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Post by fretslider on Jan 19, 2018 4:19:27 GMT -5
There are 3 music gnomes living in one of my guitar cases... I hope you are making the most of it and enjoyiing their company.!!! I leave offerings to the music gnomes on the holy amplifier. And they're very picky; it has to be a Marshall Occasionally they visit me in a waking dream and we discuss the relationships among the 12 tones of the chromatic scale, their corresponding key signatures, and the major and minor keys. Most illuminating.
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Post by fretslider on Jan 19, 2018 4:39:30 GMT -5
Flowers are modified leaves. We know their purpose and function. Algae are not plants. They are aquatic plants! Plants could use the same chemical, why don't they? Have you not checked the morphology? Plants have roots, stems, leaves, flowers, fruits, seeds and cones. Algae have holdfasts, stapes and blades. Plants are multicellular. Algae can be unicellular, multicellular and even colonial (parasitic or symbiotic). So why are red algae, red? Rhodophytes are characterised by their utilisation of photosynthetic pigments phycoerythrin, phycocyanin and allophycocyanins - arranged in phycobilisomes. Light in the ocean is somewhat different beneath the surface.
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Post by Scottish Lassie on Jan 19, 2018 8:42:36 GMT -5
I hope you are making the most of it and enjoyiing their company.!!! I leave offerings to the music gnomes on the holy amplifier. And they're very picky; it has to be a Marshall Occasionally they visit me in a waking dream and we discuss the relationships among the 12 tones of the chromatic scale, their corresponding key signatures, and the major and minor keys. Most illuminating. I'm really happy for you.!!!
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Post by kronks on Jan 20, 2018 1:01:51 GMT -5
They are aquatic plants! Plants could use the same chemical, why don't they? Have you not checked the morphology? Plants have roots, stems, leaves, flowers, fruits, seeds and cones. Algae have holdfasts, stapes and blades. Plants are multicellular. Algae can be unicellular, multicellular and even colonial (parasitic or symbiotic). So why are red algae, red? Rhodophytes are characterised by their utilisation of photosynthetic pigments phycoerythrin, phycocyanin and allophycocyanins - arranged in phycobilisomes. Light in the ocean is somewhat different beneath the surface. Yes it is. Red light can't penetrate far so it is not absorbed and hence reflected. However on land all wavelengths red blue green are available!
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Post by fretslider on Jan 20, 2018 5:33:05 GMT -5
I leave offerings to the music gnomes on the holy amplifier. And they're very picky; it has to be a Marshall Occasionally they visit me in a waking dream and we discuss the relationships among the 12 tones of the chromatic scale, their corresponding key signatures, and the major and minor keys. Most illuminating. I'm really happy for you.!!! I know what you like to hear.
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Post by fretslider on Jan 20, 2018 5:48:09 GMT -5
Have you not checked the morphology? Plants have roots, stems, leaves, flowers, fruits, seeds and cones. Algae have holdfasts, stapes and blades. Plants are multicellular. Algae can be unicellular, multicellular and even colonial (parasitic or symbiotic). So why are red algae, red? Rhodophytes are characterised by their utilisation of photosynthetic pigments phycoerythrin, phycocyanin and allophycocyanins - arranged in phycobilisomes. Light in the ocean is somewhat different beneath the surface. Yes it is. Red light can't penetrate far so it is not absorbed and hence reflected. However on land all wavelengths red blue green are available! Plants do not utilise phycoerythrin, phycocyanin or allophycocyanins. Chlorophyll, as shown above, absorbs very little light between ~500 to ~650 nm Ergo, plants reflect the colour green.
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Post by Scottish Lassie on Jan 20, 2018 18:43:05 GMT -5
I'm really happy for you.!!! I know what you like to hear. It's nice of you to be so considerate. Thanks heaps.!!!
