Biological Control May Fail on Pests Applied with High Doses of Insecticides: Effects of Sub-Lethal Concentrations of a Pyrethroid on the Host-Searching Behavior of the Aphid Parasitoid Aphidius colemani (Hymenoptera, Braconidae) on Aphid Pests

The use of synthetic insecticides may cause failures in the biological control of insect pests due to undesired side effects on natural enemies and the rapid evolution of insecticide resistance in agroecosystems. Residues of neurotoxic insecticides can interfere with the recognition of chemical cues used by natural enemies to find pests. We investigated the effects of sub-lethal concentrations of the pyrethroid lambda-cyhalothrin on the interaction between the aphid parasitoid wasp Aphidius colemani and the peach potato aphid Myzus persicae. We studied changes in host-searching and oviposition behavior through laboratory bioassays when susceptible and kdr-resistant aphids are offered to parasitoid females, evaluating the effect of applying insecticides on the interacting species. The patch residence time, exploration, oviposition, and grooming were significantly disturbed when the parasitoids were offered resistant aphids sprayed with sub-lethal doses, but not when the parasitoids were offered susceptible M. persicae exposed to sub-lethal doses. We discuss how the effects of insecticides on parasitism behavior may result in failures of biological control if natural enemy populations are not adequately managed, particularly for the management of insecticide-resistant pest populations. Efforts to introduce biological control in integrated pest management (IPM) programs are also discussed.

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Genetic Diversity in Invasive Populations of Argentine Stem Weevil Associated with Adaptation to Biocontrol

Insects ◽

10.3390/insects11070441 ◽

2020 ◽

Vol 11 (7) ◽

pp. 441 ◽

Cited By ~ 1

Author(s):

Thomas W. R. Harrop ◽

Marissa F. Le Lec ◽

Ruy Jauregui ◽

Shannon E. Taylor ◽

Sarah N. Inwood ◽

...

Keyword(s):

Genetic Diversity ◽

Biological Control ◽

Genetic Variation ◽

New Zealand ◽

Insect Pests ◽

Rapid Evolution ◽

Parasitoid Wasp ◽

Control Agent ◽

Agricultural Landscapes ◽

Effective Population

Modified, agricultural landscapes are susceptible to damage by insect pests. Biological control of pests is typically successful once a control agent has established, but this depends on the agent’s capacity to co-evolve with the host. Theoretical studies have shown that different levels of genetic variation between the host and the control agent will lead to rapid evolution of resistance in the host. Although this has been reported in one instance, the underlying genetics have not been studied. To address this, we measured the genetic variation in New Zealand populations of the pasture pest, Argentine stem weevil (Listronotus bonariensis), which is controlled with declining effectiveness by a parasitoid wasp, Microctonus hyperodae. We constructed a draft reference genome of the weevil, collected samples from a geographical survey of 10 sites around New Zealand, and genotyped them using a modified genotyping-by-sequencing approach. New Zealand populations of Argentine stem weevil have high levels of heterozygosity and low population structure, consistent with a large effective population size and frequent gene flow. This implies that Argentine stem weevils were able to evolve more rapidly than their biocontrol agent, which reproduces asexually. These findings show that monitoring genetic diversity in biocontrol agents and their targets is critical for long-term success of biological control.

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Sublethal effects of organophosphorus insecticide phoxim on patch time allocation and oviposition behavior in a parasitoid wasp Meteorus pulchricornis

Bulletin of Entomological Research ◽

10.1017/s0007485321000614 ◽

2021 ◽

pp. 1-10

Author(s):

Sheng Sheng ◽

Yan Song ◽

Sheraz Ahmad ◽

Jiao Wang ◽

Ying Shao ◽

...

