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ١ Genus Sub-genus Species Phlebotomus Adlerius Nitzulescu, 1931 1. Ph. (Adl.) balcanicus Theodor, 1958 2. Ph. (Adl.) brevis Theodor and Mesghali, 1964 3. Ph. (Adl.) halepensis Theodor, 1958 4. Ph. (Adl.) longiductus Parrot, 1928 Euphlebotomus Theodor, 1948 5. Ph. (Eup.) mesghalii Seyedi-Rashti and Nadim, 19706. Ph. (Eup.) nadimi Javadian, 1997 Larroussius Nitzulescu, 1931 7. Ph. (Lar.) ilami Javadian, 1997 8. Ph. (Lar.) kandelakii Shchurenkova, 1929 9. Ph. (Lar.) keshishiani Shchurenkova, 1936 10. Ph. (Lar) neglectus Tonnir, 1921 11. Ph. (Lar.) perfilievi Perfiliev, 1937 12. Ph. (Lar.) tobbi Adler and Theodor, 1930 13. Ph. (Lar.) wenyoni Adler and Theodor, 1930 Paraphlebotomus Theodor, 1948 14. Ph. (Par.) alexandri Sinton, 1928 15. Ph. (Par.) andrejevi Shakirzyanova. 1953 16. Ph. (Par.) caucasicus Marzinowsky, 1917 17.Ph.(Par.) grimmi Porchinsky,1876 18. Ph. (Par.) jacusieli Theodor, 1947 19. Ph. (Par.) kazeruni Theodor and Mesghali, 1964 20. Ph. (Par.) mongolensis Sinton, 1928 21. Ph. (Par.) sergenti s.l. Parrot, 1917 Ph. sergenti sergenti Parrot 1917 Ph. segenti similis Perfiliew, 1963 Phlebotomus Rondani, 1840 22. Ph. (Phl.) bergeroti Parrot, 1934 23. Ph. (Phl.) papatasi (Scopoli), 1786 24. Ph. (Phl.) salehi Mesghali and Rashti, 1968 Synphlebotomus Theodor, 1948 25. Ph. (Syn.) ansarii Lewis, 195726. Ph. (Syn.) eleanorae Sinton, 1931 Sergentomyia Grassomyia Theodor, 1958 27. Se. (Gra.) dreyfussi Parrot, 193328. Se. (Gra.) squamipleuris (Newstead), 1912 Parrotomyia Theodor, 1958 29. Se. (Par.) africana Newstead, 1912 30. Se. (Par.) baghdadis (Adler and Theodor), 1929 31. Se. (Par.) grekovi (Khodukin), 1929 32. Se. (Par.) palestinensis (Adler and Theodor), 1927 33. Se. (Par.) sogdiana (Parrot), 1929 34. Se. (Par.) sumbarica (Perfiliev), 1933 Parvidens Theodor and Mesghali, 1964 35. Se. (Par.) iranicus Lewis and Mesghali, 1961 Rondonomyia Theodor, 1958 Neophlebotomus Franca and Parrot, 1920 36. Se. (Ron.) pawlowskyi (Perfiliev), 1933 Sergentomyia Franca and Parrot, 1920 37. Se. (Ser.) antenata Newstead, 1912 38. Se. (Ser.) dentata Sinton, 1933 39. Se. (Ser.) mervynae Pringle, 1953 40. Se. (Ser.) theodori (Parrot), 1942 41. Se. (Ser.) sintoni Pringle, 1933 Sintonius Nitzulescu, 1931 42. Se. (Sin.) christophersi (Sinton), 1927 43. Se. (Sin.) tiberiadis (Adler, Theodor and Lourie), 1930 44. Se. (Sin.) clydei (Sinton), 1928 Table 1. List of sand fly species recorded in Iran 6 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٢ Table 2. Proven or suspected vector species present in Iran, Leishmnaia agent transmitted and endemic provinces Proven or suspected vector Leishmania agent transmitted Province References Ph. papatasi* L. major Esfahan (Nadim et al. 1968c), (Yaghoobi-Ershadi et al. 1995, 2001b) Khorasan-e-Razavi (Mesghali et al. 1967), (Yaghoobi-Ershadi et al. 2003) Khorasan-e-Shomali (Javadian et al. 1976) Golestan (Nadim et al. 1968b), (Parvizi and Ready 2008) Yazd (Yaghoobi-Ershadi et al. 2004, 2007) Kerman (Yaghoobi-Ershadi, 2010), (Akhavan et al. 2007) Khuzestan (Javadian et al. 1977b), (Javadian and Ranjbar, 1990) Qom (Akhavan et al. 2003), (Rassi et al. 2011b) Tehran (Seyedi-Rashti and Salehzadeh, 1990) Sistan and Baluchestan (Seyedi-Rashti and Nadim, 1984a), (Kasiri and Javadian, 2001) Hormozgan (Hanafi-Bojd et al. 2007) Bushehr (Yaghoobi-Ershadi,unpublished data) Fars (Rassi et al. 2007), (Azizi et al. 2010) Semnan (Rassi et al. 2011a) Ilam (Javadian and Ranjbar, 1990) Ph. papatasi L. turanica Esfahan (Parvizi and Ready, 2008) Golestan (Parvizi and Ready, 2008) Semnan (Rassi et al. 2011a) L. near gerbilli Esfahan (Parvizi and Ready, 2008) Ph. sergenti L. tropica Khorasan-e Razavi (Mesghali et al. 1967), (Nadim and Seyedi-Rashti, 1991) Esfahan (Javadian and Seyedi-Rashti, 1991) Yazd (Yaghoobi-Ershadi et al. 2002) Kerman (Yaghoobi-Ershadi 1977), (Seyedi-Rashti et al. 1984b), (Nadim and Aflatoonian, 1995) Fars (Nadim and Seyedi-Rashti, 1971), (Oshaghi et al. 2010) Tehran (Nadim and Seyedi-Rashti,1991) L. near gerbilli Esfahan (Parvizi and Ready, 2008) Ph. caucasicus Ph .mongolensis Ph .andrejevi L. major Esfahan (Yaghoobi-Ershadi et al. 1994, 1995a, 2001c), (Parvizi and Ready, 2008) L. near gerbilli Esfahan (Parvizi and Ready, 2008) Golestan (Parvizi and Ready, 2008) 7 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٣ Ph. ansarii L. major Esfahan (Nadim et al. 1968c), (Yaghoobi-Ershadi and Javadian, 1996) L .near gerbilli Esfahan (Parvizi and Ready, 2008) Ph. salehi L. major Sistan and Baluchestan (Kasiri and Javadian, 2001) Ph. alexandri L. infantum Fars (Azizi et al. 2006) L. major Khuzestan (Javadian et al. 1977) Ph. neglectus (=Ph. major s.l.) L. infantum Fars (Sahabi et al. 1992), (Azizi et al. 2008) Ph. keshishiani L. infantum Fars (Seyedi-Rashti et al. 1995) Ph. kandelakii L. infantum Ardabil (Nadim et al. 1992), (Rassi et al. 2005) Ph. perfiliewi L. infantum Ardabil (Nadim et al. 1992), (Rassi et al. 2009) L. donovani Ardabil (Oshaghi et al. 2009) L. infantum L. tropica Azarbaijan-e-Sharqi (Parvizi et al. 2008) * Sand fly species marked with asterisk are proven vectors according to the generally accepted criteria for incriminating Leishmania vectors (Killick-Kendrick and Ward 1981, WHO 2010). Species with no asterisk are suspected to be vectors on the basis of epidemiological evidence or because are proven vectors elsewhere. Fig. 1. Map of Iran providing the province outlines, in brown the provinces that are endemic for zoonotic cutaneous leishmaniasis Table 2. Countinued… 8 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ١ Phlebotomus alexandri This species is usually found in moun- tainous areas and has been reported all over the country. In field studies conducted during 1971–1972, a natural promastigote infection rate of 1.7% was reported in specimens collected from rodent burrows in Khuzestan Province, southwestern Iran (Javadian et al. 1977) but isolation and characterization of the parasite from the sand fly vector has not been achieved yet in the study area. In 2006 pro- mastigotes isolated from Ph. alexandri col- lected from the houses of ZVL cases in Nourabad Mamasani district, Fars Province, south of the country, were identified as L. infantum by semi-Nested PCR .The natural infection rate was 4.2% in this species, strongly implicating it as probable vector of ZVL (Azizi et al. 2006). Phlebotomus neglectus Tonnoir, 1921 (= Ph. major s.l.) This species is found in 17 of 31 provinces mostly in mountainous areas and has been found in all areas from which human cases of ZVL have been reported. In 1992, the pro- mastigote infection rate in specimens collected outdoors by light traps was reported to be 3% and by aspirator from indoors it was 5 % in Ghir-Karzin district, another endemic focus of ZVL in Fars Province, southern Iran but the parasites were not characterized (Sahabi et al. 1992). In 2008, the infection rate in flies col- lected from the same area was 8.3% and par- asite isolates were characterized and identified by Nested-PCR as L. infantum, implicating this species as a probable vector of ZVL in the south of the country (Azizi et al. 2008). Phlebotomus keshishiani In 1995, during a sand fly survey conducted in an endemic ZVL focus in Ghir-Karzin, Fars Province, southern Iran, the natural promasti- gote infection rate in specimens of this species collected outdoors was 1.1%, so the species is also considered a probable vector of ZVL (Seyedi-Rashti et al. 1995). Phlebotomus kandelakii In a 1991–1992 field study in the endemic focus of Meshkin-Shahr in northwestern Iran, the natural Leishmania infection rate in this species was reported to be 0.3% (Nadim et al. 1992). Similar studies were conducted in the same area from 2001–2005 in which the Leishmania infection was reported to be 1.1%. Parasite isolates from these later studies were characterized and identified as L. infantum by nested PCR (Rassi et al. 2005). Based on these findings, Ph. kandelakii is considered a probable vector of ZVL in northwestern Iran. Phlebotomus perfiliewi In an entomological investigation carried out between 1991–1992 in Germi County, north- western Iran, the natural promastigote infection rate