The use of bridging systems to increase genetic variability in compound chromosome strains for genetic control of Lucilia cuprina (Wiedemann)

Summary Genetic variability in the non-compound portion of the genomes of compound-chromosome (CC) strains intended for genetic control can be increased by the use of bridging strains which can be crossed to both CC and normal strains. Two bridging systems are described for chromosome-5 CC strains of Lucilia cuprina. The first system relies on the established viability and fertility of males trisomic for chromosome 5R. Males carrying the (5L.YL)23 half-translocation, a C(5R), and a normal chromosome 5 were crossed successfully to a CC strain and a normal strain. The second system uses a pair of reciprocal whole-arm 4;5 translocations to generate gametes disomic for 5R and nullosomic for 5L, which in combination with C(5L)-bearing gametes form viable near-euploid offspring with only small duplications and deficiencies. These offspring (C(5L); (4L.5R)357; (4R.5R)194; (4L.4R)) were crossed successfully with both CC and T(4;5)357/ + individuals. The latter were in turn crossed successfully with normal strains. The T(Y;5)23 system allows replacement of the non-CC genome with wild material more rapidly than the T(4;5)357/T(4;5)194 system, but unlike the latter does not allow replacement of the Y chromosome in the CC strain. The double translocation system is currently being used in L. cuprina.     

Genetic control of Lucilia cuprina: analysis of field trial data using simulation techniques

Summary An analytical version of the genetic control simulation program GENCON has been used to further analyze the data obtained during field trials of genetic control of the sheep blowfly, Lucilia cuprina, in 1976–79. In the simulations, population trends from a nonrelease area were used as an estimate of the rates of increase that would have occurred in the target population if there had been no releases. Genetic data from the target area (frequencies of matings by released males) were used to predict the frequencies of descendants of released males, the resulting genetic death, and the effects of this on population trends. In simulations that assumed no migration and full survival and competitiveness of all field-reared descendants of released males (translocation-bearing males and males and females heterozygous for deleterious mutations), neither the predicted genetic changes nor the predicted population trends agreed well with the observed data. Further simulations suggested that reduced survival or competitiveness of field-reared descendants did not account for this disagreement, but that immigration of wild flies into the test areas was probably a major contributor to the failure to achieve suppression. However, immigration alone was not sufficient to explain all the differences between observed and expected results. Other plausible contributors to this failure were: (1) lower survival of translocation males due to the effects of a dieldrin resistance allele carried on the translocation, and (2) increased survival of immature stages of L. cuprina at low population densities.     

Modification of developmental instability and fitness: Malathion-resistance in the Australian sheep blowfly,Lucilia cuprina

The evolution of resistance to malathion byLucilia cuprina initially results in an increase in fluctuating asymmetry. Resistant flies are at a selective disadvantage, relative to susceptibles, in the absence of the insecticide. A fitness/asymmetry modifier of diazinon-resistant phenotypes ameliorates these effects resulting in malathion-resistant phenotypes of relative fitness and asymmetry similar to susceptibles. For the nine genotypic combinations of the modifier and malathion-resistance alleles, developmental time increases linearly with increasing asymmetry. Percentage egg hatch decreases linearly with increasing asymmetry. The initially disruptive effect of the malathion-resistant allele was partially dominant, the effect of the modifier dominant. The results are discussed in terms of developmental perturbation, asymmetry estimation and relative fitness to consider whether it is adequate to use changes in fluctuating asymmetry alone as measures of developmental instability. It is suggested that in some circumstances antisymmetry may indicate developmental instability and that the diazinon/malathion-resistance systems inL. cuprina may allow the relative importance of genetical and/or environmental developmental perturbations to be ascertained.     

Genetics of lucilin,a storage protein from the sheep blowfly,Lucilia cuprina (Calliphoridae)

Lucilin, the main storage protein of larval fat body and hemolymph in the sheep blowfly, Lucilia cuprina, has been isolated as a series of trimers composed of subunits of 83,000±5% daltons. Extensive electrophoretically detectable polymorphism of lucilin subunit patterns occurs in wild and laboratory populations of Lucilia; from four to nine bands are seen in any one individual. Evidence from genetic, electrophoretic, immunological, and structural studies suggests the existence of a series of 12 or more closely related structural loci (designated Luc-1 to Luc-12) which may have arisen through gene duplication. Codominant allelic variation has been found at several of these loci. Luc-1 and Luc-3, and probably the other structural loci of the series, are located on chromosome 2.Financial support for this work was largely obtained through the Australian Research Grants Committee (Grant D65/15167). J. A. T. held an Honorary Fellowship at the Australian National University during 1972–1973.     

