Why is Biodiversity Important
Content
Why Is Biodiversity Important? Who Cares?
Author And Page Information
y y by Anup Shah This Page Last Updated Wednesday, November 18, 2009 y y
This page:http://www.globalissues.org/article/170/why-is-biodiversity-important-who-cares. To print all information e.g. expanded side notes, shows alternative links, use the print version:
y
http://www.globalissues.org/print/article/170
At least 40 per cent of the world¶s economy and 80 per cent of the needs of the poor are derived from biological resources. In addition, the richer the diversity of life, the greater the opportunity for medical discoveries, economic development, and adaptive responses to such new challenges as climate change.
² The Convention about Life on Earth, Convention on Biodiversity web site.
This web page has the following sub-sections:
1. 2. 3. 1. 2. 3. 4. 4. 5. 6. 7. Why Is Biodiversity Important? A Healthy Biodiversity Offers Many Natural Services Species Depend On Each Other Soil, Bacteria, Plants; The Nitrogen Cycle Bees: Crucial Agricultural Workers Interdependent Marine Ecosystem Interdependency Vs Human Intervention Biodiversity Providing Lessons For Scientists In Engineering More Important Than Human Use Or Biological Interest Putting An Economic Value On Biodiversity More Information
Why Is Biodiversity Important?
Biodiversity boosts ecosystem productivity where each species, no matter how small, all have an important role to play.
For example,
y y y
A larger number of plant species means a greater variety of crops Greater species diversity ensures natural sustainability for all life forms Healthy ecosystems can better withstand and recover from a variety of disasters.
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And so, while we dominate this planet, we still need to preserve the diversity in wildlife.
A Healthy Biodiversity Offers Many Natural Services
Ecosystems such as the Amazon rainforest are rich in diversity. Deforestation threatens many species such as the giant leaf frog, shown here.(Images source: Wikipedia)
A healthy biodiversity provides a number of natural services for everyone:
y
Ecosystem services, such as
y y y y y y y
Protection of water resources Soils formation and protection Nutrient storage and recycling Pollution breakdown and absorption Contribution to climate stability Maintenance of ecosystems Recovery from unpredictable events
Biological resources, such as
y y y y y y y
Food Medicinal resources and pharmaceutical drugs Wood products Ornamental plants Breeding stocks, population reservoirs Future resources Diversity in genes, species and ecosystems
Social benefits, such as
y y y
Research, education and monitoring Recreation and tourism Cultural values
That is quite a lot of services we get for free!
The cost of replacing these (if possible) would be extremely expensive. It therefore makes economic and development sense to move towards sustainability.
A report from Nature magazine also explains that genetic diversity helps to prevent the chances of extinction in the wild (and claims to have shown proof of this). To prevent the well known and well documented problems of genetic defects caused by in-breeding, species need a variety of genes to ensure successful survival. Without this, the chances of extinction increases. And as we start destroying, reducing and isolating habitats, the chances for interaction from species with a large gene pool decreases. Side Note»»
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Species Depend On Each Other
While there might be ³survival of the fittest´ within a given species, each species depends on the services provided by other species to ensure survival. It is a type of cooperation based on mutual survival and is often what a ³balanced ecosystem´ refers to.
Soil, Bacteria, Plants; The Nitrogen Cycle
The relationship between soil, plants, bacteria and other life is also referred to as the nitrogen cycle:
(Image source: Wikipedia)
As an example, consider all the species of animals and organisms involved in a simple field used in agriculture. As summarized from Vandana Shiva, Stolen Harvest (South End Press, 2000), pp 61±62:
y y y
Crop byproducts feed cattle Cattle waste feeds the soil that nourish the crops Crops, as well as yielding grain also yield straw
y y
Straw provides organic matter and fodder Crops are therefore food sources for humans and animals
Soil organisms also benefit from crops
y y y y y
Bacteria feed on the cellulose fibers of straw that farmers return to the soil Amoebas feed on bacteria making lignite fibers available for uptake by plants Algae provide organic matter and serve as natural nitrogen fixers Rodents that bore under the fields aerate the soil and improve its water-holding capacity Spiders, centipedes and insects grind organic matter from the surface soil and leave behind enriched droppings.
y
Earthworms contribute to soil fertility
y y
They provide aerage, drainage and maintain soil structure. According to Charles Darwin, ³It may be doubted whether there are many other animals which have played so important a part in the history of creatures.´
y
The earthworm is like a natural tractor, fertilizer factory and dam, combined!
