Study highlights mass rearing capabilities of an important natural enemy to fight brown marmorated stink bug pest

Newswise — A study involving scientists from the Chinese Ministry of Agriculture and Rural Affairs (MARA)-CABI Joint Laboratory (Joint Lab) has highlighted the mass rearing capabilities of a natural enemy to fight the brown marbled stink bug pest.

Dr Feng Zhang, CABI’s Regional Director, East & South-East Asia, led research which shows how the solitary egg endoparasitoid Anastatus japonicus Ashmead (Hymenoptera: Eupelmidae) can be produced efficiently to tackle the brown marbled stink bug Halyomorpha halys Stål (Hemiptera: Pentatomidae ) in China.

He, and colleagues from the Joint Lab as well as from the University of California, the Guangdong Academy of Agricultural Sciences, the Sun Yat-Sen University, and the Hexi University, believe that mass rearing of the wasp could achieve long-term sustainable management of the brown marbled stink bug on important economic crops such as kiwifruit.

The brown marbled stink bug is a polyphagous pest native to East Asia and invasive in the United States, Canada, Europe, and Chile. It can cause significant damage to many important crops in both its native and invaded ranges.

Occasional outbreaks have been reported in kiwifruit orchards in China. Losses of approximately 30% in kiwifruit production, for example, have been reported in some orchards in Italy. In 2016, the brown marbled stink bug caused US $60m worth of damage to Georgia’s hazelnut crop and in 2010, US $37m worth of apples were destroyed in parts of the USA.

Chemical control with broad-spectrum insecticides have been broadly used to control the brown marbled stink bug in conventional farming systems. This is despite harm to human health and the environment.

The study, published in the journal Pest Management Science, states that biological control programs with indigenous or introduced parasitoids have been initiated to explore more environmentally friendly, sustainable methods for brown marbled stink bug control.

Dr Zhang said, “Our present study is the first important step towards the successful use of A. japonicus. We assessed the reproductive attributes of A. japonicus reared on the factitious host Antheraea pernyi (Guérin-Méneville) (Lepidoptera: Anthelidae) – particularly adult longevity and both age specific and lifetime fecundity.

“We also evaluated the age-specific functional response of individual A. japonicus females to varying densities of A. pernyi, as well as their response to conspecific females (ie, mutual interference) in terms of progeny production and progeny sex ratio.

“We found that higher lifetime fecundity, longer oviposition period and female-biased progeny production in the beginning of production not only make the rearing system of A. pernyi – A. japonicus more cost effective but also make it feasible to use A. japonicus for inundative biological control against the brown marbled stink bug.”

In conclusion, the scientists suggest that large-scale and cost-effective A. pernyi-based mass rearing and field release testing are needed to evaluate field efficacy and non-target effects before recommending the use of mass releases of A. japonicus for control of the brown marbled stink bug to growers.

additional information

main image: Anastatus japonicus Ashmead (Hymenoptera: Eupelmidae) attacking factitious host eggs (Credit: Jin-Ping Zhang).

Full paper reference

Mi Q-Q, Zhang J-P, Ali MY, Zhong Y-Z, Mills NJ, Li D-S, Lei Y-M and Zhang, F. (2022), ‘Reproductive attributes and functional response of Anastatus japonicus on eggs of Antheraea pernyi, a factitious host.’ Pest Management Sci.

The paper can be read in full open access here:


This research was funded by China’s donation to the CABI Development Fund, Gansu Provincial Department of Education Industry Support Program (2021CYZC-53), and CABI Development Fund. The authors thank Lingfei Peng (Fujian Agriculture and Forestry University, China) for identification of the parasitoid. CABI is an international intergovernmental organization and the authors gratefully acknowledge the core financial support from the member countries (and lead agencies) including the United Kingdom (Foreign, Commonwealth & Development Office), China (Chinese Ministry of Agriculture and Rural Affairs), Australia ( Australian Center for International Agricultural Research), Canada (Agriculture and Agri-Food Canada), the Netherlands (Directorate-General for International Cooperation), and Switzerland (Swiss Agency for Development and Cooperation). See for full details.

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