Homozygous-viable pericentric inversions for genetic control of Lucilia Cuprina

Summary The isolation of homozygous-viable pericentric inversions for inclusion in field-female killing (FK) systems in Lucilia cuprina is described. From 7,236 irradiated chromosomes screened, 16 pericentric inversions were isolated. Four of these were viable as homozygotes. One of these, In (3LR) 14, possesses the properties required for inclusion in FK systems (tight linkage of one inversion break-point to the white-eye gene and substantial genetic exchange within the inversion in heterozygous females).     

Genetic instability in mass-rearing colonies of a sex-linked translocation strain of Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae) during a field trial of genetic control

Summary Genetic breakdown occurred in a strain of Lucilia cuprina constructed for the purpose of genetic control of this pest. The strain incorporated autosomal recessive eye colour mutations linked in repulsion with a translocation involving the Y chromosome (male-determining) and two autosomes. In the original strain females had white eyes and males were wild type. The spontaneous breakdown involved a failure of the sex-limited inheritance of the eye colour mutations. Characteristically the frequency of white-eyed males increased rapidly in the strain, whereas the frequencies of the three other phenotypically recognizable breakdown products did not. This suggested that the white-eyed males had a selective advantage over both the wild type males and the other breakdown products. Genetic analysis revealed that recombination, which is normally rare in L. cuprina males, is considerably more frequent in the presence of a Y-autosome translocation, but that recombination alone was insufficient to account for the rate of increase of the white-eyed males in the colony. Genetic and cytological analysis of the breakdown products revealed that reversion of the multi-break translocation also occurred, and that many of the white-eyed males had either only a Y-single-autosome translocation or no translocation at all; thus these males were more fertile than the wild type multi-translocation males. In addition, under colony cage conditions the white-eyed males may have had a behavioural advantage in competition with the wild type males.     

Quantitative aspects of the effect of mating on readiness to lay in the Australian sheep blowfly,Lucilia cuprina

Virgin females of Lucilia cuprinararely lay eggs, whereas mated females do so readily. This effect of mating is due entirely to increased readiness to lay, and not to any effect on ovarian development. An investigation was made of how readiness to lay was affected by matings which differed in terms of the male's chemical and mechanical contribution. Individual males were mated, during 1 day, to a succession of females whose readiness to lay was determined 1 or 8 days after mating. On both days, the proportion of females laying was inversely related to the number of females with which the male had previously mated. A high proportion of females that had mated with previously unmated or oncemated males laid at both 1 and 8 days after mating. However, this proportion tended to decline between day 1 and day 8 in females that had mated with males with two or more previous matings, and this effect was most evident in females mated with males that had previously mated with four or more females. When matings were manually terminated as soon as coupling had occurred, the proportion laying remained as low as in virgins. This proportion progressively increased as mating duration increased from 2 to 6 min. The proportion that laid after mating terminated at 6 or 8 min was as high as that for females from full-term matings (mean duration, 12.5 min). The results are generally similar to those obtained in parallel experiments on the effect of mating on sexual receptivity in this species and, therefore, indicate that the physiological bases for the two effects of mating might be the same.     

The influence of oocyte resorption on ovarian development rates in the Australian sheep blowfly, Lucilia cuprina

Rates of ovarian development in L. cuprina are determined by ambient temperatures and females require a minimum of 57 day degrees above 8°C to mature their first complement of eggs. The number of oocytes that a female can mature depends on her size and the amount of protein-rich material ingested. Under field conditions, females usually obtain sufficient protein to reach maturity but rarely mature their full egg complements (Vogt et al., 1985), i.e., most females resorb some of their oocytes. Oocyte resorption prolongs the maturation period by approximately 0.3 day degrees/oocyte resorbed.A model of ovarian development rates is presented which incorporates resorption delays and uses ambient temperature regimes to estimate the physiological ages and maturation rates of field females.

