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1.
Knowledge of the internal life cycle of goat warble fly infestation is scarce despite ample data available on the aetiology, epidemiology, immunodiagnosis and treatment of such infestations. This study was carried out at the slaughterhouse of Rossano Calabro (Cosenza, southern Italy) on 154 animals from 10 months to 6 years of age from May 1997 to June 1998. 1206 Przhevalskiana silenus larvae were collected during the trial period from the subcutaneous tissue of the slaughtered animals. The larval stage average size ranged from 4.7 mm, for first instar larvae (May), to 16.6 mm, for third instar larvae (February), in the first cycle of infestation. No larvae were found in March-April, coinciding with the pupation period. Small first instar larvae were found at the beginning of the second cycle of infestation (May-June). Necroscopic examinations were also carried out on internal organs and no larvae were found. The results pointed out that the internal life cycle of P. silenus is exclusively subcutaneous and there is no internal migration of the larvae.  相似文献   

2.
Warbles induced by the rodent bot fly larvae, Cuterebra fontinella, developed over a period of 3.5-4 weeks in the deer mouse Peromyscus maniculatus. Warble location, structure and dynamics were examined. Clustering of warbles occurred primarily within the inguinal region of the deer mouse with a significant number favoring the area between the anus and genital organ. No differences in warble production were found in hosts of either sex. On two occasions, a warble was encountered forming directly in the genitals. Warble structure consisted of a pore, cavity and capsule, all of which changed in shape and size as the larvae grew. A new pore was formed during the first larval molt and was commonly bordered by a yellowish precipitate. A bi-layered warble capsule surrounded the cavity as a thin layer and a thick diffuse outer layer. The growing warble expanded into the subcutaneous tissue of the inguinal area and stretched the hide caudally. Subcutaneous tissue surrounding developing warbles became relegated to small areas, leaving only a thin muscle to separate the warble from the peritoneum. Widening of the pore at the time of larval emergence is described. Linear relationships are given describing warble growth and pore enlargement as a factor of time. The location of warbles and the morphology of the pore are discussed in relationship to larval protection. Damage to the host due to warble formation is also addressed.  相似文献   

3.
Sixty yaks were autopsied to determine the migration pattern of warble fly larvae. In August, first instars were observed in the body of yak for the first time. These larvae peaked in number in October. From November to February, second instars were detected and their number peaked in January. Third instars appeared in January and peaked in March. Forty-five yaks were administered with ivermectin: 15 animals in September, 15 in October and 15 in November. Between December and June, the number of warbles was checked by palpation. Although some warbles were observed in the September- and November-treated groups, no warbles were detected in the October-treated group. Treatment of yaks with ivermectin was most effective for warble fly in October.  相似文献   

4.
桑天牛卵啮小蜂Aprostocetus prolixus的寄生生物学研究   总被引:3,自引:2,他引:1  
桑天牛卵啮小蜂 (Aprostocetusprolixus)是一个新种 ,对桑天牛有较高的寄生率。观察发现该寄生蜂 1年 2~ 3代 ,老熟幼虫以休眠状态越冬。 6月下旬越冬代的成虫开始羽化 ;第 1代成虫 7月下旬开始羽化 ,8月上中旬为盛期 ;第 2代幼虫一部分以老熟幼虫直接越冬 ;第 2代成虫 8月下旬至 9月中旬羽化 ,8月底与 9月初为盛期 ,所产小蜂幼虫从 9月中下旬开始陆续以老熟幼虫在寄主体内越冬。探明了该寄生蜂的羽化时间、交配、产卵、寄生等行为习性。  相似文献   

5.
In South Bohemia a case was discovered of a yearling colt attacked by the larva of the IIIrd instar of the deer warble fly Hypoderma diana Brauer. The dead, almost mature larva of the fly was squeezed out of a subcutaneous lump above the shoulder in the first decade of April, 1985. The case is evaluated from the point of view of the possibility of the transition of specific parasites--warble flies--to another host. The attacking of a non-specific kind can occasionally occur only when there is a large number of the parasites and both kinds of host. At present the degree of attacking of deer by subcutaneous warble flies is high and therefore under favourable circumstances even domestic animals can be attacked by this type of warble fly. The above case is the first to be ascertained of a horse being attacked by a deer warble fly.  相似文献   

