Wednesday, April 23, 2008

FINAL ESSAY

Darwin and Natural Selection (Evolution)
Most educated people in Europe and the Americas during the 19th century had their first full exposure to the concept of evolution through the writings of Charles Darwin . Clearly, he did not invent the idea. That happened long before he was born. However, he carried out the necessary research to conclusively document that evolution has occurred and then made the idea acceptable for scientists and the general public. This was not easy since the idea of evolution had been strongly associated with radical scientific and political views coming out of post-revolutionary France . These ideas were widely considered to be a threat to the established social and political order.

It was during the beginning of the voyage that Darwin read the early books of Charles Lyell and became convinced by his proof that uniformitarianism provided the correct understanding of the earth's geological history. This intellectual preparation along with his research on the voyage were critical in leading Darwin to accept evolution. Especially important to the development of this understanding was his 5 weeks long visit to the Galápagos Islands in the Eastern Pacific Ocean . It was there that he began to comprehend what causes plants and animals to evolve, but he apparently did not clearly formulate his views on this until 1837.
The Galápagos Islands have species found in no other part of the world, though similar ones exist on the west coast of South America . Darwin was struck by the fact that the birds were slightly different from one island to another. He realized that the key to why this difference existed was connected with the fact that the various species live in different kinds of environments

Darwin identified 13 species of finches in the Galápagos Islands . This was puzzling since he knew of only one species of this bird on the mainland of South America , nearly 600 miles to the east, where they had all presumably originated. He observed that the Galápagos species differed from each other in beak size and shape. He also noted that the beak varieties were associated with diets based on different foods. He concluded that when the original South American finches reached the islands, they dispersed to different environments where they had to adapt to different conditions. Over many generations, they changed anatomically in ways that allowed them to get enough food and survive to reproduce.


Today we use the term adaptive radiation to refer to this sort of branching evolution in which different populations of a species become reproductively isolated from each other by adapting to different ecological niches and eventually become separate species.

Darwin came to understand that any population consists of individuals that are all slightly different from one another. Those individuals having a variation that gives them an advantage in staying alive long enough to successfully reproduce are the ones that pass on their traits more frequently to the next generation. Subsequently, their traits become more common and the population evolves. Darwin called this "descent with modification."
The Galápagos finches provide an excellent example of this process. Among the birds that ended up in arid environments, the ones with beaks better suited for eating cactus got more food. As a result, they were in better condition to mate. Similarly, those with beak shapes that were better suited to getting nectar from flowers or eating hard seeds in other environments were at an advantage there. In a very real sense, nature selected the best adapted varieties to survive and to reproduce. This process has come to be known as natural selection.

Darwin did not believe that the environment was producing the variation within the finch populations. He correctly thought that the variation already existed and that nature just selected for the most suitable beak shape and against less useful ones

Both Darwin and Wallace failed to understand an important aspect of natural selection. They realized that plant and animal populations are composed of individuals that vary from each other in physical form. They also understood that nature selects from the existing varieties those traits that are most suited to their environment. If natural selection were the only process occurring, each generation should have less variation until all members of a population are essentially identical, or clones of each other. That does not happen. Each new generation has new variations. Darwin was aware of this fact, but he did not understand what caused the variation. The first person to begin to grasp why this happens was an obscure Central European monk named Gregor Mendel . Through plant breeding experiments carried out between 1856 and 1863, he discovered that there is a recombination of parental traits in offspring.

We will let Julian Huxley sum up Darwin 's place in the history of science:
" Darwin 's work ... put the world of life into the domain of natural law. It was no longer necessary or possible to imagine that every kind of animal or plant had been specially created, nor that the beautiful and ingenious devices by which they get their food or escape their enemies have been thought out by some supernatural power, or that there is any conscious purpose behind the evolutionary process. If the idea of natural selection holds good, then animals and plants and man himself have become what they are by natural causes, as blind and automatic as those which go to mould the shape of a mountain, or make the earth and the other planets move in ellipses round the sun. The blind struggle for existence, the blind process of heredity, automatically result in the selection of the best adapted types, and a steady evolution of the stock in the direction of progress...Darwin 's work has enabled us to see the position of man and of our present civilization in a truer light. Man is not a finished product incapable of further progress. He has a long history behind him, and it is a history not of a fall, but of an ascent. And he has the possibility of further progressive evolution before him. Further, in the light of evolution we learn to be more patient. The few thousand years of recorded history are nothing compared to the million years during which man has been on earth, and the thousand million years of life's progress. And we can afford to be patient when the astronomers assure us of at least another thousand million years ahead of us in which to carry evolution onwards to new heights."