Industrial-farming techniques would deprive these diverse species of food sources and instead assault them with chemicals, destroying the rich biodiversity in the soil and with it the basis for the renewal of the soil fertility.
Shiva, a prominent Indian scientist and activist goes on to detail the costs associated with destroying this natural diversity and traditional farming techniques which recognize this, and replacing this with industrial processes which go against the nature of diversity sustainability.
Bees: Crucial Agricultural Workers
Bees are crucial for agriculture. (Images source: Wikipedia)
Bees provide enormous benefits for humankind as another example. As reported by CNN (May 5, 2000), ³One third of all our food²fruits and vegetables²would not exist without pollinators visiting flowers. But honeybees, the primary species that fertilizes food-producing plants, have suffered dramatic declines in recent years, mostly from afflictions introduced by humans.´
As German bee expert Professor Joergen Tautz from Wurzburg University adds:
Bees are vital to bio diversity. There are 130,000 plants for example for which bees are essential to pollination, from melons to pumpkins, raspberries and all kind of fruit trees ² as well as animal fodder ² like clover.
Bees are more important than poultry in terms of human nutrition.
² Joergen Tautz interviewed by Michael Leidig, Honey bees in US facing extinction, The Telegraph, March 14, 2007
Researchers are finding reasons for the massive decline hard to pinpoint, but suspect a combination of various diseases, environmental pollution, environmental degradation (leading to less diversity for bees to feed from, for example) and farming practices (such as pesticides, large monoculture cropping, etc).
The link and dependency between plants, bees, and human agriculture is so crucial, the two scientists writing up years of research into the problem summarized with this warning:
Humankind needs to act quickly to ensure that the ancient pact between flowers and pollinators stays intact, to safeguard our food supply and to protect our environment for generations to come. These efforts will ensure that bees continue to provide pollination and that our diets remain rich in the fruits and vegetables we now take for granted.
² Diana Cox-Foster and Dennis van Engelsdorp, Solving the Mystery of the Vanishing Bees, Scientific American, April 2009
Interdependent Marine Ecosystem
Whaling is often controversial. (Image source: © Greenpeace)
An example from the seas (originally mentioned here years ago but removed because the link to the story no longer worked), was described byNational Geographic Wild in a program called, A Life Among Whales (broadcast June 14, 2008). It noted how a few decades ago, some fishermen campaigned for killing whales because they were threatening the fish supply and thus jobs.
A chain of events eventually came full circle and led to a loss of jobs:
y
The massive reduction in the local whale population meant killer whales in the region (usually preying on younger whales) moved to other animals such as seals;
y y y y y
As seal numbers declined, the killer whales targeted otters; As otter numbers were decimated, the urchins and other targets of otters flourished; These decimated the kelp forests where many fish larvae grew in relative protection; The exposed fish larvae were easy pickings for a variety of sea life; Fishermen¶s livelihoods were destroyed.
Interdependency Vs Human Intervention
But nature can often be surprisingly resilient, often without the need for human interventions. For example, a documentary aired on the BBC (I unfortunately forget the name and date, but in the 1990s) described two national parks in Africa where elephant populations had grown quite large within those artificial boundaries. The usual way to deal with this was to cull the population to try and keep the ecosystem in balance. Without this, elephants were stripping vegetation bare, affecting other animals, too.
(Image source: Wikipedia)
A scientist pleaded with park management not to cull and let nature take its course. Being against prevailing thought, they would not agree. In the end they agreed to let one park have its elephants culled, while the other would be left alone.
A few years later, they found the park with the culled population had remained in poor condition. The park where things were left alone has naturally regenerated; the large elephant populations eventually reduced in number as they undermined their own resource base. The natural pace at which this happened allowed vegetation to grow back. Other wildlife grew in numbers and the ecosystem was generally back in balance.
Back to top
Biodiversity Providing Lessons For Scientists In Engineering
For a number of years now, scientists have been looking more and more at nature to see how various species work, produce, consume resources, trying to mimic the amazing feats that millions of years of evolution has produced.
As just one small example, some spiders can produce their silk with a higher tensile strength than many alloys of steel even though it is made of proteins. So biologists are looking at these processes in more depth to see if they can reproduce or enhance such capabilities.