Keyword(s):

Time Allocation ◽

Sublethal Effects ◽

Insect Pests ◽

Oviposition Behavior ◽

Host Density ◽

Parasitoid Wasp ◽

Patch Time Allocation ◽

Meteorus Pulchricornis ◽

Allocation Decisions ◽

Patch Residence Time

Abstract Parasitoid wasps are key agents for controlling insect pests in integrated pest management programs. Although many studies have revealed that the behavior of parasitic wasps can be influenced by insecticides, the strategies of patch time allocation and oviposition have received less attention. In the present study, we forced the endoparasitoid Meteorus pulchricornis to phoxim exposure at the LC30 and tested the foraging behavior within patches with different densities of the host, the larvae of the tobacco cutworm Spodoptera litura. The results showed that phoxim treatment can significantly increase the patch-leaving tendency of female wasps, while host density had no impact. The number of oviposition and the number of previous patch visits also significantly influenced the patch time allocation decisions. The occurrence of oviposition behavior was negatively affected by phoxim exposure; however, progeny production was similar among patches with different host densities. Phoxim exposure shaped the offspring fitness correlates, including longer durations from cocoon to adult wasps, smaller body size, and shorter longevity. The findings of the present study highlight the sublethal effects that reduce the patch residence time and the fitness of parasitoid offspring, suggesting that the application of phoxim in association with M. pulchricornis should be carefully schemed in agroecosystems.

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Improvement on Natural Enemies of Bemisia tabaci (Hemiptera: Aleyrodidae) Using Extracts of Agrimonia pilosa

Journal of Economic Entomology ◽

10.1093/jee/toz074 ◽

2019 ◽

Vol 112 (4) ◽

pp. 1581-1586

Author(s):

Huifang Guo ◽

Yufeng Qu

Keyword(s):

Biological Control ◽

Bemisia Tabaci ◽

Natural Enemies ◽

Insect Pests ◽

Ethanol Extract ◽

Pathogenic Fungi ◽

Melia Azedarach ◽

Encarsia Formosa ◽

Ethanol Extracts ◽

And Control

Abstract Compared with the numerous natural enemies against insect pests that have been identified, the commercialization of natural biological control resources remains very limited. To increase the use of natural enemies for biological control, determining how to improve the low efficacy, slow speed, and high cost of natural enemies is very important. Mediterranean species of The whitefly, Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodoidea), increasingly threatens many crops in China, and control primarily depends on chemical insecticides. Here, the effect of ethanol extracts from two plants, Agrimonia pilosa (Ledeb) (Rosales: Rosaceae) and Melia azedarach (Linn) (Meliaceae: Melia), on predominant natural enemies of B. tabaci was investigated using a leaf dipping or spraying method. The results showed that the ethanol extract of A. pilosa significantly improved the infectivity of the fungus Isaria javanica (Friedrichs & Bally) (Ascomycota: Hypocreales), and the mortality of whiteflies caused by the combination of fungus (105 spores/mL) with the extract of A. pilosa (2 mg/mL dried powder of A. pilosa containing 0.0942 mg/mL total polyphenols) was 81.6%, which was significantly higher than that caused by the fungus only. However, the ethanol extract of M. azedarach had no effect on fungus infectivity. Additionally, insecticide tolerance of the predator Pardosa pseudoannulata was also significantly improved by the extract of A. pilosa. The longevity of the parasitoid Encarsia formosa was not affected by the extracts. These findings indicate that the extract of A. pilosa played a dual role that included improving pathogenic fungi infectivity and insecticidal tolerance of a predator and thus could be a synergist in the biological control of B. tabaci.

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Implementation of biological control

American Journal of Alternative Agriculture ◽

10.1017/s0889189300002265 ◽

1988 ◽

Vol 3 (2-3) ◽

pp. 102-109 ◽

Cited By ~ 10

Author(s):

Joop C. van Lenteren

Keyword(s):

Biological Control ◽

Pest Control ◽

Natural Enemies ◽

Insect Pests ◽

Control Program ◽

Policy Makers ◽

Future Developments ◽

Industry Policy ◽

Chemical Pesticides ◽

Inoculative Biological Control

AbstractThe number of species of insect pests, estimated to be maximally 10,000 worldwide, forms only a small part of the millions of species of plant-eating insects. Chemical pest control is becoming increasingly difficult and objectionable in terms of environmental contamination so that other methods of pest control need to be developed. One of the best alternatives is biological control. Natural and inoculative biological control has already proven successful against a variety of pests over large areas. One is inclined to forget, however, how successful a biological control program has been as soon as the pest problem has been solved. Other types of biological control involving the regular introduction or augmentation of natural enemies are better known, although these have been applied on a much smaller scale; a survey of the present-day application of these latter types of biological control is presented here. Phases in the implementation of biological control are illustrated and needed future developments in research are discussed. The main limitation on the development of biological control is not the research, since natural enemies are easier found and with a much lower investment than new chemical pesticides, but rather the attitudes held by growers and disinterest on the part of industry, policy-makers, and politicians. The first priority for those concerned with the development and application of safer pest control should, therefore, be to change the perceptions that these other groups have of biological control.

