by Alex Gugel , all rights reserved
Grand CanyonDiscovering Life at Grand Canyon |
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National Park Service
U.S. Department of the Interior
National Park Service
U.S. Department of the Interior
Grand Canyon National Park
A Living Canyon:
Discovering Life at Grand Canyon
1
G
rand Canyon's scale and beauty
overwhelm the senses and inspire awe. At
first glance the great chasm appears lifeless, but
thousands of interconnected plants and animals
bring this magnificent stone wilderness to life.
The canyon's extreme elevation changes and dramatic
topography produce a range of climates, creating homes
for a surprisingly rich diversity of living things. These
organisms' interactions with and adaptations to this rugged
environment define Grand Canyon's ecology.
Further Information
Field Guide to the Grand Canyon by Stephen R. Whitney
Field Guide to the Grand Canyon (Pocket Naturalist Series)
by James Kavanagh
nps.gov/grca/learn/nature
WATERCOLOR AND SKETCHES © JOHN D. DAWSON
COVER PHOTO: DESERT BIGHORN SHEEP © MIKE BUCHHEIT
E X P E R I E N C E Y O U R A M E R I C A™
This living canyon is only one part of a larger story. Its
forests, deserts, and rivers do not begin or end with Grand
Canyon, just as threats to this ecosystem do not exist only
inside park boundaries. As global climate changes, plants and
animals must adapt or they will die.
Whether by foot, bicycle, shuttle bus, or car, Grand Canyon
provides you with unique opportunities to explore diverse
biological communities and make your own discoveries.
Living Communities
Five distinct biotic communities exist in Grand Canyon's
ecosystem. Interdependent plants and animals comprise
each unique community. Elevation, light, temperature,
slope, aspect, precipitation, and natural disturbances—
such as fire and flood—contribute to the complexity and
dynamics of these communities. As you travel through the
park and beyond, notice how your surroundings gradually
change.
Mixed Conifer Forest
Merriam's Canadian life zone
See pages 4–5.
Pinyon-Juniper Woodland
This mixture of trees flourishes inside the canyon and along the
warm, sunny areas of canyon rim. The trees are shorter because this
community receives less precipitation than higher elevation forests.
Desert Scrub
Merriam's lower Sonoran
life zone
See pages 12–13.
Riparian
See pages 14-15.
In 1889, C. Hart Merriam, head of the
United States Biological Survey, studied
Grand Canyon and the San Francisco
Peaks, near Flagstaff, Arizona. In 50 short
miles (80 km) from the summit of the
peaks to the bottom of Grand Canyon,
Merriam encountered 10,000 feet
(3,048 m) of elevation change and
observed the biological equivalent of
traveling 1,750 miles (2,816 km) from
Canada to Mexico.
What Is the Key to Desert Life?
Merriam revolutionized the concept of life
zones, which forms the basis of modern
ecology. He alleged that temperature
alone dictated life in each zone. Today, we
study communities instead of life zones
and understand that many more factors
contribute to each biotic community. How
does Merriam inspire you to investigate
Grand Canyon?
Water—summer monsoon rain
and winter snow play a vital
role in shaping Grand Canyon's
communities. Monsoons form
when warm air from the south
rises and cools over northern
Arizona, creating quickly
moving, violent thunderstorms.
Conversely, winter storms
originate from the north and west,
bringing precipitation as snow.
The park's diverse biotic communities provide a range of
opportunities for many different species of plants and animals
to thrive. In fact, Grand Canyon hosts the highest number of
plant species of any national park. How many will you find?
Vascular Plants: 1,750 species
Birds: 373 species
Mammals: 92 species
Fish: 18 species (5 native)
Reptiles and Amphibians: 57
species
Exotic (non-native)
Animals: 23 species
Plants: 198 species
Endemic (found only in
the park)
Animals: 20 species
Plants: 9 species
Invertebrates: 8,480 known
species
Look for numbers ( , , , etc.) in this brochure. Each species
identified with a number is described on the back page.