Back to top
Author And Page Information
y y by Anup Shah This Page Last Updated Wednesday, November 18, 2009 y y
This page:http://www.globalissues.org/article/170/why-is-biodiversity-important-who-cares. To print all information e.g. expanded side notes, shows alternative links, use the print version:
y
http://www.globalissues.org/print/article/170
At least 40 per cent of the world¶s economy and 80 per cent of the needs of the poor are derived from biological resources. In addition, the richer the diversity of life, the greater the opportunity for medical discoveries, economic development, and adaptive responses to such new challenges as climate change.
² The Convention about Life on Earth, Convention on Biodiversity web site.
This web page has the following sub-sections:
1. 2. 3. 1. 2. 3. 4. 4. 5. 6. 7. Why Is Biodiversity Important? A Healthy Biodiversity Offers Many Natural Services Species Depend On Each Other Soil, Bacteria, Plants; The Nitrogen Cycle Bees: Crucial Agricultural Workers Interdependent Marine Ecosystem Interdependency Vs Human Intervention Biodiversity Providing Lessons For Scientists In Engineering More Important Than Human Use Or Biological Interest Putting An Economic Value On Biodiversity More Information
Why Is Biodiversity Important?
Biodiversity boosts ecosystem productivity where each species, no matter how small, all have an important role to play.
For example,
y y y
A larger number of plant species means a greater variety of crops Greater species diversity ensures natural sustainability for all life forms Healthy ecosystems can better withstand and recover from a variety of disasters.
Back to top
And so, while we dominate this planet, we still need to preserve the diversity in wildlife.
A Healthy Biodiversity Offers Many Natural Services
Ecosystems such as the Amazon rainforest are rich in diversity. Deforestation threatens many species such as the giant leaf frog, shown here.(Images source: Wikipedia)
A healthy biodiversity provides a number of natural services for everyone:
y
Ecosystem services, such as
y y y y y y y
Protection of water resources Soils formation and protection Nutrient storage and recycling Pollution breakdown and absorption Contribution to climate stability Maintenance of ecosystems Recovery from unpredictable events
Biological resources, such as
y y y y y y y
Food Medicinal resources and pharmaceutical drugs Wood products Ornamental plants Breeding stocks, population reservoirs Future resources Diversity in genes, species and ecosystems
Social benefits, such as
y y y
Research, education and monitoring Recreation and tourism Cultural values
That is quite a lot of services we get for free!
The cost of replacing these (if possible) would be extremely expensive. It therefore makes economic and development sense to move towards sustainability.
A report from Nature magazine also explains that genetic diversity helps to prevent the chances of extinction in the wild (and claims to have shown proof of this). To prevent the well known and well documented problems of genetic defects caused by in-breeding, species need a variety of genes to ensure successful survival. Without this, the chances of extinction increases. And as we start destroying, reducing and isolating habitats, the chances for interaction from species with a large gene pool decreases. Side Note»»
Back to top
Species Depend On Each Other
While there might be ³survival of the fittest´ within a given species, each species depends on the services provided by other species to ensure survival. It is a type of cooperation based on mutual survival and is often what a ³balanced ecosystem´ refers to.
Soil, Bacteria, Plants; The Nitrogen Cycle
The relationship between soil, plants, bacteria and other life is also referred to as the nitrogen cycle:
(Image source: Wikipedia)
As an example, consider all the species of animals and organisms involved in a simple field used in agriculture. As summarized from Vandana Shiva, Stolen Harvest (South End Press, 2000), pp 61±62:
y y y
Crop byproducts feed cattle Cattle waste feeds the soil that nourish the crops Crops, as well as yielding grain also yield straw
y y
Straw provides organic matter and fodder Crops are therefore food sources for humans and animals
Soil organisms also benefit from crops
y y y y y
Bacteria feed on the cellulose fibers of straw that farmers return to the soil Amoebas feed on bacteria making lignite fibers available for uptake by plants Algae provide organic matter and serve as natural nitrogen fixers Rodents that bore under the fields aerate the soil and improve its water-holding capacity Spiders, centipedes and insects grind organic matter from the surface soil and leave behind enriched droppings.
y
Earthworms contribute to soil fertility
y y
They provide aerage, drainage and maintain soil structure. According to Charles Darwin, ³It may be doubted whether there are many other animals which have played so important a part in the history of creatures.´
y
The earthworm is like a natural tractor, fertilizer factory and dam, combined!
