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CONTENTSBiography of Lamarck 5Lamarck's theory of evolution 8Biography of Darwin 14Darwin's theory of evolution 15
Biography of Lamarck EVOLUTION How grand is this consideration,and especially how remote is it fromall that is generally thought on thissubject!\" Jean Baptiste PierreAntoine de Monet, Chevalier de Lamarck wasborn on August 1, 1744, in the village ofBazentinlePetit in the north of France. He was the youngest of eleven children in afamily with a centuriesold tradition of militaryservice; his father and several of his brotherswere soldiers.
The young Lamarck entered the Jesuitseminary at Amiens around 1756, but not longafter his father's death,Lamarck rode off to jointhe French army campaigning in Germany in the summer of 1761;in his first battle, hedistinguished himself for bravery under fire andwas promoted to officer. After peace was declared in 1763, Lamarckspent five years on garrison duty in the south ofFrance, until an accidental injury forced him toleave the army. After working as a bank clerk inParis for a while, Lamarck began to studymedicine and botany, at which he rapidly becameexpert; in 1778 his book on the plants of France,Flore Française, was published to great acclaim,in part thanks to the support of Buffon.
Lamartchkeo'rsy OF EVOLUTIONUse and Disuse The classic example used to explain theconcept of use and disuse is the elongated neckof the giraffe. According to Lamarck's theory, agiven giraffe could, over a lifetime of straining toreach high branches, develop an elongatedneck. A major downfall of his theory was that hecould not explain how this might happen, thoughhe discussed a \"natural tendency towardperfection.\" Another example Lamarck usedwas the toes of water birds. He proposed thatfrom years of straining their toes to swimthrough water, these birds gained elongated,webbed toes to better their swimming.
These two examples demonstrate how use could change a trait. By the sametoken, Lamarck believed that disuse wouldcause a trait to become reduced. The wings ofpenguins, for example, would be smaller thanthose of other birds because penguins do notuse them to fly.
Lamarckian Inheritance The second part of Lamarck's mechanismfor evolution involved the inheritance ofacquired traits. He believed that traits changedor acquired over an individual's lifetime couldbe passed down to its offspring. Giraffes thathad acquired long necks would have offspringwith long necks rather than the short neckstheir parents were born with. This type ofinheritance, sometimes called Lamarckianinheritance, has since been disproved by thediscovery of hereditary genetics. An extensionof Lamarck's ideas of inheritance that hasstood the test of time, however, is the idea thatevolutionary change takes place gradually andconstantly.
He studied ancient seashells andnoticed that the older they were, the simplerthey appeared. From this, he concluded thatspecies started out simple and consistentlymoved toward complexity, or, as he termedit, closer to perfection.
Biography of Darwin EVOLUTIONSynopsis Naturalist Charles Darwin wasborn in Shrewsbury, England, onFebruary 12, 1809. In 1831, he embarked on afiveyear survey voyage around the world on the HMS Beagle.His studies of specimens around the globe ledhim to formulate his theory of evolution andhis views on the process of natural selection.In 1859, he published On the Origin ofSpecies. He died on April 19, 1882, inLondon.
Darwithne'osry OF EVOLUTIONDarwin's Theory of Evolution The PremiseDarwin's Theory of Evolution is the widely heldnotion that all life is related and has descendedfrom a common ancestor: the birds and thebananas, the fishes and the flowers all related.Darwin's general theory presumes thedevelopment of life from nonlife and stresses apurely naturalistic (undirected) \"descent withmodification\". That is, complex creatures evolvefrom more simplistic ancestors naturally overtime. In a nutshell, as random genetic mutationsoccur within an organism's genetic code, thebeneficial mutations are preserved becausethey aid survival a process known as \"naturalselection.
\" These beneficial mutations are passedon to the next generation. Over time, beneficialmutations accumulate and the result is anentirely different organism.Darwin's Theory ofEvolution Natural Selection While Darwin's Theory of Evolution is arelatively young archetype, the evolutionaryworldview itself is as old as antiquity. AncientGreek philosophers such as Anaximanderpostulated the development of life from nonlifeand the evolutionary descent of man fromanimal. Charles Darwin simply broughtsomething new to the old philosophy aplausible mechanism called \"natural selection.\"Natural selection acts to preserve andaccumulate minor advantageous geneticmutations.