Data from Park Profile 2014
Summer temperatures: 75°F (24°C)–44°F (7°C)
Winter temperatures: 39°F (4°C)–17°F (-8°C)
Precipitation: Averages 25 inches (64 cm) per year, including 11 feet
(3.5 m) of snow
These forests thrive on the North Rim and South Rim, acting as a
transition zone between the mixed conifer forest and pinyon-juniper
woodland. Air temperatures are slightly cooler and precipitation is
slightly greater than the pinyon-juniper woodland.
Merriam's upper Sonoran
life zone
See pages 10–11.
Life Zones of Grand Canyon
Located only on the North Rim, this community is the highest and
coolest in the park. Life here adapts to an extreme winter climate.
Ponderosa Pine Forest
Merriam's transition life zone
See pages 6–7.
What Makes Grand Canyon So Special?
Summer temperatures: 82°F (28°C)–50°F (10°C)
Winter temperatures: 44°F (7°C)–20°F (-7°C)
Precipitation: Averages 15 inches (38 cm) per year, including 5 feet
(1.5 m) of snow
Found down inside Grand Canyon, this is the hottest and driest
community. Life here adapts to extreme heat and a very dry climate.
Summer temperatures: 103°F (39°C)–74°F (23°C)
Winter temperatures: 58°F (14°C)–32°F (-0°C)
Precipitation: Averages 9 inches (23 cm) per year, including 2 inches
(5 cm) of snow
Riparian areas of the inner canyon include springs, seeps, and streams,
as well as the Colorado River and its banks. Precious water allows for
a rich diversity of life, even though air temperatures and precipitation
amounts resemble the desert scrub community.
© LISA KEARSLEY
Mixed Conifer Forest
3
2
6
5
4
More than Meets the Eye
Your trip to the North Rim is
not complete unless you see
deer graze in the meadows.
This fragile and unique
ecosystem comprises only
0.003% of the park. Found
interspersed with the mixed
conifer forest, meadows
feature amazing diversity, with
15–30 plant species per 0.1 acre
(0.4 ha). Approximately 90% of
the grasses, sedges, and other
plants are native.
While meadows cover only a
tiny area, their rich and healthy
habitat indicates good air
quality—though visibility may
be reduced due to air pollution
blowing through from other
regions. What can you do to
reduce air pollution in your
daily life to protect Grand
Canyon's meadows?
7
An Eventful Life
People vs. Predators vs. Prey
The high elevations of the North Rim produce a short,
frenzied growing season. Dense, dark spruce and fir forests
broken by bright, open meadows dominate this landscape.
In late spring and summer, these meadows will delight you
with colorful wildflowers and a symphony of bird songs.
Quaking aspen mix with conifers, often sprouting in areas
disturbed by fire.
As settlers arrived on the North Rim, fears for personal
safety, loss of livestock, and the desire to protect deer and
other game animals led to the systematic extermination of
many predators. Hunters killed all the wolves (Canis lupus).
Mountain lions and bobcats narrowly escaped the same fate.
Aspen trees dropping their festive gold leaves signal
winter's approach. The meadows appear stark as plants
become dormant. Some animals busily prepare for winter,
scurrying to store food. Others simply avoid winter through
hibernation or migration, just as many of you hide inside or
travel to warmer climates when the snow falls.
In winter, each species must endure or avoid the deep snow
and cold temperatures. Evergreen trees survive with the
help of tough, narrow needles packed with chemicals that
act like antifreeze. This needle adaptation helps them use
every warm day for photosynthesis and growth.
ABOVE PHOTO NPS / TOM BEAN
TOP BACKGROUND PHOTO NPS / TOM BEAN
4 A Living Canyon: Discovering Life at Grand Canyon
Overhunting, missing predators, and open grasslands
meant the deer population exploded and overgrazed native
plants in the forests and meadows. Thousands of deer ate
themselves out of food and starved to death during winter
1924–25.
Predator populations slowly recover, and we now
understand the essential role predators play in maintaining
a healthy balance with their prey. Though wolves have not
returned, park biologists now study a relatively healthy
mountain lion population and how these predators interact
with their prey, desert bighorn sheep.