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Résumé Les taux de développement ovarien de L. cuprina sont déterminés par la température ambiante, et la femelle exige un minimum de 57 degrés-jours audessus de 8°C pour développer son premier lot d'oeufs. Le nombre d'ovocytes qu'une femelle peut former dépend de sa taille et de la quantité d'aliments riches en protéines absorbées. Dans les conditions de la nature, les femelles obtiennent normalement suffisamment de protéines pour atteindre la maturité mais rarement l'ensemble de leur contingent d'oeufs se développe totalement, c'est à dire que la majorité des femelles résorbé une partie de ses ovocytes. La résorption des ovocytes prolonge la période de maturation d'environ 0,3 dégre-jour par ovocyte résorbé. Un modèle de taux de développement ovarien est proposé qui incorpore les retards dus à la résorption et utilise les régimes de température ambiante pour évaluer les âges physiologiques et les taux de maturation des femelles dans la nature.

     

Thehermit transposable element of the Australian sheep blowfly,Lucilia cuprina, belongs to thehAT family of transposable elements

We report the cloning ofhermit, a member of thehAT family of transposable elements from the genome of the Australian sheep blowfly,Lucilia cuprina. Hermit is 2716 bp long and is 49% homologous to the autonomoushobo element,HFL1, at the nucleic acid level.Hermit has 15 bp terminal inverted repeats that share 10 bp with the terminal inverted repeats ofHFL1. Conceptual translation reveals a 583 residue open reading frame (ORF) that is 64% similar and 42% identical to theHFL1 ORF. However, the sequence of thehermit element contains two frameshifts within the putative ORF, indication thathermit is an inactive element. Analysis ofL. cuprina strains from within and outside Australia suggested thathermit is present as a single copy in all the genomes analysed.     

Chromosomal responses of blowfly Lucilia cuprina to heat and heavy metal stress

Chromosomal responses to heat and heavy metal shocks were studied in the pupal trichogen polytene chromosomes of Lucilia cuprina. Heat shock induced seven distinct puffs on different chromosomes at the following loci: 1C2, 21A1, 21C, 23B, 24B, 42A and 95B3. Arsenate and mercury, two of the most common toxic environmental chemical pollutants also, induced almost the same set of puffs except 20B2, which appeared to be induced by metals only and 95B3, which was not induced by arsenate. The findings suggest that a common set of gene loci encoding the heat shock proteins is responsive to these diverse environmental stresses. This revised version was published online in July 2006 with corrections to the Cover Date.     

The influence of constant and fluctuating temperatures on development rate and survival of pupae of the Australian sheep blowfly Lucilia cuprina

Functions describing instantaneous development rates in constant and natural temperature regimes were obtained for pupae of the Australian sheep blowfly, Lucilia cuprina (Wiedemann). These were derived using a technique that directly calculates rate functions from development-time observations made under any temperature regime. The functions indicated similar instantaneous development rates for constant and natural temperatures up to 30°C. At 30° the constant-temperature function reached a plateau which was maintained to the constant-temperature thermal limit. The natural-temperature function, however, continued its ascending phase to 34°, and then fell sharply to zero at 42°.The median survival temperatures of pupae for single 7-h exposures, daily 7-h exposures, and continuous exposures to high temperatures were 44.7, 39.2, and 34.4°, respectively. Development was completed at constant 15° but not at 10°. Median survival times at constant 10, 5, 0 and-5° were 4.3, 4.2, 2.5 and 1.5 days. Mortality was slight for single or daily 7-h exposures to-5°, but was complete for all except brief single exposures to-10°.

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Influence des températures constantes et de la thermopériode sur le taux de développement et la survie des pupes de Lucilia cuprina

Résumé Des fonctions associant les taux de développement aux températures en conditions constantes et en thermopériodes naturelles ont été établies pour les pupes de L. cuprina. La fonction pour les conditions naturelles décrit les taux de développement immédiat-c'est-à-dire les taux de développement existant en réponse à la température pour chaque laps de temps (en réalité, pour un court intervalle), plutôt que le taux moyen pour une gamme de températures. La fonction pour les températures constantes décrit à la fois les taux de développement instantané et moyen (ceux-ci étant équivalents, en ne supposant pas de réponses spécifiques suivant l'âge en conditions constantes). Les fonctions ont été dérivées en utilisant une technique qui calcule directement les fonctions des taux à partir des observations sur les durées de développement faites dans chaque condition de température.Les fonctions ont révélé des taux de développement instantanés semblables pour les températures jusqu'à 30°C. A 30°C la fonction pour la température constante a atteint un plateau qui s'est maintenu jusqu'à la limite thermique. La fonction pour les thermopériodes naturelles a continué de s'élever jusqu'a 34°C, et alors a chuté brutalement jusqu'à zéro à 42°C. Dans la région d'où les lots de pupes ont été obtenus les températures subies par les pupes dans les zones non ombragées dépassent fréquemment 50°C pendant l'été. Les taux de développement des pupes aux températures au dessus de 30°C, où les fonctions avec températures constantes et thermopériodes deviennent différentes, sont cependant cohérent avec les expériences dans la nature avec L. cuprina. Les températures médianes de survie des pupes pour une exposition unique de 7 h, pour des expositions quotidiennes de 7 h et pour une exposition constante à haute température étaient respectivement de 44,7; 39, 2 et 34,4°C. Par comparaison avec des températures estivales du sol de 50°C et plus, il semble vraisemblable que la mortalité nymphale est un facteur important de déclin des populations de L. cuprina au milieu de l'été.

