Oct 062017
 

My favorite time of year is here again – AUTUMN!

So once again you get my annual fall foliage portfolio.  And as always, it seems pretty logical the best way to begin our overview of the story behind fall’s phantasmagorical foliage fling is with … well, an overview of the vast verdant vegetation of the vales and vistas of Vermont.  (OK, OK – there probably are a few other states included – but that ruins my alliteration.)

So Just Try and Stop Me from Telling You Why Leaves Change Color

To understand why leaves change colors we need to realize that it’s part of a (hopefully) endless cycle.  Once a new leaf if fully formed, usually around June, the next thing a tree spends its energy on is setting the following year’s leaf buds.  The job of the leaves currently in place is to create and store food as carbohydrates/sugars necessary for that task.  And unlike us, trees are unique in that they’re able to manufacture their own food/energy, courtesy of photosynthesis.

Chlorophyll is the green pigmented chemical in leaves that uses the energy provided by the sun during the process of photosynthesis to convert water taken up by the roots and carbon dioxide taken from the air into sugars and starches – nutrients that the tree needs for growth – while giving off oxygen as a by-product.

But the chlorophyll that gives trees their green is not the only color pigment present in leaves all summer.  Working just as hard in the leaves are the carotenoids (carotene and xanthophyll).  These pigments are important in capturing light energy needed in the process of photosynthesis.  It’s just that the carotenoids are masked by the overpowering green of the chlorophyll during the summer months.

But with the coming of autumn, as daylight hours shorten and temperatures cool down, cells near the juncture of the leaf and its stem start to divide very rapidly.  This creates what is called an abscission layer.  This corky abscission layer of cells is the site where the leaf will eventually break from the tree and flutter to the ground.  That corky layer then serves to protect the branch through winter after the leaf leaves.

The rapid growth of that corky layer begins to physically block transport of nutrients needed by the leaf to manufacture the carbohydrates.  Consequently the photosynthesis that’s been creating chlorophyll (which is not a very stable chemical and has been rapidly broken down and replaced throughout the summer) ceases.

Once the chlorophyll is gone, the carotene and xanthophyll chemical pigments that have been present all summer long can now take center stage.

These carotenoids (carotene and xanthophyll) give their characteristic orange and yellow colors to not just leaves, but also to carrots, corn, canaries, and daffodils – as well as egg yolks, rutabagas, buttercups, and bananas.  And they account as the predominant color in about 15-30% of our tree species – typically the hardwood species of hickories, ash, maple, yellow poplar, aspen, birch, black cherry, sycamore, cottonwood, sassafras, and alder.

And the third class of color that trees have (the first two being chlorophyll and the carotenoids) are the reds and purples of anthocyanin.  But unlike the other two classes, anthocyanin has not been present in the leaves the whole summer.  The anthocyanins are created brand new –  just for autumn’s fall foliage!

Why the tree would expend its precious energy, when it’s shutting down for the winter, for the creation of a new product is not understood.  But we do know the brighter the sunlight during this period, the greater the production of anthocyanins – and the more brilliant the resulting reds and purples.  This pretty direct proportion of redness to sunlight exposure explains why the periphery of hardwood trees are bright red, while the foliage lower down and inside are the more typical oranges and yellows.

Anthocyanins also account for the coloring of cranberries, red apples, blueberries, cherries, strawberries, and plums.  They are present in only about 10% of hardwood species – mainly maples, sourwood, sweetgums, dogwoods, tupelos, cherry trees and persimmons.

But in a few lucky areas — most famously New England — up to 70% of tree species are the type that produce the anthocyanin pigment.  That high concentration of a single color (the reds of anthocyanin) accounts for the intense but relatively brief autumnal color display in New England.  Whereas in most other areas that have a higher mix of tree varieties the colors may not be as intense, but the season lasts longer.

You can see where your particularly area is peak-wise with this Interactive Peak Color Map.  Just slide the circle on the bar to the date you want.

Click Me for the Map

Time to enjoy some of my new favorite photos of the fantasia of fall …

Drone View of Fall Foliage in Quebec

 

A Tree Allée in Germany 

 

Bears Rocks in West Virginia 

 

Drone View of Farm Fields Cut Through a Forest in Keene, Ontario

Fall Foliage in the Fog

 

Drone View of Winding Road Through the Bogata Forest in Romania

 

Swans Enjoying the Autumnal Splendors

 

We’ll see you again next year!

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  9 Responses to “Friday Fun: Mother Nature Says, “It’s Showtime!””

  1. Thank you for sharing an aerial drone “birds eye-view” of the fall foliage in Vermont+. It’s very lovely and reminds me of the time I used to climb fire towers in New York for the fall color views.

    The interactive peak color map is excellent guide of when to go and visit the spectacular fall colors should any of you be interested as to the best time to wander around in the woods and from the high peaks.

    Thanks for the “lessons” on trees & leaves as to what, why and how the tree’s leaves are formed, grow and change. Trees are simply amazing in so many ways. Trees are LIFE.

    Fall colors are not just in USA but do occur around the world as evidenced by your photos of tree’s color changes in different parts of the world.

    Another awesome Friday Fun. Thank you.

    .

  2. Cross Posted to Care2 HERE

    • How gorgeous!  And the map … I wonder, was it put up before the hurricanes?  Will the storms in Houston and Florida have any effect on the prediction that leaves there will be at their peak around November 12, when everyone else’s are gone? 

      To my eye. it appears the peak viewing period in Colorado is just about a week later than it used to be in the nineties.  It was always the third Saturday in September, and now it’s the fourth.

      But I guess we don’t need to spend money on beta-carotene and flavonoid supplements.  We can just chomp on leaves.  As long as they aren’t pesticided within an inch of their lives!

  3. Thank you for the info on ‘Why Leaves Change Color’, so interesting!The pictures are just gorgeous, and brings back pleasant memories of our family trekking once a year, to the Poconos, years ago, to view, and hike among the different colored trees.

    Great post, Nameless, Thank you!

    Thank you, Joanne for cross posting.

  4. Haven’t been on a “leaf tour” in ages.
    Love the swans in the last picture!

  5. Like a good wine your annual fall foliage portfolio is getting better each year, Nameless. 03

    It is much appreciated not only for its gorgeous (drone) video and pictures so unbelievably rich in color, but also for bringing back good memories of the time we went leaf-peeping in New England ourselves. We made some fantastic photo’s which we can’t share because they were made the old-fashioned way with a camera and film. Yes, it was that long ago. But after all these years we still have a collage of some of the spectacular photos we made then hanging in our hallway. It never get boring.

  6. Beautiful pics.  Great explanation.

    Thanks again, Nameless! 18

  7. Makes me homesick. I grew up in a small town in Massachusetts.  Now I’m in Texas where the leaves just turn brown and fall down. Thanks for the memories.

  8. Wonderful, thanks!  That we do not know why the trees put out the anthocyanins is just one more riddle for amazement, but one can be pretty sure that they play some evolutionary purpose, if it is still kept in play by nature all these aeons into the lives of plants.  

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