Responses of multiple generations of Gastrophysa viridula, feeding on Rumex obtusifolius, to elevated CO2

Brooks, G. L.; Whittaker, J. B.

doi:10.1046/j.1365-2486.1998.00111.x

Cited by 65 publications

(67 citation statements)

References 47 publications

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“…Effectiveness of G. viridula biocontrol depends on the level of food consumption and species abundance. Intensity of herbivory is proportionate to the quality of dock leaves (Renner 1970a) which decreases in the course of growing season with their age (Brooks and Whittaker 1998). Cutting and regrowth thus increases the nutritional value of host plants (Smith and Whittaker 1980a).…”

Section: G Viridula In Dock Biocontrolmentioning

confidence: 99%

“…Rust infection influences the site of oviposition and decreases the number of deposited eggs and their hatching success (Hatcher et al 1994) while leaf ageing decreases female vigour and consequently also egg size and viability of resulting larvae (Brooks and Whittaker 1998). Intraspecific competition also sets limits to population size.…”

Section: G Viridula In Dock Biocontrolmentioning

confidence: 99%

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Gastrophysa viridula (Coleoptera: Chrysomelidae) and biocontrol of Rumex - a review

Martinková¹,

Honěk²

2004

PLANT SOIL ENVIRON

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Gastrophysa viridula (DeGeer) (Coleoptera: Chrysomelidae) is an oligophagous herbivore which prefers consuming leaves of dock (Rumex spp.) species. Because of its feeding specialization this leaf beetle species is considered a potential biocontrol agent of dock plants. This paper reviews geographic distribution, development, life history, herbivory, and natural enemies of this species. Its potential use as a biocontrol agent will be then evaluated. G. viridula is an important part of the complex of Rumex natural enemies. Its herbivory decreases vigour of Rumex plants but cannot cause their mortality alone. The effect of herbivory is enhanced by other biocontrol agents, particularly the rust Uromyces rumicis (Schum.) (Pucciniaceae). Combined effects of G. viridula and other biocontrol agents increase Rumex mortality and thus contribute to its natural control. A�empts at using G. viridula in control of Reynoutria spp. were still unsuccessful. G. viridula may also become a pest of several Polygonaceae crops.

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Section: G Viridula In Dock Biocontrolmentioning

confidence: 99%

Section: G Viridula In Dock Biocontrolmentioning

confidence: 99%

Gastrophysa viridula (Coleoptera: Chrysomelidae) and biocontrol of Rumex - a review

Martinková¹,

Honěk²

2004

PLANT SOIL ENVIRON

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“…While most previous studies consider moths (see Watt et al 1995; for reviews), butterflies or other insects are less often investigated (but see, e.g., Awmack, Harrington & Leather 1997;Hughes & Bazzaz 1997;Bezemer, Jones & Knight 1998;Brooks & Whittaker 1998;Smith & Jones 1998). Because the response of plants and insects to elevated CO 2 are extremely species-specific, and different insect feeding guilds show different responses , further studies, especially long-term investigations including host-selection behaviour under elevated CO 2 , and considering the genetic variation in natural populations for the CO 2 response, are still needed.…”

Section: Effects Of Co 2 On Plant Quality To Herbivores and Herbivorementioning

confidence: 99%

Influence of leaf chemistry of Lotus corniculatus (Fabaceae) on larval development of Polyommatus icarus (Lepidoptera, Lycaenidae): effects of elevated CO₂ and plant genotype

et al. 1999

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1. Four Lotus corniculatus genotypes differing in cyanoglycoside and condensed tannin concentrations were grown in either low (350 ppm) or high (700 ppm) atmospheric CO2 environments. Larval performance, consumption and conversion efficiency of Polyommatus icarus feeding on this plant material were measured. 2. Plants grown under elevated CO2 contained less cyanoglycosides, more condensed tannins and more starch than control plants. However, water concentration, nitrogen and protein as well as nitrogen concentration in relation to carbon concentration did not differ between CO2 treatments. 3. The four genotypes differed significantly in condensed tannins, cyanoglucoside, leaf water and leaf nitrogen but no genotype–CO2 interaction was detected, except for total phenolics and condensed tannins in which two plant genotypes showed stronger increases under elevated CO2 than the other two. 4. Larvae of P. icarus consumed more plant material and used and converted it more efficiently from plants grown at high atmospheric CO2. 5. Larvae developed significantly faster and were significantly heavier when fed plant material grown under elevated CO2. The observed difference in mass disappeared in the pupal and adult stages. However, lipid concentration of adults from the elevated CO2 treatment was marginally significantly higher than of controls. 6. It is concluded that the higher carbohydrate concentration of L. corniculatus plants grown at elevated CO2 renders leaves more suitable and better digestible to P. icarus. Furthermore, differences in allelochemicals might influence the palatability of L. corniculatus leaves for this specialist on Fabaceae.