was 0.9 % in this species (Nadim et al. 1992). In a later study conducted in the same area between 2004–2005 the infection rate was 1.1% and isolates were characterized and identified as L. infantum by PCR, incriminating the species as a probable vector of ZVL (Rassi et al. 2009). More recently in 2006, L. infantum and L. donovani were detected and identified by PCR and DNA sequencing in from spec- imens collected from the same area. Of seven isolates, one was L. infantum and the other six were haplotypes of L. donovani (Oshaghi et al. 2009). It should be mentioned that the parasites from Ph. kandelakii, Ph. perfiliewi transcau- casicus, Ph. keshishiani and Ph. neglectus were injected intraperitoneally into hamsters and in all cases produced heavy visceral infections but the investigators failed to keep them in culture (Nadim et al. 1992). 9 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٢ Table 2 shows the list of proven or sus- pected vector species present in Iran. Vectors of Lizard leishmaniasis (Sauroleishmania) Lizard leishmaniasis is also widespread in four species of lizards in various areas of Iran as follows: Agama agilis and Agama melanura col- lected either from gerbil burrows or lizard holes in dry river beds in Khorassan-e-Razavi and Gholestan Provinces in the northeast, Agama caucasica from Manjil area in Qazvin Province (the mid north of the country) and Cyrtopdion caspius from Turkmen-Sahra in Gholestan Province, the north of the country (Nadim et al. 1968a, 1968b, Seyedi-Rashti et al. 1971). In all areas where lizard leishmaniasis has been found it has been accompanied by natural infections in Sergentomyia species. Sergentomyia sintoni In 1966 in a sand fly survey conducted in several ZCL foci in northeastern Iran, many Se. sintoni specimens were found naturally infected with promastigotes (Nadim et al. 1968b). From 1967–1995 frequent promastigote infections in this species were reported frequently in ZCL foci throughout the country (Yaghoobi-Ershadi and Akhavan 1999). Isolates from this sand fly species were identified as L. (Sauroleishmania) gymnodactyli by isoenzyme analysis (Seyedi- Rashti et al. 1994). In 2008, isolates from nat- ural promastigote infections in flies from the central part of the country were identified as L. major and L. near gerbilli by sequencing of the ITS1 or ITS2 microsatellite fragment or sizing of the ITS2 microsatellite fragment (Parvizi and Ready 2008). Sergentomyia clydei In 1967, promastigote infections in this species, thought to be related to lizard leish- maniasis, were reported in sand fly spec- imens collected from gerbil colonies in Lotf- Abad (Khorasan-e Razavi Province) in the northeastern part of the country (Mesghali et al. 1967). Sergentomyia dentata In 1994, natural promastigote infections in this species were reported during an ento- mological survey in the northwestern part of the country (Rassi et al. 1997). Concluding remarks Relevant studies of leishmaniasis are im- possible without correct identification of the associated sand flies and a thorough under- standing of their distribution and biology. Over the past 80 years many researchers have made significant contributions to the body of knowledge implicating various Leishmania vectors in Iran. The likelihood of finding natural Leish- mania infections in sand flies is related to the age of the sand fly vector and most of the dissections were carried out during August– September of the years of studies towards to the end of the active season of sand flies in Iran. This is because the risk of infection is nil when the new generation of a sand fly vector begins to emerge, but becomes in- creasingly high as the population ages and more parous flies are present. This variation is not as marked with vectors that are present throughout the year in other parts of the world as in the Neotropics for example. The other important point is the detection of Leishmania DNA in a sand fly which does not prove that it is a vector. For example, the PCR assays did not distinguish between in- fective stage metacyclic parasites and