The colors of fall are upon us

It's starting to look a little like fall. According to the Minnesota Department of Natural Resources Fall Color Finder, the yellow/orange leaf icon indicates that fall colors are at 50-75 percent of their peak at Sibley State Park near New London...

Briana Sanchez / TribuneTrees off of Highway 71 Northeast begin so change to fall colors Monday, Oct. 3.
Trees off of Highway 71 Northeast have started to change color. (Briana Sanchez / Tribune)

It's starting to look a little like fall.

According to the Minnesota Department of Natural Resources Fall Color Finder, the yellow/orange leaf icon indicates that fall colors are at 50-75 percent of their peak at Sibley State Park near New London and across west central Minnesota.

As a general rule, the DNR says colors peak between mid-September and early October in the northern third of the state, between late September and early October in the central third, and between late September and mid-October in the southern third and Twin Cities metro.

Peak fall colors typically last about two weeks, but that can vary widely, depending on location, elevation and weather. Trees at higher elevations tend to be the earliest to show color change.

As of Tuesday, at the DNR Fall Color Finder web page, most of the state parks were listed in yellow (50-75 percent of peak colors), with a number in northern Minnesota listed by red (75-100 percent).


What causes fall colors?

The chemicals

Four main groups of biochemicals are responsible for the various yellows, oranges, reds and browns that we see in the fall:

• Chlorophyll

• Carotenoids

• Anthocyanins

• Tannins

Each has its own color and chemistry. As the amount of these chemicals vary, they will cause subtle variations in color from one leaf to the next, or even from tree to tree.




The green color that we see on most plant leaves throughout the spring and summer is caused by a pigment called chlorophyll. Chlorophyll is one of several pigments that gather energy from sunlight in the process of photosynthesis. Chlorophyll absorbs both the blue and the red wavelengths from sunlight, and reflects the green wavelengths. Nitrogen is one of the main components of chlorophyll. As our days shorten and temperatures get cooler, chlorophyll is broken down faster than it's produced. The majority of the nitrogen migrates back to the twigs, where it is stored for next year's new growth. As chlorophyll breaks down, the carotenoids are revealed.



Many of the yellows and oranges we see in nature are the result of carotenoid compounds. They are what make carrots orange! Carotenoids play a minor role in photosynthesis-they are present throughout the growing season, but are only revealed when chlorophyll breaks down. You are more likely to see brilliant colors when the fall weather has warm, sunny days with cool nights between 32° and 45 °F. Look at a leaf that has been grown in the shade, and you may notice it is a duller color than leaves that grew in the full sun, even on the same plant.


The reds and purples you see in the fall are caused by anthocyanins, which are what you get when sugars combine with compounds called anthocyanidins. Many things affect the exact color produced by anthocyanins, including the pH (acidity or alkalinity) of the cell sap in the leaves. With an acid pH, anthocyanins are often red; with a more alkaline pH they turn purple-to-blue. Because anthocyanins need sugar for their creation, weather that favors photosynthesis (sugar production) is essential. Bright, sunny fall days produce the best colors. Very little photosynthesis occurs on cloudy days, and rain can actually leach the anthocyanins and carotenoids out from the leaves. Different combinations of anthocyanins and carotenoids can result in there being yellow, orange and red leaves all on the same tree at the same time. The exact color a tree produces will vary from year to year. Some people believe they can force a more brilliant red color by adding acid-forming fertilizers to the tree, especially aluminum sulfate. This method may sound like it should work, but there is no scientific evidence to support it.




In many forests, oak trees don't add much to the collage of fall colors. They often just turn brown, thanks to a group of compounds called tannins. Tannins are revealed when both chlorophyll and carotenoids break down in the leaves. Some oaks do produce a light red or pink color in the fall, but our native bur oak does not.



Not all conifers are evergreen! Some change color and lose their needles in the fall. Many conifers - including spruce and pine trees - naturally shed their older needles every year (the needles toward the plant's interior), and it's perfectly normal. Larch trees are unique among the conifers in that they lose all of their needles every year.

Source: Minnesota DNR

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