Thermal requirements of Trichogramma pretiosum and T. acacioi (Hym.: Trichogrammatidae), parasitoids of the avocado defoliator Nipteria panacea (Lep.: Geometridae), in eggs of two alternative hosts

Pratissoli, Dirceu; Zanuncio, José Cola; Vianna, Ulysses Rodrigues; Andrade, Josimar Souza; Pinon, Tobias Baruc Moreira; Andrade, Gilberto Santos

doi:10.1590/S1516-89132005000500003

Abstracts

This research studied the thermal requirements of Trichogramma pretiosum and T. acacioi (Hymenoptera: Trichogrammatidae), parasitoids of Nipteria panacea (Lepidoptera: Geometridae), with eggs of the alternative hosts Anagasta kuehniella (Lepidoptera: Pyralidae) and Sitotroga cerealella (Lepidoptera: Gelechiidae) aiming to use these natural enemies in biological control programs of this pest in avocado orchards. T. pretiosum needed 151.83 and 160.04 degree-days, above threshold of 10.70 and 10.75°C, while these values were 158.50 and 155.46 degree-days, above threshold of 10.67 and 10.46°C for T. acacioi when exposed to eggs of A. kuehniella and S. cerealella, respectively.

Avocado; alternative host; biological control; temperature

O objetivo desta pesquisa foi estudar as exigências térmicas de Trichogramma pretiosum e T. acacioi (Hymenoptera: Trichogrammatidae), parasitóides de Nipteria panacea (Lepidoptera: Geometridae), em ovos dos hospedeiros alternativos Anagasta kuehniella (Lepidoptera: Pyralidae) e Sitotroga cerealella (Lepidoptera: Gelechiidae) visando utilizar estes inimigos naturais em programas de controle biológico desta praga em pomares de abacate. T. pretiosum apresentou temperaturas base (Tb) de 10.70 e 10.75°C e constantes térmicas (K) de 151.83 e 160.04 graus-dia, sendo estes valores de 10.67 e 10.46°C e 158.50 e 155.46 graus-dia para T. acacioi em ovos de A. kuehniella e S. cerealella, respectivamente.

AGRICULTURE, AGRIBUSINESS AND BIOTECHNOLOGY

Thermal requirements of Trichogramma pretiosum and T. acacioi (Hym.: Trichogrammatidae), parasitoids of the avocado defoliator Nipteria panacea (Lep.: Geometridae), in eggs of two alternative hosts

Dirceu Pratissoli^I; José Cola ZanuncioII, ^* * Author for correspondence ; Ulysses Rodrigues Vianna^II; Josimar Souza Andrade^III; Tobias Baruc Moreira Pinon^II; Gilberto Santos Andrade^I

^IDepartamento de Fitotecnia; Centro de Ciências Agrárias; Universidade Federal do Espírito Santo; Alegre; 29500-000; ES - Brasil

^IIDepartamento de Biologia Animal/BIOAGRO

^IIIDepartamento de Fitotecnia; Universidade Federal de Viçosa; zanuncio@ufv.br; 36571-000; Viçosa - MG - Brasil

ABSTRACT

This research studied the thermal requirements of Trichogramma pretiosum and T. acacioi (Hymenoptera: Trichogrammatidae), parasitoids of Nipteria panacea (Lepidoptera: Geometridae), with eggs of the alternative hosts Anagasta kuehniella (Lepidoptera: Pyralidae) and Sitotroga cerealella (Lepidoptera: Gelechiidae) aiming to use these natural enemies in biological control programs of this pest in avocado orchards. T. pretiosum needed 151.83 and 160.04 degree-days, above threshold of 10.70 and 10.75°C, while these values were 158.50 and 155.46 degree-days, above threshold of 10.67 and 10.46°C for T. acacioi when exposed to eggs of A. kuehniella and S. cerealella, respectively.