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Potential of Predatory Natural Enemies for Biological Control of Sap-Sucking Insect Pests in Paraguay

Japan Agricultural Research Quarterly JARQ ◽

10.6090/jarq.36.31 ◽

2002 ◽

Vol 36 (1) ◽

pp. 31-35 ◽

Cited By ~ 1

Author(s):

Takashi NODA ◽

Yutaka KIMURA ◽

Maria B. R. de LÓPEZ ◽

Mirian T. de EVERT ◽

Carlos PALACIO

Keyword(s):

Biological Control ◽

Natural Enemies ◽

Insect Pests

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Characteristics of successful natural enemies in models of biological control of insect pests

Nature ◽

10.1038/273513a0 ◽

1978 ◽

Vol 273 (5663) ◽

pp. 513-519 ◽

Cited By ~ 217

Author(s):

J. R. Beddington ◽

C. A. Free ◽

J. H. Lawton

Keyword(s):

Biological Control ◽

Natural Enemies ◽

Insect Pests

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Some Concepts on the Ecological Basis of Biological Control of Weeds

The Canadian Entomologist ◽

10.4039/ent94507-5 ◽

1962 ◽

Vol 94 (5) ◽

pp. 507-514 ◽

Cited By ~ 13

Author(s):

C. B. Huffaker

Keyword(s):

Biological Control ◽

Natural Enemies ◽

Natural Enemy ◽

Insect Pests ◽

Natural Scene ◽

Biological Control Of Weeds ◽

Ecological Relationships ◽

Ecological Basis

Contrary to a common conception, employment of biological control of weeds is fundamentally the same as the employment of biological control of insect pests. The goal in each case is not eradication but the reduction of pest populations to non-injurious levels. The ecological relationships which apply in the regulation of any organism by natural enemies in the undisturbed natural scene also apply when we attempt to introduce a natural enemy not already present. While it is true that our work has an economic or applied objective, the pursuit of objectives in biological control in general takes us deeply into fundamental considerations – fundamentals which constitute the broad science of ecology.

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Attract, reward and disrupt: responses of pests and natural enemies to combinations of habitat manipulation and semiochemicals in organic apple

Journal of Pest Science ◽

10.1007/s10340-021-01410-2 ◽

2021 ◽

Author(s):

Joakim Pålsson ◽

Mario Porcel ◽

Teun Dekker ◽

Marco Tasin

Keyword(s):

Biological Control ◽

Natural Enemies ◽

Ecosystem Service ◽

Production Systems ◽

Insect Pests ◽

Mating Behaviour ◽

Generalist Predators ◽

Pest Species ◽

Insect Community ◽

Biological Pest Control

AbstractThe widespread use of pesticides along with the simplification of the landscape has had undesirable effects on agroecosystems, such as the loss of biodiversity and the associated ecosystem service biological control. How current production systems can be remodelled to allow for a re-establishment of biological pest control, while preserving productivity, is a major challenge. Here, we tested whether a combination of tools could augment or synergize biological control of insect pests in apple (Malus domestica), comprised of a tortricid pest complex, a geometrid pest complex and the rosy apple aphid. The tools aimed at disrupting mating behaviour of multiple pest species (multispecies mating disruption, “Disrupt”, MMD), attracting natural enemies (a blend of herbivory-induced volatiles, “Attract”, A), or providing refuge and rewards for a diverse insect community (perennial flower strip, “Reward”, R) over a 3-year period. Suction samples were consistently richer in generalist predators but not in parasitoids when multiple tools including MMD + A + R or MMD + A were employed. In addition, lepidopteran pest levels were significantly lower in these plots than in MMD or MMD + R at the end of the 3-year experiment. This was, however, not reflected in survival of artificially established aphid colonies. Our data indicates that multiple, complementary tools can greatly enhance natural enemy level, but also that long-term implementation is needed to fully realize the augmentatory or synergistic potential of complementary components and restore biological control as an ecosystem service of practical relevance.