6.
为阐明金沙江流域蝗区西藏飞蝗(Locusta migratoria tibetensis Chen)发生规律,2007年夏季依据不同植物群落中西藏飞蝗年生活史和种群动态数据分析其发生规律。结果表明:西藏飞蝗在金沙江流域一年发生一代,4月中下旬开始孵化,7月上中旬开始羽化为成虫,8月中旬起进入产卵期。在样地1、样地2和样地3内西藏飞蝗以群居型个体为主,前期虫口密度高,到6月下旬至7月上旬逐渐降低;在样地4内虫口密度低,以散居型个体为主。生境对西藏飞蝗生长发育和消长动态有一定的影响。  相似文献   

7.
A massive infestation with warble fly larvae was observed in a mare in Lower Saxony, Germany. From a herd of 20 horses, only a single mare accidently escaped the routine treatment with macrocyclic lactone in autumn and showed the myiasis infestation next year in January. Eighteen subcutaneous nodules were found on the back (n = 2), ribs (n = 3), flank (n = 5) and croup (n = 8). Deer, the specific hosts of the warble fly Hypoderma diana, was abundant on this farm and some other risk factors for the hypodermiosis are discussed herein. This is the first report of myiasis caused by H. diana in horses in Germany. This massive warble fly infestation in a horse in Germany reported here is important to alert equine health professionals concerning the prevention of this disease in the routine parasite control programme.  相似文献   

8.
Examination of 3,960 goats brought from six districts of Jammu province and slaughtered at Jammu abattoir from July 2005 to June 2006 revealed 47.22% prevalence of larval stages of warble fly (Przhevalskiana silenus Brauer, 1858) in goats. Highest prevalence was recorded in Udhampur (56.44%) and lowest in Doda district (13.49%). Classification of the study area into four zones based on height (meters above sea level), viz., zone I (300–325 m asl), zone II (325–800 m asl), zone III (800–1,500 m asl), and zone IV (>1,500 m asl), revealed significant (p < 0.01) difference in infestation among animals of zone II (71.68%), zone III (40.12%), and zone IV (22.41%). However, animals of zone I did not reveal any infestation. Statistical analysis in relation to age showed significant (p < 0.01) difference among different age groups, i.e., <1 year (2.81%), 1–3 years (51.17%), and >3 years (43.16%). Breed-wise analysis also showed significantly (p < 0.01) higher infestation rate among Bakerwali (51.51%) goats as compared to Beetal (42.59%). But no significant difference was recorded among male (47.81%) and female (46.82%) animals. The overall mean larva count (L1, L2, and L3) was observed to be 14.72 ± 0.34, ranging from 4 to 72. It was significantly (p < 0.05) higher in animals of zone II (22.20 ± 0.21) as compared to goats of zones III (14.21 ± 0.41) and IV (7.73 ± 0.90). Age-wise analysis of mean larva count also showed significant (P < 0.05) difference between animals of 1–3 years (16.25 ± 0.37) and >3 years of age (13.18 ± 0.40). Mean larvae count in relation to sex and breed did not reveal any significant difference. First-instar larvae (L1) were recorded from May to mid-September, second larval stage (L2) from mid-September to mid-December, and third-stage larvae (L3) from mid-December to February. However, No larvae were recorded from March to April, which is suggestive of pupation period in this region. Thus, it is concluded that adult fly is active in April to June. The results further confirmed that internal life cycle of P. silenus is subcutaneous and no migration of larvae occurs. This is the first report from India, based on slaughter house study on the prevalence and biology of goat warble fly infestation. It will help in devising suitable prophylactic and eradication program to check the economic losses rendered by adult fly.  相似文献   

9.
A total of 1276 cattle from 76 farms in 8 villages were examined by palpation of the skin for evidence of hypodermosis. The effects of age, sex, breed, and colour of cattle on hypodermosis were investigated. The overall prevalence was 31.9%. The mean number of warble fly larvae on infested animals was 8.46. Hypodermosis infestations were encountered in all the villages visited. Within a herd, the intensity of infestion decreased with the age of cattle. Infestation rates of warble fly larvae were lower in native cattle, in females, and in piebald animals.  相似文献   

10.
The development and survival of the eggs of Haemonchus contortus on pasture at Vom were studied by depositing faecal pellets on grass plots over a period of 12 months. Development and survival to the infective larvae occurred throughout the study except during the dry season months of December to April. More infective larvae were recovered from the herbage in June, July and August than in other months. The survival time of the infective larvae ranged from 2 weeks in October to 10 weeks in June, July and August. Rainfall was the most important epizootiological factor influencing the development and survival of the infective larvae. Temperature was not a limiting factor.  相似文献   