     

Capacity of autogenous and anautogenous females of the Australian sheep blowfly, Lucilia cuprina, to survive water and sugar deprivation following emergence

The vast majority of wild-type females of Lucilia cuprina are anautogenous. The survival of wild-type anautogenous females following emergence was compared with that of females from laboratory-selected autogenous strains, when deprived of sucrose and given ad lib access to water, deprived of water and given ad lib access to sucrose, or deprived of both water and sucrose.Anautogenous females survived substantially longer than autogenous females when only sucrose was supplied, but the opposite applied when the flies were supplied with water only. Anautogenous females survived somewhat longer than autogenous females in the absence of both sucrose and water. Thus, autogenous females might be at a disadvantage in the dry conditions which often prevail in areas occupied by the species.

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Résumé La grande majorité des femelles de L. cuprina est anautogène. Cependant, l'observation de femelles autogènes dans la nature, et la sélection au laboratoire d'une lignée autogène à partir d'une souche anautogène indique que cette espèce est susceptible de devenir autogène.Le stade de développement ovarien des femelles capturées dans la nature montre que l'habitat est généralement carencé en aliments riches en protéines susceptibles de permettre le développement ovarien de L. cuprina. Dans de telles conditions, les femelles autogènes devraient être avantagées; leur très grande rareté indique que certains désavantages doivent être associés au génotype autogène. On a constaté que les femelles autogénes qui viennent d'émerger ont une teneur en eau plus faible que les anautogènes; ceci suggère que l'un des coûts possibles de l'autogénie pourraît être une aptitude réduite à supporter les périodes de privation d'eau suivant l'émergence. Pour cette raison, la survie de femelles sauvages anautogènes a été comparée à celles de lignées autogènes sélectionnées au laboratoire, en absence de sucrose, en présence ad lib. de sucrose, ou sans eau ni sucre.Pouvues uniquement de sucrose, les femelles anautogènes survivent 12 heures de plus que les autogènes, tandis qu'en présence exclusive d'eau les femelles autogènes survivent 19 heures de plus. En absence de sucrose et d'eau les femelles anautogènes survivent environ 5 heures de plus. Il semble que la mortalité des femelles autogènes privées totalement d'aliments est due principalement à un stress hydrique, tandis que le sucrose et le stress hydrique ensemble paraissent jouer un rôle dans la mort des femelles anautogènes. Ces résultats montrent que l'autogénie des femelles peut être un désavantage lors des conditions sèches fréquentes dans l'aire de cette espèce.

     

Readiness to lay in the blowfly Lucilia cuprina is unaffected by oviposition site-deprivation or egg-load

Oviposition by Lucilia cuprina Wiedemann (Diptera, Calliphoridae) was examined in relation to period of oviposition site-deprivation and egg-load. Effects of oviposition site-deprivation were examined by comparing oviposition performance of individual females that had matured their batch of oocytes within the previous 24 h with that of females which had reached ovarian maturity 8 days previously. Egg-load was manipulated by causing females of this anautogenous species to consume different amounts of protein-rich material. In no-choice experiments, individual females of the different categories were given access for 4 h to oviposition substrate, soaked with (i) liver exudate, (ii) the exudate diluted 16-fold or (iii) the undilated exudate containing the oviposition deterrent sodium chloride at a concentration of 2 M. These solutions elicited oviposition from different proportions of females, but neither these proportions, nor the interval between introduction of the oviposition site and the initiation of oviposition, was significantly affected by the period of oviposition site-deprivation or the number of eggs matured by the females.

