{"title":"[细菌感染和抗生素对采采蝇(双翅目,舌蝇科)的影响]。","authors":"H Wetzel, G Thiemann","doi":"","DOIUrl":null,"url":null,"abstract":"<p><p>The membrane feeding technique (in vitro feeding) used for the rearing of tsetse flies has advantages over the conventional method of feeding the flies on host animals. However, as long as blood remains the sole source of tsetse fly nutrition, the risk remains of blood being contaminated during collection, storage or feeding with bacteria pathogenic to the flies. The resulting high mortality of the tsetse flies endangers the success of this rearing. The experiments described here have shown that Glossina m. morsitans Westw. are more sensitive to Pseudomonas aeruginosa than G. p. palpalis Rob.-Desv. Rearing experiments over several years have confirmed this finding in that the latter species has never been threatened by high bacterial-induced mortality, whereas in 1973-74, due to contamination of the in vitro fed blood, a population of G. m. morsitans was difficult to colonize. The quantity of infected blood intake (14 to 70 mg) had no influence on the survival rate. However, when flies were infected once with Pseudomonas aeruginosa (dilution stage of 10(-3)), the organisms were eliminated after only nine days in living G. p. palpalis, but after 14 days in living G. m. morsitans. Females were infected at different stages of pregnancy but the same bacteria were not isolated in any puparia. Therefore, transmission of the bacteria to larvae growing in the uterus could not be demonstrated. All antibiotics used, to which bacteria isolated from tsetse flies in the laboratory were sensitive, caused a reduction in productivity. Parental females as well as females which emerged from larvae deposited by these flies (= F1-generation) 6 days after the administration of the drug to the pregnant females showed a similar loss in productivity. This corresponds with a degeneration of mesenteric symbionts. The most successful way to cope with bacterial infection in the membrane feeding technique in the rearing of tsetse flies has proved to be prophylactic measures, i.e. sterile membranes, sterile underlying aluminium trays and sterile blood. The methods employed at this laboratory, where up to 20 000 flies are being fed daily through membranes, have prevented dangerous bacterial infections in both species.</p>","PeriodicalId":23838,"journal":{"name":"Zentralblatt fur Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene. Erste Abteilung Originale. 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The experiments described here have shown that Glossina m. morsitans Westw. are more sensitive to Pseudomonas aeruginosa than G. p. palpalis Rob.-Desv. Rearing experiments over several years have confirmed this finding in that the latter species has never been threatened by high bacterial-induced mortality, whereas in 1973-74, due to contamination of the in vitro fed blood, a population of G. m. morsitans was difficult to colonize. The quantity of infected blood intake (14 to 70 mg) had no influence on the survival rate. However, when flies were infected once with Pseudomonas aeruginosa (dilution stage of 10(-3)), the organisms were eliminated after only nine days in living G. p. palpalis, but after 14 days in living G. m. morsitans. Females were infected at different stages of pregnancy but the same bacteria were not isolated in any puparia. Therefore, transmission of the bacteria to larvae growing in the uterus could not be demonstrated. 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引用次数: 0
摘要
采用膜饲养技术(体外饲养)饲养采采蝇,与传统的在宿主动物身上饲养采采蝇的方法相比,具有许多优点。然而,只要血液仍然是采采蝇营养的唯一来源,血液在采集、储存或喂养过程中就存在被对采采蝇致病的细菌污染的风险。由此导致的采采蝇的高死亡率危及这种饲养的成功。本文所描述的实验表明,褐藻(Glossina m. morsitans Westw.)。铜绿假单胞菌比palpalis G. p. robb - desv更敏感。几年来的饲养实验证实了这一发现,后者从未受到细菌引起的高死亡率的威胁,而在1973-74年,由于体外喂养的血液受到污染,g.m. morsitans的种群很难定植。感染血的摄取量(14 ~ 70 mg)对存活率无影响。然而,当苍蝇感染一次铜绿假单胞菌(稀释阶段为10(-3))时,活的palpalis在9天后就被消灭了,而活的morsitans在14天后就被消灭了。雌性在不同的怀孕阶段感染,但同一细菌没有在任何脓毒症中分离出来。因此,不能证明细菌是否会传播给子宫内生长的幼虫。所有抗生素的使用都导致了生产力的下降,这些抗生素是实验室中从采采蝇中分离出来的细菌敏感的。在给怀孕的雌性给药6天后,亲代雌性以及由这些果蝇沉积的幼虫(= f1代)孵化的雌性也表现出类似的生产力下降。这与肠系膜共生体的退化相对应。在采采蝇的饲养中,膜饲养技术应对细菌感染最成功的方法是采取预防措施,即无菌膜、无菌下垫铝盘和无菌血液。在这个实验室里,每天有多达2万只苍蝇通过膜喂食,所采用的方法已经防止了这两个物种的危险细菌感染。
[Effect of bacterial infections and antibiotics on tsetse flies (Diptera, Glossinidae) (author's transl)].
The membrane feeding technique (in vitro feeding) used for the rearing of tsetse flies has advantages over the conventional method of feeding the flies on host animals. However, as long as blood remains the sole source of tsetse fly nutrition, the risk remains of blood being contaminated during collection, storage or feeding with bacteria pathogenic to the flies. The resulting high mortality of the tsetse flies endangers the success of this rearing. The experiments described here have shown that Glossina m. morsitans Westw. are more sensitive to Pseudomonas aeruginosa than G. p. palpalis Rob.-Desv. Rearing experiments over several years have confirmed this finding in that the latter species has never been threatened by high bacterial-induced mortality, whereas in 1973-74, due to contamination of the in vitro fed blood, a population of G. m. morsitans was difficult to colonize. The quantity of infected blood intake (14 to 70 mg) had no influence on the survival rate. However, when flies were infected once with Pseudomonas aeruginosa (dilution stage of 10(-3)), the organisms were eliminated after only nine days in living G. p. palpalis, but after 14 days in living G. m. morsitans. Females were infected at different stages of pregnancy but the same bacteria were not isolated in any puparia. Therefore, transmission of the bacteria to larvae growing in the uterus could not be demonstrated. All antibiotics used, to which bacteria isolated from tsetse flies in the laboratory were sensitive, caused a reduction in productivity. Parental females as well as females which emerged from larvae deposited by these flies (= F1-generation) 6 days after the administration of the drug to the pregnant females showed a similar loss in productivity. This corresponds with a degeneration of mesenteric symbionts. The most successful way to cope with bacterial infection in the membrane feeding technique in the rearing of tsetse flies has proved to be prophylactic measures, i.e. sterile membranes, sterile underlying aluminium trays and sterile blood. The methods employed at this laboratory, where up to 20 000 flies are being fed daily through membranes, have prevented dangerous bacterial infections in both species.
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