non- infective stages of Leishmania promastigotes. The generally accepted criteria for incrimi- nating Leishmania vectors are: anthropophily in transmission habitats and disease foci, devel- 10 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٣ opment in the sand fly of typed infections through its complete extrinsic life cycle, and experimental transmission by bite (Killick- Kendrick and Ward 1981). It should be men- tioned that members of WHO have stated in 2010 that existing knowledge and molecular tools for the identification and characterization of Leishmania parasites and sand flies should be improved and harmonized (WHO 2010). Data on phlebotomine sand flies should be regularly updated and verified at least once every five years by fieldwork and taxonomy in leishmaniasis foci, because of increasing en- vironmental modifications or population move- ments which are important in preparing stra- tegic plan of leishmaniasis control. Further research is needed to amplify present know- ledge and extend it to areas not yet studied. Research efforts in the field are continuously discovering new data on sand flies in the world and it is the duty of sand fly specialists to remain abreast of these developments. Long-term monitoring should be conduct- ed of annual fluctuations in important vector populations in representative transmission sites of leishmaniasis in Iran. Examples of vectors to be included in this research are Ph. papatasi, Ph. sergenti, Ph. kandelakii, Ph. neglectus and Ph. alexandri. Careful incrimination of other vectors in different endemic areas and clarification of the ecology concerning transmission and con- trol means that long term efforts are needed in the future. And this kind of knowledge requires full support and more funding for the field work by health authorities. Acknowledgements The author gratefully thanks Dr Phillip Lawyer from National Institute of Health (NIH)/ National Institute of Allergy and In- fectious Diseases (NIAID)/ Laboratory of Parasitic Diseases (LPD), Bethesda, Maryland, USA for his critically reading and valuable comments on the manuscript. Thanks are also due to Prof A Nadim, Department of Epidemi- ology and Biostatistics and Prof E Javadian, Department of Medical Entomology and Vector Control, Tehran University of Medical Sciences for their support. References Adler S, Theodor O, Lourie EM (1930) On sand flies from Persia and Palestine. Bull Entomol Res. 21: 529–539. Akhavan AA, Yaghoobi-Ershadi MR, Meh- dipour D, Abdoli H, Farzinnia B, Mohebali M, Hajjaran H (2003) Epi- demic Outbreak of Cutaneous Leish- maniasis due to Leishmania major in Ghanavat rural district, Qom Province, central Iran. Iranian J Publ Health. 32: 35–41. Akhavan AA, Yaghoobi-Ershadi MR, Hasibi F, Jafari R, Abdoli H, Arandian MH, Soleimani H, Zahraei-Ramazani AR, Mohebali M, Hajjaran H (2007) Emer- gence of cutaneous leishmaniasis due to Leishmania major in a new focus of southern Iran. Iran J Arthropod-Borne Dis. 1: 1–8. Akhavan AA, Yaghoobi-Ershadi MR, Kha- mesipour A, Mirhendi H, Alimo- hammadian MH, Rassi Y, Arandian MH, Jafari R, Abdoli H, Shareghi N, Ghanei M, Jalali-Zand N (2010) Dy- namics of Leishmania infection rates in Rhombomys opimus (Rodentia: Gerbillinae) population of an endemic focus of zoonotic cutaneous leish- maniasis in Iran. Bull Soc Pathol Exot. 103: 84–89. Alborzi A, Pouladfar GH, Aelami MH (2007) Visceral leishmaniasis; litera- ture review and Iranian experience. Iran J Clin Infect Dis. 2: 99–108. Azizi K, Rassi Y, Javadian E, Motazedian MH, Rafizadeh S, Yaghoobi Ershadi 11 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ۴ MR, Mohebali M (2006) Phlebotomus (Paraphlebotomus) alexandri: a prob- able vector of Leishmania infantum in Iran. Ann Trop Med Parasitol. 100: 63– 68. Azizi K, Rassi Y, Javadian E, Motazedian MH, Asgari Q, Yaghoobi-Ershadi MR (2008) First detection of Leishmania infantum in Phlebotomus (Larroussius) major (Diptera: Psychodidae) from Iran. J Med Entomol. 45: 726–731. Azizi K, Rassi Y, Javadian E, Motazedian MH, Rafizadeh S and Yaghoobi Ershadi MR, Mohebali M (2006) Phlebotomus (Paraphlebotomus) alexandri: a prob- able vector of Leishmania infantum in Iran. Ann Trop Med Parasitol. 