An estimated 800 mountain lions, 550 bobcats, 30 wolves,
and 5,000 coyotes were killed prior to 1931.
BACKGROUND PHOTO NPS
Grand Canyon National Park 5
Ponderosa Pine Forest
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13
14
12
An Inviting Openness
9
8
Do You See the Difference?
The tassel-eared Abert's squirrel
(left) on the South Rim and
Kaibab squirrel (right) on the
North Rim share a common
ancestor. The canyon acts as
a barrier between the two
squirrels. Genetic changes
that occurred because of this
isolation brought about a distinct
coloration in each species. The
North Rim is the only place in
the world where the Kaibab
squirrel lives.
ABOVE LEFT PHOTO © US FOREST SERVICE;
COCONINO NATIONAL FOREST
ABOVE RIGHT PHOTO © J.G. HALL
TOP BACKGROUND PHOTO NPS / TOM BEAN
On a warm day near Grandview Point, you may smell the
faint aroma of vanilla or butterscotch and see some of the
tallest trees on the South Rim. This sweet scent radiates
from the ponderosa pine. These towering pines, with
straight trunks, long needles, and orange bark, thrive in
the cooler, wetter areas along the canyon's edge. As you
approach Cape Royal on the North Rim, look for this plant
community between the mixed conifer forest and pinyon–
juniper woodland.
Ponderosa pines adapt to the region's dry climate with a
widespread root system and long taproot. Competition for
moisture, nutrients, and sunlight, coupled with frequent
fire, creates open forests. Thickets of Gambel's oak grow
scattered through this plant community, providing an
important food source and shelter for wildlife. Listen for
the Steller's jay scolding from a treetop and perhaps catch
a glimpse of wild turkeys (Meleagris gallopavo) strutting
through the forest.
Hidden Connection
Tassel-eared squirrels thrive almost exclusively in ponderosa pine forests, sharing one of Grand Canyon's
closest bonds. The squirrels feed on every part of the ponderosa pine: pollen, cones, seeds, inner bark, and
mycorrhizae (a fungus on the roots that helps trees absorb water). Through their scat, the squirrels
provide nutrients and spread the helpful fungus which benefits the trees.
6 A Living Canyon: Discovering Life at Grand Canyon
11
Our Changing Views
During the last 100 years,
humans altered the forest
around you by suppressing
wildfires. Before settlement,
old-growth ponderosa pine
forests featured open, grasscovered spaces. Now, you
see thick underbrush and
dense debris in many places.
Unfortunately, this generates
hotter, faster fires that have
the potential to consume all
of the large trees in a forest.
Today, fire managers work to
safely restore the forest using
natural and prescribed fire,
hazard fuel reduction, and
fire effects monitoring. Their
efforts return balance to the
ecosystem and prepare the
forest to face future climate
changes.
A Powerful and Creative Process
Forest fire—what comes to mind? While this word may
conjure terrifying images for you, the ponderosa pine
forest requires this ingredient to survive. Lightning often
accompanies summer monsoon storms, bringing the
potential for forest fires. Naturally occurring, low-intensity
fires clear the forest and add crucial nutrients to the soil.
These fires reduce competition, allowing trees to grow tall
and healthy.
With specialized adaptations, ponderosa pine thrives under
natural fire conditions. Deeper root systems provide safety
from ground fires. The thick, fire-resistant bark of mature
trees shelter it from all but the most intense forest fires.
In 1902 (left), the Matthes Survey encountered a naturally open
ponderosa pine forest. Decades of wildfire suppression resulted
in a much denser forest (right).
ABOVE (LEFT) PHOTO NPS
ABOVE (RIGHT) PHOTO © US FOREST SERVICE,
COCONINO NATIONAL FOREST
BACKGROUND PHOTO NPS
Grand Canyon National Park 7
Resident Regulars
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16
9
17
NPS
18
NPS / MICHAEL QUINN
19
NPS
Grand Canyon Generalists
Do Not Feed Me
Back from the Brink
While some animals survive in specific
communities, others thrive nearly
anywhere. No matter which Grand Canyon
community you visit, your best chance to
see wildlife is to walk quietly and look for
one of these resourceful creatures: raven,
rock squirrel, deer, coyote, or elk.
