QDMA Articles :
Social Stress of an Overpopulated Deer Herd
By: Jason R. Snavely
Whether they are willing to admit
it or not, most deer hunters want high deer populations on the
areas they hunt. This is a natural desire since frequent interactions
with deer are what they seek. For this reason, hunters commonly
plant food plots, provide supplemental feeds, conduct controlled
burns, and undertake numerous other activities to increase the
quality and carrying capacity of the land. The desire to maintain
high deer populations also has added to the reluctance of some
hunters to harvest an adequate number of female deer.
Have you ever wondered what would
happen if this situation was taken to the extreme? What would
happen if a deer herd (either fenced or unfenced) was provided
with unlimited, high quality feed and allowed to grow unimpeded?
Could deer be stockpiled like livestock at extremely high densities
without detrimental effects? A landmark study conducted in Michigan
nearly 20 years ago provided some answers to this very question.
More on this study later.
While the impacts of nutritional stress associated with overpopulated
deer herds have been well documented, the impacts of social stress
in overpopulated herds is relatively poorly understood. White–tailed
deer are highly social animals. Does form matriarchal groups with
well–established pecking orders. In most cases, the oldest
doe is the most dominant with her female offspring and their offspring
holding lower social positions.
Well–established social positions
minimize unnecessary energy expenditure and help maintain social
order. For example, when food is scarce, the dominant doe will
eat before subordinate does and yearling bucks. This type of behavior
also is exhibited during the fawning period. The matriarchal doe
seeks the most desirable and productive fawning areas to raise
her offspring. Consequently, less dominant does are relegated
to lower quality fawning areas. As doe numbers increase, the social
structure of these groups becomes more complex and unstable.
A study to explore the effects of
high density on social stress in white–tailed deer was conducted
in Upper Michigan by researchers John J. Ozoga and Louis J. Verme.
These researchers supplementally fed an enclosed deer herd until
it resembled a wild herd that exceeded the carrying capacity of
the land. They provided unlimited feed and allowed it grow to
10 times the acceptable carrying capacity (over 100 deer per square
mile).
Interestingly, the researchers found that as deer density increased
the survival rate of fawns decreased. In other words, while there
were more does to raise offspring, fewer were successful at rearing
young due to density–related stress. Keep in mind that access
to high quality feed was unlimited. Ozoga states, “Density
stress...independent of nutrition can alter a doe’s rate
of physical maturation and reproductive performance.” There
was a direct correlation between the fawning success of does and
their social rank within the herd. Ozoga notes that, “Neonatal
mortality was due primarily to fawn abandonment and imprinting
failure as a result of territorial behavior at high densities.”
Fawn mortality also was related to
the age of the doe. For example, when comparing prime–aged
does to 3–year–old does, to 2–year–old does,
the corresponding fawn mortality rates were 6 percent, 24 percent,
and 63 percent, respectively. Ozoga concluded that, “Neonatal
losses were related to social status and the ability to establish
fawning territories.” In other words, the lack of fawn–rearing
space for subordinate does resulted in higher fawn mortality.
Therefore, even in situations with unlimited food, social stress
can influence fawn survival, recruitment, and individual vigor.
In the Michigan study, increasing
deer density also affected antler development. When the deer density
was low, yearling bucks did not exhibit short spikes. However,
at higher densities, 22 percent of the yearling bucks grew short
spikes as their first set of antlers. Keep in mind that proper
nutrition was available even as densities increased to 10 times
that which the natural habitat conditions could sustain. Ozoga
and Verme concluded that, “Socially stressed male fawns experienced
a physiological setback and probable sex hormone imbalance that
impaired antler pedicle development.” Pedicles are the bony
protrusions on a buck's head on which antlers develop. A buck
will grow his first set of antlers on these pedicles at 1.5 years
of age. Ozoga states the obvious that, “Undersized pedicles
resulted in smaller–than– normal antlers.” While
it is well documented that a lack of adequate nutrition will prevent
a buck from reaching its full genetic potential, it is apparent
that density related stress can produce similar effects. Biologists
now believe that social stress may be affecting antler growth
and fawn recruitment in some herds.
What are the management implications
of this research? First, the study demonstrated that even with
unlimited access to high quality feeds, social stress caused by
overpopulation can have profound negative effects on a deer herd.
At very high densities, the resulting social disorder increases
competition for available food, increases energy expenditure,
decreases fawn survival, decreases antler growth in bucks, and
reduces the overall health of the herd. Second, deer are not livestock
and should not be managed accordingly. While this statement appears
obvious, many hunters on both fenced and unfenced properties across
the whitetail's range currently manage according to these principles.
Several such areas maintain deer densities at or above the level
reported in this study (over 100 per square mile). The bottom
line here is that regardless of whether a property is attempting
to practice traditional deer management, quality deer management,
or even trophy deer management, deer density must be considered
independent of nutrition.
The results of this study also raise
the question of a behavioral carrying capacity, or the number
of deer that can be sustained in a given area with unlimited high
quality feeds without causing detrimental effects to the herd.
The problem from a management standpoint is identifying the population
level at which social stress begins causing these impacts. Before
getting too concerned about identifying this particular level,
hunters should implement responsible management programs that
prevent social stress (and other negative ramifications of overpopulation)
from occurring in the first place. Simply controlling the deer
density on your hunting area by harvesting an adequate number
of adult does will prevent habitat damage, maintain herd health,
maximize harvest opportunities, and eliminate the potential for
social stress. Sound easy? Well, in most cases it is.
As the new millennium approaches, biologists are still debating
the effects of social stress on white–tailed deer. Even if
your deer herd has not reached a high enough level to cause “measurable”
damage, don’t we as responsible managers owe it to these
wonderful animals to do all possible to allow them a healthy and
natural existence? I think so.
Jason R. Snavely is an undergraduate
student at Mississippi State University where he is majoring in
wildlife science. Following graduation, he plans to pursue graduate
studies in wildlife ecology and management. This is his first
contribution to Quality Whitetails.
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