100: 63– 68. Azizi K, Rassi Y, Moemenbellah-Fard MD (2010) PCR-based detection of Leish- mania major kDNA within naturally infected Phlebotomus papatasi in southern Iran. Trans Roy Soc Trop Med Hyg. 104: 440–442. Badakhshan M, Sadraei J, Moin-Vaziri V (2011a) Morphometric and morpho- logical variation between two different populations of Phlebotomus major s.l from endemic and non endemic foci of visceral leishmaniasis in Iran. J Vector Ecol. 36(1): 153–158. Badakhshan M, Sadraei J, Moin-Vaziri V (2011b) A forward step to differentiate two morphotypes of Phlebotomus major s.l. occurring in northwest and south of Iran based on ITS2 and EF-1α characters. 7th International Sympo- sium on Phlebotomine Sand flies. 2011 April 25–30, Kusadasi, Turkey. pp. 25–26. Esseghir S, Ready PD, Ben-Ismail R (2000) Speciation of Phlebotomus sand flies of the subgenus Larroussius coincided with the late Miocene-Pliocene aridi- fication of the Mediterranean sub- region. Biol J Linn Soc. 70(2): 189–219. Hamarsheh O, Presber W, Yaghoobig-Ershadi MR, Amro A, Al-Jawabreh A, Sawalha S, Al-Lahem A, Das ML, Guernaoui S, Seridi N, Dhiman RC, Hashiguchi Y, Gharab J, Hassan M, Schonian G (2009) Population structure and geographical subdivision of the Leishmania major vector Phlebotomus papatasi as revealed by microsatellite variation. Med Vet Entomol. 23: 69–77. Hanafi Bojd AA, Yaghoobi-Ershadi MR, Zamani GH, Barzekar A, Jafari R, Poor Abazari GHR (2007) Epidmiological as- pects of cutaneous leishmaniasis in Hadjiabad, Hormozgan, Iran. Hormoz- gan Med J. 19(10): 63–70 (in Persian). Javadian E, Mesghali A (1975) Check-List of Phlebotomine sand flies (Diptera: Psychodidae) of Iran. Bull Soc Pathol Exot. 68: 207–209. Javadian E, Nadim A, Tahvildari-Bidruni GH (1976) Epidemiology of cutaneous leishmaniasis in Iran.B Khorasan part V. Report on a focus of zoonotic cutanneous leishmaniasis in Esferayen. Bull Soc Pathol Exot. 69: 140–143. Javadian E, Mesghali A, Nadim A (1977) Natural leptomonad infection of sand flies with its first occurrence in P. alexandri in Khuzistan Province, Iran. Ecologie de Leishmaniasis. Coll Int CNRS. 239: 203–205. Javadian E, Ranjbar M (1990) Status of sand flies on the frontier line between Iran and Iraq, southwest of Iran. Abstr. 2nd Int Dipterology, Bratislava, 1990 August 27–September 1. p. 100. Javadian E, Jalali-Galusang A, Seyedi-Rashti MA (1997) Sand flies of Ilam Province, west of Iran with description of two new species from the genus Phle- botomus: Ph. ilami and Ph. nadimi. Iranian J Publ Health. 26: 13–20. Javadian E (2008) Epidemiology of cutaneous leishmaniasis in Iran. In: Nadim A, Javadian E, Momeni A (Eds): Leish- 12 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ۵ mania and leishmaniasis. University Press 1295, IR. pp. 191–211(in Persian). Kasiri H, Javadian E (2000) The natural leptomonad infection of Phlebotomus papatasi and Phlebotomus salehi in endemic foci of cutaneous leishmaniasis in Sistan and Baluchistan Province (southern Iran). Iranian J Publ Health. 29(1–4): 15–20 (in Persian). Killick- Kendrick R, Ward RD (1981) Ecology of Leishmania. Parasitology. 82: 143–152. Lewis DJ (1957) Some Phlebotominae from Iran. Ann Mag Nat Hist. 10: 689–694. Lewis DJ, Mesghali A (1961) A remarkable new Phlebotomine sandfly (Diptera: Psychodidae) from Iran. Proc R Entomol Soc Lond. Series B, Taxon- omy. 30: 121–123 Maimandi-Nezhad MH (1965) Cutaneous Leishmaniasis-Kala-azar. Publication of Tehran University, No: 965 (in Persian). Mesghali A (1961) Phlbotominae (Diptera) of Iran. 1. A preliminary list, descrip- tion of species and their distributional data. Acta Med Iran. 4: 20–73. Mesghali A (1965) Phlebotominae (Diptera) of Iran. Part III. Studies on sand flies in the areas of Bandar Abbas and Jaks (Littoral areas of Hormoz Strait and Sea of Oman). Bull Soc Pathol Exot. 58: 259–276. Mesghali A, Seyedi-Rashti MA, Nadim A (1967) Epidemiology of cutaneous leish- maniasis in Iran. II. Natural leptomonad infection of sand flies