Approaching or feeding wildlife is
prohibited and dangerous. Seemingly tame
animals are wild and may injure you or a
loved one. Many animals carry diseases
that can be transmitted to humans. Animals
develop a dependency on human food and
are more likely to die younger. For your
safety—and the animals'—view wildlife
from a safe distance of 75 feet (23 m).
The California condor, largest bird in
North America, is a scavenger with a
wingspan up to 9.5 feet (2.9 m). Shootings,
habitat loss, and lead poisoning almost
caused their extinction. In 1996, biologists
reintroduced condors to Arizona and now,
some condors use remote caves in Grand
Canyon as nest sites.
8 A Living Canyon: Discovering Life at Grand Canyon
6
NPS / MICHAEL QUINN
Today, the greatest threat to condors
remains poisoning. Unbeknownst to them,
the birds ingest lead bullet fragments in the
animal carcasses they feed on outside the
park. Land managers promote using non–
lead ammunition, which helps preserve and
expand the current endangered condor
population.
Grand Canyon National Park 9
Pinyon-Juniper Woodland
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21
22
Life in Dry Woodlands
20
Bluebird Feast
In early winter, bluebirds relish
the small, succulent pink berries
of juniper mistletoe. Mistletoe
is a partial parasite, dependent
on its host tree for water and
minerals, but feeds itself by
photosynthesis in its yellowishgreen stems.
ABOVE PHOTO NPS
TOP BACKGROUND PHOTO © NPS / TOM BEAN
Hot, dry breezes rise from inside the canyon. Thin soils
close to the canyon's edge hold little water, and trees
grow short, gnarled, and twisted. Trees conserve precious
water with waxy coatings on their needles or scale-like
leaves. Though it does not appear lush, the pinyon-juniper
woodland houses fascinating relationships.
Animals bring life to this community. Pinyon jays coevolved with pinyon pines: they eat and spread massive
amounts of pine nuts—not a true nut, but a seed—storing
them in soil miles away to return to and eat later. Every few
years, when the pinyons put out a bumper crop of pine
nuts, the jays cache far more than they need for food, giving
birth to a new generation of trees.
American robins (Turdus migratorius), bluebirds, coyotes,
and gray foxes all depend on the berries—or modified
cones—of the Utah juniper for a year-round food source.
You may see the beginnings of a new juniper with a bit of
organic fertilizer attached. Look for these large tan seeds or
blue berries in orange-brown coyote scat.
23
10 A Living Canyon: Discovering Life at Grand Canyon
26
16
Invasive Elk
24
Viewing the large elk herds in
the park is exciting. However,
park managers consider
non-native species, like elk,
invasive to Grand Canyon.
In the early 1900s, humans
introduced Rocky Mountain
elk into Arizona. Elk migrated
north from the Williams area
and eventually made a home
at Grand Canyon. They survive
here quenching their thirst
on unnatural water sources
and feasting on non-native
grass. What role can you play
to manage non-native species
where you live?
ABOVE PHOTO NPS / MICHAEL QUINN
TOP RIGHT PHOTO NPS / MICHAEL QUINN
MIDDLE RIGHT PHOTO NPS / MICHAEL QUINN
BOTTOM RIGHT PHOTO NPS
You Can Save a Life
The seemingly bare ground between large plants is rarely
unoccupied. Extremely sensitive biological soil crust takes
decades to form. These crusts play important roles in
reducing soil erosion and increasing water conservation.
You can prevent damage to delicate vegetation by walking
on established trails.
On the South Rim, off–trail
foot traffic nearly trampled one
miniature, ground-hugging
member of the pea family out
of existence. Today, fencing
protects the endangered sentry
milk-vetch, a plant that only
grows along the canyon's edge
in narrow bands atop the porous
Kaibab Formation.
