Rachel
Garman
Penn State
News
January 18,
2016
.. ..
White-tailed
deer, though cute and wide-eyed like Bambi, can wreak havoc on the land around
them. And no one knows this better than Jack Ray. Ray’s property borders
Rothrock State Forest, a prime location for an outdoorsman like himself. Yet
when it comes to the apple trees he uses for his annual homemade apple cider,
the location poses a bit of a challenge. Those apples are a favorite snack for
deer, and he’s witnessed firsthand how innocent snacking can ruin any hopes of
delicious apple cider.
According to
Christopher Rosenberry, supervisor of deer and elk management with the
Pennsylvania Game Commission, deer snacking like the kind that wipes out Ray’s
apple harvest is normal behavior, and it presents a danger to the entire
forest.
“Deer are
browsers. They will browse on woody vegetation, and too much browsing may
eliminate the small trees in the forest. If there's a timber harvest or an ice
storm or something that removes the canopy, and those young trees do not exist
under the canopy, you can potentially lose your forest.”
Thanks to
geospatial technologies like GPS, one Penn State research study may soon have a
better understanding of how to balance these woodland creatures’ affect on
forest vegetation. The Deer-Forest Study, led by professors Duane Diefenbach
and Marc McDill, is a collaborative project among Penn State, the Pennsylvania
Game Commission, the Pennsylvania Department of Conservation and Natural
Resources, Bureau of Forestry and the Pennsylvania Cooperative Fish and
Wildlife Research Unit.
Entering its
third year, the study outfits deer in three areas — Rothrock, Bald Eagle and
Susquehannock State Forests — with GPS
collars that monitor each deer’s location. In addition to the GPS collars, field
researchers also go in the field to collect data on vegetation levels in the
locations visited by each deer.
“The
objective of the research is to look at the simultaneous effects of deer
browsing, competing vegetation and soil conditions on the vegetation that's out
there in our forests,” said Diefenbach, an adjunct professor of wildlife
ecology. According to Diefenbach, the GPS technology has been instrumental in
the success of the project.
“The deer
collar is basically a GPS unit that relies on satellites to estimate a
location,” Diefenbach said. “Those collars can transmit data to a satellite,
which then transfers that information to us via the Internet. Because of this
technology, we can get more locations over a longer period of time.”
Thanks to
this technology, Diefenbach, McDill and other researchers can watch remotely
from their computers as each deer zigzags across the forest terrain. “I think
one thing that the GPS collars have provided is some insights into how adult
male deer are able to avoid being killed,” Diefenbach said. “Because we've been
following their movements every 20 minutes during the hunting season, you can
see they respond incredibly quickly to the hunters.”
According to
Diefenbach, opening day of regular deer hunting season in Pennsylvania brings
as many as 700,000 hunters to the state’s forests. “We've known for decades
that adult males are much harder to kill than females or even younger males,
but this study has really shed light on how they survive.”
For a
seasoned researcher like Diefenbach, the evolution of technology in the field
has been crucial to recent discoveries and advancements in deer research. “When
I was a graduate student, we had very high frequency (VHF) collars. Generally,
what people did was go out on the ground, try to plot the animal’s location as
best they could on a USGS topographic map, and then by recording multiple
readings of where a signal was coming from so they could determine the
location,” Diefenbach said.
“Using the
technology we have today, we can get hundreds of locations per day on one
animal. So it's just a game changer in understanding animal movements and how
they respond to environmental factors and human activity. There's just no other
way we could collect data this accurate.”
According to
Rosenberry, studying deer movements isn’t only crucial to species-specific
management, it’s also necessary for a better understanding of forest management
in general. “One of our goals is to maintain deer populations at levels where
forest habitat is sustainable. And that's important not only from a deer
standpoint — because the forest provides a habitat for deer — but for many
other wildlife species, plant species and recreation.”
For
Rosenberry, studying this relationship is an important step in preserving
forests for future generations. “When we look at a forest, a lot of times we
just see the big trees,” Rosenberry said. “But in order for those big trees to
exist, there had to be small trees at some point in the past. Those small trees
that are growing today will be the forests of tomorrow.”
To follow the Deer Forest Study click here. You can also subscribe to their blog and have posts emailed directly to you. Click here to view blog.
To follow the Deer Forest Study click here. You can also subscribe to their blog and have posts emailed directly to you. Click here to view blog.
No comments:
Post a Comment