Autumn Off Gassing

Wereworg

Member
What is it in the air this time of year that makes us feel the way we do? I find it invigorating -- its just that smell, the air is different (I notice the air where ever I go). What is our planet doing at this time thats contributes to this. A friend of mine sugested wisely that it may be plant off gassings while going through the yealry color change. I should really like to know as it makes me feel more wonderfull than any high.:blsmoke:

While we are on this subject I seem to once have heard a term called "Autumn Off" meaning to "Autumn Off your plants" as in "for flavor". It had something to do with the leaves changing colors -even black- and the after product was said to be more fine... Anybody know anything?
 

cannawizard

Well-Known Member
We all enjoy the colors of autumn.The changing fall foliage never fails to suprise and delight us. Did you ever wonder how and why a fall leaf changes color? Why a maple leaf turns bright red? Where do the yellows and oranges come from? To answer those questions, we first have to understand what leaves are and what they do.





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Leaves are nature's food factories. Plants take water from the ground through their roots. They take a gas called carbon dioxide from the air. Plants use sunlight to turn water and carbon dioxide into oxygen and glucose. Oxygen is a gas in the air that we need to breathe. Glucose is a kind of sugar. Plants use glucose as food for energy and as a building block for growing. The way plants turn water and carbon dioxide into oxygen and sugar is called photosynthesis. That means "putting together with light." A chemical called chlorophyll helps make photosynthesis happen. Chlorophyll is what gives plants their green color.

As summer ends and autumn comes, the days get shorter and shorter. This is how the trees "know" to begin getting ready for winter.

During winter, there is not enough light or water for photosynthesis. The trees will rest, and live off the food they stored during the summer. They begin to shut down their food-making factories. The green chlorophyll disappears from the leaves. As the bright green fades away, we begin to see yellow and orange colors. Small amounts of these colors have been in the leaves all along. We just can't see them in the summer, because they are covered up by the green chlorophyll.




The bright reds and purples we see in leaves are made mostly in the fall. In some trees, like maples, glucose is trapped in the leaves after photosynthesis stops. Sunlight and the cool nights of autumn cause the leaves turn this glucose into a red color. The brown color of trees like oaks is made from wastes left in the leaves.

It is the combination of all these things that make the beautiful fall foliage colors we enjoy each year.


WHY DO LEAVES CHANGE COLOR IN THE FALL?

[SIZE=+1]Plants make their own food. They take water from the ground through their roots. They take a gas called carbon dioxide from the air. They turn water and carbon dioxide into food and oxygen. Oxygen is a gas in the air that we need to breathe. [/SIZE]

[SIZE=+1]Plants make their food using sunlight and something called chlorophyll. Chlorophyll gives leaves their green color. [/SIZE]



[SIZE=+1]
[/SIZE]

[SIZE=+1]Winter days are short and dry. Many plants stop making food in the fall. The chlorophyll goes away. Then we can see orange and yellow colors. These colors were in the leaves all summer, but the green covered them up. Some leaves turn red. This color is made in the fall, from food trapped in the leaves. Brown colors are also made in the fall. They come from wastes left in the leaves.[/SIZE]


HOW PLANTS PREPARE FOR WINTER

All summer, with the long hours of sunlight and a good supply of liquid water, plants are busy making and storing food, and growing. But what about wintertime? The days are much shorter, and water is hard to get. Plants have found many different ways to get through the harsh days of winter.



Some plants, including many garden flowers, are called "annuals," which means they complete their life cycle in one season. They die when winter comes, but their seeds remain, ready to sprout again in the spring. "Perennials" live for more than two years. This category includes trees and shrubs, as well as herbaceous plants with soft, fleshy stems. When winter comes, the woody parts of trees and shrubs can survive the cold. The above ground parts of herbaceous plants (leaves, stalks) will die off, but underground parts (roots, bulbs) will remain alive. In the winter, plants rest and live off stored food until spring.

As plants grow, they shed older leaves and grow new ones. This is important because the leaves become damaged over time by insects, disease and weather. The shedding and replacement continues all the time. In addition, deciduous trees, like maples, oaks and elms, shed all their leaves in the fall in preparation for winter.



