Wild About Utah Archives - Page 168 of 221

September 27, 2012March 1, 2018

Utah’s Glacial History

Moraine with erratics, Photo Courtesy and Copyright Mark Larese-Casanova, Photographer — Moraine with erratics
Photo Courtesy & Copyright
Mark Larese-Casanova, Photographer

Little Cottonwood Canyon
Photo Courtesy & Copyright
Mark Larese-Casanova, Photographer

Little Cottonwood Canyon, Photo Courtesy and Copyright Mark Larese-Casanova, Photographer — Moraine with erratics
Photo Courtesy & Copyright
Mark Larese-Casanova, Photographer

Little Cottonwood Canyon
Photo Courtesy & Copyright
Mark Larese-Casanova, Photographer

Hi, this is Mark Larese-Casanova from the Utah Master Naturalist Program at Utah State University Extension.

It is amazing to see just how much of an impact the large amount of snowfall from last winter still has on the annual cycle of nature. Of recent note, wildflower blooms in the mountains seem to be at least 2-3 weeks behind normal schedule. Hiking through snow in late July had me thinking about colder times when Utah’s mountains were covered with ice that flowed as glaciers.

The most recent period of glaciation in Utah occurred between 30,000 and 15,000 years ago when Utah’s climate was, on average, up to 30?F cooler. At times during this period, much of the western half of Utah was covered by Lake Bonneville, which contributed tremendous amounts of moisture as snow throughout Utah’s mountain ranges. As the snow accumulated at high elevations, its sheer weight caused it to recrystallize into ice. Once the masses of ice became heavy enough, gravity pulled them down slope, carving out characteristic U-shaped valleys.

At the top of the valleys, where the glaciers formed, we can often find large, bowl-shaped cirques. In the Wasatch Range, the Little Cottonwood Canyon glacier formed at the top, creating Albion Basin, and reached the mouth of the canyon where calved icebergs into Lake Bonneville. The Uinta Mountains contained such large glaciers that even many of the mountain peaks are rounded.

As temperatures warmed during the end of the last ice age, glaciers receded and left behind large piles of soil and rocks, known as moraines. Terminal moraines at the end of a glacier’s path, can act as natural dams to create lakes. Enormous boulders, known as glacial erratics, can often be found discarded along canyons.

While glaciers don’t currently exist in Utah, there are several permanent snowfields in shaded high mountain areas. So, if you’re feeling a little nostalgic and missing that extra long winter we had this year, you still a chance to hike up above 9,000 feet and cool your toes in the snow.

For Wild About Utah, I’m Mark Larese-Casanova.

Credits:

Images: Courtesy & Copyright Mark Larese-Casanova
Text: Mark Larese-Casanova, Utah Master Naturalist Program at Utah State University Extension.

Additional Reading:

Utah Geological Survey https://geology.utah.gov/surveynotes/gladasked/gladglaciers.htm

Parry, William T. 2005. A Hiking Guide to the Geology of the Wasatch and Uinta Mountains. University of Utah Press.

Stokes, William Lee. 1986. Geology of Utah. Utah Museum of Natural History.

September 20, 2012March 4, 2026

The Amazing Uintas

Hi, I’m Holly Strand.

Coming from Colorado, I’m something of a mountain snob. So while I always found Utah’s mountains to be agreeable, I admit to thinking they were somewhat petite. Then I saw the Uintas. About 200 miles long and 30-40 miles wide, the Uintas lie south of the Wyoming border primarily in northeastern Utah but with its eastern flank extending into Colorado.

There are several interesting features that make these mountains stand out in my mind.

For one thing, the Uintas are one of very few east-west trending mountain ranges of significant size on the planet. The only other one in N. America is the Brooks Range. This east-westness can feel strange to someone who orients themselves on a north-south axis. Because the path the sun follows the range instead of crossing it, my sense of direction was thrown off. Perhaps this happens to others too and that’s why we often hear about people getting lost in the Uintas.

Glaciation is another interesting aspect. The Uintas were more heavily glaciated than any other part of Utah. The most recent glacial episode was approximately 30,000 to 10,000 years ago. These Pleistocene glaciers left wide-bowl shaped valleys and scooped steep-walled cirques near the main ridge line. Nowadays, sparkling lakes, streams and meadows grace the ice-carved basins and valleys.

Speaking of lakes, even a Minnesotan might be impressed with the density of the Uinta Mountains lakes. Of course, the total number depends upon what you define as a lake. But most sources say there are between 800-1000 heavily concentrated in the High Uintas.

Utahns gets a lot their water from the Uintas. The mountains are an important source for several Wasatch Front rivers and streams including the Bear, the Weber, and the Provo. Precipitation and snowmelt on southern slopes either flow into the Duchesne River or directly into the Green River.

Because they are below 14,000 feet, the Uintas didn’t fit my Colorado-derived definition of “real mountains.” However there are 17 peaks all over 13000 feet–the highest is King’s Peak at 13,528 feet. Considering the beauty and wildness and the water features in these 13ers and their surroundings, the Uintas definitely scored with me. I’m looking forward to returning to explore some more.