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“…Insect responses to changes in food plant quality include compensatory feeding (Fajer 1989, Docherty et al 1996, decreased growth rates (Fajer 1989, Traw et al 1996, Hättenschwiler and Schafellner 1999, reduced final body mass, prolonged developmental time (Goverde and Erhardt 2003), increased mortality (Fajer 1989), and reduced reproduction (Brooks andWhittaker 1998, Buse et al 1998). At the level of the individual, these responses may negatively influence reproductive output and, as a consequence, population dynamics of insect herbivores.…”

Section: Introductionmentioning

confidence: 99%

Stressing food plants by altering water availability affects grasshopper performance

Franzke

Reinhold

2011

Ecosphere

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Citation: Franzke, A., and K. Reinhold. 2011. Stressing food plants by altering water availability affects grasshopper performance. Ecosphere 2(7):art85. doi:10.1890/ES11-00095.1Abstract. Extreme weather events like drought and heavy rain are likely to increase with climate change in Central Europe and may affect nutrient content in plants. They may therefore influence the performance (growth rate, developmental time, mortality, body size/mass, fecundity) and population dynamics of herbivorous insects. We conducted a common-garden experiment on food plants to investigate effects of severe drought and moisture events on reproduction and fitness components in the insect herbivore Chorthippus biguttulus (Orthoptera, Acrididae). Periodic irrigations of food plants were used to simulate a 60% decrease in average summer precipitation (drought treatment), a 40% increase in average summer precipitation (moisture treatment) and a normal summer precipitation (control treatment). Individuals of C. biguttulus that fed on drought-stressed plants showed beneficial effects on life-history traits including an increased reproductive success than grasshoppers that fed on control plants. The opposite was true for individuals feeding on plants grown under severe moisture conditions. We propose that herbivore performance is influenced by increased concentrations of soluble proteins and amino acids in plants under drought stress conditions. Our results suggest that drought events may increase population performance and consequently population density in the grasshopper species C. biguttulus, while extreme moisture events may cause negative population trends.

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Responses of multiple generations of Gastrophysa viridula, feeding on Rumex obtusifolius, to elevated CO₂

Cited by 65 publications

References 47 publications

Gastrophysa viridula (Coleoptera: Chrysomelidae) and biocontrol of Rumex - a review

Gastrophysa viridula (Coleoptera: Chrysomelidae) and biocontrol of Rumex - a review

Influence of leaf chemistry of Lotus corniculatus (Fabaceae) on larval development of Polyommatus icarus (Lepidoptera, Lycaenidae): effects of elevated CO₂ and plant genotype

Stressing food plants by altering water availability affects grasshopper performance

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Responses of multiple generations of Gastrophysa viridula, feeding on Rumex obtusifolius, to elevated CO2

Cited by 65 publications

References 47 publications

Gastrophysa viridula (Coleoptera: Chrysomelidae) and biocontrol of Rumex - a review

Gastrophysa viridula (Coleoptera: Chrysomelidae) and biocontrol of Rumex - a review

Influence of leaf chemistry of Lotus corniculatus (Fabaceae) on larval development of Polyommatus icarus (Lepidoptera, Lycaenidae): effects of elevated CO2 and plant genotype

Stressing food plants by altering water availability affects grasshopper performance

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Responses of multiple generations of Gastrophysa viridula, feeding on Rumex obtusifolius, to elevated CO₂

Influence of leaf chemistry of Lotus corniculatus (Fabaceae) on larval development of Polyommatus icarus (Lepidoptera, Lycaenidae): effects of elevated CO₂ and plant genotype