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population of scattered trees is a crucial element for biodiversity
in landscapes worldwide. Unfortunately their
decline has been gradually increasing, resulting in negative consequences for
the environment surrounding them. The most evident and powerful force
behind this decline has been wildfires and this paper’s intent is to compare
and examine the effects of wildfires on numerous observational plots to make a
concrete conclusion that highlights the stark impact these wildfires are
contributing to.


            The negative consequences resulting
from wildfires in agricultural land seem endless; from their destructive nature
of homes, wildlife
habitat and timber to their
release of carbon dioxide in the air- their unfortunate effects are still
somehow overlooked and seem to be only perpetuating more. Although one may not
realize how harmful this loss of biodiversity can be to the ecosystem and
global climate, the results obtained from this research point to the damage we
should be aware of and acknowledging as so to lower and eventually end the
removal of one of the most valuable structures in our environment. needs a better transition
To determine the effects of wildfires the researchers observed scattered trees
under two different circumstances; one circumstance consisted of an observational
plot where scattered trees were exposed to fire and another observational plot
where the presence of fire was nonexistent. The study was conducted and
completed in the southern part of New South Wales. The fire seasons between five years of 2005 to
2010 were examined in this study and are where the twelve wildfires occurred.  

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Since 2005 there have been powerful and consistent wildfires each year
in just the south-western slopes alone. Almost every year, as of 2005, consisted
of multiple wildfires burning up to 24,285 ha of land. With every wildfire we
suffer not only an enormous loss of the population of these scattered trees but
also eliminate copious amounts of biodiversity in these landscapes. The
scattered tree population difference within the observational plots in areas
affected by wildfire versus those outside the affected areas were disappointing but expected nonetheless. The scattered trees were each physically located and
marked as point objects and the total quantity of objects  inside each plot was calculated. This
technique for checking scattered trees appears has been proven to be quite
precise. The tools used to indicate the results throughout the
experiment were the GIS (geographical information systems) software and
satellite imagery retrieved through a SPOT
5???????. These instruments revealed the change in number of
scattered trees in both the fire affected and observational plots and
controlled non affected observational plots. Another consequence of the
wildfires that was tested was its effect on woody vegetation described as bundles of patches of vegetation and scraps of trees. In statistical terms, observational plots with fire
exposure lost 19.9% of the scattered tree population and consolidated woody
vegetation rose by 2.3%. Meanwhile, in the control observational plots (i.e. those with no fire
exposure) the population growth rate of the scattered trees increased by 5.3%
as so did the consolidated woody vegetation which increased by 22.5%.


Although this specific study’s data correlates to the notion
that wildfires have an immense and negative impact on biodiversity must keep in
my mind that not every other research may not parallel this date and theory. Controlled observational plots cannot
vouch for every other area and determine correlating results for every
geographical landscape subjected to wildfires, however it would be ignorant to
belittle the information extracted
from this thorough
experiment. The damages that come alongside will have ever lasting effects on
the world we see today and the world that will be here for generations to come.

Although they are not the sole component, the rapid decline of scattered trees
takes down much more than just a large piece of bark with leaves. Each tree is
home to thousands of insects and species that are diminished with each wildfire
and impact the working and functioning of our ecosystem. Abundancy within an
ecosystem is essential in maintaining the natural balance of the environment. The
importance of a species rich ecosystem lies in its endurance of chaos such as
natural disasters and other potential distress. The more an ecosystem lacks
this key element the greater damage it will experience if at any point one it’s
so few species is endangered or extinct.


In conclusion we can evaluate the negative consequences of
wildfires from the findings of this study. With this data we can acknowledge
the detrimental effects on biodiversity that coincide with the everlasting plunge
in population of the scattered trees.  As
humans we should do our part to contribute in any way that saves our
environment as it is slowly deteriorating at the tip of our fingers. It is a
collective effort that should be a one of the upmost priorities amongst human
beings. Although this experiment pertains to one certain geographical area,
those who reside in California can simply step foot outside and see and feel
firsthand how impactful, dangerous and truly inconceivable the effects of a
wildfire can have. They’re fast spreading nature and power are hard to stop and
we as humans should look at this cry for help mother nature is illuminating to
us. The cycle of the environment is one that is complex but every part of it is
intertwined. Carbon dioxide, climate change, wildfires, uprising sea levels,
starving animals are all part of this web that must be cared for and protected
rather than exploited and hazardous to all. Our environment is home to not only
us but all.


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