SciELO - Scientific Electronic Library Online

 
vol.46 número4Is sexually transmitted fungal infection evidence for size-related mating success in Neotropical guava fruit flies?Nest architecture of group-living wasps Microstigmus (Hymenoptera: Sphecidae): role of the pedicel as a defense against ants índice de autoresíndice de materiabúsqueda de artículos
Home Pagelista alfabética de revistas  

Servicios Personalizados

Revista

Articulo

Indicadores

Links relacionados

Compartir


Revista de Biología Tropical

versión On-line ISSN 0034-7744versión impresa ISSN 0034-7744

Rev. biol. trop vol.46 no.4 San José dic. 1998

 

Interspecific competition between Metagonystilum minense (Diptera:
Tachinidae) and Cotesia flavipes (Hymenotera: Braconidae) parasitoids
of sugarcane borers (Diatraea spp., Lepidoptera:Pyralidae)
 
 
 Enrique H. Weir L. 1    Luis Sagarzazu 2
 
Received 11-V-1998. Corrected 7-IX-1998. Accepted 2-X-1998.

 Abstract

We evaluated the effect of interspecific competition between M. minense and C. flavipes larvae on survival in both species and on the growth of M. minense. Interspecific competition was evaluated by the inoculation of M. minense larvae (1 or 2 per host larvae: D. sacharalis) 1 to 5 days before or 3 to 8 days after the inoculation of C. flavipes eggs (one inoculation = 45 - 50 eggs). All experiments were done with ten replicas. We found a significant effect of interspecific competition on larval and pupal survival in both parasitoids and body weight in M. minense. M. minense dominated over C. flavipes, except when M. minense was inoculated 5 or more days after C. flavipes.
 

Key words

Metagonystilum minense, Cotesia flavipes, parasitoids, Diatraea, sugarcane
 

Parasitoid insects are the most effective facultative agents in the regulation of insect pests population in agroecosystems. This is attributable to the nature of the parasitoid, which has an obligatory lifeform association with a host insect, which is the only food source of the larval stage of the parasitoid (May and Hassell 1988, Begon et al. 1996).

This obligatory dependence can generate intra or interspecific competition when the number of parasitoids per host reduces the availability of food and thus affects the survival, fecundity, growth and development of one or both parasitoids as well as the host species (Vinson and Iwantsch 1980, Taylor 1988 a, b, Begon et al. 1996).

In this work we evaluate the effect of interspecific competition between the amazonian fly Metagonystilum minense Myers (Diptera:Tachinidae) and the wasp Cotesia flavipes Cameron (Hymenoptera:Braconidae), parasitoids of the sugarcane borer, Diatraea saccharalis Fabricius (Lepidotera: Pyralidae), and other species of Diatraea in sugarcane crops in Venezuela. Interspecific competition effects on larval weight and larval mortality has been studied by Pschorn-Walcher (1971) between the tachinid flies M. minense, Paratheresia claripalpis and Lixophaga diatreae.

In Venezuela, M. minense is the main biological control of some species of the genus Diatraea. This parasitoid has been produced under laboratory conditions since 1953 (Box 1956). The wasp C. flavipes is an alternative biological control agent of the amazonian fly of Diatraea in sugarcane (Ferrer et al. 1990). It has been produced under laboratory conditions in Venezuela since 1987, while its commercial production began in 1989 (Ferrer et al. 1990, Micale 1995). D. saccharalis is the main pest of sugarcane crops in Venezuela; but since 1953 it has been controlled by M. minense (Box 1956).
 

Materials and Methods

This study was done at the Entomology Laboratory of The Santa Teresa Farm, El Consejo, Aragua State, Venezuela, from 1992 to 1995 at 28 ° C, 12 hours of illumination and 70-80 % RH. Population samples of the two parasitoid species and the host were selected from populations reared in the Entomology Laboratory.

One hundred larvae of D. saccharalis were reared on corn ears in 3.7 liter glass boxes. When they pupated were placed in groups of up to 50 in 30 x 50 cm. cylindrical cages covered with a plastic screen. The inner surface of the walls were covered with wax paper for oviposition and the bottom was covered with filter paper. After five days, the wax paper containing the eggs was removed. Sections of this wax paper were placed in petri plates and were sprayed with water. When the larvae emerged they were placed in a 3.7 liter glass box to continue the rearing. Diatraea larvae of ten to thirteen days old were inoculated with larvae of Metagonystylum minense or Cotesia flavipes.

