Aglaocetus moreni (Lydekker, 1894) - fossil baleen whale skull attributed to the Oligocene of Argentina. (FMNH P12955, Field Museum of Natural History, Chicago, Illinois, USA)
This species is also known as Cetotherium moreni and Cetotheriopsis moreni.
From museum signage:
"First there were meat eaters, then came plankton feeders. Around 40 million years ago, a new group of whales diverged from the earliest toothed whales: baleen whales. Instead of teeth, these whales have a comb-like screen of tissue called baleen that grows from their upper jaws. Baleen allows whales to filter tiny plankton from the seawater, taking advantage of an abundant food source. All whales today can be divided into two groups, baleen whales and toothed whales.
[referring to skull shown above] The skull belonged to an early baleen whale.
"
Classification: Animalia, Chordata, Vertebrata, Mammalia, Artiodactyla, Cetacea, Mysticeti, Aglaocetidae
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See info. at:
en.wikipedia.org/wiki/Aglaocetus
and
en.wikipedia.org/wiki/Baleen_whale
Tags: Aglaocetus moreni fossils fossil baleen whale Oligocene Argentina whales Cetotherium Cetotheriopsis mammal mammals skull skulls
Rodhocetus sp. - fossil whale skull (cast) from the Eocene of Pakistan. (public display, Nebraska State Museum of Natural History, Lincoln, Nebraska, USA)
In this early fossil whale, the nostrils are atop the snout and are set in a depression, indicative of the presence of muscles that pinched the nostrils shut when submerged in water.
From museum signage:
"Rodhocetus looked more like today's whales than Pakicetus did.
These whales were partially adapted to life in the water, with short legs that they may have used to waddle about on land - like sea lions do today.
Notice:
- nose partway up the snout.
- simple teeth used to catch and swallow fish.
"
Classification: Animalia, Chordata, Vertebrata, Mammalia, Artiodactyla, Cetacea, Archaeoceti, Protocetidae
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See info. at:
en.wikipedia.org/wiki/Rodhocetus
and
en.wikipedia.org/wiki/Protocetidae
and
www.blc.arizona.edu/courses/schaffer/449/God%20in%20the%2...
Tags: Rodhocetus fossil whale whales fossils skull skulls Middle Eocene Pakistan mammal mammals
Basilosaurus sp. - fossil whale pelvis and hind limbs (casts) from the Eocene of Egypt. (public display, Field Museum of Natural History, Chicago, Illinois, USA)
From museum signage:
"At the water's edge, whales were making a big move: from land to sea. It's one of evolution's most fascinating stories. Whales are ocean mammals that started out as land mammals. Four-footed predatory mammals hunted in and around the waters of Asia's ancient coastline more than 50 million years ago. Over time, these creatures came to depend more on food from the sea than food on land. As they became adapted for life in the water, feet evolved into flippers, and whales left the shores for good. What's more, fossils tell us these ancient whale ancestors were four-footed mammals with hooves.
Feet became flippers in just ten million years. From land-dwelling ancestors, the first whales evolved for life spent partly on land, partly in the sea. With webbed feet, they could swim; with long limbs, they could move about on shore. But food was abundant in the seas. Within ten million years, whales were fully aquatic. Webbed front feet evolved into paddle-like flippers. Hind limbs all but disappeared, as a broad tail fluke evolved for more powerful swimming.
Whales today do not have feet, so of course they don't have hooves. So how do we know whales' ancestors had hooves? There are a couple clues. In fossils of some early whales, there are hoof-like claws on the feet. But an even better clue is in the ankles. Fossils show that ankles of early land-dwelling whales share a unique structure with ankles of certain hoofed mammals that live today. The grooves at each end of an early whale's ankle bone are unique to the ankles of a group of hoofed mammals called artiodactyls, which includes camels, pigs, hippos, and antelopes. The grooves prevent side-to-side movement of the ankle - certain hoofed mammals can only move their ankles forward and backward.'
This display explores the fossil clues that whales evolved from a hoofed mammal ancestor that walked on land. But fossils are no longer the only clues supporting this theory. DNA provides others. Genetic studies indicate that whales' closest relatives are the group of hoofed mammals called artiodactyls."
-----------------
"[The early whale] Basilosaurus had only tiny hind limbs and a pelvis - no longer needed for weight-bearing - detached from its spine."
Classification: Animalia, Chordata, Vertebrata, Mammalia, Artiodactyla, Cetacea, Archaeoceti, Basilosauridae
------------------
See info. at:
en.wikipedia.org/wiki/Basilosaurus
and
en.wikipedia.org/wiki/Basilosauridae
Tags: Basilosaurus fossil fossils whale whales mammal mammals Eocene Egypt
Basilosaurus sp. - fossil whale pelvis and hind limbs (casts) from the Eocene of Egypt. (public display, Field Museum of Natural History, Chicago, Illinois, USA)
From museum signage:
"At the water's edge, whales were making a big move: from land to sea. It's one of evolution's most fascinating stories. Whales are ocean mammals that started out as land mammals. Four-footed predatory mammals hunted in and around the waters of Asia's ancient coastline more than 50 million years ago. Over time, these creatures came to depend more on food from the sea than food on land. As they became adapted for life in the water, feet evolved into flippers, and whales left the shores for good. What's more, fossils tell us these ancient whale ancestors were four-footed mammals with hooves.
Feet became flippers in just ten million years. From land-dwelling ancestors, the first whales evolved for life spent partly on land, partly in the sea. With webbed feet, they could swim; with long limbs, they could move about on shore. But food was abundant in the seas. Within ten million years, whales were fully aquatic. Webbed front feet evolved into paddle-like flippers. Hind limbs all but disappeared, as a broad tail fluke evolved for more powerful swimming.
Whales today do not have feet, so of course they don't have hooves. So how do we know whales' ancestors had hooves? There are a couple clues. In fossils of some early whales, there are hoof-like claws on the feet. But an even better clue is in the ankles. Fossils show that ankles of early land-dwelling whales share a unique structure with ankles of certain hoofed mammals that live today. The grooves at each end of an early whale's ankle bone are unique to the ankles of a group of hoofed mammals called artiodactyls, which includes camels, pigs, hippos, and antelopes. The grooves prevent side-to-side movement of the ankle - certain hoofed mammals can only move their ankles forward and backward.'
This display explores the fossil clues that whales evolved from a hoofed mammal ancestor that walked on land. But fossils are no longer the only clues supporting this theory. DNA provides others. Genetic studies indicate that whales' closest relatives are the group of hoofed mammals called artiodactyls."
-----------------
"[The early whale] Basilosaurus had only tiny hind limbs and a pelvis - no longer needed for weight-bearing - detached from its spine."
Classification: Animalia, Chordata, Vertebrata, Mammalia, Artiodactyla, Cetacea, Archaeoceti, Basilosauridae
------------------
See info. at:
en.wikipedia.org/wiki/Basilosaurus
and
en.wikipedia.org/wiki/Basilosauridae
Tags: Basilosaurus fossil fossils whale whales mammal mammals Eocene Egypt
Fossil sperm whale tooth from the Miocene of North Carolina, USA.
Classification: Animalia, Chordata, Vertebrata, Mammalia, Artiodactyla, Cetacea, Odontoceti, Physeteroidea
Locality: quarry/mine near Aurora, eastern North Carolina, USA
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See info. at:
www.fossilguy.com/gallery/vert/mammal/marine/sperm_whale/...
and
en.wikipedia.org/wiki/Physeteroidea
Tags: fossil fossils mammal mammals sperm whale whales Miocene Aurora North Carolina