Key words: Avocado, alternative host, biological control, temperature

RESUMO

O objetivo desta pesquisa foi estudar as exigências térmicas de Trichogramma pretiosum e T. acacioi (Hymenoptera: Trichogrammatidae), parasitóides de Nipteria panacea (Lepidoptera: Geometridae), em ovos dos hospedeiros alternativos Anagasta kuehniella (Lepidoptera: Pyralidae) e Sitotroga cerealella (Lepidoptera: Gelechiidae) visando utilizar estes inimigos naturais em programas de controle biológico desta praga em pomares de abacate. T. pretiosum apresentou temperaturas base (Tb) de 10.70 e 10.75°C e constantes térmicas (K) de 151.83 e 160.04 graus-dia, sendo estes valores de 10.67 e 10.46°C e 158.50 e 155.46 graus-dia para T. acacioi em ovos de A. kuehniella e S. cerealella, respectivamente.

INTRODUCTION

The world production of avocado (Persea americana Mill.) is around 1.2 million tons per year. Brazil is the fourth largest producer and its production could increase due to adequate soils and climate conditions (Donadio, 1995). The Highland Region of the State of Espírito Santo presents one of the best areas to produce this fruit in Brazil, which could represent an alternative for Brazilian agriculture diversification. Avocado plantations in this area increased from 100 hectares in 1985 to more than 2,000 hectares in 1995 (Teixeira et al., 1996). Avocado trees present many pest insect species (Donadio, 1995). The expansion of this crop in the State of Espírito Santo and the use of chemical control against pests have contributed to the appearance of the defoliator Nipteria panacea Tierry-Mieg (Lepidoptera: Geometridae), which can reduce leaf area and productivity of avocado trees (Pratissoli et al., 1999). Control of habitual pests and, mainly, this new one, should consider ecological criteria based on association of different control methods (Pratissoli and Parra, 2000), especially the biological control.

This control method has been using egg parasitoids in South Africa and Israel against avocado pests (Donadio, 1995), especially in this last country, with Trichogramma platineri Nagarkatti (Hymenoptera: Trichogrammatidae) from California against two Lepidoptera defoliators of this plant. This group of parasitoid is important because many Trichogramma species are used to control more than 69 key pests of 34 cultures in 32 million hectares of 30 countries (Wajnberg and Hassan, 1994; Parra and Zucchi, 1997; Oliveira et al., 2000). However, the success of biological control with Trichogramma species depends on preliminary surveys because these organisms can be affected by many factors such as host, temperature, architecture and phenology of the plants, searching area, wind and chemical products like insecticides (Goodenough and Witz, 1985).

Temperature is the most important climatic factor affecting insects and also egg parasitoids of the genus Trichogramma, because within certain limits the development rate of these parasitoids increases with temperature (Buttler Junior and Lopez, 1980; Russo and Voegelé, 1982; Calvin et al., 1984; Bleicher and Parra, 1989; Pratissoli, 1995). Besides, thermal requirements of Trichogramma vary with species (Russo and Voegelé, 1982) and hosts used to rear them (Buttler Junior and Lopez, 1980; Goodenough et al., 1983).

The objective of this work was to study thermal requirements of T. pretiosum Riley and T. acacioi Brun, Moraes and Soares, egg parasitoids of N. panacea, in eggs of the alternative hosts Anagasta kuehniella (Zeller) (Lepidoptera: Pyralidae) and Sitotroga cerealella Olivier (Lepidoptera: Gelechiidae) aiming to use these natural enemies in biological control programs of this pest in avocado orchards.

MATERIAL AND METHODS

Experiments were carried out in acclimatized chamber with relative humidity of 70 + 10%, photophase of 14 hours and constant temperatures of 15, 20, 25, 30 and 35 ± 1ºC. Egg parasitoids of the genus Trichogramma were collected in the Municipality of Venda Nova do Imigrante, State of Espírito Santo, Brazil, in eggs of the avocado defoliator N. panacea at altitudes of 800 and 1,000 meters. Some individuals of these populations were sent to Dr. R.A. Zucchi, (Department of Entomology and Zoology of the "Escola Superior de Agricultura Luiz de Queiroz") who identified them as T. pretiosum and T. acacioi. These species were reared in laboratory conditions with eggs of the alternative hosts A. kuehniella and S. cerealella.