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Post by kronks on Jan 21, 2018 1:07:47 GMT -5
Yes it is. Red light can't penetrate far so it is not absorbed and hence reflected. However on land all wavelengths red blue green are available! Plants do not utilise phycoerythrin, phycocyanin or allophycocyanins. Chlorophyll, as shown above, absorbs very little light between ~500 to ~650 nm Ergo, plants reflect the colour green. Yes but why not use it if is available? That is the issue.
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Post by fretslider on Jan 21, 2018 5:13:16 GMT -5
Plants do not utilise phycoerythrin, phycocyanin or allophycocyanins. Chlorophyll, as shown above, absorbs very little light between ~500 to ~650 nm Ergo, plants reflect the colour green. Yes but why not use it if is available? That is the issue. They're terrestrial...
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Post by kronks on Feb 6, 2018 21:47:00 GMT -5
Yes but why not use it if is available? That is the issue. They're terrestrial... What difference does it make? It is still available.
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Post by fretslider on Feb 7, 2018 5:17:34 GMT -5
What difference does it make? It is still available. What's the difference? Seriously? Terrestrial: On or relating to the earth. Marine: Relating to or found in the sea. It's quite a difference, so much so that it requires entirely different systems of respiration; and in the case of plants, transpiration. Available for what?
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Post by kronks on Feb 8, 2018 1:53:08 GMT -5
What difference does it make? It is still available. What's the difference? Seriously? Terrestrial: On or relating to the earth. Marine: Relating to or found in the sea. It's quite a difference, so much so that it requires entirely different systems of respiration; and in the case of plants, transpiration. Available for what? No it does not, there is no scientific reason why land based plants could not use green light, so why don't they.
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Post by fretslider on Feb 9, 2018 5:14:47 GMT -5
What's the difference? Seriously? Terrestrial: On or relating to the earth. Marine: Relating to or found in the sea. It's quite a difference, so much so that it requires entirely different systems of respiration; and in the case of plants, transpiration. Available for what? No it does not, there is no scientific reason why land based plants could not use green light, so why don't they. Go back up the thread and read. I've already posted the answer to that. gatesofbabylon.com/post/235440/threadRemember, algae are not plants and plants have no phycoerythrin, phycocyanin or allophycocyanins. Terrestrial animals have lungs suited to a gaseous environment for gas exchange. Marine animals live in water. Lungs don't work there. Try it and see.
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Post by kronks on Feb 10, 2018 2:23:18 GMT -5
No it does not, there is no scientific reason why land based plants could not use green light, so why don't they. Go back up the thread and read. I've already posted the answer to that. gatesofbabylon.com/post/235440/threadRemember, algae are not plants and plants have no phycoerythrin, phycocyanin or allophycocyanins. Terrestrial animals have lungs suited to a gaseous environment for gas exchange. Marine animals live in water. Lungs don't work there. Try it and see. The question is why they do not have phycoerythrin, phycocyanin or allophycocyanins. Lungs do not extra energy from light and hence are not relevant. Lungs require water, and mammals do not have water available in their lungs however plants do have green light available!
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Post by fretslider on Feb 10, 2018 11:09:49 GMT -5
Go back up the thread and read. I've already posted the answer to that. gatesofbabylon.com/post/235440/threadRemember, algae are not plants and plants have no phycoerythrin, phycocyanin or allophycocyanins. Terrestrial animals have lungs suited to a gaseous environment for gas exchange. Marine animals live in water. Lungs don't work there. Try it and see. The question is why they do not have phycoerythrin, phycocyanin or allophycocyanins. Lungs do not extra energy from light and hence are not relevant. Lungs require water, and mammals do not have water available in their lungs however plants do have green light available! The question is why they do not have phycoerythrin, phycocyanin or allophycocyanins.No it isn't. They are utilised in a marine environment where light is absorbed and is altered. On land they are unnecessary. Lungs require water and mammals do not have water in their lungs? You truly are an idiot. The technical term for fluid in the lungs is... Pulmonary Oedema As the lungs fill with fluid so breathing becomes increasingly difficult until the patient drowns... One reason why chlorine and mustard gas were used.
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