1 / 160

Ungulates and Subungulates

Ungulates and Subungulates. Subungulates Proboscidea elephants Hyracoidea hyraxes Sirenia dugongs and manatees. Ungulates Perrisodactyla odd toed ungulates horses, tapirs, and rhinos Artiodactyla even toed ungulates. Ungulata. Subungulates.

lotus
Download Presentation

Ungulates and Subungulates

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Ungulates and Subungulates

  2. Subungulates Proboscidea elephants Hyracoidea hyraxes Sirenia dugongs and manatees Ungulates Perrisodactyla odd toed ungulates horses, tapirs, and rhinos Artiodactyla even toed ungulates Ungulata

  3. Subungulates • This seems to be an odd grouping of organisms. However, it is not by accident, and does not represent another ‘garbage’ group. • Proboscideans, Hyraxes, and Sirenians are all derived from Condylarthrans, that evolved in the Paleocene about 65mya.

  4. Subungulates • The Paenungulata was one group within the Condylarthra, and by the Eocene of Africa, they gave rise to the Proboscidea, Sirenia, and Hyracoidea. • If that is the case, you would expect some morphological similarities between the groups.

  5. Subungualta • They all lack clavicles. • They all have short nails on their digits. • Females have 2 pectoral mammae (Hyraxes have 2 inguinal pairs as well). • All females have a bicornuate uterus. • All males have abdominal testes and have no baculum. • All are non-ruminating, hind gut fermenting, herbivores. • All have a cecum. • Elephants and Sirenia have horizontal molariform tooth replacement.

  6. Subungulata • Proboscideans and Sirenians were much more diverse during the Oligocene and Miocene. • Their future does not look promising.

  7. Proboscidea • There is but 1 family (Elephantidae) and 2 species: African elephant - Loxodonta africana, and Asian elephant - Elaphas maximus. • African elephants are much larger than Indian (Asian) elephants. The teeth differ, Africans have higher shoulders, larger ears, and a more complex trunk.

  8. African vs. Asian Elephant

  9. Proboscidea • Reproduction is not easy • Females are sexually mature by 9 to 12 years, with peak reproductive value between 25 and 45 years. Gestation is 22 months, but estrus lasts only 2 to 4 days, with about 4 years between estrus events. • Copulation is no simple deal either. • There is sexual dimorphism, and young small males generally do not reproduce.

  10. Proboscideans • Size of the males tusks seems to be an important character for reproduction. African elephant females look for a minimum tusk length, and will not mate with ‘short’ males even if no ‘long’ males are available. This has some implications for the ivory industry.

  11. Proboscideans • African elephant males weigh up to 7500kg, while Indian elephants weigh about 4500kg. • They exhibit indeterminant growth. • They have graviportal limbs, and are capable of one gait only.

  12. Proboscideans • Feldhammer claims that large size in elephants is a consequence of ‘competition’ with other herbivores. • Is this the most parsimonious explanation? • Does it reduce the importance of predation? • What about the cost of transport? • What does large size mean for an endotherm?

  13. Proboscideans • Elephants are inefficient herbivores, and require large home ranges. They are usually found in groups. Thus, as they move long distances each day, they are capable of significant habitat modification. • Consider what it means to be so large. How is it possible that 50% of what passes through the gut of an elephant is undigested?

  14. Proboscideans • The trunk of elephants is actually part of the upper lip and the nostrils. • It is prehensile, and is essential since the animal can not reach the ground with its mouth. • It is used to manipulate food, suck up water (and then spray water into the mouth), and suck up dust and mud as well.

  15. Proboscideans • Dental formula is 1/0, 0/0, 3/3, 3/3 = 28. • Tusks are dentine (with only the tip covered in enamel). • Tooth replacement is horizontal, they are worn and replaced from the rear. Note: although they have 6 molariform teeth in each jaw, only one is functional at any time.

  16. Proboscideans • Elephants were once much more diverse than they are today. • In the Pleistocene they were in Europe and North America. In fact, until just recently, there were 2 species in N. America at the same time, mastadons (Mammut americanus), and Mammoths.

  17. Proboscideans • Oldest fossils are from the Eocene of Africa • We have fossil evidence from Asia, Europe, Africa, and N. America. • Moeritheriids were relatively small (1m) in Africa during the Eocene and Oligocene, while Deinotheriids were in Asia and Europe from the Miocene to the Pliocene.

  18. Proboscideans • The Deinotheriids had weird tusks, based on the lower incisors rather than upper. • Gomphotheriidae were contemporaries, and had tusks in upper and lower jaws. • Mammutidae were the mastodons from the early Miocene. • Stegodontidae were from the mid-Miocene.

  19. A) Moeritherium, B) Deinotherium, C) Gomphotherium, D) Wooly

  20. Proboscideans • Only the Elephantidae persist today. • The genus Primelephas from the late Miocene/early Pliocene is probably ancestral to modern elephants as well as the Wooly Mammoths.

  21. Hyracoidea • There are 5 species of rock hyraxes, and 3 species of bush hyraxes, all inhabiting rocky habitats in Africa and the middle east. • Were first thought to be rodents, but are clearly subungulates. • They are not ruminants, but have a large cecum as well as a smaller paired cecum.

  22. Hyraxes • Have a mid-dorsal gland surrounded by light hair. • They have unique pads on the feet, which function as suction cups on rocky surfaces. Glands on the feet provide moisture for ‘suction’ • Toes have hoof-like nails (except 2nd on rear, which has a grooming claw).

  23. Hyraxes • They have no canines, and have a diastemma, hence the early confusion with rodents. • Upper incisors are pointed and triangular with no enamel on posterior. • Unlike elephants and sirenians, dentition is not replaced horizontally.

  24. Modern Hyrax vs. Megalohyrax from the Oligocene. Note the diastemma in the modern form.

  25. Rock Hyrax: Procavia capensis

  26. Rock Hyrax: Procavia capensis

  27. Rock Hyrax: Procavia capensis

  28. Hyraxes • Fossils are known from the Eocene of Europe and Africa. • There is always the speculations that the diversity of Hyraxes suffered as a consequence of competition with ungulates. More about this later.

  29. Sirenians • These are the dugongs and manatees. • 2 families: monotypic Dugongidae from western Pacific, and Trichechidae (3 species) form the Atlantic. • Essentially tropical, feeding on aquatic vegetation. • Poor thermoregulatory abilities and low metabolic rates - hence warm waters.

  30. Sirenian Morphology • Large fusiform bodies - valvular nostrils, no pinnae, horizontal tail, no external hind-limbs, and flipper-like fore-limbs. • Dense bone to facilitate negative bouyancy. • Lungs run nearly length of body to even out bouyant forces. • Teeth replaced horizontally.

  31. Stellar’s Sea Cow (Extinct), Manatee, and Dugong

  32. Note position of lungs in the Manatee.

  33. Dugongs

  34. Manatees

More Related