Prey size affects the costs and benefits of group predation in nymphs of the predatory stink bug Andrallus spinidens (Heteroptera: Pentatomidae)

Hyodo, Daisuke; Himuro, Chihiro; Fujisaki, Kenji

doi:10.1007/s10164-014-0406-4

Cited by 8 publications

(5 citation statements)

References 29 publications

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“…They reported a longer hunting time toward 6th instar larvae than 3rd and 4th instars. Also, the individual predatory bugs had longer hunting times than four predator groups and that the latter had a higher predation success against third and 4th instar larvae (Hyodo et al 2014). Taken collectively, the authors concluded that group predation has an advantage towards large prey mainly for early nymphs because of their smaller size and narrow host range which has been similarly observed in field observations (Manley 1982).…”

Section: Biologysupporting

confidence: 56%

“…Such a response demonstrates that the predatory bug kills more individuals at a higher density of prey, with a constant search rate and saturation of predator (Shanker et al 2017). Hyodo et al (2014) designed a study to find the costs and benefits of group predation in A. spinidens. The authors believed in some advantages of group predation including the promotion of foraging efficiency, size of the prey and hunting success.…”

Section: Biologymentioning

confidence: 99%

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Journal of Plant Protection Research

Zibaee,

Ramzi,

Hoda

2020

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The aim of this review is to describe ecological and physiological features of Andrallus spinidens Fabricius and to discuss various possibilities of using it as an appropriate biocontrol agent in different agroecosystems. This hemipteran is a cosmopolitan predator of caterpillar pests of rice, wheat, soybean, moong, pigeon pea, maize, sugarcane and cowpea with special feeding on Chilo suppressalis Walker, Naranga aenescnes Moore, Helicoverpa armigera Hübner and Spodoptera litura Fabricius. Climate, spatial distribution of prey and type of agricultural crop are among the factors influencing the biology and spatial-temporal distribution of A. spinidens. Studies have shown random or aggregated distribution of the predatory bug with population peaks in April, July and October. The 1st instar nymphs have no feeding, the 2nd and 3rd (the first 2 days) instars are seedling feeders while they are voracious predators of caterpillars from the middle of 3rd instar to adulthood. The salivary gland consisted of two anterior-, two lateral-and two posterior lobes with major secretion of trypsin, chymotrypsin, amino-and carboxypeptidases. The alimentary canal has a four-sectioned midgut in which the third section seems to be the main place for digestive enzymes including α-amylase, trypsin, chymotrypsin, elastase cathepsins B, L and D as well as carboxy-and aminopetidases. Andrallus spinidens have shown compatibility with some insecticides and the entomopathogenic fungus, Beauveria bassiana. The predatory bug may be successfully reared in a laboratory using Galleria mellonella larvae as prey and both conservation and augmentation should be considered as biological control strategies against insect pests.

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Section: Biologysupporting

confidence: 56%

Section: Biologymentioning

confidence: 99%

Journal of Plant Protection Research

Zibaee,

Ramzi,

Hoda

2020

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“…Predaceous cimicomorphans and pentatomomorphans use their venoms primarily for immobilising, killing, and liquefying invertebrate prey. A key effect of venoms is rapid paralysis, which has been reported after envenomation by members of the Reduviidae [ 6 , 9 , 35 , 140 ], asopine Pentatomidae [ 141 ], predaceous Miridae [ 85 ], and predaceous Lygaeidae [ 142 ], and which may be much more widespread. The insecticidal activities of two reduviine assassin bug venoms have been quantified as LD 50 values of (dry weight of venom) 2 mg/kg ( H. innesi venom injected into larvae of the fly Sarcophaga argyrostoma ) [ 9 ] or 10.25 mg/kg ( P. rhadamanthus venom injected into the cockroach P. americana ) [ 6 ].…”

Section: Diversification Of Venom Pharmacology In the Evolution Ofmentioning

confidence: 99%

Venoms of Heteropteran Insects: A Treasure Trove of Diverse Pharmacological Toolkits

Walker

Weirauch

Fry

et al. 2016

Toxins

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The piercing-sucking mouthparts of the true bugs (Insecta: Hemiptera: Heteroptera) have allowed diversification from a plant-feeding ancestor into a wide range of trophic strategies that include predation and blood-feeding. Crucial to the success of each of these strategies is the injection of venom. Here we review the current state of knowledge with regard to heteropteran venoms. Predaceous species produce venoms that induce rapid paralysis and liquefaction. These venoms are powerfully insecticidal, and may cause paralysis or death when injected into vertebrates. Disulfide-rich peptides, bioactive phospholipids, small molecules such as N,N-dimethylaniline and 1,2,5-trithiepane, and toxic enzymes such as phospholipase A2, have been reported in predatory venoms. However, the detailed composition and molecular targets of predatory venoms are largely unknown. In contrast, recent research into blood-feeding heteropterans has revealed the structure and function of many protein and non-protein components that facilitate acquisition of blood meals. Blood-feeding venoms lack paralytic or liquefying activity but instead are cocktails of pharmacological modulators that disable the host haemostatic systems simultaneously at multiple points. The multiple ways venom is used by heteropterans suggests that further study will reveal heteropteran venom components with a wide range of bioactivities that may be recruited for use as bioinsecticides, human therapeutics, and pharmacological tools.

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“…Among vertebrates, coordinated hunting is presently known with certainty in hominid primates (Boesch & Boesch, 1989;Stiner, Barkai, & Gopher, 2009), a few carnivores (Bailey et al, 2012;Creel & Creel, 1995;Eaton, 2009;Mech, 2007;Stander, 1992), cetaceans (Gazda, Connor, Edgar, & Cox, 2005;Smith, Siniff, Reichle, & Stone, 1981), two species of raptors (Bednarz, 1988;Leonardi, 1999), two species of corvids (Bowman, 2003;Yosef & Yosef, 2010), a few species of fish (Bshary, Hohner, Ait-El-Djoudi, & Fricke, 2006;Herbert-Read et al, 2016;Lönnstedt, Ferrari, & Chivers, 2014), crocodilians (Dinets, 2015), and monitor lizards (James & Fox, 2007;Pitman, 1931). As for invertebrates, coordination has never been demonstrated in any of the taxa known to hunt in groups (see Hyodo, Himuro, & Fujisaki, 2014), although coordination in post-hunt transportation of prey is known in ants (Lioni, Sauwens, Theraulaz, & Deneubourg, 2001).…”

mentioning

confidence: 99%

Coordinated hunting by Cuban boas

Dinets¹

2017

AB&C

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-Coordinated hunting, in which individual predators relate in time and space to each other's actions, is uncommon in animals, and is often difficult to distinguish from simply hunting in non-coordinated groups, which is much more common. The author tested if Cuban boas (Chilabothrus angulifer) hunting bats in cave passages take into account other boas' positions when choosing hunting sites, and whether their choices increase hunting efficiency. Snakes arriving to the hunting area were significantly more likely to position themselves in the part of the passage where other snakes were already present, forming a "fence" across the passage and thus more effectively blocking the flight path of the prey, significantly increasing hunting efficiency. This is the first study to test for coordination between hunting reptiles, rather than assume such coordination based on perceived complexity of hunting behavior.

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Prey size affects the costs and benefits of group predation in nymphs of the predatory stink bug Andrallus spinidens (Heteroptera: Pentatomidae)

Cited by 8 publications

References 29 publications

Journal of Plant Protection Research

Journal of Plant Protection Research

Venoms of Heteropteran Insects: A Treasure Trove of Diverse Pharmacological Toolkits

Coordinated hunting by Cuban boas

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