The study of recurring plant and animal life cycle events is phenology. It is the calendar of nature. This includes when plants flower, when birds migrate and when crops mature. Phenology is relevant to interactions between organisms, seasonal timing and large-scale cycles of water and carbon. Phenology is important to us for many reasons. Farmers need to know when to plant and harvest crops and when to expect pests to emerge. Resource managers use it to monitor and predict drought and assess fire risk. Vacationers want to know when the best fall colors will be or when the wildflower blooms will peak. Timing varies but we can discern patterns.
The USA National Phenology Network monitors the influence of climate on the phenology of plants, animals and landscapes. They encourage people to observe phenological events such as flowering, migrations and egg laying. The Phenology Network provides a place to enter, store and share these observations, which are then compiled and analyzed nationwide. Participants range from individual observers in their own backyards to professional scientists monitoring long-term plots. My husband and I monitor leafing and flowering of lilacs, a key species in the program.
These observations support a wide range of decisions made routinely by citizens, managers, scientists and others. This includes decisions related to allergies, wildfires, pest control, and water management.
I urge you to participate. The National Phenology Network has many public, private and citizen partners. It is a great way to become involved in a nation-wide effort to better understand our environment. All this information and much more is available at the National Phenology website, to which there is a link from our Wild About Utah website.
This is Linda Kervin for Bridgerland Audubon Society.
Credits:
Text: Linda Kervin, Bridgerland Audubon Society Additional Reading:
Pine beetle damage to ponderosa pine in Dixie National Forest 2000 USDA Forest Service
Hi, I’m Holly Strand of Stokes Nature Center in beautiful Logan Canyon.
For a creature that’s typically less than six millimeters in size, bark beetles certainly have a mammoth footprint. Outbreaks of the tiny insects in forests across western North America have changed millions of trees into shriveled, rust-colored sentinels of a changing ecosystem. In Utah alone, between 1990 and 2005, wood-boring beetles ate their way through more than 466,000 acres which equals 3% of Utah’s total forested area.
Bark beetles are native to our forests and evolved together with their respective hosts. For example, the Douglas-fir beetle evolved with Douglas firs, and the spruce beetle with Engelmann spruce. The mountain pine beetle is the least discriminating. It attacks lodgepole pine, ponderosa pine and, more recently, high elevation species such as whitebark pine, limber pine, and bristlecone pine.
Douglas fir beetle galleries beneath the outer bark 2000 USDA Forest Service
At healthy population levels, bark beetles renew forests by killing older and declining trees, allowing young, more productive ones to flourish. Female beetles initiate the assault, simultaneously attracting males using pheromones. Within hours the tree becomes the site of a “mass attack” of thousands of beetles. Then the females begin to reproduce. An individual female may lay over 100 eggs. As eggs hatch, larvae construct feeding galleries in the inner bark of the tree. These galleries eventually girdle and kill the tree by cutting off the exchange of nutrients between the roots and the crown of the tree.
Some of the biggest outbreaks in Utah have occurred in the Dixie and the Manti La Sal National Forests. The spruce beetle is responsible for thousands of acres of dead Engelmann spruce trees in both of these forests. The Piñon Ips beetle also thrives in piñon pines in southern UT. Meanwhile, on the other end of the state, the mountain pine beetle is causing serious outbreaks in the Uintas. The Wasatch Range forests have yet to experience extensive diebacks but the mountain pine beetle, Douglas fir beetle and spruce beetle are all causing higher mortality rates than they have in the past.
Certain forestry management practices are partially responsible for the unprecedented bark beetle outbreaks. Dense, homogenous forests with repressed fire regimes are more susceptible to attack. On the other hand, uncrowded, variable age stands composed of lots of different species are healthy and resilient.
Warming climate conditions have also contributed to the severe bark beetle outbreaks. Early fall and late spring freezes, and extremely cold temperatures help repress bark beetle populations. I’ll try to keep this in mind when it’s snowing in June here in Cache Valley. At least our pine trees will be healthy and safe from the bark beetle.
Barbara Bentz, research entomologist with the USDA Forest Service Rocky Mountain Research Station and adjunct faculty member with Utah State University’s Department of Wildland Resources, provided the scientific information for this piece.
Thanks to the USU College of Natural Resources and the Rocky Mountain Power Foundation for supporting research and development of this Wild About Utah topics. For Wild About Utah and Stokes Nature Center, I’m Holly Strand.
