scholarly journals A Novel Genetic Sexing Strain of Anastrepha Ludens for Cost-Effective Sterile Insect Technique Applications: Improved Genetic Stability and Rearing Efficiency

Insects ◽  
2021 ◽  
Vol 12 (6) ◽  
pp. 499
Author(s):  
Edwin Ramírez-Santos ◽  
Pedro Rendon ◽  
Georgia Gouvi ◽  
Antigone Zacharopoulou ◽  
Kostas Bourtzis ◽  
...  
Keyword(s):  
Genetic Stability ◽  
Sterile Insect Technique ◽  
Production Efficiency ◽  
Small Scale ◽  
Management Approach ◽  
Anastrepha Ludens ◽  
Male Mating ◽  
Pest Species ◽  
Genetic Sexing ◽  
Genetic Sexing Strain

Anastrepha ludens (Loew) is one of the most destructive insect pests damaging several fruits of economic importance. The sterile insect technique (SIT) is used under an area-wide integrated pest management approach, to suppress these pest populations. Mass rearing facilities were initially established to produce sterile males of bi-sexual strains in support of SIT. The first genetic sexing strain (GSS) for A. ludens, Tapachula-7, based on pupal color dimorphism, was a key development since the release of males-only significantly increases the SIT efficiency. In this study, we document the development of a novel pupal color-based GSS. Twelve radiation-induced translocation lines were assessed as potential GSS in terms of recombination rates and rearing efficiency at a small scale. The best one, GUA10, was cytogenetically characterized: it was shown to carry a single translocation between the Y chromosome and chromosome 2, which is known to carry the black pupae marker. This GSS was further evaluated at medium and large scales regarding its genetic stability, productivity and quality versus Tapachula-7. GUA10 presented better genetic stability, fecundity, fertility, production efficiency, flying ability, and male mating, clear indicators that GUA10 GSS can significantly improve the efficacy and cost-effectiveness of SIT applications against this pest species.

Pre- and Post-Copulatory Competitiveness of the Genetic Sexing Strain Tapachula-7 of Anastrepha ludens (Diptera: Tephritidae)

2020 ◽  
Vol 113 (5) ◽  
pp. 2163-2170
Author(s):  
Yair Contreras-Navarro ◽  
Diana Pérez-Staples ◽  
Dina Orozco-Dávila ◽  
Francisco Díaz-Fleischer
Keyword(s):  
Sterile Insect Technique ◽  
Copulatory Behavior ◽  
Mass Rearing ◽  
Economic Importance ◽  
Anastrepha Ludens ◽  
Sexual Performance ◽  
Field Cage ◽  
Wild Female ◽  
Genetic Sexing ◽  
Genetic Sexing Strain

Abstract Anastrepha ludens (Loew) (Diptera: Tephritidae) is an endemic pest of Mexico, attacking several fruits of economic importance. The Sterile Insect Technique (SIT), consisting of mass-rearing, irradiation and release of adults, is used to control this pest in affected areas. Currently, a genetic sexing strain (Tapachula 7, Tap-7) consisting only of A. ludens males is being released, yet we lack information on its sexual performance at the early ages when they are released and on its post copulatory behavior in terms of sperm transfer and mating inhibition. Here, sexual competitiveness at young ages and ability to inhibit female re-mating was compared between sterile Tap-7, Standard Bisexual (SB), or wild males both in laboratory and field cage conditions. Sperm stored by females mating with wild, Tap-7, or SB strain males was also compared. Six-day-old sterile Tap-7 males had low mating rates, however, by 7 d of age 80% of males had mated. Tap-7 males were just as likely as wild males to inhibit wild female re-mating. In field cages, sterile Tap-7 males mated faster than wild and sterile males from the SB strain and had comparable mating success to wild males. Females mated to sterile Tap-7 males stored more sperm than those mated to sterile SB males. Females mated to wild males stored more sperm than females mated to any other type of male. Mass-rearing had a greater effect on decreasing sperm stored by females than irradiation. We recommend continuing the release of the GSS strain of A. ludens.

Female pupae of the genetic sexing strain “Tap-7” of Anastrepha ludens as hosts of Coptera haywardi

BioControl ◽  
2013 ◽  
Vol 59 (2) ◽  
pp. 149-157 ◽  
Author(s):  
Florida López-Arriaga ◽  
Pablo Montoya ◽  
Jorge Cancino ◽  
Jorge Toledo ◽  
Pablo Liedo
Keyword(s):  
Anastrepha Ludens ◽  
Genetic Sexing ◽  
Genetic Sexing Strain

scholarly journals Advances and Challenges of Using the Sterile Insect Technique for the Management of Pest Lepidoptera

Insects ◽  
2019 ◽  
Vol 10 (11) ◽  
pp. 371 ◽  
Author(s):  
František Marec ◽  
Marc J. B. Vreysen
Keyword(s):  
Ionizing Radiation ◽  
High Resistance ◽  
Sterile Insect Technique ◽  
Field Performance ◽  
Regular Component ◽  
Pest Species ◽  
Agricultural Pests ◽  
Genetic Sexing ◽  
Lepidopteran Pests ◽  
New Research

