ABSTRACT
Objective: To establish a spatial geo-database for scorpions in Iran, and to identify the suitable ecological niches for the most dangerous scorpion species under different climate change scenarios. Methods: The spatial distribution of six poisonous scorpion species of Iran were modeled: Hemiscorpius lepturus, Androctonus crassicauda, Mesobuthus eupeus, Hottentotta saulcyi, Hottentotta zagrosensis, and Odontobuthus (O.) doriae, under RCP2.6 and RCP8.5 climate change scenarios. The MaxEnt ecological niche model was used to predict climate suitability for these scorpion species in the 2030s and 2050s, and the data were compared with environmental suitability under the current bioclimatic data. Results: A total of 73 species and subspecies of scorpions belonging to 19 genera in Iran were recorded. Khuzestan Province has the highest species diversity with 34 species and subspecies. The most poisonous scorpion species of Iran are scattered in the semi-arid climates, at an altitudinal range between 11 m and 2 954 m above sea level. It is projected that O. doriae, Androctonus crassicauda and Mesobuthus eupeus species would be widely distributed in most parts of the country, whereas the most suitable ecological niches for the other species would be limited to the west and/or southwestern part of Iran. Conclusions: Although the environmental suitability for all the species would change under the two climate change scenarios, the change would be more significant for O. doriae under RCP8.5 in the 2050s. These findings can be used as basis for future studies in the areas with the highest environmental suitability for the most dangerous scorpion species to fill the gaps in the ecology of scorpion species in these areas.
ABSTRACT
Objective: To establish a spatial geo-database for scorpions in Iran, and to identify the suitable ecological niches for the most dangerous scorpion species under different climate change scenarios. Methods: The spatial distribution of six poisonous scorpion species of Iran were modeled: Hemiscorpius lepturus, Androctonus crassicauda, Mesobuthus eupeus, Hottentotta saulcyi, Hottentotta zagrosensis, and Odontobuthus (O.) doriae, under RCP2.6 and RCP8.5 climate change scenarios. The MaxEnt ecological niche model was used to predict climate suitability for these scorpion species in the 2030s and 2050s, and the data were compared with environmental suitability under the current bioclimatic data. Results: A total of 73 species and subspecies of scorpions belonging to 19 genera in Iran were recorded. Khuzestan Province has the highest species diversity with 34 species and subspecies. The most poisonous scorpion species of Iran are scattered in the semi-arid climates, at an altitudinal range between 11 m and 2 954 m above sea level. It is projected that O. doriae, Androctonus crassicauda and Mesobuthus eupeus species would be widely distributed in most parts of the country, whereas the most suitable ecological niches for the other species would be limited to the west and/or southwestern part of Iran. Conclusions: Although the environmental suitability for all the species would change under the two climate change scenarios, the change would be more significant for O. doriae under RCP8.5 in the 2050s. These findings can be used as basis for future studies in the areas with the highest environmental suitability for the most dangerous scorpion species to fill the gaps in the ecology of scorpion species in these areas.
ABSTRACT
<p><b>OBJECTIVE</b>To study agents of animal wound myiasis in various geographical districts of Fars province.</p><p><b>METHODS</b>This study has been done in Fars province, located in the southern part of Iran. Sums of 10 358 domestic animals have been visited from April 2011 to March 2012. The infected wounds in any parts of animal body were sampled by means of forceps.</p><p><b>RESULTS</b>About 61% of all animal wound myiasis were caused by larvae of Wohlfahrtia magnifica. The most wound myiasis cases due to this species occurred in central part of Fars province. There wasn't any significant difference between sheep and goat in infestation with myiasis (P>0.05). The infestation rate of myiasis in cattle community was 0.86%.</p><p><b>CONCLUSIONS</b>The infestation rate of livestock was lower than other works in Iran and some other countries like Saudi Arabia. Chrysomya bezziana has been mentioned as main myiasis agent in Iran. But in this study it cleared that similarly to some European countries, the common animal myiasis agent in Iran is Wohlfahrtia magnifica. Introducing new species as principal agent for myiasis can help public health and animal husbandry policy makers to prepare sufficient and effective control and/or preventive measures for this disease.</p>
ABSTRACT
Objective: To study agents of animal wound myiasis in various geographical districts of Fars province. Methods: This study has been done in Fars province, located in the southern part of Iran. Sums of 10 358 domestic animals have been visited from April 2011 to March 2012. The infected wounds in any parts of animal body were sampled by means of forceps. Results: About 61% of all animal wound myiasis were caused by larvae of Wohlfahrtia magnifica. The most wound myiasis cases due to this species occurred in central part of Fars province. There wasn't any significant difference between sheep and goat in infestation with myiasis (P>0.05). The infestation rate of myiasis in cattle community was 0.86%. Conclusions: The infestation rate of livestock was lower than other works in Iran and some other countries like Saudi Arabia. Chrysomya bezziana has been mentioned as main myiasis agent in Iran. But in this study it cleared that similarly to some European countries, the common animal myiasis agent in Iran is Wohlfahrtia magnifica. Introducing new species as principal agent for myiasis can help public health and animal husbandry policy makers to prepare sufficient and effective control and/or preventive measures for this disease.