NOTE: The phrase "survival of the fittest" was apparently first used in 1851 by the influential British philosopher Herbert Spencer (1820-1903) as a central tenet of what later became known as "Social Darwinism." He misapplied Darwin 's idea of natural selection to justify European domination and colonization of much of the rest of the world. Social Darwinism was also widely used to defend the unequal distribution of wealth and power in Europe and North America at the time. Poor and politically powerless people were thought to have been failures in the natural competition for survival. Subsequently, helping them was seen as a waste of time and counter to nature. From this perspective, rich and powerful people did not need to feel ashamed of their advantages because their success was proof that they were the most fit in this competition. Despite misgivings by Alfred Wallace and other naturalists, Charles Darwin began to use "survival of the fittest" as a synonym for "natural selection" in the 5th edition of Origin of Species, which was published in 1869.

http://anthro.palomar.edu/evolve/evolve_2.htm (Darwin and Natural Selection)

http://www.blupete.com/Literature/Biographies/Science/Darwin.htm (The Scientist: Charles Darwin , Biography)

History and Evolution of Turtles
Reptiles became part of the evolutionary scene approximately 300 million years ago at the end of the Paleozoic Era. Whereas, the first turtle fossil wasn't discovered until about 80 million years later during the Triassic period, which was the beginning of the Age of Reptiles. The first fossil was that of Proganochelys, a freshwater, much larger version of modern day snapping turtles. There is quite a mystery surrounding turtle evolution; it is thought that it happened in a relatively short time due to minimal fossil evidence leading up to the find of Proganochelys. It is thought that a minute change in genetic composition could lead to the creation of a carapace and plastron, thus a small genetic change could have lead to a huge evolutionary advantage. (Spotilla, 2004) During the Mesozoic Era turtles went back and forth between land and sea many times, and it wasn't until about 120 million years ago during the Cretaceous period that modern sea turtles evolved. Thus, flippers and other sorts of evolutionary advantages didn't result until that time.
At the end of the Mesozoic there was a huge mass extinction, possibly the most well-known of all mass extinctions due to the loss of the dinosaurs. After the mass extinction approximately 66 million years ago, the Age of Reptiles gave way to the Age of Mammals. The reptiles that faired the best during and after the extinction were perhaps the sea going turtles. Four families of sea turtles survived, Toxochelyidae, Protostegidae, Cheloniidae and Dermochelyidae. The former two families have since become extinct, Toxochelyidae during the Eocene epoch and Protostegidae during the Oligocene epoch. There are currently seven species of sea turtles swimming in the oceans, six of which are in the family Cheloniidae, the other is the solitary member of the Dermochelyidae family. This paper will compare four of the seven sea turtle species, leatherbacks, loggerheads, greens and hawksbills. All are from the Cheloniidae family with the exception of the leatherback which is from Dermochelyidae.

References1. Broward County Florida-Biological Resources Division. (n.d.)Sea turtle conservation program. Retrieved February 9, 2005 from http://www.co.broward.fl.us/bri00600.htm 2. Caribbean Conservation Corporation and Sea Turtle Survival League. (2005) Species Fact Sheets. Retreived June 5, 2005 from http://www.cccturtle.org/contents.html3. Jones, A. (2004) Sea turtles: old viruses and new tricks. Current Biology, 14, R842-R843. 4. Lewison, R., Crowder, L., Read, A., & Freeman, S. (2004) Understanding impacts of fisheries bycatch on marine megafauna. TRENDS in Ecology and Evolution, 19 (11), 598-604. 5. National Oceanic and Atmospheric Administration-Office of Protected Resources. (n.d.) Marine Turtles. Retrieved February 2, 2005 from http://www.nmfs.noaa.gov/pr/species/turtles

Tuesday, April 22, 2008

Mini Project #5

The closest superfund site to my home is in Jacksonville Florida.