in the Mashhad and Lotfabad areas. Bull Soc Pathol Exot. 60: 514–517. Mesghali A and Seyedi-Rashti MA (1968) Phlebotominae (Diptera) of Iran. IV. More information about Phlebotomus (Phlebotomus) salehi Mesghali, 1965. Bull Soc Pathol Exot. 61: 768–772. Moin-Vaziri V, Depaquit J, Yaghoobi-Ershadi MR, Oshaghi MA, Derakhshandeh- Peykar P, Ferte H, Kaltenbach M, Bargues MD, Leger N, Nadim A (2007a) Intraspecific variation within Phle- botomus sergenti Parrot (1917) (Diptera: Psychodidae) based on mtDNA se- quences in Islamic Republic of Iran. Acta Trop. 102: 29–37. Moin-Vaziri V, Depaquit J, Yaghoobi-Ershadi MR, Oshaghi MA, Derakhshandeh- Peykar P, Ferte H, Kaltenbach M, Bargues MD, Nadim A, Javadian E, Rassi Y, Jafari R (2007b) Geographical variation in populations of Phlebotomus (Paraphlebotomus) caucasicus (Diptera: Psychodidae) in Iran. Bull Soc Pathol Exot. 100: 291–295. Nadim A, Mesghali A (1968) Redescription of the female of Phlebotomus (Paraphlebotomus) kazeruni (Theodor and Mesghali) with some notes on the distribution of the species in Iran. J Nat Hist. 2: 239–240. Nadim A, Seyedi-Rashti MA, Mesghali A (1968a) On the nature of leptomonads found in. Sergentomyia sintoni in Khorassan, Iran and their relation to lizard leishmaniasis. J Trop Med Hyg. 61: 240. Nadim A, Seyedi-Rashti MA, Mesghali A (1968b) Epidemiology of cutaneous leishmaniasis in Turkemen-Sahara, Iran. J Trop Med Hyg. 71: 238–239. Nadim A, Mesghali A, Amini H (1968c) Epidemiology of cutaneous leish- maniasis in the Esfahan Province of Iran: III. The vector. Trans R Soc Trop Med Hyg. 62: 543–549. Nadim A, Seyedi-Rashti MA (1971) A brief review of the epidemiology of various types of leishmaniasis in Iran. Acta Med Iran. 14: 99–106. Nadim A, Javadian E (1976) Key for species identification of sand flies (Phlebotominae: Diptera) of Iran. Ira- nian J Publ Health. 5: 34–44. Nadim A, Tahvildari-Bidruni GH (1977) Epidemiology of cutaneous leishmaniasis 13 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ۶ in Iran: B. Khorassan, Part VI: Cutaneous leishmaniasis in Neishabur, Iran. Bull Soc Pathol Exot. 70: 171–177. Nadim A, Navid-Hamidi A, Javadian E, Tahvildari Bidruni GH, Amini H (1978) Present status of kala-azar in Iran. Am J Trop Med Hyg. 27: 25–28. Nadim A, Seyedi-Rashti MA (1991) Some aspects to the ecology of Phlebotomus sergenti in Iran. First International Sym- posium on Phlebotomine Sand flies Rome (Italy). p. 79. Nadim A, Javadian E, Tahvildar-Bidruni GH, Mottaghi M, Abaei MR (1992) Epidemi- ological aspects of kala-azar in Meshkin- Shahr, Iran: Investigation on vectors. Iranian J Publ Health. 21: 61–72. Nadim A, Aflatoonian MR (1995) Anth- roponotic cutaneous leishmaniasis in the city of Bam, southeast Iran. Iranian J Publ Health. 24: 15–24. Nadim A (2008) Epidemiology of Kala-azar in Iran. In: Nadim A, Javadian E, Momeni A (Eds): Leishmania parasite and leish- maniasis. University Press 1295, IR. pp. 241–249 (in Persian). Navid-Hamidi A, Nadim A, Edrissian GH, Tahvildar-Bidruni GH, Javadian E (1982) Visceral leishmaniasis of jack- als and dogs in northern Iran. Trans R Soc Trop Med Hyg. 76: 756–757. Oshaghi MA, Yaghoobi-Ershadi MR, Abbasi M, Akhavan AA, Rahimi- Foroshani A, Zahraei AR, Rassi Y, Mohtarami F (2008) Detection of Leishmania major in naturally infected sand flies using semi Nested-PCR. Iranian J Publ Health. 36: 59–64. Oshaghi MA, Maleki Ravasan N, Hide M, Javadian E, Rassi Y, Sadraei J, Mohebali M, Sedaghat MM, Hajjaran H, Zarei Z, Mohtarami F (2009) Phle- botomus perfiliewi transcaucasicus is circulating both Leishmania donovani and L. infantum in northwest Iran. Exp Parasitol. 123: 218–225. Oshaghi MA, Rasolian M, Shirzadi MR, Mohtarami F, Doosti S (2010) First report on isolation of Leishmania tropica from sand flies of a classical urban cutaneous leishmaniasis focus in south- ern Iran. Exp Parasitol. 126: 445–450. Parvizi P, Ready PD (2008) Nested PCRs and sequencing of nuclear ITS-rDNA fragments detect three Leishmania spe- cies of gerbils in sand flies from Ira- nian foci of zoonotic cutaneous leish- maniasis. Trop Med Int Health. 