Credits:
Images: UDSA Forest Service: Assessment and response to bark beetle outbreaks in the Rocky Mountain aea. Report to Congress from Forest Health Protection (see below)
Text: Mary-Ann Muffoletto, Holly Strand
Sources & Additional Reading
Bentz B, Allen CD, Ayres M, Berg E, Carroll A, Hansen M, Hicke J, Joyce L, Logan J,MacFarlane W, MacMahon J, Munson S, Negr?n J, Paine T, Powell J, Raffa K, Régnière J, Reid M, Romme W, Seybold S, Six D, Tomback D, Vandygriff J, Veblen T, White M, Witcosky J, Wood D (2009) Bark Beetle Outbreaks in Western North America: Causes and Consequences. University of Utah Press, ISBN 978-0-87480965-7, 42 p. https://www.amazon.com/Beetle-Outbreaks-Western-North-America/dp/0874809657
Logan, J.A., Powell, J.A. 2001. Ghost forests, global warming, and the mountain pine beetle (Coleoptera: Scolytidae). Am. Ent. 47(3): 160-172. https://digitalcommons.usu.edu/barkbeetles/187/
Samman, Safiya, Logan, Jesse tech eds. 2000. Assessment and response to bark beetle outbreaks in the Rocky Mountain aea. Report to Congress from Forest Health Protection, Washington Office, Forest Service, U.S. Department of Agriculture. Gen. Tech. Rep. RMRS-GTR-62. Ogden, UT: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 46 p. https://digitalcommons.usu.edu/barkbeetles/39/ (accessed June 22, 2009 –Updated 8/2025)
Long-billed Curlew Lee Karney, US Fish & Wildlife ServiceLong-billed Curlew in Flight Cresent Lake NWR, US Fish & Wildlife Service
The Cyrano de Bergerac of the bird world is the long-billed curlew. Its bill is 9 inches long and curves downward at the tip. This 19-inch bird is the largest shorebird of North America. The long-billed curlew is cinnamon brown above and buff brown below. It is similar in size to a marbled godwit, but the bill of the godwit is shorter and turns up.
Like Cyrano, the long-billed curlew is shy. They arrive in Utah in mid-March, seeking open fields and grasslands away from trees, posts, power poles or any other perches of use to predators. They can been seen walking through fields, probing with their bill for worms, insects, spiders and even berries.
In breeding season the male repeatedly flies high, then glides downward, calling all the while.
[Kevin Colver, Songs of Yellowstone #9 Long-billed Curlew]
Like other shorebirds, their nest is just a shallow scrape on the ground, lightly lined with grass. Typically 4 eggs are laid. Both sexes incubate the eggs for about 2 weeks. The down covered young hatch with their eyes open and feed themselves. Two to three weeks after the chicks hatch, the female departs. Dad stays with his chicks until after they fledge when they are about 35 days old. Soon thereafter curlews flock up to migrate south. In mid July, they fly to California or Mexico, where they frequent coastal mudflats eating crabs and other aquatic life.
The long-billed curlew was once much more common. Market hunting in the 19th century and habitat loss more recently have reduced their numbers, but they persist in parts of Utah.
Thanks to Kevin Colver for the use of his recording.
To view pictures visit the Wildaboututah link on upr.org
This is Linda Kervin for Bridgerland Audubon Society.
Credits:
Photos: Courtesy Fish and Wildlife Service Online Digital Media Library
Long-billed curlew Numenius americanus, USGS Migratory Bird Research – Patuxent Wildlife Research Center,
https://www.mbr-pwrc.usgs.gov/id/framlst/i2640id.html
Hi, I’m Holly Strand of Stokes Nature Center in beautiful Logan Canyon.
One of the most beautiful lizards I’ve ever seen lives right here in Utah. The collared lizard has a gold head, a green body and 2 black collar stripes. I stumbled upon one last week during a hike in Professor Valley north of Moab. It was just shy of a foot long from tip to tail, with most of that length in the tail. It bravely stood its ground as I crept closer to admire it. Instinctively, I wanted to reach down and catch it!
The urge to catch lizards seems to be innate. Maybe our ancient ancestors used to eat them and the desire to catch them is a relict evolutionary trait.
When you catch a lizard, you might just cause him to drop his tail. Tail dropping is a defense mechanism. In many species of lizard the tail has weak fracture planes between the vertebra, allowing the tail to detach easily. After breaking off, the thrashing tail attracts the would-be predator, enabling the lizard to escape. Some lizard tails are brightly colored, which enhances the decoy effect.
Unfortunately, there are serious consequences to losing one’s tail. A long tail acts as a counterbalance, enabling a lizard to lift its forelegs when running. This is important because a lizard can move more quickly on two legs than on four. A large lizard running on two legs can sprint up to 12 miles an hour!
Male lizards need their long tails for social status. Low status males have much more difficulty mating. Tail loss also might mean that a juvenile will have trouble acquiring a home range due to low social standing.
Finally, fat stored in a tail provides a food source during periods of starvation and reproduction.
With this in mind, I hope you can join me in my effort not to catch lizards. Let’s admire these wonderful creatures from a distance.
For Wild About Utah and Stokes Nature Center I’m Holly Strand
This Wild About Utah topic was adapted from A Naturalist’s Guide to Canyon Country by David B. Williams, courtesy of the Canyonlands Natural History Association.
Thanks to the Sorrel River Ranch Resort and Spa for supporting the development of this Wild About Utah topic. The Ranch offers deluxe lodging and services on a scenic bend of the Colorado River, 20 minutes from Moab in the spectacular Professor Valley.
