Biology of Ticks, Volume 1This is the first volume of a two-volume work on the basic biology, ecology, disease transmission and control of ticks. Ticks are parasitic insects that infect cattle, birds and people. The health and economic consequences of ticks are so considerable that most land- grant universities have tick laboratories associated with their entomology departments. In addition, state and federal health officials are concerned with disease transmission by ticks. This first volume covers the anatomy, functional morphology, physiology, reproduction, development and ecology of ticks. The descriptions are comprehensive and fully up-to-date. Entomologists, and in particular tick specialists (acarologists), as well as public health officials, will find this work of interest. It will also be extremely useful to advanced students beginning research in these fields. Volume 2 will focus on ticks and disease, with sections on immunological response to tick parasitism, and the control of ticks and disease. |
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Page 85
... increasing from about 7 or 8 mg in the unfed state to 88.78 = 33.4 mg by 9 days ( Ziv et al . , 1981 ) . Following mating , the females engorge rapidly , increasing to an average of 625 mg ( Sonenshine and Tignor , 1969 ) , but little ...
... increasing from about 7 or 8 mg in the unfed state to 88.78 = 33.4 mg by 9 days ( Ziv et al . , 1981 ) . Following mating , the females engorge rapidly , increasing to an average of 625 mg ( Sonenshine and Tignor , 1969 ) , but little ...
Page 154
... increased about 15 times that of the protein content of the unfed tick glands ( Table 8.1 ) . Protein content changed only slightly during the first 3 days of attachment , when little blood uptake occurs . However , intense synthesis ...
... increased about 15 times that of the protein content of the unfed tick glands ( Table 8.1 ) . Protein content changed only slightly during the first 3 days of attachment , when little blood uptake occurs . However , intense synthesis ...
Page 407
... increasing temperature above 20 ° C because the change from the vapor to liquid phase absorbs heat , which is more difficult to remove at higher temperatures . Moreover , temperature directly affects passive transpiration ( as well as ...
... increasing temperature above 20 ° C because the change from the vapor to liquid phase absorbs heat , which is more difficult to remove at higher temperatures . Moreover , temperature directly affects passive transpiration ( as well as ...
Contents
INTRODUCTION | 3 |
EVOLUTION AND SYSTEMATIC RELATIONSHIPS OF TICKS | 13 |
ECOLOGY OF NONNIDICOLOUS TICKS | 23 |
Copyright | |
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acids acini activity addition adjacent adults Amblyomma appear argasid ticks aspect attached behavior believed blood meal canal cavity cells changes Chapter characteristic cheliceral complex concentrations consists contain cuticle cycle cytoplasm Dermacentor described digestion digits dorsal duct ecdysteroids eggs electron engorged et al evidence extend fat body feeding females Figure fluid folded Following function genital genus glands granules groove hemolymph highly hormone host hypostome illustrating important increase indicate insects ixodid ticks known larvae lateral layer lipid located lumen males mated material Measurement bar membrane micrographs midgut muscles nerve noted numerous nymphs occur oocytes organ Ornithodoros outer oviposition paired period permission pheromone plate pore posterior production protein region representative response role salivary glands secretion segment sensilla showing similar Sonenshine species stage structure studies suggest surface surrounding synganglion tissues tubules types unfed variabilis ventral wall weight