13: 1159–1171. Parvizi P, Mazloumi-Gavgani A.S, Davies CR, Courtenay O, Ready PD (2008) Two Leishmania species circulating in the Kaleybar focus of infantile visceral leishmaniasis, northwest Iran: impli- cations for deltamethrin dog collar in- tervention. Trans Roy Soc Trop Med Hyg. 102: 891–897. Parvizi P, Taherkhani H, Ready PD (2010) Phlebotomus caucasicus and Phle- botomus mongolensis (Diptera: Psy- chodidae): indistinguishable by the mi- tochondrial cytochrome b gene in Iran. Bull Entomol Res. 100: 415–420. Pervomaiski GS (1948) Contribution to the fauna of sand flies of northern Iran. Epidemiol Parasitol Expend Iran. Nauk USSR. P. 239. Rassi Y, Javadian E, Nadim A, Tahvildar- Bidruni GH (1997) Natural promastigote infection of sand flies and its first occurrence in Sergentomia dentata in Ardabil Province, north west of Iran. Iranian J Publ Health. 26: 7–12. Rassi Y, Javadian E, Nadim A, Zahraii A, Vatandoost H, Motazedian H, Azizi K, Mohebali M (2005) Phlebotomus (Larroussius) kandelakii the principal and proven vector of visceral leish- maniasis in north west of Iran. Pak J Biol Sci. 8: 1802–1806. Rassi Y, Gassemi MM, Javadian E, Rafizadeh S, Motazedian H, Vatandoost H (2007) 14 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٧ Vectors and reservoirs of cutaneous leishmaniasis in Marvdasht district, southern Islamic Republic of Iran. East Mediterr Health J. 13: 686–693. Rassi Y, Abai MR, Javadian E, Rafizadeh S, Imamian H, Mohebali M, Fateh M, Hajjaran H, Ismaili K (2008) Molecu- lar data on vectors and reservoir hosts of zoonotic cutaneous leishmaniasis in central Iran. Bull Soc Pathol Exot. 101: 425–428. Rassi Y, Javadian E, Nadim A, Rafizadeh S, Zahraii A, Azizi K, Mohebali M (2009) Phlebotomus perfiliewi transcaucasicus, a vector of Leishmania infantum in northwestern Iran. J Med Entomol. 46: 1094–1098. Rassi Y, Oshaghi MA, Mohammadi Azani S, Abaie MR, Rafizadeh S, Mohebai M, Mohtarami F, Zeinali MK (2011a) Molecular detection of Leishmania In- fection due to Leishmania major and Leishmania turanica in the vectors and reservoir Host in Iran. Vector-Borne Zoonotic Dis. 11: 145–150. Rassi Y, Saghafipour A, Abaei MR, Oshaghi MA, Rafizadeh S, Yaghoobi-Ershadi MR, Mohtarami F, Farzinnia B (2011b) Phlebotomus papatasi and Meriones libycus as the vector and reservoir host of cutaneous leishmaniasis in Qomrood district, Qom Province, central Iran. Asian Pac J Trop Med. 4: 97–100. Sahabi Z, Seyedi-Rashti MA, Nadim A, Javadian E, Kazemeini M, Abai MR (1992) A preliminary report on the natural leptomonad infection of Phle- botomus major in an endemic focus of visceral leishmaniasis (VL) in Fars Province, south of Iran. Iranian J Publ Health. 21: 87–93. Seyedi-Rashti MA, Nadim A (1970) A new species of Phlebotomus (Diptera: Psy- chodidae) from Baluchistan, Iran. J Nat Hist. 4: 145–147. Seyedi-Rashti MA, Nadim A, Naficy A (1971) Further report on lizard leishmaniasis in northern part of Iran. J Trop Med Hyg. 74: 70–71. Seyedi-Rashti MA, Nadim A (1984a) Studies on probable vector of cutaneous leish- maniasis in Baluchestan, Iran. XVII International Congress of Entomology, 1984 Augest 20–26, Hamburg, Germany. p. 673. Seyedi-Rashti MA, Keighobadi K, Nadim A (1984b) Urban cutaneous leishmaniasis in Kerman, southeast Iran. Bull Soc Pathol Exot. 77: 312–319. Seyedi-Rashti MA, Salehzadeh A (1990) A new focus of cutaneous leishmaniasis near Tehran, Iran. Proceedings of the VIIth International Congress of Para- sitology, Paris, France, 1990 August 20– 24. Bull Soc Franc Parasitol, 8, Supple- ment. 2: 1145. Seyedi-Rashti MA, Agh-Atabay MD, Mohebali M (1994) Natural promastigote infection of Sergentomyja sintoni, its seasonal var- iation and reservoir host in Turkemen- Sahra Iran. Iranian J Publ Health. 23: 41– 50. Seyedi-Rashti MA, Sahabi Z, Kanani Notash A (1995) Phlebotomus (larroussius) keshishiani Shurenkova 1936, another vector of visceral leishmaniasis in Iran. Iranian J Publ Health. 24: 26–30. Theodor O, Mesghali A (1964) On the phle- botominae of Iran. J Med Entomol. 