For Wild About Utah, I’m Holly Strand.

Credits:

Images: Courtesy Wyoming Department of Transportation, Talbot Hauffe, Photographer
Courtesy Wikimedia, Hyrum K. Wright, Photographer
Text: Holly Strand

Sources & Additional Reading

Map of the Mirror Lake Scenic Byway, https://www.fs.fed.us/wcnf/unit/kamas/mirror_lake_scenic_byway_map.shtml

Guide to the Mirror Lake Scenic Byway, https://www.fs.fed.us/wcnf/unit/kamas/mirror_lake_scenic_byway.shtml

Biek, Bob. Grant Willis, and Buck Ehler. 2010. Utah’s Glacial Geology.
https://geology.utah.gov/surveynotes/articles/pdf/utah_glacial_geology_42-3.pdf

Dehler, C.M., Pederson, J.L., Sprinkel, D.A., and Kowallis, B.J., editors, 2005. Uinta Mountain
Geology: Utah Geological Association Publication 33, 448 p. https://www.utahmapstore.com/uga33.html

Hamblin, Kenneth. 2004. Beyond the Visible Landscape: Aerial Panoramas of Utah’s Geology. Provo: BYU

Jeffrey S. Munroe, Benjamin J.C. Laabs, Joel L. Pederson, and Eric C. Carson. 2005.
From cirques to canyon cutting: New Quaternary research in the Uinta Mountains
Field Guides, 6, p. 53-78. https://fieldguides.gsapubs.org/content/6

Kirkland, Gordon L. Jr. , 1981. The Zoogeography of the Mammals of the Uinta Mountains Region. The Southwestern Naturalist Vol. 26, No. 4.

Shaw, John and James Long. 2007. Forest Ecology and Biogeography of the Uinta Mountains, USA. Arctic, Antarctic and Alpine Research, Research 39(4): 614-628.

September 13, 2012January 24, 2021

Monarch Butterflies

Click to view a closer view of Andrea Liberatore's photograph of a Monarch butterfly (Danaus plexippus). Courtesy and Copyright 2009 Andrea Liberatore, Photographer — Monarch Butterfly
*Danaus plexippus*
Courtesy & Copyright 2009
Andrea Liberatore, Photographer

Monarch Butterfly Caterpillar
*Danaus plexippus*
Courtesy US FWS, images.fws.gov

Monarch Butterfly Chrysalis
(Enlarged)
*Danaus plexippus*
Courtesy NASA JPL, climate.nasa.gov
Plant a butterfly garden!
Climate Kids: Earth Now

A Rest Stop During the
Monarch Butterfly Migration
Courtesy US FWS, images.fws.gov
Gene Nieminen, Photographer

Click to view a closer view of a Monarch butterfly caterpillar, (Danaus plexippus), Courtesy US FWS, images.fws.gov — Monarch Butterfly
*Danaus plexippus*
Courtesy & Copyright 2009
Andrea Liberatore, Photographer

Monarch Butterfly Caterpillar
*Danaus plexippus*
Courtesy US FWS, images.fws.gov

Monarch Butterfly Chrysalis
(Enlarged)
*Danaus plexippus*
Courtesy NASA JPL, climate.nasa.gov
Plant a butterfly garden!
Climate Kids: Earth Now

A Rest Stop During the
Monarch Butterfly Migration
Courtesy US FWS, images.fws.gov
Gene Nieminen, Photographer

One sure sign that the end of the summer is near are the holes that appear in milkweed leaves this time of year. Take a peek underneath and you might find a great treasure – a chubby caterpillar boldly dressed in yellow, black, and white stripes.

We are currently playing host to two of these voracious larvae at the Stokes Nature Center, satiating their appetites with fresh milkweed leaves in the hopes of witnessing their transformation into a Monarch butterfly.

The incredible story of a Utah monarch begins in southern California in spring. After being dormant throughout winter, an adult female will rouse itself, mate, and begin flying. Monarchs are gliders, meaning they don’t flap their wings much when traveling. Instead they rely on thermal air currents to keep them aloft and moving – traveling up to 80 miles per day. The female flies until she finds habitat suitable for reproduction. There she will lay up to 400 eggs, exclusively on milkweed plants, which contain a toxin that makes caterpillars and adults inedible, or at least unpalatable, to predators.

Eggs of the second generation hatch in April or May. Larvae eat, undergo metamorphosis and keep traveling until they find an ideal place to mate and lay eggs. The adults then die within a few weeks. The third generation hatches in June and July, traveling still farther north and east. This group’s offspring, the fourth generation of the year, are the caterpillars and butterflies we are currently seeing. And this fourth generation does things a little differently.

Once in their adult stage, eating is priority number one. As temperatures turn cool, migration is triggered and the butterflies head for southern California, back to the same place from which their great-grandparents set out in spring. These butterflies live significantly longer than their parents and grandparents, for successful individuals will survive the winter, and start the entire four-generation process over again next year.

Much of a monarch’s migration remains a mystery, and not just how they know when and where to go, but also what routes they use, what habitats they need along the way, and how humans are affecting their movements.