Suppose a member of a speciesdeveloped a functional advantage (it grewwings and learned to fly). Its offspring wouldinherit that advantage and pass it on to theiroffspring.The inferior (disadvantaged)members of the same species would graduallydie out, leaving only the superior (advantaged)members of the species. Natural selection isthe preservation of a functional advantage thatenables a species to compete better in thewild. Natural selection is the naturalisticequivalent to domestic breeding. Over thecenturies, human breeders have produceddramatic changes in domestic animalpopulations by selecting individuals to breed.Breeders eliminate undesirable traits graduallyover time. Similarly, natural selectioneliminates inferior species gradually over time.
Darwin's Theory of Evolution Slowly ButSurely Darwin's Theory of Evolution is a slowgradual process. Darwin wrote, \"…Naturalselection acts only by taking advantage of slightsuccessive variations; she can never take agreat and sudden leap, but must advance byshort and sure, though slow steps.\" Thus,Darwin conceded that, \"If it could bedemonstrated that any complex organ existed,which could not possibly have been formed bynumerous, successive, slight modifications, mytheory would absolutely break down.\" Such acomplex organ would be known as an\"irreducibly complex system\". An irreduciblycomplex system is one composed of multipleparts, all of which are necessary for the systemto function.
If even one part is missing, the entiresystem will fail to function. Every individualpart is integral. Thus, such a system could nothave evolved slowly, piece by piece. Thecommon mousetrap is an everyday nonbiological example of irreducible complexity. Itis composed of five basic parts: a catch (tohold the bait), a powerful spring, a thin rodcalled \"the hammer,\" a holding bar to securethe hammer in place, and a platform to mountthe trap. If any one of these parts is missing,the mechanism will not work. Each individualpart is integral. The mousetrap is irreduciblycomplex.
Darwin's Theory of Evolution A Theory In Crisis Darwin's Theory of Evolution is a theory incrisis in light of the tremendous advances we'vemade in molecular biology, biochemistry andgenetics over the past fifty years. We now knowthat there are in fact tens of thousands ofirreducibly complex systems on the cellularlevel. Specified complexity pervades themicroscopic biological world. Molecular biologistMichael Denton wrote, \"Although the tiniestbacterial cells are incredibly small, weighingless than 1012 grams, each is in effect averitable microminiaturized factory containingthousands of exquisitely designed pieces ofintricate molecular machinery,
made up altogether of one hundredthousand million atoms, far more complicatedthan any machinery built by man and absolutelywithout parallel in the nonliving world.\" And we don't need a microscope toobserve irreducible complexity. The eye, the earand the heart are all examples of irreduciblecomplexity, though they were not recognized assuch in Darwin's day. Nevertheless, Darwinconfessed, \"To suppose that the eye with all itsinimitable contrivances for adjusting the focus todifferent distances, for admitting differentamounts of light, and for the correction ofspherical and chromatic aberration, could havebeen formed by natural selection, seems, Ifreely confess, absurd in the highest degree.\"
Referable Biography.com Editors. (2015). CharlesDarwin Biography. Retrieved (30 Oct 2016),Available fromhttp://www.biography.com/people/charlesdarwin9266433. Famousscientists.org. JeanBaptisteLamarck. Retrieved (30 Oct 2016), Availablefrom https://www.famousscientists.org/jeanbaptistelamarck/ Reece, J. B., & Campbell, N. A. (2011).Campbell biology. Boston: BenjaminCummings / Pearson. Losos, J. B., Mason, K. A., Singer, S. R.,Raven, P. H., & Johnson, G. B. (2008).Biology. McGrawHill.
MEMBEROF GROUP CHOMKANAPHAPAS MALIPHOL M.6/6 NO.25 NONGNART DETPARKUL M.6/6 NO.30 PINTHUSORN NGAMPONGPHAN M.6/6 NO.32 AM Y 9-14 2017
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