11.
驯鹿的皮蝇蛆线粒体CO1基因序列分析   总被引:1,自引:0,他引:1  
利用分子生物学技术对内蒙古驯鹿未定种皮蝇蛆线粒体CO1基因种属特异性序列进行了研究.DNA核苷酸测序结果证实:该种皮蝇线粒体CO1种属特异性基因UEA7到UEA10特殊目标编码区域片段长度约为689 bp;种系发生进化树和同源性分析显示其与鹿皮蝇法国株同源性非常接近,因此确定内蒙古地区感染驯鹿的皮蝇蛆为鹿皮蝇(Hypo...  相似文献   

12.
Worm counts from Yankassa ewes, lambs and tracer lambs grazing unimproved pasture at Zaria were obtained each month during the rainy season of 1976. In June and July up to 14 per cent of the Haemonchus contortus populations consisted of early fourth stage larvae (L4). In August this increased to more than 55 per cent and in October to more than 95 per cent. From June to August most of the abundant late L4 contained rodlike crystals. More than 95 per cent of the Haemonchus contortus populations of two lambs killed two weeks after infection with infective larvae, cultured for seven days at 25 degrees to 30 degrees C in the dark, were early L4. Inhibited 3rd stage Trichostrongylus spp did not exceed 26 per cent of the worm populations.  相似文献   

13.
Separate groups of 3 oestrid-free lambs were exposed to infestation on irrigated pasture for periods of approximalely 33 days each over30 months, and on dry-land pasture for approxomately 42 days over a period of 18 months. With some exceptions, the lambs slaughtered from October-June were found to be infested with Oestrus ovis while, with one exception, those slaughtered from July-September were free. A minimum of 4 sheeps' heads, obtained weekly over 24 months from the Pretoria Municipal Abattoir, was examined for infestation. Of a total of 542 heads examined, 73,4% were infested, having a mean burden of 15,2 larvae. Mean larval burdens were slightly greater in hornless than in horned sheep in Dorper-type than in Merino-type sheep, and in lambs than in sheep with 2 or more permanent incisors. The largest larval burdens were recovered from sheep slaughtered during May and June and the smallest during September and October. The greatest number of 1st instar larvae were recovered during May and June and the smallest during September, but those recovered during the latter month were the largest. With one exception, mature larvae which pupated after 21 March or before 16 August failed to hatch as viable flies. Those which pupated after 16 August hatched as flies after a pupal stage of approximately 50 days and the first flies to hatch were invariably recovered during the first 2 weeks of October. The pupal stage decreased to approximately 25 days during December and January and increased again to approximately 50 days for flies hatching during May. No flies hatched between 18 May and 1 Cctober. The following life cycle ofr Oestrus ovis is suggested: sheep are repeatedly infested from October-June; thereafter infestation survives in the sheeps' heads until August, mainly as 1st instar larvae, then as pupae and larvae until fresh infestation takes place during October.  相似文献   

14.
The efficacy of minidose of pour-on ivermectin and eprinomectin formulations against first instar larvae of Przhevalskiana silenus was observed in naturally infested goats in the Jammu region, North India. The study was performed in mid August 2011. A total of 280 goats were randomly divided in to 7 groups of 40 each. Goats of the first three groups were treated with pour-on ivermectin at dosage of 2, 5, and 200 μg/kg body weight, respectively, whereas animals of the fourth to sixth groups were treated with pour-on eprinomectin at 25, 50, and 500 μg/kg body weight, respectively. Group VII animals were kept as untreated control. The results indicated that no warbles were recorded between December 2011 and March 2012 on back of animals treated with pour-on preparations of ivermectin at dosage of 5 and 200 μg/kg body weight, respectively, and eprinomectin at dosage of 50 and 500 μg/kg body weight, respectively. Thus, it is concluded that administration of minidose of pour-on ivermectin (5 μg/kg body weight) and eprinomectin (50 μg/kg body weight) is cost effective and so can be used for warble fly control campaign in Jammu region.  相似文献   

