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Figure 5.2 Nervous system of a praying mantis

Figure 5.2 Nervous system of a praying mantis. Figure 5.4 The blowfly’s nervous system and digestive system. Figure 5.5 Record of neural and behavioral activity of a calling cricket. Figure 5.6 Circadian rhythms in cricket calling behavior.

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Figure 5.2 Nervous system of a praying mantis

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  1. Figure 5.2 Nervous system of a praying mantis

  2. Figure 5.4 The blowfly’s nervous system and digestive system

  3. Figure 5.5 Record of neural and behavioral activity of a calling cricket

  4. Figure 5.6 Circadian rhythms in cricket calling behavior

  5. Figure 5.7 Early in the night, the long-winged, flight-capable form of Gryllus firmus has higher concentrations of JH than the short-winged form

  6. Figure 5.8 The cricket nervous system

  7. Figure 5.9 A master clock may, in some species, act as a pacemaker that regulates the many other mechanisms controlling circadian rhythms within individuals

  8. Figure 5.10 The genetics of biological clocks in mammals and fruit flies

  9. Figure 5.11 Mutations of the per gene affect the circadian rhythms of fruit flies

  10. Figure 5.12 Expression of the gene that codes for PK2 in the SCN

  11. Figure 5.13 Circadian control of wheel running by white rats changes when the brains of rats are injected with PK2

  12. Figure 5.14 Naked mole rats lack a circadian rhythm

  13. Figure 5.15 Circannual rhythm of the golden-mantled ground squirrel

  14. Figure 5.16 Circannual rhythm in a stonechat

  15. Figure 5.18 A cycle of photo-sensitivity

  16. Figure 5.19 A hormonal response to light

  17. Figure 5.20 Changes in the song control regions of the rufous-winged sparrow’s brain occur after summer rainfall

  18. Figure 5.22 Photoperiod affects testis size in the red crossbill

  19. Figure 5.23 Dominant male odors change female mate preferences in the house mouse

  20. Figure 5.24 Regulation of infanticide by male house mice

  21. Figure 5.25 A hormonal effect on infanticidal behavior in laboratory mice

  22. Figure 5.26 Testosterone and progesterone concentrations in three categories of male California mice

  23. Figure 5.27 Testosterone and the control of sexual motivation in male Japanese quail (Part 1)

  24. Figure 5.27 Testosterone and the control of sexual motivation in male Japanese quail (Part 2)

  25. Figure 5.28 Female fruit flies mated to males unable to supply sex peptide are as likely to copulate again within 48 hours as are virgin females

  26. Figure 5.29 An associated reproductive pattern in the green anole and a dissociated reproductive pattern in the red-sided garter snake

  27. Figure 5.33 The chemical structure of testosterone and its diverse effects on physiology and behavior

  28. Zysling et al. 2006

  29. Figure 5.36 Testosterone and territorial behavior (Part 1)

  30. Figure 5.36 Testosterone and territorial behavior (Part 2)

  31. Figure 5.39 Testosterone and the long-term maintenance of mating behavior

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