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Résumé L'effet de la privation de lieu de ponte a été étudié en comparant les pontes de femelles isolées ayant formé leurs ufs mûrs dans les 24 heures précédentes, à celles de femelles ayant atteint leur maturité sexuelle 8 jours avant. La rétention ovocytaire est provoquée en faisant consommer aux femelles de cette espèce anautogène différentes quantités d'aliments riches en protéines. La ponte de femelles dont le contingent total de leurs ovocytes s'est développé, — c'est-à-dire 260 —, après consommation ad libitum de foie de mouton pendant 48 heures, a été comparée à celle de femelles ayant formé 190 ovocytes mûrs après ingestion d'une quantité limitée de jus de foie.Dans des expériences sans choix, les femelles isolées de différences catégories ont eu accès pendant 4 heures au substrat de ponte trempé: 1) dans du jus de foie, 2) dans du jus dilué 16 fois, 3) dans du jus de foie non dilué mais contenant NaCl (inhibiteur de la ponte) à la concentration de 2 M. Le jus non dilué a provoqué une forte stimulation, induisant la ponte de 80% des femelles. Le jus dilué et celui contenant NaCl n'ont induit la ponte que de 40% des femelles avec des niveaux de stimulation bien plus faibles. La date d'introduction du lieu de ponte et le taux de rétention des ovocytes mûrs n'ont eu auçun effet sur la proportion de femelles réagissant à ces 3 types de stimulation.

     

The relationship between fecundity and oocyte resorption in field populations of Lucilia cuprina

In the Australian sheep blowfly, Lucilia cuprina, the number of ovarioles, and hence the maximum number of eggs developed in each ovarian cycle, is a linear function of adult size (headwidth). Field females have a mean headwidth of 3.0 mm (range=2.30–3.50 mm) and a mean potential fecundity/cycle of 232 eggs (range=111–318 eggs). Realised fecundity is influenced by the quality and amount of protein in the adult diet. All field females appear to have the same minimum protein requirement for egg maturation, i.e., whatever their size (potential fecundity) females must obtain sufficient protein to mature at least 110 eggs in order to become gravid. Females whose protein intake exceeds this minimum but falls short of the amount needed for maturation of their full egg complements resorb some of their oocytes and mature the remainder. Since potential fecundity increases with fly size, large females resorb more oocytes than small females under suboptimal protein regimes, i.e., the proportion of oocytes resorbed increases with fly size. Under field conditions, females rarely matured full complements of eggs, which indicates a general shortage of protein-rich material. The mean reduction in fecundity of field females during these studies was 53.4 eggs/cycle (23.2%).

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Résumé Chez Lucilia cuprina Wied., le nombre d'ovarioles, et ainsi le nombre maximum d'oeufs développés au cours de chaque cycle ovarien, est une fonction linéaire de la taille de l'adulte (largeur de la tête). La largeur moyenne de la tête des femelles de la nature est 3 mm (2,3 à 3,5) et la fécondité potentielle moyenne par cycle de 232 oeufs (111 à 318).La fécondité réelle est influencée par la qualité et la quantité de protéines dans le régime alimentaire. Toutes les femelles de la nature semblent avoir les mêmes exigences minimales en protéines pour la maturation des ovocytes, c'est à dire que quelle que soit leur taille (fécondité potentielle) les femelles doivent obtenir les protéines suffisantes à la formation d'au moins 110 ovocytes pour devenir gravides. Les femelles dont l'absorption de protéines dépasse ce minimum, mais est insuffisant pour permettre la maturation de la totalité de leurs ovocytes, en résorbent quelques uns et conduisent à maturité le reste. Puisque la fécondité potentielle augmente avec la taille des mouches, les grosses femelles résorbent plus d'ovocytes que les petites avec un régime suboptimal en protéines, c'est à dire que la proportion d'ovocytes résorbés augmente avec la taille des mouches. Dans les conditions de la nature, la totalité des ovocytes parvient rarement à maturité, ce qui indique une limitation générale en aliments riches en protéines. La réduction moyenne de la fécondité chez les femelles de la nature a été au cours de cette étude de 53.4 oeufs par cycle (23,2%).