"Evergreens" keep most of their leaves during the winter. They have special leaves, resistant to cold and moisture loss. Some, like pine and fir trees, have long thin needles. Others, like holly, have broad leaves with tough, waxy surfaces. On very cold, dry days, these leaves sometimes curl up to reduce their exposed surface. Evergreens may continue to photosynthesize during the winter as long as they get enough water, but the reactions occur more slowly at colder temperatures.

During summer days, leaves make more glucose than the plant needs for energy and growth. The excess is turned into starch and stored until needed. As the daylight gets shorter in the autumn, plants begin to shut down their food production.

Many changes occur in the leaves of deciduous trees before they finally fall from the branch. The leaf has actually been preparing for autumn since it started to grow in the spring. At the base of each leaf is a special layer of cells called the "abscission" or separation layer. All summer, small tubes which pass through this layer carry water into the leaf, and food back to the tree. In the fall, the cells of the abscission layer begin to swell and form a cork-like material, reducing and finally cutting off flow between leaf and tree. Glucose and waste products are trapped in the leaf. Without fresh water to renew it, chlorophyll begins to disappear.

The bright red and purple fall foliage colors come from anthocyanin (an-thuh-'si-uh-nuhn) pigments. These are potent antioxidents common in many plants; for example, beets, red apples, purple grapes (and red wine), and flowers like violets and hyacinths. In some leaves, like maple leaves, these pigments are formed in the autumn from trapped glucose. Why would a plant use energy to make these red pigments, when the leaves will soon fall off? Some scientists think that the anthocyanins help the trees keep their leaves a bit longer. The pigments protect the leaves from the sun, and lower their freezing point, giving some frost protection. The leaves remain on the tree longer, and more of the sugars, nitrogen and other valuable substances can be removed before the leaves fall. Another possible reason has been proposed: when the leaves decay, the anthocyanins seep into the ground and prevent other plant from growing in the spring.

Brown fall foliage colors come from tannin, a bitter waste product. Other colors, which have been there all along, become visible when the chlorophyll disappears. The orange colors come from carotene ('kar-uh-teen) and the yellows from xanthophyll ('zan-thuh-fil). They are common pigments, also found in flowers, and foods like carrots, bananas and egg yolks. We do not know their exact role in leaves, but scientists think they may be involved somehow in photosynthesis. Different combinations of these pigments give us a wide range of colors each fall.

As the bottom cells in the separation layer form a seal between leaf and tree, the cells in the top of the separation layer begin to disintegrate. They form a tear-line, and eventually the leaf is blown away or simply falls from the tree.

One more important question remains. What causes the most spectacular display? The best place in the world for viewing fall colors is probably the Eastern United States. This is because of the climate there, and the wide variety of deciduous trees. The brightest colors are seen when late summer is dry, and autumn has bright sunny days and cool (low 40's Fahrenheit) nights. Then trees make a lot of anthocyanin pigments. A fall with cloudy days and warm nights brings drab colors. And an early frost quickly ends the beautiful fall foliage color display.



[SIZE=-1]The green color in unripe bananas comes from chlorophyll, the same pigment that gives green leaves their color. As bananas ripen, the chlorophyll breaks down and disappears, revealing the yellow color which has been there all along. The yellows and oranges of autumn leaves are also revealed as their chlorophyll breaks down. Of course, other changes also occur as bananas ripen: the starches change to sugar and the flesh softens as pectin (a carbohydrate) breaks down. [/SIZE]

 

cannawizard

Well-Known Member
Fruit Abscission


The fruit-ripening process described above, also occurs in a layer of cells in the pedicel near the point of attachment to the stem of the plant. This layer of cells in the pedicel is often called the abscission zone because this layer will eventually separate and the fruit will drop from the plant.

Just as the cells inside the fruit, the cells in this cross sectional layer in the pedicel get the ethylene signal from the ripening fruit. Reception of the signal causes new enzymes to be made. The cells "ripen" and pectinases unglue the cells of the abscission zone. When the cells have weak-enough connections, the weight of the fruit will cause it to fall from the plant. Maybe Newton discovers gravity?

