Varroa destructor is the most serious pest of honeybee (Apis mellifera), causing high economic losses in the beekeeping industry worldwide. The intensive utilization of many chemical substances against the mites resulted in resistance development. One of the applicable and alternative treatments being used for their control is plant-derived products (PDSS). The aim of this study was to evaluate the acaricidal activity of Lepidium latifolium and Zataria multiflora leaf extracts on V. destructor in field conditions. Four different concentrations (100, 200, 400, and 500 ppm) of the methanolic extracts were sprayed to treat each colony. The efficacy and side effects on adult bees were compared to Apistan chemical strips (ACSS). The acaricidal activity was the highest (100%) for L. latifolium extract at 500 ppm after 12 days and 86.26% for Z. multiflora. The infestation rate was decreased to 0.0% with L. latifolium and to 13.74% with Z. multiflora. The highest reduction was observed with L. latifolium followed by Z. multiflora extract at 500 ppm concentration. Both of the extracts showed negligible effect on bees, and it can be concluded that these PDSS as biodegradable agents could be used for V. destructor control in honeybee colonies.
Recent investigations have shown that plants with medicinal peculiarities as good alternative to anthelmintics for livestock. In this study, the anthelmintic effects of three medicinal herbs (Cinnamomum zeylanicum, Punica granatum flower and Capsicum annuum) were screened in vitro against the infective larvae of Parascaris equorum. The recovered larvae of the parasite were exposed to four concentrations (50, 75, 100 and 125 mg/mL) of the extracts and then they examined for the viability at 0, 10, 20, 30 and 40 minutes after the challenge. The results revealed that all the concentrations of each plant extract had anthelmintic effects on P. equorum larvae. Also, the statistics indicated that there were significant interactions between the concentration of the extracts and time of exposure on the number of viable larvae. In addition, C. annuum extract seemed to be a strong potency to kill larvae at all concentrations from the beginning of the experiment. These results confirmed that those herbal extracts possess good antiparasitic effects against infective larvae of P. equorum and thus could be considered in anthelminthic treatment strategies.
Summary
Ascariasis is a very common parasitic disease in equids, especially in young horses. Despite the use of anthelmintic drugs, resistance has been frequently reported in populations of Parascaris equorum. As a result, herbal preparations are proposed for current control strategies. In this study, a modified method was used for hatching the eggs of P. equorum. After hatching, the effects of methanolic extract of Artemisia dracunculus, Eucalyptus camadulensis, Mentha pulegium, Zataria multiflora and Allium sativum (garlic) were investigated on the recovered larvae. For each extract, the anthelmintic effects of different concentrations (50, 75, 100 and 125 mg/mL) were evaluated at 0, 10, 20, 30 and 40 min after the challenge. The results showed that our modifications to the older method could enhance the hatching rate for the eggs of P. equorum (to an average of 98%). Potassium dichromate was also demonstrated in this study to be a favourable medium during embryonation. In addition, all the concentrations of A. dracunculus and M. pulegium and higher levels (≥100 mg/mL concentrations) of Z. multiflora extracts had significant lethal effects on larvae from the first to the fourth 10 min of the experiment. In contrast, E. camadulensis and A. sativum had not marked effects on larvae viability at any time of the challenge. In conclusion, our data suggest that A. dracunculus, M. pulegium and Z. multiflora have potential to be used as anthelmintic for the control of ascariasis in equid host; however, these effects remain to be confirmed through in vivo studies.
Background: Fasciola hepatica as an important parasite affects health of humans and animals in some tropical and subtropical areas of the world, including Iran. Little is known about the molecular diversity of Fasciola in Equidae. Therefore, this study aimed to characterize the genetic polymorphisms among parasites.
Methods: Eight adult Fasciola spp. isolates were collected from a working donkey after necropsy in Shiraz, southwestern Iran, in 2018. Primarily, various parameters were measured morphologically. Subsequently, DNA was extracted from each fluke and molecular markers of cytochrome C oxidase (cox1) and NADH dehydrogenase 1(nad1) from individual Fasciola isolates were amplified using PCR assay and sequence data were employed for molecular and phylogenetic analysis. Genetic diversity between isolates was evaluated by comparing the sequences of these two mitochondrial regions.
Results: Based on the morphological and analyzed mitochondrial sequences, all of eight donkey isolates (100%) were identified as F. hepatica. Moreover, nine and five nucleotide polymorphisms were identified in the cox1and nad1 region sequences, respectively.
Conclusion: Accordingly, phylogenetic data revealed five and four haplotypes among donkey isolates based on the cox1and nad1 markers. Similarly, some of these haplotypes have been previously reported from different host species in Iran as well as all around the world.
Background: Lucilia sericata as a member of the family Caliphoridae has a complete metamorphosis. They feed on on necrotic and livingtissues as necrophage species. Sterile larvae of this species has been utilized to heal wounds for decades. The aim of this study were to establish the breeding and identifying of the L.sericata species based on morphological and molecular techniques. Freshly harvested grown under standard conditions in the maggotarium of Health School , Shiraz of. They were screened using conventional morphology, then Primarily, different parameters related to larvae were measured morphologically. Subsequently, DNA was extracted and molecular marker of cytochrome C oxidase (co1) was amplified using PCR assay and sequence data were used for molecular and phylogenetic analysis. Result: In this study, 50 samples which grown collected from maggotarium were identified as L. sericata using morphological and molecular methods. This species was placed in a separate clade of the phylogenetic tree based on COI nucleotide sequences of different species and has a phylogenetic similarity to Lucilia purpurascens species of flies. Conclusion: Larval therapy especially by Lucilia sericata is a promising strategy in wound healing. Due to the importance of larval species in this technique, having an accurate knowledge of aplicable species leads to a proper larval therapy. Increasing in resistance of wounds to antibiotics has led to the use of maggot therapy in the past. Larval therapy is a low-cost, non-surgical way to remove dead tissue (predecessors and necrosis) in chronic wounds and prevents excessive soft tissue damage and infection from reaching the underlying tissues and bones (osteomyelitis). Maggot therapy is a promising way to prevent amputation, especially in people with diabetes.
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