Development, survivorship and reproduction of<i>Helicoverpa armigera</i>(Lepidoptera: Noctuidae) under fluctuating temperatures

Mironidis, George K.

doi:10.1017/s0007485314000595

Cited by 37 publications

(29 citation statements)

References 78 publications

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“…Warming may have also directly affected insect physiology, with warmed plots often exceeding 35°C for short periods. Temperatures of 35°C are considered to be highly adverse for this species (Mironidis, ) and may have increased risk of desiccation. Regardless, warming clearly had negative impacts on herbivores, which may explain why performance tended to decline on warmed –Si plants despite them having lower concentrations of Si.…”

Section: Discussionmentioning

confidence: 99%

Climate warming and plant biomechanical defences: Silicon addition contributes to herbivore suppression in a pasture grass

et al. 2019

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Plants, notably the Poaceae, often accumulate large amounts of silicon (Si) from the soil. Si has multiple functional roles, particularly for alleviating abiotic and biotic stresses (e.g., defence against herbivores). Recent evidence suggests that environmental change, including temperature changes, can diminish Si accumulation which could affect functions such as herbivore defence. Using a field warming experiment, we grew a pasture grass (Phalaris aquatica) that was either supplemented or untreated with Si (+Si and −Si, respectively) under ambient and elevated (+2.8°C above ambient) air temperatures. We quantified soil water, plant growth rates, Si accumulation, leaf biomechanical properties and in situ relative growth rates of a herbivorous global insect pest (Helicoverpa armigera). Si supplementation promoted shoot and root biomass by c. 48% and 61%, respectively under ambient temperatures, but these gains were not apparent under warmed conditions. Warmer temperatures reduced Si uptake by −Si plants by c. 17%, potentially due to the lower levels of soil water content in warmed plots. Si supplementation, however, increased Si accumulation in leaves by c. 24% in warmed plots restoring Si levels to those seen under ambient temperatures. Si supplementation enhanced biomechanical properties in the leaves, but this was only statistically significant under ambient temperatures; leaves of +Si plants required 42% more force to fracture and were 30% tougher at the midrib than leaves of −Si plants. The relative growth rates of H. armigera declined by 56% when feeding on +Si plants under ambient temperatures, and while Si supplementation caused a trend towards declining herbivore growth rates under warmer conditions, this was not statistically significant. We conclude that climate warming may mitigate the beneficial effects of Si on Phalaris aquatica in the short term, potentially by reducing Si uptake. While Si uptake can be restored with Si supplementation, Si‐enhanced biomechanical defences against a global pest may not be fully restored under warmer temperatures. A plain language summary is available for this article.

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Section: Discussionmentioning

confidence: 99%

Climate warming and plant biomechanical defences: Silicon addition contributes to herbivore suppression in a pasture grass

et al. 2019

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“…These distribution models are informed by analytical models that forecast the population dynamics and regional pest outbreaks using climatic drivers (e.g. EntomoLOGIC, CottonLOGIC) along with simulation models of seasonal movement patterns (Table ) …”

Section: Using Models To Inform Landscape Managementmentioning

confidence: 99%

A perspective on management of Helicoverpa armigera: transgenic Bt cotton, IPM, and landscapes

Downes

Kriticos

Parry

et al. 2016

Pest Management Science

101

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Helicoverpa armigera is a major pest of agriculture, horticulture and floriculture throughout the Old World and recently invaded parts of the New World. We overview of the evolution in thinking about the application of area-wide approaches to assist with its control by the Australian Cotton Industry to highlight important lessons and future challenges to achieving the same in the New World. An over-reliance of broad-spectrum insecticides led to Helicoverpa spp. in Australian cotton rapidly became resistant to DDT, synthetic pyrethroids, organophosphates, carbamates and endosulfan. Voluntary strategies were developed to slow the development of insecticide resistance, which included rotating chemistries and basing spray decisions on thresholds. Despite adoption of these practices, insecticide resistance continued to develop until the introduction of genetically modified cotton provided a platform for augmenting Integrated Pest Management in the Australian cotton industry. Compliance with mandatory resistance management plans for Bt cotton necessitated a shift from pest control at the level of individual fields or farms towards a coordinated area-wide landscape approach. Our take-home message for control of H. armigera is that resistance management is essential in genetically modified crops and must be season long and area-wide to be effective. © 2016 Society of Chemical Industry.

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“…This frequent pattern is because metabolic rates increase under high temperature in ectotherms (Hulbert et al 2004;Terblanche et al 2005;Finkler 2006); consequently, higher metabolic rates generally result in shorter lifespan (Speakman 2005;Melvin et al 2007). However, adult longevity in Helicoverpa armigera (H€ ubner) was reduced at mean fluctuating temperatures 17.5 and 32.5°C, but was longest at 25°C (Mironidis 2014). A sex-specific variation for the mean longevity has also been found in Drosophila melanogaster Meigen with males living longer than females at 25°C and females living longer than males at 14°C (Norry and Loeschcke 2002a,b).…”

Section: Introductionmentioning

confidence: 99%

Variation of life‐history traits of the Asian corn borer, Ostrinia furnacalis in relation to temperature and geographical latitude

Liang

Huang

et al. 2016

Ecology and Evolution

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Life‐history traits from four geographical populations (tropical Ledong population [LD], subtropical Guangzhou [GZ] and Yongxiu populations, and temperate Langfang population [LF]) of the Asian corn borer, Ostrinia furnacalis were investigated at a wide range of temperatures (20–32°C). The larval and pupal times were significantly decreased with increasing rearing temperature, and growth rate was positively correlated with temperature. The relationship between body weight and rearing temperature in O. furnacalis did not follow the temperature–size rule (TSR); all populations exhibited the highest pupal and adult weights at high temperatures or intermediate temperatures. However, development time, growth rate, and body weight did not show a constant latitudinal gradient. Across all populations at each temperature, female were significantly bigger than males, showing a female‐biased sexual size dimorphism (SSD). Contrary to Rensch's rule, the SSD tended to increase with rising temperature. The subtropical GZ population exhibited the largest degree of dimorphism while the temperate LF exhibited the smallest. Male pupae lose significantly more weight at metamorphosis compared to females. The proportionate weight losses of different populations were significantly different. Adult longevity was significantly decreased with increasing temperature. Between sexes, all populations exhibit a rather female‐biased adult longevity. Finally, we discuss the adaptive significance of higher temperature‐inducing high body weight in the moth's life history and why the moth exhibits the reverse TSR.

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Development, survivorship and reproduction ofHelicoverpa armigera(Lepidoptera: Noctuidae) under fluctuating temperatures

Cited by 37 publications

References 78 publications

Climate warming and plant biomechanical defences: Silicon addition contributes to herbivore suppression in a pasture grass

Climate warming and plant biomechanical defences: Silicon addition contributes to herbivore suppression in a pasture grass

A perspective on management of Helicoverpa armigera: transgenic Bt cotton, IPM, and landscapes

Variation of life‐history traits of the Asian corn borer, Ostrinia furnacalis in relation to temperature and geographical latitude

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