In this way then, the ripening process is used for a second function in the plant...to make the fruit drop from the tree so an animal can pick it up and carry it off to disperse seeds. Plants are modular organisms, and use the same genetic and physiological processes for different processes in the various modules.

Another use for the ripening process is in leaves in the autumn. The lengthening nights and the cool night temperatures of early autumn are the cue. Ethylene is produced. Enzymes are made. Chlorophyll breaks down as do a range of other compounds in the leaves. The subunits of these molecules are loaded into phloem and transported toward the roots for winter. The leaf blade changes color...just as do carpel walls in fruits! This leads to yet another use of the ripening process...in the abscission zone of the petiole. Just like the abscission zone in the pedicel of the fruit, the petiole has cells that get the same signals as the leaf blade, produce the enzymes, come unglued from each other. Now the weight of the blade, and perhaps some wind forces, cause the leaf to fall from the plant. Sometimes we call autumn "fall" for this reason.
 

Kaptain Kron

Well-Known Member
ur a sick man wizard, i just wish you would clean up that damn led threads around here, they are so damn long and so uninformitive because no one wants to listen to experience because they dont like the answers they get when they ask s1 with experience. More LED's less wattage MORE coverage MORE yield. Your 500 watt panel is a waste of time, go buy a kessil, its a flashlight it covers no area, buy more of them... Shit how many times must one suggest LED manufacturers theres only 3 real legit ones right now that have anything even worth buying. Apache is new and worth lookin at but WAY pricey. ARG that thread is drivin me nuts.

you sir are too much lol plant master.
 

cannawizard

Well-Known Member
ur a sick man wizard, i just wish you would clean up that damn led threads around here, they are so damn long and so uninformitive because no one wants to listen to experience because they dont like the answers they get when they ask s1 with experience. More LED's less wattage MORE coverage MORE yield. Your 500 watt panel is a waste of time, go buy a kessil, its a flashlight it covers no area, buy more of them... Shit how many times must one suggest LED manufacturers theres only 3 real legit ones right now that have anything even worth buying. Apache is new and worth lookin at but WAY pricey. ARG that thread is drivin me nuts.

you sir are too much lol plant master.
*uumm... thnx kron, you just volunteered to make a thread under AMC for an informative and factual LED thread ;)

--such a cool guy, yay for kron.. lol
 

Kaptain Kron

Well-Known Member
awww SON OF A BITCH now look at him changin his shit again so cal elite green ninja he just ninjaed my ass... GOD DAMNIT!@!
 

Wereworg

Member
Wow thnks alot cannawizard! I am excited to know that with a little light and temp manipulation I can have a little autumn magic in my high where ever and whenever I pack a bowl. I read about ethylene a long while ago when someone posted about using a new piece of cut carpet for its off gassing of the molecule.

Props on the Katt Williams lol that whole dvd is funny shit
 

cannawizard

Well-Known Member
Wow thnks alot cannawizard! I am excited to know that with a little light and temp manipulation I can have a little autumn magic in my high where ever and whenever I pack a bowl. I read about ethylene a long while ago when someone posted about using a new piece of cut carpet for its off gassing of the molecule.

Props on the Katt Williams lol that whole dvd is funny shit
*glad i could help Were :) stop by anytime if you got anymore Qs ;)

--cheers
 

Kaptain Kron

Well-Known Member
hahahaha fuckin love cat williams rep for that man lol, "WE GONE GET FUCKED!!!! UP!!!!!" lol and its so fuckin true lol i know.. im white....

*thank you for passing on the pimp torch ;)

[video=youtube;P1Bsee_sx4A]http://www.youtube.com/watch?v=P1Bsee_sx4A&feature=related[/video]
 

doser

Well-Known Member
What is it in the air this time of year that makes us feel the way we do? I find it invigorating -- its just that smell, the air is different (I notice the air where ever I go). What is our planet doing at this time thats contributes to this. A friend of mine sugested wisely that it may be plant off gassings while going through the yealry color change. I should really like to know as it makes me feel more wonderfull than any high.:blsmoke:

?
Yeah, Fall in Pico Rivera is a wonderful time with Mexacans "off gassing" something fierce. I don't know about high but it will get you a little light headed. Prolly the methane
 
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