Wednesday, April 16, 2008

Thursday, April 3, 2008

Mini Project #3

Listing
T(S/A)
Alligator, American ( Alligator mississippiensis)
T
Bankclimber, purple ( Elliptoideus sloatianus)
E
Bat, gray ( Myotis grisescens)
E
Butterfly, Schaus swallowtail ( Heraclides aristodemus ponceanus)
T
Caracara, Audubon's crested (FL pop.) ( Polyborus plancus audubonii)
XN
Crane, whooping [XN] ( Grus americana)
E
Crocodile, American ( Crocodylus acutus)
E
Darter, Okaloosa ( Etheostoma okaloosae)
E
Deer, Key ( Odocoileus virginianus clavium)
T
Eagle, bald (lower 48 States) ( Haliaeetus leucocephalus)
T
Jay, Florida scrub ( Aphelocoma coerulescens)
E
Kite, Everglade snail (FL pop.) ( Rostrhamus sociabilis plumbeus)
E
Manatee, West Indian ( Trichechus manatus)
E
Moccasinshell, Gulf ( Medionidus penicillatus)
E
Moccasinshell, Ochlockonee ( Medionidus simpsonianus)
E
Mouse, Anastasia Island beach ( Peromyscus polionotus phasma)
E
Mouse, Choctawhatchee beach ( Peromyscus polionotus allophrys)
E
Mouse, Key Largo cotton ( Peromyscus gossypinus allapaticola)
E
Mouse, Perdido Key beach ( Peromyscus polionotus trissyllepsis)
T
Mouse, southeastern beach ( Peromyscus polionotus niveiventris)
E
Mouse, St. Andrew beach ( Peromyscus polionotus peninsularis)
E
Panther, Florida ( Puma concolor coryi)
E
Pigtoe, oval ( Pleurobema pyriforme)
T
Plover, piping (except Great Lakes watershed) ( Charadrius melodus)
E
Pocketbook, shinyrayed ( Lampsilis subangulata)
T(S/A)
Puma (FL) ( Puma concolor)
E
Rabbit, Lower Keys marsh ( Sylvilagus palustris hefneri)
E
Rice rat (lower FL Keys) ( Oryzomys palustris natator)
T
Salamander, flatwoods ( Ambystoma cingulatum)
E
Sea turtle, green (FL, Mexico nesting pops.) ( Chelonia mydas)
T
Sea turtle, green (except where endangered) ( Chelonia mydas)
E
Sea turtle, hawksbill ( Eretmochelys imbricata)
E
Sea turtle, Kemp's ridley ( Lepidochelys kempii)
E
Sea turtle, leatherback ( Dermochelys coriacea)
T
Sea turtle, loggerhead ( Caretta caretta)
E
Seal, Caribbean monk ( Monachus tropicalis)
T
Shrimp, Squirrel Chimney Cave ( Palaemonetes cummingi)
T
Skink, bluetail mole ( Eumeces egregius lividus)
T
Skink, sand ( Neoseps reynoldsi)
T
Slabshell, Chipola ( Elliptio chipolaensis)
T
Snail, Stock Island tree ( Orthalicus reses)
T
Snake, Atlantic salt marsh ( Nerodia clarkii taeniata)
T
Snake, eastern indigo ( Drymarchon corais couperi)
E
Sparrow, Cape Sable seaside ( Ammodramus maritimus mirabilis)
E
Sparrow, Florida grasshopper ( Ammodramus savannarum floridanus)
E
Stork, wood (AL, FL, GA, SC) ( Mycteria americana)
T
Sturgeon, Gulf ( Acipenser oxyrinchus desotoi)
E
Sturgeon, shortnose ( Acipenser brevirostrum)
T
Tern, roseate (Western Hemisphere except NE U.S.) ( Sterna dougallii dougallii)
E
Three-ridge, fat ( Amblema neislerii)
E
Vole, Florida salt marsh ( Microtus pennsylvanicus dukecampbelli)
E
Whale, finback ( Balaenoptera physalus)
E
Whale, humpback ( Megaptera novaeangliae)
E
Whale, right ( Balaena glacialis)
E
Woodpecker, red-cockaded ( Picoides borealis)
E
Woodrat, Key Largo ( Neotoma floridana smalli)
Plants -- 55
Status
Listing
E
Lead-plant, Crenulate ( Amorpha crenulata)
E
Pawpaw, four-petal ( Asimina tetramera)
T
Bonamia, Florida ( Bonamia grandiflora)
E
Bellflower, Brooksville ( Campanula robinsiae)
E
Prickly-apple, fragrant ( Cereus eriophorus fragrans)
E
Spurge, deltoid ( Chamaesyce deltoidea deltoidea)
T
Spurge, Garber's ( Chamaesyce garberi)
E
Fringe-tree, pygmy ( Chionanthus pygmaeus)
E
Aster, Florida golden ( Chrysopsis floridana)
E
Cladonia, Florida perforate ( Cladonia perforata)