Rearing techniques and multiplication of A. kuehniella were based on methodology of Parra (1997) with artificial diet composed by integral wheat and corn flour (97%) besides beer yeast (3%) with adjustments to laboratory conditions. The alternative host S. cerealella was multiplied with a diet based on wheat grain without peel and humidity from 11 to 14%. Two kilograms of wheat grains were infested with one gram of newly laid eggs of these insects free of mites (Hassan, 1997). Adults of parasitoid species were put during one week in cages where they laid eggs and removed after this period.

The experiment started with newly emerged T. acacioi and T. pretiosum females reared with both alternative hosts and individualised in Duran tubes (3.5 x 0.5 cm) sealed with plastic PVC film. Females of two parasitoids were fed with droplets of pure honey deposited in the internal wall of each tube. Each parasitoid female received a 3.5 x 0.5 cm blue colour cardboard with 40 eggs of A. kuehniella collected on the same day when they were offered and agglutinated with 5% Arabic gum diluted in distilled water. All these eggs were previously turned unviable by exposing them to a germicidal lamp during 45 minutes (Parra, 1997). Similar procedure was used with eggs of the alternative host S. cerealella, but without exposition to germicidal light.

Parasitoid females were removed under stereoscopic microscope after 24 h of contact with host eggs into the tubes. These tubes (containing a cardboard with parasitized eggs) were maintained in acclimatized chambers to evaluate parasitism rate. Daily observations were made to register the development time of T. pretiosum and T. acacioi. Inferior thermal threshold (Tb) (expressed in degree Celsius) and thermal constant (K) (expressed in degree-days) were calculated with the hyperbole method (Haddad and Parra, 1984) based on development time of these parasitoids at temperatures of 15, 20, 25, 30 and 35ºC. The period from egg to adult emergence was obtained as function of development rate at constant temperatures (15, 20, 25, 30 and 35ºC) which allowed to determine the inferior thermal development limit (Tb) and the thermal constant (K) for T. pretiosum and T. acacioi in eggs of the hosts A. kuehniella and S. cerealella.

RESULTS AND DISCUSSION

T. pretiosum needed 151.83 degree-days, above threshold of 10.70°C, when exposed to eggs of the alternative host A. kuehniella. This temperature (Tb) increased by 0.05°C and reached 10.75°C when the thermal constant reached 160.04 degree-days for this parasitoid with eggs of S. cerealella. T. acacioi needs 155.46 and 158.50 degree-days, above thresholds of 10.46 and 10.67°C with eggs of A. kuehniella and S. cerealella, respectively (Figs 1, 2). The temperature (Tb) and the different thermal constants for the hosts were reported for other parasitoid species (Russo and Voegelé, 1982; Bleicher and Parra, 1989; Pratissoli and Parra, 2000). This variation could be affected by the thermal requirement of the analyzed host (Parra et al., 1991; Pratissoli and Parra, 2000). The results of thermal requirements of these parasitoids were not compared with those of N. panacea because no report for this host reared under different temperatures was available.

The determination coefficient (R²) for the threshold (Tb) and thermal constant (K) of T. pretiosum with eggs of the alternative hosts A. kuehniella and S. cerealella were 98.12 and 96.03%, respectively. T. acacioi presented determination coefficient (R²) of 97.95 and 95.69%, respectively, in eggs of A. kuehniella and S. cerealella (Figs 1, 2). Determination coefficient for thresholds and thermal constants of T. pretiosum and T. acacioi with eggs of A. kuehniella and S. cerealella were higher than 95% what was considered satisfactory to assure a good reliability of the results (P<0.05).

These two parasitoids presented lower threshold with A. kuehniella than with S. cerealella but an inverse relation for the thermal constant was found with both hosts. This could be associated to the process of host acceptance, which could be affected by factors such as size, format, texture, presence of chemical substances and nutritional quality of host eggs (Pratissoli, 1995; Gomes, 1997; Vinson, 1997; Pratissoli et al., 2003). This could also vary with lineages of these parasitoids because T. pretiosum presented fecundity and longevity 14.94 and 4.4 times higher in eggs of the alternative host A. kuehniella than with those of S. cerealella (Parra, 1997). The size of host egg is also important for its acceptance because eggs of different hosts such as those of Corcyra cephalonica Staiton (Lepidoptera: Pyralidae) and A. kuehniella present similar biological characteristics but different sizes (Vinson, 1997). However, eggs of extremely reduced size such as those of S. cerealella were inadequate for mass rearing some parasitoids species including T. galloi Zucchi and T. pretiosum (Gomes, 1997).

