Transcript Ecological Succession: Trends in Succession

Ecological Succession: Trends in
Succession
Unit 10, Part 1
Section 1: Ecological Succession
• Although you probably haven’t thought about it, the shrubs,
moss or grasses you see when walking along a sidewalk could
be the beginnings of new, natural communities.
• If these areas were not altered by human activities, each
would undergo a series of changes in which different species
of organisms would appear, to be replaced later by others.
• Given enough time, each area would become a complex and
stable community.
Succession and its Causes
• The series of changes in a community is called
ecological succession.
• The diversity of organisms living in each community
today is not the same as it was in the past. Biotic
and abiotic factors have changed over time.
• Some communities may be stable, having undergone
changes over a long period of time, and others may
not yet be stable and still have some changing to do.
What Causes Ecological Succession?
• A major factor is the effect a particular set of organisms
has on the physical environment.
• During succession, organisms alter their physical
surroundings in a way that makes those surroundings
more suitable for other kinds of organisms and less
suitable for themselves. As a result, new organisms invade
and the old organisms move out.
Primary Succession
• Succession that begins in areas where there is
no life is called primary succession.
• This stage begins with very tough organisms those that can grow under adverse conditions.
• This is called the pioneer stage.
Climax Community
• The stable stage in the development of a community is known
as the climax community.
• The type of climax community that emerges in a given area
depends on the interaction of all factors in the environment.
• Because it is stable and complex, a climax community tends to
remain the same over a long period of time without further
succession.
Secondary Succession
• Succession often begins as a result of natural destruction,
such as fire, volcano, or flooding, or by human interference.
• In either case, new succession begins when the dominant
plants of a community are removed.
• If the land is left untended, secondary succession occurs.
• This happens more quickly than primary succession because
soil is already formed and seeds may be present.
Succession of Plants
Trends in Succession
• Whether primary or secondary succession, both have
common characteristics.
• At the beginning, small plants with short life cycles (such
as grass) are present. These are later replaced with larger
plants with longer life cycles (like trees). This traps more
energy via photosynthesis, which increases the
biodiversity over time.
• Food chains are short and simple at first, but increase in
complexity as time goes on and more species are present.
• Recycling of wastes and nutrients also becomes more
efficient.
Ecological Succession: Human
Interaction
Unit 10, Part 2
Human Interaction
• Humans have obviously done a lot to change the ecosystems
in which they live.
• Picture the journey across America. Some places are dense
with people, building, and cars, while others seem untouched.
Other places have been heavily traveled, while still more have
only been walked by cattle, buffaloes, and deer.
• While we love the modern marvels we use daily, what is the
price of all these changes we’ve made?
Pollution and Pesticides
• Imagining that cross-country trip again, describe the
difference between the air in California and the air in Iowa.
• How does the population density of humans affect this?
• What are some things we do to contribute to the pollution?
• What can we change to make it better?
• These are all questions we must ask in order to determine the
solutions to the decline of our resources.
Pollution
• Pollution is caused by many factors, almost all of which can be
attributed to human activity.
• The burning of fossil fuels (e.g., gasoline and coal) to power
our cars, the use of substances containing CFCs
(chlorofluorocarbons), and the dumping of wastes into our
water are all sources of pollution.
The Problem With Pesticides
• Pesticides, while beneficial for farmers protecting their crops,
also have a downside.
• First, they’re toxic chemicals. Releasing them into the air, the
soil, and the water, exposes not only humans, but also
countless other organisms to their dangers.
• Secondly, after awhile, most insects will develop a resistance
to them, forcing us to create newer, better, and more harmful
toxins.
• Is this ever a good thing?
Are There Other Options?
• There are some non-chemical, natural alternatives to using
pesticides.
• One would be to release natural predators to keep pest
populations in check.
• Another would be to use the pests’ own biochemical
characteristics against them.
• Other alternatives, called cultural controls, involve breeding
plants that are resistant to pests, or that have their own
defense mechanisms.
The Consequences
• In recent years, more attention has been paid to the
relationship between the population boom and the damage
being done to our atmosphere.
• Space issues, resource availability, disease, and intraspecific
competition are all factors that affect the human population.
The Ozone Layer: A Hole in the Sky
• As you’ve probably heard, there is a hole in what we
call the ozone layer. Ozone is a chemical (O3 to be
exact) that serves many purposes: to protect the
Earth from space debris, to help control the
temperature, and perhaps most importantly, to
shield the earth from harmful ultraviolet radiation
from the sun.
• So, what’s the problem with the deterioration of the
ozone layer?
Acid Precipitation
• As we know, the abundance of factories and automobiles
burning fossil fuels can wreak havoc on the atmosphere.
• One such problem with this is the acid (mostly sulfuric acid)
that builds up when smoke gets trapped in the air.
• When it rains, snows, sleets, or hails, the water collects the
acid and brings it down with it. This results in the
deterioration of metals, the increased acidity of the soil, and a
pH change of water sources.
Global Warming
• Global warming and the ‘greenhouse effect’ are both issues as
the average temperature of the earth increases.
• The greenhouse effect occurs when gases are trapped in the
atmosphere. These gases are heated by the sun, which makes
our temperatures on earth even higher.
• How might this affect different plants and animals?
Conservation of Resources
• You’re probably familiar with the symbol
below, which means ‘reduce, reuse, recycle.’
• What are some ways we do this now?
• What are some ways we can do this in the
future?
Food, Fuels, and Forests
• We can increase food by practicing selective breeding to
produce more grain per plant. We can also replace the
plants we have cut down in another area.
• We can seek out alternative fuel sources, such as ethanol,
nuclear energy and solar power to reduce the burning of
fossil fuels.
• We can recycle paper products to keep from having to cut
down more trees and destroying forests and the animals
who live in them.
• Any other ideas?
Is There Any Hope?
• Pollution, over-consumption, and an expanding human
population are real and important problems facing the earth.
• With enough planning and cooperation, we can reverse some
of the damage that’s been done over time and ensure that
there’s a place for our grand-children to live.
• Scientists have been working on alternative energy sources,
and more people are recycling. Together, these things should
add years to the life of Earth.