For the inoculation with M. minense, a gravid female fly was placed under a dissecting microscope and dissected in a petri dish containing a physiological solution. With the help of a fine brush one or two parasitoid larvae were transferred to the dorsum of each Diatraea. The parasitized hosts were placed in vials with a corn diet, one per vial. For the inoculation with C. flavipes, a gravid female wasp was placed with the host in a 3.7 liter glass box until she oviposited in one larvae. Each oviposition contained 45 to 50 wasp eggs.

For the competition experiments, both inoculation processes were done. A set of experiments where eggs of wasps were oviposited one to five days after inoculation of the fly larvae. A set of experiments where fly larvae were inoculated three to eight days after oviposition by the wasp. Each experiment were done with ten replicas. After each inoculation, the host was placed in a vial with corn diet, one per vial. When the parasitoids emerged, changes in pupal weight, number of pupae and pupal survival in M. minense, and number of pupae and pupal survival in C.flavipes, were recorded.

We evaluated the normality of variance by Kolmogorov-Smirnov test, and the variance homogeneity by Scheffe-Box test. The effects of interspecific competition were evaluated by parametric variance analysis.
 

Results

The results of the effects of interspecific competition were evaluated by parametric variance analysis with the following factors: inoculation time (days) of C. flavipes eggs after M. minense larvae or M. minense larvae after C. flavipes eggs, age of Diatraea host larvae, and number of larvae of M. minense inoculated per host.

A covariance analysis showed a significant relationship between changes in M. minense pupal emergence rate with changes in C. flavipes pupal emergence rate (F=65.99, a = 0.0001). When the inoculation time of C. flavipes increased from one to five days, a significant increase in the pupal emergence rate (F=65.99, a = 0.0001), pupal survival rate (F=31.21, a = 0.0001) and pupal weight (F=89.67, a = 0.0001) of M. minense is observed with a decrease in the pupal emergence rate and pupal survival rate (F=65.99, a = 0.002) of C. flavipes (Fig. 1). The intensity of all these effects was greater when we inoculated two larvae of the fly per host. A significant increase in the pupal emergence rate (F=2.54, a = 0.038) and pupal weight (F=18.32, a = 0.0001) of M.minense with an increase in age of the larval host, except in experiments with thirteen day old larvae is
observed.
 

 
 

The wasp won only when fly larvae were inoculated five or more days later than the wasp (Fig.1). With this timing, there was a significant decrease in rate of pupal emergence of M.minense (F=19.895, a = 0.0001) but an increase for that of C. flavipes (F=3.218, a = 0.007). These effects are independent of the age of the larval host or number of M. minense larvae inoculated per host. The changes in pupal survival rate of M. minense are not significant. However, a decrease with respect to inoculation time is observed (Fig. 1)

Pupal weight in the fly (F=6.82, a = 0.005) and the pupal survival rate of the wasp (F=11.49, a = 0.0008) decreases with the number of M. minense larvae inoculated per host. With respect to the age of host larvae, no changes for any parameters were noted.
 

Discussion

The existence of interspecific competition between the amazonian fly M. minense and the wasp C. flavipes, produced by the reduction in food availability is evident. This competition produces a decrease in larval and pupal survival rates, in both parasitoids, and in body weight in the amazonian fly. Generally the fly dominated over the wasp, except in cases when the larval inoculation time of M. minense was five or more days after oviposition by C.flavipes.

The fly might have had a competitive advantage over the wasp because of a shorter developmental time. Pschorn-Walcher (1971) observed this effect in competition experiments between M. minense, Paratheresia claripalpis and Lixophaga diatreae; where P. claripalpis and L. diatreae dominated over M. minense due to shorter developmental time. Gaviria (1974) reported that the Peruvian race of Paratheresia claripalpis had a competitive advantage over the colombian race because a shorter developmental time.

A litter of 40 to 60 eggs per host of C. flavipes (Brewer and King 1980, Ferrer 1987, Overholt and Smith 1990) versus one to four larvae per host in M. minense (Box 1956, Pschorn-Walcher 1979, Ferrer 1987) may constitute an advantage for the wasp in farm areas, although the higher egg and larval mortality reduced this advantage.

 
Acknowledgements

This research was supported by the Entomology Laboratory of Santa Teresa Farm. We thank Roque Morejon and Williams Contreras for their assistance in this study and Clark Casler for reviewing and improving this manuscript.
 

