Hi My Friends: A VUELO DE UN QUINDE EL BLOG., Moose act as conduits of nitrogen between water bodies and the edges of lakes, ponds
This article is the fourth in a series on NSF's Long Term Research in Environmental Biology (LTREB) awards. Visit parts one, two and three.
What animal can see only a limited distance, has no top front teeth, and prefers shady, wet areas such as bogs and marshes?
If you guessed a moose, Alces alces, you'd be correct.
When
summer or autumn travels take you through northern regions dotted with
lakes and ponds, you may glimpse this creature, water dripping from its
bell--the flap of skin under its throat. It's most often visible in
early morning and at dusk, and in low, wet areas.
Like many of us,
moose don't like hot weather. They overheat at summer temperatures
above 59 degrees Fahrenheit (15 degrees Celsius). So, on hot days they
take to the waters--the edges of wet bogs lined with shade trees.
What
moose find there is of interest to ecologists Joseph Bump, Rolf
Peterson and John Vucetich of Michigan Technological University.
With
funding from the National Science Foundation (NSF), the scientists
study relationships between moose, wolves and the environment on a
remote island in Lake Superior called Isle Royale. The project has been
ongoing for five decades.
Isle Royale is a perfect place for
moose: water in every direction; shores lined with pondweed, water
lilies and other aquatic vegetation upon which moose feed; and nearby
forests laden with other favored moose foods like the buds and twigs of
willow, aspen, red dogwood and balsam fir trees.
Moose live in the
northern areas of North America, Europe and Eurasia in the cold
climates of mixed deciduous-coniferous forests. They're the northern
forest's largest herbivores.
Each moose chomps down about three
million bites of shrubs and trees and eats three metric tons of leaves
and twigs every year. The Ojibwe people, Native Americans long familiar
with the animal, call it "mooz," meaning "twig eater."
A typical
moose, which weighs almost 800 pounds, may eat up to 70 pounds of food
each day. The average adult moose consumes some 9,770 calories per day
to maintain its body weight.
Some of a moose's energy comes from
vegetation that grows on land, but many land-based plants are low in
sodium. The larger plants of lakes, ponds and wetlands, known as aquatic
macrophytes, provide moose with the sodium they need. As much as half a
moose's diet consists of aquatic macrophytes.
Where do the remains from all this foraging wind up?
They
come ashore, according to research conducted by Bump, Peterson and
Vucetich, along with Keren Tischler of Common Coast Research &
Conservation in Hancock, Mich., and Amy Schrank of the University of
Michigan Biological Station.
When moose forage on aquatic
macrophytes, which are also rich in nitrogen, then make their way onto
land, they're acting as a conduit for the plants' nitrogen. Spots in
which moose excrete waste, and where they die, are direct routes from
water-to-land for this element.
"Moose transfer significant
amounts of aquatic-derived nitrogen to terrestrial [on land]
ecosystems," says Bump. "They greatly increase nitrogen in riparian, or
shoreline, zones."
The scientists looked at how this process
happens by analyzing data on moose densities, foraging parameters,
excretion models and moose carcass locations. They published the results
in a paper in the Journal of Animal Ecology.
"Nutrients
in salmon, birds, river otters, insects and other animals play a major
role in linking aquatic and terrestrial ecosystems," says Bump.
Predators
also influence that nutrient transfer. On Isle Royale, when moose are
killed by wolves, what's left of their bodies decomposes, transferring
nitrogen from the aquatic plants the moose once ate to the land that
ultimately lies beneath them.
"It's hard to imagine what species
as diverse as moose, salmon and midges, for example, might have in
common," says Saran Twombly, program director in NSF's Division of
Environmental Biology, which funded the research.
"Yet all three
transfer significant quantities of nutrients from aquatic to terrestrial
habitats. On Isle Royale, wolves add to this total amount. They kill
moose in specific locations and generate 'hotspots' where nitrogen is
transferred from lake to shore."
Moose first arrived on Isle
Royale in the early 1900s and increased rapidly in what was once a
predator-free environment. Then wolves found their way to the island in
the late 1940s; they crossed a winter ice bridge that connected Isle
Royale with mainland Ontario. "The lives of Isle Royale moose would
never be the same," says Vucetich.
The island's moose population
is usually between 700 and 1,200 animals. Wolves there, now down to
nine, at times have reached nearly 50.
Isle Royale's moose
increase soil nutrients and microbial biomass, change soil microbial
composition and increase nitrogen in plants near kill sites for at least
two or three years after a moose's death.
"It's clear that moose
link aquatic macrophytes with terrestrial animal and microbial
communities," says Vucetich. "Our analysis of long-term carcass
patterns--where moose die--shows exactly where such food web links occur
on the landscape.
"Given the circumpolar extent of moose, they
and the wolves that prey upon them are an important aquatic-terrestrial
resource vector in northern ecosystems."
The National Science Foundation (NSF)
Related WebsitesMoose & Wolves of Isle Royale: http://www.isleroyalewolf.org
All About Moose: http://www.isleroyalewolf.org/overview/overview/moose.html
All About Moose: http://www.isleroyalewolf.org/overview/overview/moose.html
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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