That's hilarious and in blatant violation of the Second Law of Thermodynamics: http://www.gasresources.net/ThrmcCnstrnts.htm "Natural petroleum has no connection with biological matter." -- Jack F. Kenney, 2001 "The elemental distribution in the crude oil from all studied deposits does not match such of any known crustal rock." -- Kirill S. Ivanov, 2007 There are no hydrocarbons in plants. Hydrogen and carbon in plants are always attached to oxygen and nitrogen. Carbohydrates are not hydrocarbons...Please Register or Log in to view the hidden image! Your map is a joke. Russia, Pennsylvania, Burgan, and Ghawar are in total darkness on your dinosaur nest map.
As far as hydrocarbons ect... the different branch names you chose to use you should figure out your argument of chemistry. If the locations that you name Russia, Pennsylvania, Burgan, and Ghawar are in total darkness then that increases the probality of oil or coal deposits in those regions. Let me give you another point of reference, the lipids are the essential constituets of practically all plant and animal cells, they give structure to living form. They may be saturated or unstaturated. Lipid structures form the cell membranes of cells, the cell membrane comprise most of the carbon in the living body. lipids are themselves made up of long chains of hydrocarbons, CH2 and CH3 and even CH4, (long rows of these hydrocarbons are lipids which inturn make cell membranes). The lipids of the living organism is the same as the hydrocarbons found in oil. if you want to make specific seperations of carbohydrates and sugars, and fats ect... thats fine but they are all hydrocarbons. so you will find carbohatrates in your lipids ect... DwayneD.L.Rabon A list of the hydrocarbon chains found in oil(petroleum) Methane CH4 Ethane C2H6 Propane C3H8 Butane C4H10 Pentane C5H12 Hexane C6H14 HeptaneC7H16 Octane C8H18 Nonane C9H20 Decane C10H22 Undecane C11H24 Dodecane C12H26 Tridecane C13H28 Tetracane C14H30 PentadecaneC15H32 Hexadecane C16H34 Heptadecane C17H36 Octadecane C18H38 Nonadecane C18H40 Eicosane C20H42 Distillation Fractions form a typical petroleum 2% Gases C1 to C5 2% Petroleum ether C5 to C7 32%Gasoline C6 to C12 18%Kerosene C12 to C15 20%Gas oil (fuel oil) C15 to…… Lubercating oils C19 to…. C = the length of the carbon chain. (example C1 to C5 means Methane,Ethane,Propane,Butane and Pentane) List of Lipids (fats) those of organic compounds found in life forms (just the hydrocarbon chain) Butyric C3H7 Caproic C5H11 Caprylic C7H15 Capric C9H19 Lauric C11H23 Myristic C13H27 Palmitic C15H31
Carbohydrates are not hydrocarbons...Please Register or Log in to view the hidden image! They have oxygen and nitrogen in them. Hydrocarbons do not. http://www.gasresources.net/DisposalBioClaims.htm
OilIsMastery I suggest you look up 'decarboxylation' it involves the elimination of Carbondioxide from carboxylic acids to form alkanes. There's a variety of ways of doing it, it happens with heating, but it happens slowly, and requires the use of various reagents to speed it up to make it useful in a laboratory.
And I suggest you look up the modern Russian-Ukrainian theory of deep abiotic petroleum origin. You might also look up "mantle" (no biological molecule can survive in the mantle), "serpentization", "serpentine plugs", "Travis volcanic mounds", "solfataric volcanoes", and " methane cryo-volcanoes".
Strawman - none of this is actually relevant to my initial point. The claim 'no biological molecule can survive the mantle' is irrlevant to the claim 'carboxylic acids become alkanes on heating'. Serpentine is a secondary mineral (an oxidation product) of minerals including olivine, and orthopyroxine, and typically occurs in serpentites (altered olive bearing rocks - simply (potentialy) indicating hydrothermal activity after vulcanism. This has nothing (directly) to do with the production of oil, except for implying a heat source. Travis volcanic mounds are seamounts that erupted in the cretaceous, and now have oil in the sedimentary layers associated with them, and because of their structure have a high potential to trap oil, and they happen to have serpentite plugs associated with them (Hmmm Marine sedmients + Hydrothermal activity (heat) + burial). Sulfataric volcano refers to a specific type of gas driven activity, that as well as producing the usual volatiles, produces sulfur - essentially similar to fumarolic activity. Although, I see from your blog that you've managed to convince yourself that because 'explosive' is used as an adjective, methane must be present. Methane cryovolcanism is irrelevant - it doesn't occur on earth. None of your points have anything to do with my assertion that it's possible to produce alkanes by the decarboxylation of fatty acids.
Ok here we go.... I have consulted the Black Pearl index compiled by DR. Rabon. The Current list of HydroCarbons in earths crust is 11,641,623 cubic miles of hydrocarbons. (0.004% earth) DwayneD.L.Rabon
That's because your initial point is irrelevant. Oxygen has nothing to do with hydrocarbons. It's relevant because complex hydrocarbons can only be formed at pressures above 30 kilobar: http://www.pnas.org/content/99/17/10976.full http://www.agu.org/pubs/crossref/2005/2005GL022691.shtml "The elemental distribution in the crude oil from all studied deposits does not match such of any known crustal rock." -- Kirill S. Ivanov, 2007 Congratulations. LOL. Oxygen and fatty acids are irrelevant. Complex hydrocarbons can only be formed at pressures above 30 kilobar. No biological molecule can survive in the mantle.