Park botanists are experts at
growing and replanting this
fragile plant where careless
footsteps almost eliminated it.
Your actions to stay on trails can
protect this community,
including its endangered and
endemic species.
Grand Canyon National Park 11
27
Desert Scrub
29
30
32
Adaptations to Desert Life
Windows to the Past
If you hike down into Grand Canyon, with every step you
will quickly discover it gets hotter and dryer. Elevation
and temperatures at Phantom Ranch, at the bottom of the
canyon, equate to those found in Phoenix, Arizona. Here,
limited precipitation comes as cold, gentle winter rain and
violent summer monsoon thunderstorms.
28
Hiking Down into Grand
Canyon in Spring?
Keep your eyes out for 12-foot
(3.7 m) tall flowering yellow
stalks. While some plants bloom
annually, the century plant
blooms only once after 15–25
years and then dies. Ancestral
Puebloan people and the
Havasupai Tribe made baskets
and hair brushes from this
plant's fibers.
ABOVE PHOTO © JO SUOMALA
TOP BACKGROUND PHOTO NPS / TOM BEAN
The Sonoran, Mohave, and Great Basin deserts meet in
Grand Canyon, sustaining a rich diversity of life. Following
a wet winter, spring wildflowers will delight and amaze
you. The beautiful descending whistle of the canyon wren
(Catherpes mexicanus) adds a memorable soundtrack to
your hike.
Nocturnal animals, such as ringtails, owls (Order
Strigiformes), and bats (Order Chiroptera), avoid the
scorching heat by resting during the day and emerging from
shelters at night. This useful adaptation helps them survive
the extreme heat. Take a hint from these animals and avoid
hiking in mid–day heat.
Riparian Oases in the Desert
Springs and seeps make up just 0.01% of Grand
Canyon's landscape, but species concentrations
may be 500 times that of the surrounding desert.
Essential to life, these enchanting places showcase
delicate maidenhair fern (Adiantum sp.), yellow
12 A Living Canyon: Discovering Life at Grand Canyon
columbine (Aquilegia flavescens), and crimson
monkey flower (Mimulus cardinalis). Each unique
water source provides a home to plants or insects,
some of which are found nowhere else on Earth.
What will packrats find
at Grand Canyon in the
centuries to come? Our own
daily actions influence global
climate, which in turn affects
the plants that grow here
and the animals that depend
on them. Will future packrat
middens contain the same
seeds and bones they do
today?
ABOVE PHOTO OF MIDDEN © NANCY E.
MULEADY-MECHAM
31
33
Climate Chroniclers
Ancient hoarders provide a glimpse into
Grand Canyon's past. Packrat (Neotoma spp.) urine
solidifies middens containing evidence of seeds, leaves,
and bones collected nearby. Middens can survive more
than 30,000 years in this dry climate, providing wonderful
snapshots of past environments.
Middens, along with giant ground sloth (Order Pilosa)
dung, condor bones, and pollen preserved in caves,
illustrate stable, colder temperatures 11,700 years ago. Some
plant species, such as the limber pine (Pinus flexilis), have
since disappeared from Grand Canyon. Other species, like
juniper, are now only found at higher elevations.
Although climates always change, human activities
currently accelerate this process. Park managers implement
sustainable practices that decrease greenhouse gas
emissions, conserve water, increase recycling, and use
alternative energy and fuels. What daily practices do you
use to protect your planet?
Some, such as Roaring Springs below the North
Rim, provide drinking water for visitors. Proposed
mining claims and new developments near the
park threaten springs by drawing water from
aquifers extending beyond park boundaries.
Park scientists study the springs, seeps, and
streams, as well as the hydrology of the
surrounding plateaus, applying the best science
to protect this life-giving resource. How can you
reduce your water use where you live?
Grand Canyon National Park 13
Riparian
Effects of Glen Canyon Dam on the Colorado River
Characteristic
Pre-Glen Canyon Dam
Post-Glen Canyon Dam
Water Color
Reddish-brown, sediment-laden.