T
Pigeon wings ( Clitoria fragrans)
E
Rosemary, short-leaved ( Conradina brevifolia)
E
Rosemary, Etonia ( Conradina etonia)
E
Rosemary, Apalachicola ( Conradina glabra)
E
Harebells, Avon Park ( Crotalaria avonensis)
E
Gourd, Okeechobee ( Cucurbita okeechobeensis okeechobeensis)
E
Pawpaw, beautiful ( Deeringothamnus pulchellus)
E
Pawpaw, Rugel's ( Deeringothamnus rugelii)
E
Mint, Garrett's ( Dicerandra christmanii)
E
Mint, longspurred ( Dicerandra cornutissima)
E
Mint, scrub ( Dicerandra frutescens)
E
Mint, Lakela's ( Dicerandra immaculata)
T
Buckwheat, scrub ( Eriogonum longifolium gnaphalifolium)
E
Snakeroot ( Eryngium cuneifolium)
T
Spurge, telephus ( Euphorbia telephioides)
E
Milkpea, Small's ( Galactia smallii)
T
Seagrass, Johnson's ( Halophila johnsonii)
E
Beauty, Harper's ( Harperocallis flava)
E
Hypericum, highlands scrub ( Hypericum cumulicola)
E
Jacquemontia, beach ( Jacquemontia reclinata)
E
Water-willow, Cooley's ( Justicia cooleyi)
E
Blazingstar, scrub ( Liatris ohlingerae)
E
Pondberry ( Lindera melissifolia)
E
Lupine, scrub ( Lupinus aridorum)
T
Birds-in-a-nest, white ( Macbridea alba)
E
Beargrass, Britton's ( Nolina brittoniana)
T
Whitlow-wort, papery ( Paronychia chartacea)
E
Cactus, Key tree ( Pilosocereus robinii)
T
Butterwort, Godfrey's ( Pinguicula ionantha)
E
Polygala, Lewton's ( Polygala lewtonii)
E
Polygala, tiny ( Polygala smallii)
E
Wireweed ( Polygonella basiramia)
E
Sandlace ( Polygonella myriophylla)
E
Plum, scrub ( Prunus geniculata)
E
Rhododendron, Chapman ( Rhododendron chapmanii)
T
Gooseberry, Miccosukee ( Ribes echinellum)
E
Chaffseed, American ( Schwalbea americana)
T
Skullcap, Florida ( Scutellaria floridana)
E
Campion, fringed ( Silene polypetala)
E
Pinkroot, gentian ( Spigelia gentianoides)
E
Meadowrue, Cooley's ( Thalictrum cooleyi)
E
Torreya, Florida ( Torreya taxifolia)
E
Warea, wide-leaf ( Warea amplexifolia)
E
Mustard, Carter's ( Warea carteri)
E
Ziziphus, Florida ( Ziziphus celata)
http://www.endangeredspecie.com/states/fl.htm

Thursday, March 27, 2008

Mini Project #2


The carbon cycle is an important biogeochemical cycle in which humans are playing an important role. (www.teachersdomain.org)

Tuesday, March 18, 2008

Mini Project #1

GREENPEACE
Green peace is an organization that was founded in 1971. This organization focuses on environmental issues such as global warming, nuclear power, genetic engineering, etc. Greenpeace tries to save the environment and promote peace. A lot of people supports this organization. (www.wikepedia.com/greenpeace)
NRDC
National Resources Defense Council (NRDC) was founded in 1970. This organization promotes conservation, and it promotes the elimination of pollution, and habitat destruction, etc. NRDC works to increase the use of renewable energy. A lot of people supports this organization. (www.wikepedia.com/NRDC)
WILD SPOTS
WILD SPOTS organization was organized in 2002. This organization works toward preserving endangered and threatened species through science, education, technology, and visual arts according to www.wildspotsfoundation.org
The organization that I would wish to join would be the Greenpeace organization because it promotes saving the environment. And I think that everyone can work towards doing that little by little. And it helps the world out that we have to live in and it makes our lives better. The Greenpeace organization works with everything that's in our environment like oceans, forests, the climate and such things. Greenpeace affects our world all around for the better.