Abstract
Mass production and release of trichogrammatids is emerging as a popular biocontrol practice in India, keeping pace with the significant progress in national R&D in biocontrol, backed by policy support in favour of eco-friendly pest control technologies. While Trichogramma releases are generally regarded as ecologically benign, ethical and environmental considerations call for proactive assessment of potential risks to nontarget organisms in the context of safety to beneficial insects and conservation of agro-biodiversity. Trichogramma is among the model group of biocontrol agents being currently researched upon globally for environmental risk assessment.
The global scenario on the guidelines and methodologies being developed and adopted in such risk assessment studies is summarised, along with selective illustration of the recent results of this research theme in the different aspects. While the major concern has been on the potential and actual risks of species introduced from elsewhere for classical biocontrol, some attention is also given to native species/strains being inundatively released in agroecosystems, as risk to native biodiversity conservation. In India, this theme is just beginning to be recognised. The scope for developing ecologically sound and socially acceptable principles and guidelines for such nontarget studies relevant to the Indian situation is discussed.
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References
Andow DA, Lane CP, Olson DM (1995) Use of Trichogramma in maize – estimating environmental risks. In: Lynch JM, Hokkanen HH (eds) Benefits and risks of introducing biocontrol agents. Cambridge University Press, New York, pp 101–118
Babendreier D, Bigler F (2005) How to assess non-target effects of polyphagous biological control agents: Trichogramma brassicae as a case study. In: Second international symposium on biological control of arthropods, Davos, 12–16 November 2005, pp 603–610
Babendreier D, Kuske S, Bigler F (2003a) Overwintering of the egg parasitoid Trichogramma brassicae in Northern Switzerland. Biol Control 48:261–273
Babendreier D, Kuske S, Bigler F (2003b) Non-target host acceptance and parasitism by Trichogramma brassicae Bezdenko (Hymenoptera: Trichogrammatidae) in the laboratory. Biol Control 26:128–138
Babendreier D, Kuske S, Bigler F (2003c) Parasitism of non-target butterflies by Trichogramma brassicae Bezdenko (Hymenoptera: Trichogrammatidae) under field cage and field conditions. Biol Control 26:139–145
Babendreier D, Schoch D, Kuske S, Dorn S, Bigler F (2003d) Non-target habitat exploitation by Trichogramma brassicae (Hym.: Trichogrammatidae): what are the risks for endemic butterflies? Agric For Entomol 5:199–208
Babendreier D, Rostas M, Höfte MCJ, Kuske S, Bigler F (2003e) Effects of mass releases of Trichogramma brassicae on predatory insects in maize. Entomologia Experimentalis at Applicata 108:115–124
Babendreier D, Bigler F, Kuhlmann U (2005) Methods used to assess non-target effects of invertebrate biological control agents of insect pests. Biol Control 50:821–870
Bigler F, Babendreier D, Kuhlmann U (2006) Environmental impact of invertebrates in biological control of arthropods: methods and risk assessment. CAB International, Wallingford
Bigler F, Babendreier D, Van Lenteren JC (2010) Risk assessment and non-target effects of egg parasitoids in biological control. In: Consoli FL, Parra JRP, Zucchi RA (eds) Progress in biological control, vol 9, Egg parasitoids in agroecosystems with emphasis on Trichogramma. Springer, London/New York, pp 413–442, 473pp
Boivin G, Kölliker-Ott UM, Bale JS, Bigler F (2006) Assessing the establishment potential of inundative biological control agents. In: Bigler F, Babendreier D, Kuhlmann U (eds) Environmental impact of invertebrates for biological control of arthropods: methods and risk assessment. CAB International, Wallingford, pp 98–113
Chapman AV, Kuha TP, Schultz PB, Brewster CC (2009) Dispersal of Trichogramma ostriniae (Hymenoptera: Trichogrammatidae) in potato fields. Environ Entomol 38(3):677–685
Hassan SA (1993) The mass rearing and the utilization of Trichogramma to control lepidopterous pests: achievements and outlook. Pesticid Sci 37:387–391
Hopper KR, Britsch SC, Wajnberg E (2006) Interbreeding between species used in biological control and native species and methods for evaluating its occurrence and impact. In: Bigler F, Babendreier D, Kuhlmann U (eds) Environmental impact of invertebrates for biological control of arthropods: methods and risk assessment. CAB International, Wallingford, pp 78–97
Kuske S (2011) Non-target effects of mass releasing Trichogramma brassicae for biocontrol of European corn borer. D.Sc. thesis, Swiss Federal Research Institute, Zurich, 71pp
Kuske S, Widmer F, Edwards PJ, Turlings TCJ, Babendreier D, Bigler F (2003) Dispersal and persistence of mass released Trichogramma brassicae (Hymenoptera: Trichogrammatidae) in non-target habitats. Biol Control 27:181–193