The threshold (Tb) and thermal constant (K) of T. pretiosum and T. acacioi found in our study were similar to those reported for different species and/or lineage of Trichogramma (Table 1). The thermal constant, which was based in the duration of the development period of these parasitoids under different temperatures from an inferior thermal threshold (Tb) presented higher values than that of most species of this group reported in the literature (Table 1).

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Different values for thresholds and thermal constants of Trichogramma species (Figs 1, 2 and Table 1) with the alternative hosts A. kuehniella and S. cerealella could be related to factors such as variation on their searching behaviour, host preference and impact of environmental conditions on species and/or lineage of Trichogramma (Hassan, 1997). Thus, the determination of thermal requirements was important for quality control in rearing egg parasitoids for biological control programs. These requirements could be obtained with studies on biological characteristics of these parasitoids at different temperatures, which could help to plan their mass production (Hassan, 1997; Parra, 1997; Vinson, 1997; Pratissoli et al., 1998; Pratissoli and Parra, 2000).

Species and/or lineage and rearing methodologies of the host affect thermal requirements of Trichogramma species. For this reason, it is important to develop researches aiming to obtain alternative hosts with similar characteristics as those of the pest to be controlled. This is necessary to allow the parasitoid to express its full potential for biological control in field conditions.

ACKNOWLEDGEMENTS

We thank the "Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)", "Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)", and "Fundação de Amparo à Pesquisa do Estado de Minas Gerais (FAPEMIG)" for grants and scholarships.

Received: August 27, 2003

Revised: June 28, 2004

Accepted: March 08, 2005

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Bowen, W. R. and Stern, V. M. (1966), Effect of temperature on the production of males and sexual mosaics in a uniparental race of Trichogramma semifumatum (Hymenoptera: Trichogrammatidae). Annals of the Entomological Society of America, 59, 823-834.
Buttler Junior, G. D. and Lopez, J. D. (1980), Trichogramma pretiosum: Development in two hosts in relation to constant and fluctuating temperatures. Annals of the Entomological Society of America, 73, 671-673.
Calvin, D. D.; Knapp, M. C.; Welchm, S. M.; Poston, F. L. and Elzinga, R. J. (1984), Impact of environmental factors on Trichogramma pretiosum reared on Southwestern corn borer eggs. Environmental Entomology, 13, 774-780.
Donadio. L. C. (1995), Abacate para exportação: aspectos técnicos da produção Frupex. 2^nd ed. Brasilia DF.
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*

Author for correspondence

Publication Dates

Publication in this collection
14 Sept 2005
Date of issue
July 2005

History

Accepted
08 Mar 2005
Reviewed
2004
Received
27 Aug 2003

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Bleicher, E. and Parra, J. R. P. (1989), Espécies de Trichogramma parasitóides de Alabama argillacea I. Biologia de três populações. Pesquisa Agropecuária Brasileira, 24, 929-940.

[2] Bowen, W. R. and Stern, V. M. (1966), Effect of temperature on the production of males and sexual mosaics in a uniparental race of Trichogramma semifumatum (Hymenoptera: Trichogrammatidae). Annals of the Entomological Society of America, 59, 823-834.

[3] Buttler Junior, G. D. and Lopez, J. D. (1980), Trichogramma pretiosum: Development in two hosts in relation to constant and fluctuating temperatures. Annals of the Entomological Society of America, 73, 671-673.

[4] Calvin, D. D.; Knapp, M. C.; Welchm, S. M.; Poston, F. L. and Elzinga, R. J. (1984), Impact of environmental factors on Trichogramma pretiosum reared on Southwestern corn borer eggs. Environmental Entomology, 13, 774-780.

