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Coyotes-Wolves-Cougars.blogspot.com

Grizzly bears, black bears, wolves, coyotes, cougars/ mountain lions,bobcats, wolverines, lynx, foxes, fishers and martens are the suite of carnivores that originally inhabited North America after the Pleistocene extinctions. This site invites research, commentary, point/counterpoint on that suite of native animals (predator and prey) that inhabited The Americas circa 1500-at the initial point of European exploration and subsequent colonization. Landscape ecology, journal accounts of explorers and frontiersmen, genetic evaluations of museum animals, peer reviewed 20th and 21st century research on various aspects of our "Wild America" as well as subjective commentary from expert and layman alike. All of the above being revealed and discussed with the underlying goal of one day seeing our Continent rewilded.....Where big enough swaths of open space exist with connective corridors to other large forest, meadow, mountain, valley, prairie, desert and chaparral wildlands.....Thereby enabling all of our historic fauna, including man, to live in a sustainable and healthy environment. - Blogger Rick

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Monday, October 28, 2019

The Tree physiology that generates the beautiful, ephemeral and unequaled Leaf Color change in our New England and Great Lakes Forests Decreasing day length is a main driver of the timing of the color change and the resulting leaf drop. But temperature and precipitation also play roles. Trees and shrubs react to these three variables by curbing production of chlorophyll, the green pigment of the leaves. As the green recedes, yellow and orange pigments which have been there all along, are unmasked. Red-reflecting pigments(the red leaves we see) protect the leaves from damage by sunlight as the tree siphons nutrients from the leaves Drought can definitely lessen the vibrancy of the colors A corky layer at the stem of each leaf thickens as the colors hit peak, causing leaf drop to ensue After the leaves fall, the color pigments break down, leaving tannins that turn brown. Those tannins slow the breakdown of leaves, allowing them to become a mulch layer on the forest floor

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A Close Look at Fall Colors

A Close Look at Fall Colors Image
Illustration by Adelaide Tyrol





















Where I live, autumn typically starts in late August, when pockets of red maples start to turn scarlet around the marshes and lakes. Uh oh. As they say in Westeros, “winter is coming.”
But not before we get to enjoy fall. Yes, a New England autumn is a postcard cliché. Yes, the tour buses and land yachts full of leaf peepers clog the roads. But, really, who can blame them? No matter how many you’ve seen, fall in the Northeast is still one of nature’s most awesome spectacles.
And, so, so ephemeral.
We know basically how the whole thing unfolds, and why. But despite all that has been discovered about tree physiology, we still haven’t unpacked everything.
“A lot of general patterns we can see and explain, but there’s a lot of complexity that we certainly don’t know about the fall color,” said Jay Wason III, a tree physiologist and assistant professor in the School of Forest Resources at the University of Maine.
Basically, we have autumn in temperate zones because in the months of low sunlight, cold temperatures, and ice and snow storms, large, flat leaves would be a liability, said Wason.
Decreasing day length is a main driver of the timing of the color change and the resulting leaf drop. But temperature and precipitation also play roles. You can see this by looking at the side of a mountain, where trees at higher elevations typically change color earlier, reflecting colder temperatures, even though all of the trees on the mountainside are reading the same day length. The same holds true in low-lying areas, where colder air pools and creates fall-like temperatures sooner.
Plants sense changes in day length using special molecules called phytochromes, and react by curbing production of chlorophyll, the green pigment that is the heavy lifter when it comes to photosynthesis. As chlorophyll disappears, underlying yellow and orange pigments, called carotenoids, are unmasked. They’ve been there all along, but only become visible now.
Reds are something else. Known as anthocyanins, they’re produced in the fall, but we’re not really certain why. Wason said one hypothesis is that these red-reflecting pigments are helping to protect the leaves from damage by sunlight as the tree is working to siphon all the nutrients it can from its leaves, nitrogen being the most important.


Temperature and precipitation help determine how much of this red pigment is produced, and thus how colorful the fall will be. To make anthocyanins, the tree needs sugars, and to produce those sugars it needs moisture and sunlight. That’s why a fall drought can definitely put a damper on the season’s colors, said Wason.
As the leaves change colors, each forms a corky layer – the abscission layer – at the end of the stem, which weakens the bond to the twig and eventually cuts it free. After the leaves fall, the yellow, orange, and red pigments break down, leaving nothing but tannins that turn brown. It’s those same tannins that slow the breakdown of leaves and allow them to become a mulch layer on the forest floor.
The careful observer will note that, in spring, tree species seem to leaf out at different times. Ashes, for instance, are often one of the last to put on leaves. It’s like they’re not certain about commitment. When winter is coming, everyone is committed.
“We tend to see more variability in the spring and less in the fall,” said Wason. Perhaps that’s because tree species tend to be a little more responsive to temperature variation in the springtime, he said.
No one’s got the definitive answer, but it’s probably related to each tree species’ growth strategy, he speculates. In springtime, ashes spend a lot of time and energy building large water transport cells in their stems, only later moving on to leaves. Once built, however, that big plumbing system can move a lot of water and nutrients. In other words, they catch up. By fall, things have evened out.Scientists are still probing for answers to questions about the fall foliage season. The fact that the leaf extravaganza is a big economic boon to states in the northeastern US is a good excuse for the research. So is climate change and how a warmer earth will affect the annual spectacle.
Warmer temperatures could cause a shift in the timing of fall foliage; summer or fall droughts could affect color saturation; tree species will move over time in response to local climate change. Exactly how things will play out long-term is hard to predict. But autumn is on now. Enjoy it while it lasts.
Joe Rankin writes on forests, nature, and sustainability.

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