Two days in a row I will post pictures from the website http://earthobservatory.nasa.gov/ since today NASA is featuring the fall colors of the Great Lakes region. They posted two photos:
The text included in NASA's post is:
"A few days after autumn showed up on the calendar in the Northern
Hemisphere, it showed up on the landscape of North America. ...NASA... captured these views of fall colors around the Great Lakes
(September 26) and New England (September 27, 2014). The brown and
orange shades are most pronounced in the Upper Peninsula of Michigan,
northern Wisconsin, upstate New York, New Hampshire, Vermont, Maine, and
southern Quebec and Ontario. You can also see faint traces of
phytoplankton blooms in the lakes and offshore in the North Atlantic.
The changing of leaf color in temperate forests involves several
causes and reactions, but the dominant factors are sunlight and heat.
Since temperatures tend to drop sooner and sunlight fades faster at
higher latitudes, the progression of fall color changes tends to move
from north to south across North America from mid-September through
mid-November.
In late summer and autumn, tree and plant leaves produce less
chlorophyll, the green pigment that harvests sunlight for plants to
convert water and carbon dioxide into sugars. The subsidence of
chlorophyll allows other chemical compounds in the leaves—particularly
carotenoids and flavonoids—to emerge from the green shadow of summer.
These compounds do not decay as fast as chlorophyll, so they shine
through in yellows, oranges, and reds as the green fades. Another set of
chemicals, anthocyanins, are associated with the storage of sugars and
give the leaves of some species deep purple and red hues.
As explained by the U.S. Forest Service,
certain species of trees produce certain colors. Oaks generally turn
red, brown, or russet; hickories become golden bronze; aspen and
yellow-poplar turn golden. Maples differ by species. Red maple turns
brilliant scarlet; sugar maple, orange-red; and black maple, yellow.
Leaves of some trees, such as elms, simply become brown.
Weather affects the range and intensity of colors. If the weather
stays above freezing, it is easier for anthocyanins to form. Dry
weather, which increases the sugar concentration in sap, also increases
the amount of anthocyanin. So the brightest autumn colors occur when
dry, sunny days are followed by cool, dry nights.
According to a paper published last month by researchers from Princeton University, climate change could someday delay the onset of fall color changes
in some species, but also extend it later into the year. Warmer
temperatures could lengthen the growing season for some plants, though
more so at middle latitudes than high latitudes."
Just for fun, I am including two more photos below from the same webpage. It shows the same area in the Appalachian Mountains -- one taken during the summer and one during the fall.
CITE:
NASA image courtesy Jeff Schmaltz, LANCE MODIS Rapid Response Team at NASA GSFC. Caption by Mike Carlowicz.
No comments:
Post a Comment