Over the past 30 years, the sterile insect technique (SIT) has become a regular component of area-wide integrated pest management (AW-IPM) programs against several major agricultural pests and vectors of severe diseases. The SIT-based programs have been especially successful against dipteran pests. However, the SIT applicability for controlling lepidopteran pests has been challenging, mainly due to their high resistance to the ionizing radiation that is used to induce sterility. Nevertheless, the results of extensive research and currently operating SIT programs show that most problems with the implementation of SIT against pest Lepidoptera have been successfully resolved. Here, we summarize the cytogenetic peculiarities of Lepidoptera that should be considered in the development and application of SIT for a particular pest species. We also discuss the high resistance of Lepidoptera to ionizing radiation, and present the principle of derived technology based on inherited sterility (IS). Furthermore, we present successful SIT/IS applications against five major lepidopteran pests, and summarize the results of research on the quality control of reared and released insects, which is of great importance for their field performance. In the light of new research findings, we also discuss options for the development of genetic sexing strains, which is a challenge to further improve the applicability of SIT/IS against selected lepidopteran pests.

scholarly journals Improving the Phenotypic Properties of the Ceratitis capitata (Diptera: Tephritidae) Temperature-Sensitive Lethal Genetic Sexing Strain in Support of Sterile Insect Technique Applications

2020 ◽  
Vol 113 (6) ◽  
pp. 2688-2694
Author(s):  
Mitzy F Porras ◽  
Jose S Meza ◽  
Edwin G Rajotte ◽  
Kostas Bourtzis ◽  
Carlos Cáceres
Keyword(s):  
High Temperatures ◽  
Temperature Sensitivity ◽  
Larval Stage ◽  
Sterile Insect Technique ◽  
Ceratitis Capitata ◽  
Temperature Sensitive ◽  
Genetic Sexing ◽  
Phenotypic Properties ◽  
Slow Development ◽  
Genetic Sexing Strain

Abstract The genetic sexing strain (GSS) of the Mediterranean fruit fly (Ceratitis capitata (Wiedemann)) Vienna 8D53− is based on a male-linked translocation system and uses two selectable markers for male-only production, the white pupae (wp) and the temperature sensitivity lethal (tsl) genes. In this GSS, males emerge from brown pupae and are resistant to high temperatures while females emerge from white pupae, are sensitive to high temperatures. However, double homozygous females (wp tsl/wp tsl) exhibit a slower development rate compared to heterozygous males (wp+tsl+/wp tsl) during the larval stage, which was attributed to the pleiotropic effects of the tsl gene. We present the first evidence that this slower development is due to a different gene, here namely slow development (sd), which is closely linked to the tsl gene. Taking advantage of recombination phenomena between the two loci, we report the isolation of a novel temperature sensitivity lethal strain using the wp mutation as a morphological marker, which showed faster development (wp tsl FD) during the larval stage and increased in its temperature sensitivity compared with the normal tsl strain. Moreover, the introgression of this novel wp tsl FD combined trait into the Vienna 8D53− GSS, resulted in a novel Vienna 8D53− FD GSS, where females showed differences in the thermal sensibility, larval development speed, and productivity profiles. The modification of these traits and their impact on the mass rearing of the GSS for sterile insect technique applications are discussed.

Performance of the Tap-7 Genetic Sexing Strain Used to Control Anastrepha ludens Populations in the Citrus Region of Tamaulipas, Mexico

2019 ◽  
pp. 177-189
Author(s):  
Salvador Flores ◽  
Sergio Campos ◽  
Enoc Gómez ◽  
Rubén Leal Mubarqui ◽  
Jorge Luis Morales-Marin ◽  
...  
Keyword(s):  
Anastrepha Ludens ◽  
Genetic Sexing ◽  
Genetic Sexing Strain

scholarly journals Development and characterization of a pupal-colour based genetic sexing strain of Anastrepha fraterculus sp. 1 (Diptera: Tephritidae)

BMC Genetics ◽  
2020 ◽  
Vol 21 (S2) ◽  
Author(s):  
José S. Meza ◽  
Kostas Bourtzis ◽  
Antigone Zacharopoulou ◽  
Angeliki Gariou-Papalexiou ◽  
Carlos Cáceres
Keyword(s):  
Selectable Marker ◽  
Negative Impact ◽  
Fruit Fly ◽  
Pest Species ◽  
Agricultural Pest ◽  
Sterile Male ◽  
Genetic Sexing ◽  
Anastrepha Fraterculus ◽  
Genetic Sexing Strain ◽  
Genetic Sexing Strains

Abstract Background Area-wide integrated pest management programs (AW-IPM) incorporating sterile insect technique (SIT) have been successful in suppressing populations of different fruit fly species during the last six decades. In addition, the development of genetic sexing strains (GSS) for different fruit fly species has allowed for sterile male-only releases and has significantly improved the efficacy and cost effectiveness of the SIT applications. The South American Fruit Fly Anastrepha fraterculus (Diptera: Tephritidae) is a major agricultural pest attacking several fruit commodities. This impedes international trade and has a significant negative impact on the local economies. Given the importance of sterile male-only releases, the development of a GSS for A. fraterculus would facilitate the implementation of an efficient and cost-effective SIT operational program against this insect pest species. Results For potential use in a GSS, three new morphological markers (mutants) were isolated in a laboratory strain of A. fraterculus sp. 1, including the black pupae (bp) gene located on chromosome VI. The black pupa phenotype was used as a selectable marker to develop genetic sexing strains by linking the wild type allele (bp+) to the Y-chromosome -via irradiation to induce a reciprocal Y-autosome translocation. Four GSS were established and one of them, namely GSS-89, showed the best genetic stability and the highest fertility. This strain was selected for further characterization and cytogenetic analysis. Conclusions We herein report the development of the first genetic sexing strain of a major agricultural pest, A. fraterculus sp. 1, using as a selectable marker the black pupae genetic locus.

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