Kuske S, Babendreier D, Edwards PJ, Turlings TCJ, Bigler F (2004) Parasitism of non-target Lepidoptera by mass released Trichogramma brassicae and its implication for the larval parasitoid Lydella thompsoni. Biol Control 49:1–19
Losey JE, Hufbauer RA, Hartzler RG (2003) Enumerating lepidopteran species associated with maize as a first step in risk assessment in the USA. Environ Biosafety Res 2(4):247–261
Lynch LD, Ives AR, Waage JK, Hochberg ME, Thomas MB (2002) The risks of biocontrol: transient impacts and minimum non-target densities. Ecol Appl 12:1872–1882
Mansfield S, Mills NJ (2002) Host egg characteristics, physiological host range and parasitism following inundative releases of Trichogramma platneri in walnut orchards. Environ Entomol 31(4):723–731
Mansfield S, Mills NJ (2004) A comparison of methodologies for the assessment of host preference of the gregarious egg parasitoid Trichogramma platneri. Biol Control 29:332–340
Messing R, Roitberg B, Brodeur J (2006) Measuring and predicting indirect impacts of biological control: competition, displacement, and secondary interactions. In: Bigler F, Babendreier D, Kuhlmann U (eds) Environmental impact of invertebrates for biological control of arthropods: methods and risk assessment. CAB International, Wallingford, pp 64–77
Mills NJ, Babendreier D, Loomans AJM (2006) Methods for monitoring the dispersal of natural enemies from point source releases associated with augmentative biological control. In: Bigler F, Babendreier D, Kuhlmann D (eds) Environmental impact of invertebrates for biological control of arthropods: methods and risk assessment. CAB International, Wallingford, pp 114–131
OECD (2004) Guidance for information requirements for regulation of invertebrates as biological control agents (IBCAs). OECD, Paris, 19pp
Orr DB, Garcia-Salazar C, Landis DA (2000) Trichogramma nontarget impacts: a method for biological control risk assessment. In: Follett PA, Duan JJ (eds) Nontarget effects of biological control. Kluwer Academic Publishers, Norwell, pp 111–125
Silva IMM, Stouthamer R (1999) Do sympatric Trichogramma species parasitize the pest insect Helicoverpa armigera and the beneficial insect Chrysoperla carnea in different proportions? Entomol Exp Appl 92:101–107
Sithanantham S (2002) Research approaches for non-target risk assessment in biological control of Lepidopteran pests and needs in developing countries. In: Tandon PL, Bhakthavathsalam N (eds) Biocontrol of Lepidopteran pests, proceedings of symposium, Bangalore, July 2002. PDBC/ISBC, Bangalore, pp 225–239
Sithanantham S, Abera TH, Baumgartner J, Hassan SA, Löhr B, Monje JC, Overholt WA, Paul AVN, Wan FH, Zebitz CPW (2001) Egg parasitoids for augmentative biological control of lepidopteran vegetable pests in Africa: research status and needs. Insect Sci Appl 21(3):189–205
Sithanantham S, Zebitz CPW, Monje C, Hassan S, Baumgartner J, Overholt W, Löhr B, Osir E, Nangayo F, Mulugeta N, Ogwang J, Mgoo V, Matoka CM (2002) Collaborative research initiative towards improved understanding and utilization of the native egg parasitoids for biocontrol of Helicoverpa armigera in Eastern Africa. In: Proceedings of the 6th international egg parasitoids symposium, Perugia, 15–18 Sept 2002, p 61
Smith SM (1996) Biological control with Trichogramma: advances, success and potential of their use. Annu Rev Entomol 41:375–406
Thomson MS, Stinner RE (1989) Trichogramma spp. (Hymenoptera: Trichogrammatidae): field hosts and multiple parasitism in North Carolina. J Entomol Sci 24:232–240
Van Driesche RG, Reardon R (2004) Assessing host ranges for parasitoids and predators used for classical biological: a guide to best practice. Forest Health Technology Enterprise Team, Morgantown
Van Lenteren JC, Cock MJW, Hoffmeister TS, Sands DPA (2006) Host specificity in arthropod biological control, methods for testing and interpretation of the data. In: Bigler F, Babendreier D, Kuhlmann U (eds) Environmental impact of invertebrates in biological control of arthropods: methods and risk assessment. CAB International, Wallingford
Yong T-H, Hoffmann MP (2006) Habitat selection by the introduced biological control agent, Trichogramma ostriniae (Hymenoptera: Trichogrammatidae) and implications for non-target effects. Environ Entomol 35(3):725–732
Yong T-H, Pitcher S, Gardner J, Hoffmann MP (2007) Odor specificity testing in the assessment of efficacy and non-target risk for Trichogramma ostriniae (Hymenoptera: Trichogrammatidae). Biocontrol Sci Technol 17(2):135–153
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Sithanantham, S. (2013). Trichogramma: Nontarget Risk Assessment Methodologies and Guidelines. In: Sithanantham, S., Ballal, C., Jalali, S., Bakthavatsalam, N. (eds) Biological Control of Insect Pests Using Egg Parasitoids. Springer, New Delhi. https://doi.org/10.1007/978-81-322-1181-5_10
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DOI: https://doi.org/10.1007/978-81-322-1181-5_10
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