1. Chapter 5 Opener: Male red-sided garter snakes emerging from hibernation are ready to mate

2. 5.1 Different courtship displays of the male ring dove are under the control of different hormones

3. 5.2 Nervous system of a praying mantis

4. 5.3 A no-brainer

5. Arnold Adolph Berthold 1803 – 1861 Founder of Endocrinology

6. Berthold’s Experiment in Roosters…. Castration Castration & Reimplantation of testis Castration & Transplantation of testis

7. Berthold’s Conclusion... -A secretory, blood-borne product of the transplanted testes is responsible for the normal development of the birds in the second and third group Today, it is called TESTOSTERONE -’problem’: no one knows why Berthold did the experiment in the first place…. No clear rationale for it.

13. 5.4 Nervous system and digestive system of a blowfly

14. 5.5 Record of neural and behavioral activity of a calling cricket

15. 5.6 Circadian rhythms in cricket calling behavior

16. 5.7 The cricket nervous system

17. 5.8 A master clock may regulate mechanisms controlling circadian rhythms within individuals

18. 5.9 The genetics of biological clocks in mammals and fruit flies (Part 1)

19. 5.9 The genetics of biological clocks in mammals and fruit flies (Part 2)

20. 5.10 Mutations of the per gene affect the circadian rhythms of fruit flies

21. 5.11 Expression of the gene that codes for PK2 in the SCN

22. 5.12 Circadian control of wheel-running by white rats changes when the rats are injected with PK2

23. 5.13 Naked mole-rats lack a circadian rhythm

24. 5.14 Circannual rhythm of the golden-mantled ground squirrel

25. 5.15 Circannual rhythm in a stonechat (Part 1)

26. 5.16 Lunar cycle of banner-tailed kangaroo rats

27. 5.17 A cycle of photosensitivity

28. 5.18 A hormonal response to light

29. 5.20 Photoperiod affects testis size in the red crossbill

30. 5.21 Regulation of infanticide by male house mice (Part 1) Infanticide can be affected by manipulation of the circadian rhythm.

31. 5.21 Regulation of infanticide by male house mice (Part 2)

32. 5.22 A hormonal effect on infanticidal behavior in laboratory mice Progesterone appears to be the key to inducing infanticide. Males lacking this gene, do not display infanticide.

33. Measurements: Anogenital Distance Interoccular Distance Body Length Weight Pup Morphology as a Measure of Development

34. Reproductive Behaviors Reproductive Behaviors in Rats

35. Reproductive Behaviors - Data Male Reproductive Behaviors: Mounts Intromissions Ejaculations

36. Reproductive Behaviors - Data Female Reproductive Behavior: Lordosis  Lordosis Score of “0”  Lordosis Score of “1”  Lordosis Score of “2”  Lordosis Score of “3”

37. Reproductive Behaviors - Results Average Mounts vs. Average Intromissions Percentage of Animals Displaying Sex Behavior Results of Male Reproductive Behavior Tests Following Developmental Exposure to PFOA

38. 5.23 Testosterone and progesterone levels in two categories of male California mice NS Significant

39. 5.24 Testosterone and the control of sexual motivation in male Japanese quail (Part 1)

40. 5.24 Testosterone and the control of sexual motivation in male Japanese quail (Part 2) Estradiol is actually the hormone that is associated with male sexual motivation.

41. 5.25 An associated reproductive pattern

42. 5.28 The effects of castration followed by testosterone therapy on three male guinea pigs

43. 5.30 The chemical structure of testosterone and its diverse effects on physiology and behavior

44. 5.32 Testosterone and territorial behavior (Part 1)

45. 5.34 Spring mating aggregation of red-sided garter snakes

46. 5.35 Testosterone and the long-term maintenance of mating behavior