15.
A study was carried out on a ranch in the semi-arid area of Kajiado District in Kenya during the period July 2000 to June 2001 to determine the seasonal patterns of development and survival of gastrointestinal nematodes of sheep on pastures. A series of plots were contaminated with sheep faeces every month and pasture samples were collected weekly for the recovery and identification of larvae. The availability of infective larvae on naturally contaminated pastures was also monitored on the paddocks grazed by sheep and around the night pen and the watering point every month from July 2000 to June 2001. The results from the examination of the pasture samples indicated that rainfall distribution was the major factor governing the development and survival of the pre-parasitic stages. No parasitic larvae were detected from the plots contaminated during the dry months from July to October 2000, but development and translocation of infective larvae on pastures occurred on plots contaminated during the rainy seasons and soon after when relatively high moisture was present in the herbage (November 2000 to June 2001). During this period, peak larval counts occurred between the first and the second week post contamination, then declined to undetectable levels between week 4 and 16 post contamination. The lack of development of infective larvae during the dry season and the relatively rapid decline of their population during the wet season presents an opportunity for the use of pasture spelling as a means of helminth control in the study area. The availability of infective larvae on naturally contaminated pastures, around the night pen and around the watering point also followed the rainfall distribution pattern. Infective larvae were consistently recovered around the watering point throughout the study period. This indicated that the point is an important source of infection for sheep, especially during the dry season when other pastures are non-infective.  相似文献   

16.
次黄筒天牛生物学特性及卵的空间分布研究   总被引:2,自引:0,他引:2  
陶静霞  堵鹤鸣 《蚕业科学》1997,23(4):197-201
次黄筒天牛在江苏太仓1~2年发生一代,幼虫在枝干内越冬,成虫6月上旬~7月中旬羽化,取食桑树的嫩叶、叶脉,产卵于桑树新梢端部。卵期13d,幼虫蛀入枝条,先向上蛀食到梢端再调头向下蛀食,枝条短的幼虫可入拳越冬,第2年5月中旬化蛹,蛹期约16d。被害株有效条数降低,影响产叶量。该虫卵的空间分布为聚集型。个体间相互吸引但聚集强度不高,并在此基础上提出了序贯抽样模型。  相似文献   

17.
Cross-reactivity between Hypoderma lineatum antigen and anti-Przhevalskiana silenus antibodies has been demonstrated by an ELISA technique. To evaluate the applicability of a commercial ELISA kit for the immunodiagnosis of goat warble fly infestation, different dilutions of serum and conjugate were tested, the development of antibody to P silenus in naturally infested goats was studied, and the results were compared with an ELISA technique using an antigen extracted from the first instar larvae of H lineatum. The best results were obtained with a serum dilution of 1:50; with both techniques the highest antibody concentration were recorded in October, November and December. In view of the confirmed cross-reactivity between H lineatum antigen and anti-P silenus antibodies, and the simplicity and rapidity of the assay, the commercial ELISA kit can be considered as a useful tool for the diagnosis of goat warble fly infestation.  相似文献   

18.
Guan G  Luo J  Ma M  Yang D  Wang Y  Gao J  Sun H  Liu Z  Liu A  Dang Z  Boulard C  Yin H 《Veterinary parasitology》2005,129(1-2):133-137
A large-scale serological surveillance was conducted for hypodermosis in the north of China. A total of 4175 sera samples of yaks and cattle were collected from five provinces in north China that included Xinjiang, Inner Mongolia, Heilongjiang, Jiling and Gansu provinces, between 2001 and 2002, and were examined for anti-hypoderma antibody by ELISA. The results indicate that the naturally infested positive rates of Hypoderma spp. in the above provinces were 51.77%, 27.02%, 13.00%, 6.03% and 44.41%, respectively. These results suggest a significant warble fly population in the north of China. Positive sera were collected from infested cattle in Pingliang county of the Gansu province monthly between August 2001 and July 2002. These sera were used to evaluate the seasonal kinetics of anti-hypoderma antibody. The kinetics demonstrated that anti-hypoderma antibody was elevated from October to December. Thus, serological surveillances associated with low infestation rates and chemical therapy would best be performed from October to December in the region.  相似文献   

19.
From July 1989 to June 1990, 555 heads of adult sheep obtained from Pamiers slaughterhouse (southwest France) were examined for infestation by Oestrus ovis. Infestation was present in 65% of the heads and the mean larval burden per positive case over the year was 24.8. The monthly prevalence rate varied from 44% in April to 88.2% in November. There are usually three generations of Ovis each year: the first March–April, the second in June–July and the last in September–October. There was no fly activity in winter and during the hottest months of summer. On the other hand, nearly all the larvae overwintered as the firs stage.

This study emphasizes the seriousness of the problem in the region and the authors recommend three strategic treatments per year during periods of high fly activity.  相似文献   


20.
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