Resumen

Evaluamos el efecto de la competencia interespecífica entre larvas de M. minense y C. flavipes en la supervivencia de la progenie de ambas especies y en el crecimiento de M. minense. La competencia interespecífica fue evaluada mediante la inoculación de larvas de M. minense (1 o 2 por larva del hospedador: D. saccharalis) 1 a 5 días antes o 3 a 8 días después de la inoculación de huevos de C. flavipes (una inoculación = 45 a 50 huevos). Se hicieron diez repeticiones de todos los experimentos. Encontramos un efecto significativo de competencia en la supervivencia larval y pupal en ambas especies parasitoides y en el peso corporal de M. minense. M. minense predominó sobre C. flavipes, excepto cuando M. minense fue inoculado 5 o mas días después de C. flavipes.
 

References

Begon, M., J. L. Harper & C. R. Townsend. 1996. 3erd. ed. Ecology: Individual, Populations and Communities. Blackwell Scientific, Oxford, England.         [ Links ]

Box, H. 1956. The biological control of moth-borers (Diatraea) in Venezuela. Battle against Venezuela's cane borer. Preliminary investigations and the launching of a general campaign. Sugar. May: 25-30.         [ Links ]

Brewer, F. D. & E. G. King, 1980. Food consumption and utilization by sugarcane borers parasitized by Apanteles flavipes. J. Georgia Ento. Soc. 16: 185-192.         [ Links ]

Ferrer, F. 1987. Algunas consideraciones en la producción comercial de nuevos controladores biológicos. I Jornadas Técnicas Manejo Integrado de Plagas en Caña de Azúcar. Acarigua. Venezuela: 1-9.         [ Links ]

Ferrer, F. , E. Guedez & L. Proano. 1990. El efecto del control biológico de Cotesia flavipes (Hym: Brachonidae) sobre Diatraea spp. (Lep: Pyralidae) en el área de influencia de la azucarera Río Turbio, durante los años 1986-1990. III Congreso Sociedad Colombiana de Técnicos de la Caña de Azúcar: 1- 10.         [ Links ]

Gaviria, M. J. D. 1974. Control Biológico del Diatraea saccharalis Fabr. en el Ingenio Riopaila Ltda. Memorias. II Congreso de la Sociedad Colombiana de Entomología: 113-144         [ Links ]

May, R. M. & M. P. Hassell. 1988. Population dynamic sand biological control. Philosophical. Trans. Roy. Soc. London.B 318:129-169.         [ Links ]

Micale, E. 1995. Programa de manejo integrado de los insectos plagas de la caña de azúcar. XIV Congreso Venezolano de Entomología. Barquisimeto. p: 1-28.         [ Links ]

Overholt, W. A. & J. W. Smith, Jr. 1990. Comparative evaluation of three exotic insect parasites (Hymenoptera : Braconidae) against the southwestern corn borer (Lepidoptera: Pyralidae) in corn. Environ. Ento. 19 : 1155-62         [ Links ]

Pschorn-Walcher, H. 1971. Experiments on inter-specific competition between three tachinids attacking the sugar cane moth borer Diatraea saccharalis F. Entomophaga 16: 125-131.         [ Links ]

Pschorn-Walcher, H. 1979. Intra-spezifische Konkurrenz bei Raupenfliegen (Dipt.: Tachinidae) des gemeinen Zuckerrohrbohrers, Diatraea saccharalis F. (Lep.: Pyralidae). Z. ang. Ent. 88: 403-414.         [ Links ]

Taylor, A. 1988a. Host effects on larval competition in gregarious parasitoid Bracon hebetor. J. Anim. Ecol. 57: 163- 172.         [ Links ]

Taylor, A. 1988b. Host effects on functional and ovipositional responses of Bracon hebetor. J. Anim. Ecol. 57: 173- 184.         [ Links ]

Vinson, S. B. & G. F. Iwatsch. 1980. Host suitability for insect parasitoids. Ann. Rev. Ento. 25: 397-419.         [ Links ]

1 Universidad del Zulia, Facultad Experimental de Ciencias, Departamento de Biología, Apartado 526,Maracaibo 4001A, Venezuela. Fax 5861-529432. email: eweir@solidos.ciens.luz.ve

2 Universidad Catolica Andres Bello, Escuela de Educación, Departamento de Biología, Caracas, Venezuela

Creative Commons License Todo el contenido de esta revista, excepto dónde está identificado, está bajo una Licencia Creative Commons