Hypochlora alba is a specialist grasshopper that lives and feeds almost exclusively onArtemisia ludoviciana, a plant that produces large amounts of allelochemics including a variety of monoterpenes. This plant is not a host for generalist grasshoppers such asMelanoplus sanguinipes. The role of olfaction in the grasshopper-plant relationship was investigated by comparing electroantennograms (EAGs) of males and females of both species generated by solvent-extracted volatiles from plant leaves and by major individual components. Volatiles ofA. ludoviciana were identified by gas chromatography-mass spectrometry. The major components were 1,8-cineole, camphor, camphene, and borneol, while minor identified compounds were α- and β-pinene, α-thujene, myrcene,p-cymene, Artemisia ketone, α-thujone, and bornyl acetate. The EAGs (mV) ofH. alba males to a range of concentrations of individual volatiles or the total plant extract were nearly double those of conspecific females or both sexes ofM. sanguinipes. However, both sexes ofM. sanguinipes were more sensitive than either sex ofH, alba to geraniol, a monoterpene that commonly occurs in many plant species but is absent or is present in only trace amounts inA. ludoviciana. The increased sensitivity ofH. alba males to the odor components of their host plant appears to be related to the greater number of certain olfactory chemoreceptors on male versus female antennae. The significance of this phenomenon is discussed.
Hypochlora alba (Dodge) is a specialist grasshopper that lives and feeds almost exclusively on the sage brush Artemisia ludoviciana Nutt., a plant mostly avoided by the generalist grasshopper Melanoplus sanguinipes (Fabr.). Analysis of leaves, seed heads, and glandular trichomes by gas chromatography-mass spectrometry revealed 1,8-cineole, camphor and borneol to be the major monoterpenes and achillin the major sesquiterpene lactone. These terpenoids increased over the growing season and were two to five times more concentrated in the seed heads than in the leaves. Gustatory choice tests showed a feeding stimulant(s) for H. alba to be present in extracts of A. ludoviciana and A. carruthii Wood, a closely related species that H. alba will feed upon, but not in a non-host species, A. filifolia Torr. This stimulant activity was found in a fraction containing primarily monoterpene hydrocarbons. Other fractions containing sesquiterpene lactones had antifeedant activity against M. sanguinipes. Tests with achillin showed the average foliar levels (ca. 2~ dry weight) to be above the rejection threshold of the generalist (0.5~ but below that of the specialist (4~ Reproductive tissue contained average levels greater (ca. 7~ than the rejection threshold of either species.
Hypochlora alba (Dodge) is a specialist grasshopper that lives and feeds almost exclusively on Artemisia ludoviciana Nutt., a sage plant mostly avoided as food by generalist or polyphagous grasshoppers, such as Melanoplus sanguinipes (Fabr.). Adaptations to feeding on the pubescent sage foliage containing high levels of allelochemics may involve behavioural as well as physiological specialization. Using an electronic device to monitor feeding activity, we compared feeding periodicity, bout length, bout frequency, and overall time spent feeding by H.alba on sage foliage and by M.sanguinipes on seedling ryegrass (Lolium perenne L.), the plants on which they had been reared. Although both species fed for about the same amount of time per day (c. 4–5%), they achieved this by two different feeding patterns. H. alba had feeding bouts averaging c. 10 min each, compared to c. 4–5 min for M.sanguinipes. Bout frequency was reversed, with M.sanguinipes feeding about once every hour and H.alba about half as often. Bout length for both species was unaffected by phase of the photoperiod while bout frequency, and consequently the rate of feeding in min/h, was typically reduced by two‐thirds or more during the dark phase. The relationship of grasshopper feeding behaviour to host plant specialization is discussed.
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