A number of citizen science projects have been established to try and answer these questions. The Monarch Program monitors migration in the western U.S. each fall. Adults are fitted with a small, sticky tag on their right forewing with a color code specific to the tagging site. As these butterflies are spotted again either during migration or at their final destination, data is collected that can help us better understand their journey.

Recent declines in monarch populations make this research all the more important. You can help by cultivating milkweed in your garden to provide habitat to resident monarchs. Anyone with information on the location of caterpillars or chrysalises can contact local Monarch Program volunteer Ron Hellstern for tagging. For more information on tagging and how you can help monarch butterflies, visit our website at www.wildaboututah.org.

For the Stokes Nature Center and Wild About Utah, this is Andrea Liberatore.

Credits:

Images: Courtesy &
Copyright 2009 Andrea Liberatore
Courtesy NASA JPL, climate.nasa.gov
Courtesy US Fish and Wildlife Service,
images.fws.gov
Text: Andrea Liberatore,
Stokes Nature Center in Logan Canyon.
For Information On Tagging:

The Monarch Program: https://www.monarchprogram.org

To tag butterflies found in Cache Valley, please contact Monarch Program volunteer Ron Hellstern at 435-245-9186. Please note that captive caterpillars or chrysalises are easiest to tag, as capturing adults can harm their wings.

Growing milkweed:

Monarch Watch, Propagation (Growing Milkweeds). https://www.monarchwatch.org/milkweed/prop.htm

Additional Reading:

Pyle, Robert Michael. 1981. National Audubon Society: Field Guide to Butterflies, North America. Alfred A. Knopf: New York.

Monarch Watch: Monarch Life Cycle. https://monarchwatch.org/biology/cycle1.htm

National Geographic: Monarch Butterfly (Danaus plexippus). https://animals.nationalgeographic.com/animals/bugs/monarch-butterfly/

NRCS Partners with Farmers, Ranchers to Aid Monarch Butterflies, Posted by Jason Weller, Chief, Natural Resources Conservation Service, on November 12, 2015, USDA Blog, https://blogs.usda.gov/2015/11/12/nrcs-partners-with-farmers-ranchers-to-aid-monarch-butterflies/

NRCS Working Lands for Monarch Butterflies, https://arcg.is/0TjueO

September 6, 2012December 30, 2020

Sunflowers, the late summer feast

Click for a larger view. Image courtesy and copyright Jim Cane — Stand of ornamental sunflowers
in Cache Valley
Image courtesy and Copyright Jim Cane

Honey bee foraging at sunflower
Image courtesy and Copyright Jim Cane

Male *Melissodes* bees and a skipper
butterfly sleeping on a sunflower at dusk
Image Courtesy and Copyright Jim Cane

Now, in late summer, the sunny golden blooms of sunflowers adorn gardens, roadsides and wild places across much of the United States. Utah is home to five sunflower species, four of them annuals. You are most likely to see Helianthus annuus, the aptly named “common sunflower”. Early domestication of common sunflower by Plains Indians led to the major oilseed crop that the world enjoys today.

Humans are not the only species seated at the sunflower dining table, however. The grub of one specialist weevil bores in sunflower stalks; as do larvae of 2 long-horned beetles. Another weevil hollows out the seeds. A third decapitates the flowerhead before ovipositing. One moth’s caterpillar gnaws the roots; several cutworm species topple seedling sunflowers, and several more kinds of butterfly caterpillars skeletonize sunflower leaves. In your garden, though, sunflowers generally escape pestilence. Chickadees and both American and Lesser Goldfinches cling to the ripe seed heads to pluck out the nutritious seeds. Listen for the plaintive call of the Lesser Goldfinch which is very distinctive.

[Lesser Goldfinch, Audio recording courtesy Kevin Colver, https://wildstore.wildsanctuary.com/collections/special-collections: Songbirds of the Southwest Canyon Country]

All those sunflower seeds are the direct result of pollination by bees. In the American West, more than 200 species of native bees visit sunflowers for nectar or pollen, a remarkably large fauna for any flower. None is more charming than the male of the bee genus Melissodes. They are discernible by their extra long antennae. Melissodes males dart among sunflowers all day long, seeking willing mates. Come sunset, the males bed down on the flower heads to snooze. They become drowsy enough to pet with your fingertip, and being males, have no sting. So if you have sunflowers at hand, chances are you have Melissodes bees around too. Look over your sunflowers this evening, and you may be lucky enough to find these dozing bachelor bees with their extra long antennae.

This is Linda Kervin for Bridgerland Audubon Society.

Credits:

Audio: Courtesy Kevin J. Colver, 7loons.com and On Amazon.com
Photos: Courtesy and Copyright Jim Cane
Text: Jim Cane, Bridgerland Audubon Society

Additional Reading:

LeBuhn, Gretchen, Greenleaf, Sarah, Cohen, David, The Great Sunflower Project, Department of Biology, San Francisco State University, https://www.greatsunflower.org/

Charlet, Larry D., Brewer, Gary J., Sunflower Insect Pest Management in North America, Radcliff’s IPM World Textbook, University of Minnesota, https://ipmworld.umn.edu/chapters/charlet2.htm