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Natural Pest Regulation and Its Compatibility with Other Crop Protection Practices in Smallholder Bean Farming Systems

Biology ◽

10.3390/biology10080805 ◽

2021 ◽

Vol 10 (8) ◽

pp. 805

Author(s):

Baltazar J. Ndakidemi ◽

Ernest R. Mbega ◽

Patrick A. Ndakidemi ◽

Philip C. Stevenson ◽

Steven R. Belmain ◽

...

Keyword(s):

Biological Control ◽

Natural Enemies ◽

Insect Pests ◽

Crop Protection ◽

Sub Saharan Africa ◽

Aphis Fabae ◽

Sources Of Resistance ◽

Resistant Varieties ◽

Natural Pest Regulation ◽

Cultural Tools

Common bean (Phaseolus vulgaris) production and storage are limited by numerous constraints. Insect pests are often the most destructive. However, resource-constrained smallholders in sub-Saharan Africa (SSA) often do little to manage pests. Where farmers do use a control strategy, it typically relies on chemical pesticides, which have adverse effects on the wildlife, crop pollinators, natural enemies, mammals, and the development of resistance by pests. Nature-based solutions —in particular, using biological control agents with sustainable approaches that include biopesticides, resistant varieties, and cultural tools—are alternatives to chemical control. However, significant barriers to their adoption in SSA include a lack of field data and knowledge on the natural enemies of pests, safety, efficacy, the spectrum of activities, the availability and costs of biopesticides, the lack of sources of resistance for different cultivars, and spatial and temporal inconsistencies for cultural methods. Here, we critically review the control options for bean pests, particularly the black bean aphid (Aphis fabae) and pod borers (Maruca vitrata). We identified natural pest regulation as the option with the greatest potential for this farming system. We recommend that farmers adapt to using biological control due to its compatibility with other sustainable approaches, such as cultural tools, resistant varieties, and biopesticides for effective management, especially in SSA.

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Bracon wasps for ecological pest control–a laboratory experiment

PeerJ ◽

10.7717/peerj.11540 ◽

2021 ◽

Vol 9 ◽

pp. e11540

Author(s):

Jessica Lettmann ◽

Karsten Mody ◽

Tore-Aliocha Kursch-Metz ◽

Nico Blüthgen ◽

Katja Wehner

Keyword(s):

Biological Control ◽

Reproductive Success ◽

Sex Ratio ◽

Laboratory Experiment ◽

Pest Control ◽

Insect Pests ◽

Parasitoid Wasp ◽

Host Larva ◽

Wasp Species ◽

Single Host

Biological control of pest insects by natural enemies may be an effective, cheap and environmentally friendly alternative to synthetic pesticides. The cosmopolitan parasitoid wasp species Bracon brevicornis Wesmael and B. hebetor Say (Hymenoptera: Braconidae) use lepidopteran species as hosts, including insect pests like Ephestia kuehniella or Ostrinia nubilalis. Here, we compare the reproductive success of both Bracon species on E. kuehniella in a laboratory experiment. We asked (1) how the reproductive success on a single host larva changes with temperature, (2) how it changes with temperature when more host larvae are present and (3) how temperature and availability of host larvae influence the efficacy of Bracon species as biological control agents. In general, differences between B. brevicornis and B. hebetor have been small. For rearing both Bracon species in the laboratory on one host larva, a temperature between 20–27 °C seems appropriate to obtain the highest number of offspring with a female-biased sex ratio. Rearing the braconid wasps on more than one host larva revealed a higher number of total offspring but less offspring per host larva on average. Again, highest numbers of offspring hatched at 27 °C and the sex ratio was independent from temperature. Although no parasitoids hatched at 12 °C and only few at 36 °C, host larvae were still paralyzed. The efficacy of B. brevicornis was higher than 80% at all numbers of host larvae presented at all temperatures while the efficacy of B. hebetor was less than 80% at 12 °C and 27 °C at low numbers of host larvae presented. In conclusion, practitioners can use either B. brevicornis or B. hebetor at low and high temperatures and at varying host densities to achieve high pest control efficacy.

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