[5] Donadio. L. C. (1995), Abacate para exportação: aspectos técnicos da produção Frupex. 2^nd ed. Brasilia DF.

[6] Gomes, S. M. (1997), Comparação de três hospedeiros alternativos para criação e produção massal de Trichogramma pretiosum Riley (1879) e Trichogramma galloi Zucchi (1988). Dissertação de Mestrado, Escola Superior de Agricultura "Luiz de Queiroz", Piracicaba - SP, Brasil.

[7] Goodenough, J. L. and Witz, J. A. (1985), Modeling augmentative releases of Trichogramma pretiosum. The Southwestern Entomologist, 8, 169-189.

[8] Goodenough, J. L.; Harstack, A. W. and King, E. G. (1983), Developmental models of Trichogramma pretiosum (Hymenoptera: Trichogrammatidae) reared on four hosts. Journal of Economic Entomology, 76, 1095-1102.

[9] Haddad, M. L. and Parra, J. R. P. (1984), Métodos para estimar os limites térmicos e a faixa ótima de desenvolvimento das diferentes fases do ciclo evolutivo de insetos. Piracicaba : FEALQ. 12 pp.

[10] Hassan, S. A. (1997), Seleção de espécies de Trichogramma para o uso em programas de controle biológico. In: Parra, J. R. P. and Zucchi, R. A. Trichogramma e o controle biológico Piracicaba : FEALQ. pp. 183-205.

[11] Oliveira, H. N.; Zanuncio, J. C.; Pratissoli, D. and Cruz, I. (2000), Parasitism rate and viability of Trichogramma maxacalii (Hym.: Trichogrammatidae) parasitoid of the Eucalyptus defoliator Euselasia apison (Lep.: Riodinidae), on eggs of Anagasta kuehniella (Lep.: Pyralidae). Forest Ecology and Management, 130, 1-6.

[12] Orphanides, G. M. and Gonzalez, D. (1971), Fertility and life table studies with Trichogramma pretiosum and T. retorridum (Hymenoptera: Trichogrammatidae). Annals of the Entomological Society of America, 64, 824-834.

[13] Parra, J. R. P. (1997), Técnicas de criação de Anagasta kuehniella, hospedeiro alternativo para produção de Trichogramma In: Parra, J. R. P. and Zucchi, R. A. Trichogramma e o controle biológico Piracicaba : FEALQ. pp. 121-150.

[14] Parra, J. R. P.; Zucchi, R.A. (1997), Trichogramma e o controle biológico Piracicaba : FEALQ. 324 pp.

[15] Parra, J. R. P.; Zucchi, R. A.; Silveira Neto, S. and Haddad, M. L. (1991), Biology, thermal requirements of Trichogramma galloi Zucchi and T. distinctum Zucchi, on two alternative hosts. Les Colloques de I'NRA, 56, 81-84.

[16] Pratissoli, D. (1995), Bioecologia de Trichogramma pretiosum Riley, 1879, nas traças Scrobipalpuloides absoluta (Meyrick, 1917) e Phthorimaea operculella (Zeller, 1873), em tomateiro. Tese de Doutorado, Escola Superior de Agricultura "Luiz de Queiroz", Piracicaba - SP.

[17] Pratissoli, D. and Parra, J. R. P. (2000), Desenvolvimento e exigências térmicas de Trichogramma pretiosum Riley, criado em duas traças do tomateiro. Pesquisa Agropecuária Brasileira, 35, 1281-1288.

[18] Pratissoli, D.; Fornazier, M. J. and Zanuncio, J. C. (1999), Geometrídeo desfolhador de abacateiro no Estado do Espírito Santo. Anais da Sociedade Entomológica do Brasil, 28, 745-747.

[19] Pratissoli, D.; Vianna, U. R.; Oliveira, H. N. and Pereira, F. F. (2003), Efeito do armazenamento de ovos de Anagasta kuehniella (Lep.: Pyralidae) nas características biológicas de três espécies de Trichogramma (Hym.: Trichogrammatidae). Revista Ceres, 50, 95-105.

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