1: 285–300. World Health Organization (2010) Control of the leishmaniasis .WHO Tech Rep Ser, no. 949. Yaghoobi-Ershadi MR (1977) Studies on cutaneous leishmaniasis in the city of Kerman. [MSPH Thesis]. University of Tehran. Iran [Persian]. Yaghoobi-Ershadi MR, Javadian E, Tahvildare- Bidnmi GH (1994) The isolation of Leishmania major from Phlebotomus 15 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٨ (Paraphlebotomus) caucasicus in Es- fahan Province, Islamic Republic of Iran. Trans R Soc Trop Med Hyg. 88: 518–519. Yaghoobi-Ershadi MR, Javadian E (1995) Zoonotic cutaneous leishmaniasis in the north of Esfahan (Iran). The human infection. Bull Soc Pathol Exot. 88: 42– 45 (in French). Yaghoobi-Ershadi MR, Javadian E, Kanani A (1995a) Host preference pattern of phlebotomine sand flies of Borkhar rural district, Esfahan Province, Iran. Acta Trop. 60: 155–158. Yaghoobi-Ershadi MR, Javadian E, Tahvildare- Bidruni GH (1995b) Leishmania major MON-26 isolated from naturally infected Phlebotomus papatasi (Diptera: Psy- chodidae) in Esfahan Province, Iran. Acta Trop. 59: 279–282. Yaghoobi-Ershadi MR, Akhavan AA, Mohebali M (1996) Meriones Iibycus and Rhombomys opimus (Rodentia: Gerbillidae) are the main reservoir hosts in a new focus of zoonotic cutaneous leishmaniasis in Iran. Trans R Soc Trop Med Hyg. 90: 503–504. Yaghoobi-Ershadi MR, Javadian E (1996a) Epidemiological study of reservoir hosts in an endemic area of zoonotic cuta- neous leishmaniasis in Iran. Bull Wld Hlth Org. 74: 587–590. Yaghoobi-Ershadi MR, Javadian E (1996b) Seasonal variation of Leishmania major infection rates in sand flies from rodent burrows in Esfahan Province, Iran. Med Vet Entomol. 10: 181–184. Yaghoobi-Ershadi MR, Javadian E (1997) Studies on sand flies in a hyperendemic area of zoonotic cutaneous leishmaniasis in Iran. Indian J Med Res. 105: 61–66. Yaghoobi-Ershadi MR, Akhavan AA (1999) Entomological survey of sand flies (Diptera: Psychodidae) in a new focus of zoonotic cutaneous leishmaniasis in Iran. Acta Trop. 73: 321–326. Yaghoobi-Ershadi MR, Akhavan AA, Mohebali M (2001a) Monthly varia- tion of Leishmania major MON-26 in- fection rates in Phlebotomus papatasi (Diptra: Psychodidae) from rodent bur- rows in Badrood area of Iran. Med J Islam Rep Iran. 15: 175–178. Yaghoobi-Ershadi MR, Hanafi-Bojd AA, Akhavan AA, Zahrai-Ramazani AR, Mohebali M (2001b) Epidemiological study in a new focus of cutaneous leish- maniosis due to Leishmania major in Ardestan town, central Iran. Acta Trop. 79: 115–121. Yaghoobi-Ershadi MR, Jafari R, Zahraei- Ramazani, AR, Akhavan AA (2001c) Studies on the ecology of phlebotomine sand flies in an endemic foucus of cu- tneous leishmaniasis in Esfahan county. J Shahid Sadooghi. Univ Med Sci. 9: 42–48 (in Persian). Yaghoobi-Ershadi MR, Hanafi-Bojd AA, Javadian E, Jafari R, Zahraei-Ramazani AR, Mohebali M (2002) A new focus of cutaneous leishmaniasis caused by Leishmania tropica. Saudi Med J. 23: 291–294. Yaghoobi-Ershadi MR, Akhavan AA, Zahraei- Ramazani AR, Abai MR, Ebrahimi B, Vafaei-Nezhad R, Hanafi-Bojd AA, Jafari R (2003) Epidemiological study in a new focus of cutaneous leishmaniasis in the Islamic Republic of Iran. East Mediterr Health J. 9: 816–826. Yaghoobi-Ershadi MR, Jafari R, Hanafi-Bojd AA (2004) A new epidemic focus of zoonotic cutaneous leishmaniasis in central Iran. Ann Saudi Med. 24: 98–101. Yaghoobi-Ershadi MR (2008) Animal reser- voir hosts of cutaneous leishmaniasis in Iran. In: Nadim A, Javadian E, Momeni A (Eds): Leishmania parasite and leish- maniasis. University press 1295, IR. pp. 177–190 (in Persian). 16 J Arthropod-Borne Dis, 2012, 6(1): 1–17 MR Yaghoobi-Ershadi: Phlebotomine Sand Flies … ٩ Yaghoobi-Ershadi MR, Hakimiparizi M, Zahraei-Ramazani AR, Abdoli H, Aghasi M, Arandian MH, Ranjbar AA (2010) Sand fly surveillance within an emerging epidemic focus of cutaneous leish- maniasis in southeastern Iran. Iran J Arthropod-Borne Dis. 4: 17–23. Yaghoobi-Ershadi MR (2011) Eighty year research on taxonomy of sand flies and their transmission of leishmaniasis in Iran. Abstract book of 7th International Symposium on Phlebotomine sand flies (ISOPS7) 2011 April 25–30, Kusadasi, Turkey. p. 40. 17