Cold and clear except when tributaries
contribute sediment.
Water Temperature 33–40ºF (0.5–4.4ºC) winter.
Near 48ºF (9ºC) year-round. Warms
slightly during summer and downstream.
Sandbars/Beaches
Plentiful. Renewed by annual
flooding.
Dramatic decrease in size and number.
Vegetation
Scoured from beaches during annual
flooding. Little plant life growing in
river due to sediment load.
Increased growth to water's edge.
Dominated by tamarisk. Single-celled
diatoms and algae growing in river.
Human Activity
Limited. Unregulated.
Very popular for rafting. Strictly
regulated.
Floods
Seasonal. Scoured debris and rebuilt
beaches. Scoured vegetation from
river edge.
Controlled or human-made. Much
smaller scale and duration.
Glen Canyon
Free-flowing river through natural,
wild canyon. Provided wildlife habitat
and scenic beauty.
Full of water and sediment.
Created Lake Powell and its recreational
activities.
75–85ºF (24–29ºC) summer.
35
36
Overcoming Obstacles
Why Do Tributaries Matter?
At Grand Canyon, 768 year-round
and intermittent streams and
rivers flow into the Colorado
River. The canyon's intricate
system of tributaries survived the
construction of Glen Canyon Dam,
and today National Park Service
biologists use these protected
places to manage native fish
species.
Using a method called tributary
translocation, biologists
transport populations of native
fish to tributary environments
downstream in western
Grand Canyon. Warmer water
temperatures and fewer
nonnative predators provide the
ideal conditions the fish need to
reproduce.
ABOVE PHOTO NPS
TOP BACKGROUND PHOTO NPS / NIC K. BEREZENKO
The Colorado River originates in Colorado's Rocky
Mountains and flows over 1,400 miles (2,253 km) to the
Gulf of California. As it runs 277 miles (446 km) through
Grand Canyon, it loses 2,000 feet (610 m) of elevation,
averages 300 feet (91 m) wide, and 40 feet (12 m) deep.
The river, together with its tributaries, seeps, and springs,
comprises the riparian community of Grand Canyon.
Construction of Glen Canyon Dam in 1963 brought about
a series of changes to the river and its ecosystem. However,
the powerful waterway still exists as a safe haven for several
native species of fish, including the endangered humpback
chub (Gila cypha), speckled dace (Rhinichthys osculus),
flannelmouth sucker (Catostomus latipinnis), bluehead
sucker (Catostonus discobolus), and razorback sucker
(Xyrauchen texanus). Endangered razorback sucker were
even discovered spawning here in 2014 for the first time
in decades. Active management of these native fishes by
National Park Service biologists enables the Colorado River
to continue to be a significant regional refuge for these
unique species.
34
A Complex Condition
Since the Glen Canyon Dam introduced a steadier flow regime and eliminated spring floods, tamarisk
(Tamarix spp.)—an invasive shrub—dominates beaches throughout Grand Canyon. However, tamarisk
attracts insects, providing food for birds and animals. In fact, Bell's vireo (Vireo bellii), a bird in decline
across its range, extended its range more than 100 miles (161 km) upriver because of the food provided
in these new nesting sites.
14 A Living Canyon: Discovering Life at Grand Canyon
G
rand Canyon's dynamic ecosystem
provides a sanctuary for an incredible
diversity of life. While the biological communities
inside the canyon may be different from those on
the rim, relationships between living things and
their adaptations to the environment connect all
parts of this remarkable place.
The qualities that make Grand Canyon an important refuge
for plants and animals also make it an important retreat
for humans in a time when access to nature is increasingly
limited. It is truly a place of exploration, wonder, and
discovery for you to enjoy and protect.
Tread carefully. Your actions impact every community you
visit because everything is connected. Whether at Grand
Canyon National Park or in your own neighborhood, you
have the power to positively influence your surroundings
and help protect natural places for future generations.
Grand Canyon National Park 15