     

Identification and characterization of proteins from Bacillus thuringiensis with high toxic activity against the sheep blowfly, Lucilia cuprina

Current control of the sheep blowfly (Lucilia cuprina) relies on chemical insecticides, however, with the development of resistance and increasing concerns about human health and environmental residues, alternative strategies to control this economically important pest are required. In this study, we have identified several isolates of Bacillus thuringiensis (Bt), collected from various Australian soil samples, that produce crystals containing 130 and 28 kDa proteins. These isolates were highly toxic to feeding larvae in both in vitro bioassays and in vivo on sheep. By N-terminal amino acid sequencing, we identified the smaller crystal band (28 kDa) as a cytological (Cyt) protein. Upon solubilization and proteolytic processing by trypsin, the 130 kDa crystal protein yielded among others, a truncated 55-60 kDa toxin moiety which exhibited larvicidal activity against sheep blowfly. The amino-terminal sequence of the trypsin-resistant protein band revealed that this Bt endotoxin was encoded by a new cry gene. The novel cry protein was present in all the strains that were highly toxic in the larval assay. We have also identified from one of the isolates, a novel secretory toxin with larvicidal activity.     

Functions of the white and topaz loci of Lucilia cuprina in the production of the eye pigment xanthommatin

The white and topaz eye color mutants of L. cuprina are defective in the production of the brown screening pigment xanthommatin. Both white and topaz mutants were found to be unable to accumulate xanthommatin precursors in the larval malpighian tubules, correlating with their reduced early pupal level of this metabolite. In addition, white mutants showed reduced rates of accumulation of kynurenine and 3-hydroxykynurenine in the adult eyes. Another mutant strain, grape, was also defective in its ability to accumulate these xanthommatin precursors in the eyes, although accumulation was normal in the larval tubules. In contrast, the topaz mutants were found to be normal in eye accumulation, although tubule accumulation was markedly abnormal. These properties of the white and topaz mutants of L. cuprina are compared with those of the white and scarlet mutants of D. melanogaster, and it seems likely that in the two species these genes are involved with the uptake or storage of xanthommatin precursors in specific tissues.This work was supported by Grant D2 75/15248 from the Australian Research Grants Committee.     

Components of fitness in a compound chromosome strain of Drosophila melanogaster

Summary The relative net fitness of a compound chromosome strain of Drosophila melanogaster was about 0.05, compared with the chromosomally normal strain from which it was derived. Based on meiotic considerations alone, the expected relative fitness was about 0.25. There were no significant differences in fertility between the compound and normal strains; the compound strain produced about 28% as many offspring as the normal strain and developed faster than the normal strain in two replicates, and slower in one replicate. The low relative fitness of the compound strain was apparently due to assortative mating, in which normal females discriminated strongly against compound males. Implications for pest control projects are dicussed.     

Computer simulation of genetic control. Comparison of sterile males and field-female killing systems

Summary A computer program, GENCON, designed to simulate genetic control using field-female killing systems, is described. These systems incorporate sex-linked translocations and conditional lethal mutations. Genetic death in field populations is caused by semisterility of the translocation and by homozygosis of the mutations in females and non-translocation males of field origin. Simulations using the program compare the effectiveness, in populations regulated by density, of genetic control using this type of system with control using sterile-male release. At high release rates, sterile males cause more rapid suppression and earlier eradication than sex-linked translocation strains. However, if releases are interrupted before eradication, the rate of recovery of density-dependent populations is more rapid following sterile-male release than following suppression with translocation strains. In such populations, the cumulative population suppression (number of individuals killed) is greater with translocation-strain release than with sterile-male release. At low release rates, sex-linked translocation strains can be much more effective at suppressing and eradicating density-dependent populations than sterile males. In continental Australia, eradication of the sheep blowfly Lucilia cuprina is probably not practicable. A suppression campaign using sex-linked translocation strains could yield a higher benefit to cost ratio than one using sterile males.     

Hypersensitivity responses and repeated infections with Lucilia cuprina, the sheep blowfly.

, , and 1992. Hypersensitivity responses and repeated infections with Lucilia cuprina, the sheep blowfly. International Journal for Parasitology 22: 1175–1177. Sheep repeatedly infected with L. cuprina at 2- but not 4-week intervals developed partial resistance to infection after five infections, as measured by larval recovery. However, resistance did not persist for more than three infections. Skin weal responses were measured after injection of larval products simultaneously with each infection. The only correlation between weal size and larval recoveries occurred at infection 1 and indicated a relationship between skin sensitivity and innate rather than acquired resistance. The results suggest that resistance to L. cuprina can develop after repeated infections but that it is short lived and requires frequent larval exposure. A role for hypersensitivity responses was not confirmed by the weal responses but was suggested by the size of wound developed per larva recovered.