Industrial-farming techniques would deprive these diverse species of food sources and instead assault them with chemicals, destroying the rich biodiversity in the soil and with it the basis for the renewal of the soil fertility.
Shiva, a prominent Indian scientist and activist goes on to detail the costs associated with destroying this natural diversity and traditional farming techniques which recognize this, and replacing this with industrial processes which go against the nature of diversity sustainability.
Bees: Crucial Agricultural Workers
Bees are crucial for agriculture. (Images source: Wikipedia)
Bees provide enormous benefits for humankind as another example. As reported by CNN (May 5, 2000), ³One third of all our food²fruits and vegetables²would not exist without pollinators visiting flowers. But honeybees, the primary species that fertilizes food-producing plants, have suffered dramatic declines in recent years, mostly from afflictions introduced by humans.´
As German bee expert Professor Joergen Tautz from Wurzburg University adds:
Bees are vital to bio diversity. There are 130,000 plants for example for which bees are essential to pollination, from melons to pumpkins, raspberries and all kind of fruit trees ² as well as animal fodder ² like clover.
Bees are more important than poultry in terms of human nutrition.
² Joergen Tautz interviewed by Michael Leidig, Honey bees in US facing extinction, The Telegraph, March 14, 2007
Researchers are finding reasons for the massive decline hard to pinpoint, but suspect a combination of various diseases, environmental pollution, environmental degradation (leading to less diversity for bees to feed from, for example) and farming practices (such as pesticides, large monoculture cropping, etc).
The link and dependency between plants, bees, and human agriculture is so crucial, the two scientists writing up years of research into the problem summarized with this warning:
Humankind needs to act quickly to ensure that the ancient pact between flowers and pollinators stays intact, to safeguard our food supply and to protect our environment for generations to come. These efforts will ensure that bees continue to provide pollination and that our diets remain rich in the fruits and vegetables we now take for granted.
² Diana Cox-Foster and Dennis van Engelsdorp, Solving the Mystery of the Vanishing Bees, Scientific American, April 2009
Interdependent Marine Ecosystem
Whaling is often controversial. (Image source: © Greenpeace)
An example from the seas (originally mentioned here years ago but removed because the link to the story no longer worked), was described byNational Geographic Wild in a program called, A Life Among Whales (broadcast June 14, 2008). It noted how a few decades ago, some fishermen campaigned for killing whales because they were threatening the fish supply and thus jobs.
A chain of events eventually came full circle and led to a loss of jobs:
y
The massive reduction in the local whale population meant killer whales in the region (usually preying on younger whales) moved to other animals such as seals;
y y y y y
As seal numbers declined, the killer whales targeted otters; As otter numbers were decimated, the urchins and other targets of otters flourished; These decimated the kelp forests where many fish larvae grew in relative protection; The exposed fish larvae were easy pickings for a variety of sea life; Fishermen¶s livelihoods were destroyed.
Interdependency Vs Human Intervention
But nature can often be surprisingly resilient, often without the need for human interventions. For example, a documentary aired on the BBC (I unfortunately forget the name and date, but in the 1990s) described two national parks in Africa where elephant populations had grown quite large within those artificial boundaries. The usual way to deal with this was to cull the population to try and keep the ecosystem in balance. Without this, elephants were stripping vegetation bare, affecting other animals, too.
(Image source: Wikipedia)
A scientist pleaded with park management not to cull and let nature take its course. Being against prevailing thought, they would not agree. In the end they agreed to let one park have its elephants culled, while the other would be left alone.
A few years later, they found the park with the culled population had remained in poor condition. The park where things were left alone has naturally regenerated; the large elephant populations eventually reduced in number as they undermined their own resource base. The natural pace at which this happened allowed vegetation to grow back. Other wildlife grew in numbers and the ecosystem was generally back in balance.
Back to top
Biodiversity Providing Lessons For Scientists In Engineering
For a number of years now, scientists have been looking more and more at nature to see how various species work, produce, consume resources, trying to mimic the amazing feats that millions of years of evolution has produced.
As just one small example, some spiders can produce their silk with a higher tensile strength than many alloys of steel even though it is made of proteins. So biologists are looking at these processes in more depth to see if they can reproduce or enhance such capabilities.
Back to top
