Hyalomma truncatum and Rhipicephalus evertsi mimeticus (Ixodoidea, Ixodidae): reactions of adult ticks to vertically incident narrow- and wideband optical radiation with and without the influence of a CO2 gradient

Investigations concerning the reactions of unfed Hyalomma truncatum and Rhipicephalus evertsi mimeticus female and male ticks to vertically incident narrow- and wideband optical radiation at irradiances of 0.115 mWcm-2 and 0.98 mWcm-2, respectively, revealed that, independent of sex, adults of the two species are capable of perceiving a wide range of wavelengths. Considering the migration into the entry area of the optical radiation at the test chamber's ceiling as a positive phototaxis, H. truncatum always reacted with higher percentages than R. e. mimeticus. Compared to the controls, R. e. mimeticus ticks occupied the entry area of the optical radiation significantly more frequently only in the wavelength ranges of 415–474 nm, 529–628 nm, 611–707 nm and 190–2,600 nm, but always with low rates. High percentages of H. truncatum ticks, however, consistently reacted with a positive phototaxis in all the offered monochromatic sectors between 292–707 nm and also in the wide spectral range of 190–2,600 nm, particularly in the range of 470–520 nm. When ticks of both species were additionally confronted with a stable CO2 gradient, continuously increasing from 0.18 vol% at the bottom to 0.90 vol% at a height of 40 cm in the test chamber, they moved less frequently to the entry area of the optical radiation, compared to ticks tested without CO2, regardless of their exposure to darkness or to narrow- and wideband radiation. The percentages of ticks, however, that moved in a vertical direction, but did not reach the chamber's ceiling were always higher, with the exception of R. e. mimeticus at the wavelength range of 415–474 nm. A total of 30 unfed male and 30 unfed female adult ticks of both tick species were investigated at each combination of a narrow- and wideband spectral range, with and without the influence of a CO2 gradient. Considering moving ticks only, the interval between exposure and first movement of ticks was shorter under the influence of an additional CO2 gradient. The average delay in reaction with and without the stimulus of the CO2 gradient was 156.2 s and 195.6 s, respectively, for H. truncatum and 126.6 and 226.3 s, respectively, for R. e. mimeticus.