ABSTRACT
Tick-borne diseases are of the most important diseases in the world including Iran. This survey was conducted to understand the eco-epidemiology of tick-borne hemoparasitic diseases in Qazvin province, Iran, using Geospatial Information System [GIS]. DNA samples were extracted from livestock blood samples collected from different regions of Qazvin province. 18S rRNA-based PCR targeted Theileria/ Babesia species were done. Initial parameters for mapping the local tick-borne hemoparasitic diseases and raster files were obtained from Iran Meteorological Organization and Iranian Space Agency. Mapping of the parameters in relation to prevalence of these diseases were done. Statistical analysis was used for weighting parameters ranking and predicting spatial distribution in different climatic zones. Vapor pressure, precipitation, and altitude are of several environmental factors correlated with tick abundances. Based on the generated maps and the results of this survey, some predicting results could be used for predicting tick-borne diseases and their control. 9.7% of ruminant blood samples [N=16] were infected with protozoa pathogens from the genera Theileria and all of the specimens were negative regarding to Babesia genera. Results showed that prediction of a very high prevalence of Theileria/ Babesia species and mapping endangered area is possible in different parts of Iran. Based on the environmental conditions, key factors exist for host-seeking and range expansion of ticks
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Bait-trapping appears to be a generally useful method of studying fly populations. The aim of this study was to construct a new adult flytrap by some modifications in former versions and to evaluate its applicability in a subtropical zone in southern Iran. The traps were constructed with modification by adding some equipment to a polyethylene container [18× 20× 33 cm] with lid. The fresh sheep meat was used as bait. Totally 27 adult modified traps were made and tested for their efficacies to attract adult flies. The experiment was carried out in a range of different topographic areas of Fars Province during June 2010. The traps were able to attract various groups of adult flies belonging to families of: Calliphoridae, Sarcophagidae, Muscidae, and Faniidae. The species of Calliphora vicina [Diptera: Calliphoridae], Sarcophaga argyrostoma [Diptera: Sarcophagidae] and Musca domestica [Diptera: Muscidae] include the majority of the flies collected by this sheep-meat baited trap. This adult flytrap can be recommended for routine field sampling to study diversity and population dynamics of flies where conducting of daily collection is difficult
ABSTRACT
Utility of PCR-RFLP and species-specific PCR as novel and fast methods for identification and discrimination of causative agents of relapsing fever, Borrelia persica and B. microtii in infected blood were investigated. Genomic DNA of B.persica and B.microtii species were extracted from the highly infected blood samples. Two fragments of GlpQ and 16SrDNA genes were amplified using specific primers and then the PCR products were sequenced. Based on sequence variation between the two species, species-specific primers as well as restriction enzymes were respectively designed and selected for discrimination of these species. The results showed that using PCR technique we could easily amplify and detect the Borrelia species within the infected blood samples. Two different profiles of RFLP were produced when GlpQ PCR products of B.persica and B.microtii treated by Sspl, Taql, Dral, Hinfl, and EcoRV restriction enzymes. Also when 16SrDNA was digested with Taql enzyme we could discriminate between these two species. Based on GlpQ sequence variation, a set of primer 795r-BMGLPF produced specific band of 451 bp for B.microtii and a set of primer 128f-BPGLPR produced specific band of 252 bp for B.persica which could discriminate the both species well. In this study the discrimination of the two species of B.persica and B.microtii was investigated by PCR-RFLP and species-specific PCR methods for the first time. Both methods could easily distinguish the species from each other. Due to accuracy and speed of the molecular methods, they could be replaced with the classic methods. These fast and accurate diagnostic methods could be recommended for diagnosis laboratories in Iran and middle-east countries where both B.persica and B.microtii are prevalent
ABSTRACT
Relapsing fever caused by Borrelia persica is an acute tick-borne disease which is transmitted by soft ticks of Ornithodoros tholozani to human. The disease is reported from Middle East and many regions of Iran. Detection of infection is problematic since the suspected infected ticks should be fed on animal hosts such as guinea pigs and subsequently after 7-14 days, the animal blood should be microscopically investigated for Borellia spirochetes on a Giemsa stainined thick smear. This classic method named xenodiagnosis is hard, time consuming, and less reliable. In this study, the application of PCR technique has been examined for detection of Borellia persica in soft ticks of O. tholozani. Tick specimens were collected from northwestern Iran and were fed on Borellia persica infected guinea pigs. DNA of the animal blood were extracted and used as target for PCR amplification of 16rDNA gene. Subsequently the products were subjected to sequencing. The effect of tick sex and post digestion as well as the minimum nyjcrilper of spirochetes on the efficiency of PCR were also tested. The xenodiagnosis assay was able to detect infection in only 13.3% of the tick-bitten animal bloods whereas all of these blood specimens were PCR positive against the 16rDNA gene. There was no difference in results of PCR for male and female of the ticks. Post digestion of infected blood meal in ticks did not affect the efficacy of PCR and the recently-fed samples showed similar results to those of completely gravid ones. A test on the threshold sensitivity of PCR assay indicated that only one spirochete is enough for the primers to anneal and to amplify the target gene. This study describes the first molecular assay for diagnosis of B. persica infected ticks in Iran and due to its high speed, accuracy, and applicability is a substitution method for diagnostic purposes inTBRF foci