linkedin post 2020-09-20 06:00:08

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SO ENDS this second weekend looking at the transition of the whale family of vertebrates back to the sea. This complicated evolution, once from the sea to the land, and then back again is an example of adaptive plasticity. The phenotype is moldable clay, that can endure seemingly unlimited changes during evolution, turning limbs into wings in some insects, and wrenching the faces of flatfish from vertical orientation. But the whales are a wonderful example of wholesale remodeling of not just anatomical phenotype, but physiology and metabolism by the direction of genes. View in LinkedIn
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linkedin post 2020-09-20 05:50:21

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MOLECULAR UNDERPINNINGS. "Cetacea (whales, dolphins, and porpoises) is a model group for investigating the molecular signature of macroevolutionary transitions. Recent research has begun to reveal the molecular underpinnings of the remarkable anatomical and behavioral transformation in this clade. This shift from terrestrial to aquatic environments is arguably the best-understood major morphological transition in vertebrate evolution." https://lnkd.in/d8XpCvA View in LinkedIn
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linkedin post 2020-09-20 05:46:07

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OTHER ADAPTATIONS. "Some cetaceans show extreme longevity, as well as resistance to cancer, wound healing and insulin resistance. Other major adaptations pertain to feeding ecology; indeed, modern cetaceans diverged approximately 34 Ma into the toothed whales (suborder Odontoceti), which evolved echolocation to hunt using ultrasonic pulses and possess a highly specialized inner ear, and the baleen whales (suborder Mysticeti), which lost their teeth and instead evolved a novel keratinous material for filtering smaller prey." http://rsos.royalsocietypublishing.org/content/2/9/150156 View in LinkedIn
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linkedin post 2020-09-20 05:42:42

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EXTREME SPECIALIZATION. "Cetaceans are arguably the most specialized of all mammals, having evolved from a terrestrial ancestor to occupy an obligate aquatic niche. Modern cetaceans show numerous phenotypic adaptations for life in the water; aside from the radical reorganization of their forelimbs into fins and loss of hindlimbs, they are able to dive and tolerate low oxygen, and possess modified circulatory and respiratory systems, large brains, hairlessness and transformations in sensory perception." https://lnkd.in/d6aiUba View in LinkedIn
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linkedin post 2020-09-20 05:40:46

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ENORMOUS SUCCESS. "The cetaceans, including whales, dolphins and purpoises, are thought to be among the most successful animals to have ever transitioned from land back to the sea, beginning about 50–55 Ma. Over eons, along with losing limbs and hair, growing tails, and gaining blubber, the remarkable evolutionary changes also included a dramatic dietary change, from herbivorous to carnivorous." https://lnkd.in/dHjVr6G View in LinkedIn
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linkedin post 2020-09-20 05:39:08

linkedin post 2020-09-20 05:39:08

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BONE DENSITY MODIFICATIONS. "All these taxa display bone mass increase (BMI) in their ribs, which lack an open medullary cavity, and in their femora, whereas their vertebrae are essentially spongious. Humeri and femora show opposite trends in microanatomical specialization in the progressive independence of cetaceans from a terrestrial environment." http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0118409 View in LinkedIn
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linkedin post 2020-09-22 02:59:36

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HISTORICAL STATEMENT. "The nervous system of animals serves the acquisition, memorization and recollection of information. Like animals, plants also acquire a huge amount of information from their environment, yet their capacity to memorize and organize learned behavioral responses has not been demonstrated." (Mancuso) https://lnkd.in/dH68RKn View in LinkedIn
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