Monday, June 4, 2018

RELATIONSHIP BETWEEN SPECIES DIVERSITY AND ECOSYSTEM


RELATIONSHIP BETWEEN SPECIES DIVERSITY AND ECOSYSTEM


Most of the ecologists believe that
·         The communities with more species are more stable than those with lesser species.
·         The stable community means lesser variations in productivity from year to year.
·         The community with more species, is more resistant to occasional (natural or man-made) disturbances.
·         Such communities are resistant to invasions by alien or exotic species.
David Tilman, in his long-term ecosystem experiments, found that plots with more species showed less - year to year variation in   total biomass   and the increased diversity contributed to higher productivity.                                                                                                                          Thus the rich biodiversity is not only essential for the health of the ecosystem but also for the survival of human race on this planet.

Loss of Biodiversity

There is continuous loss of the earth' treasure of species. For example, the colonization of tropical pacific Islands by human has led to extinction of more than 2000 species of native birds.
The Red list of lUCN documented the extinction of 784 species in last 500 years. The last 20 years witnessed the disappearance of 27 species.
Some important examples of recent extinctions are
    Dodu (Mauritius), Quagga (Africa), Thylacine (Australia). Steller Sea-cow (Russia), and  subspecies of Tiger, like bali, javan and caspian.
·         Presently, more than 15,500 species world-wide are facing the threat of extinction.
·         This includes 32% of amphibian species, 23% of mammalian species and l2% of birds’ species.
·         About 31% of the gymnosperms species are also facing the extinction. The amphibians are however,more vulnerable in such cases.
From origin to evolution of life on earth, i.e. duration about 3 billion yrs., there have been 5-episodes of mass extinction, but the present, the 6‘*‘, mass extinction is 100 to l000 times fasterthan the pre-human extinctions.
The ecologists now warn that-in next l00 years about 50% of all the species on earth will be wiped out. The loss in biodiversity of a region leads to
1. Lowered resistance to environmental changes
2. Decline in the plant production
3, Increased variability in certain ecosystem, pest disease cycles and water use etc.

Causes of loss of Biodiversity

The accelerated rate of species-extinction is largely due to human activities. There are 4-major causes, called ‘The Evil Quartet’, for the loss of biodiversity -
l. Habitat loss and fragmentation
2. Overexploitation
3. Invasion of Alien or exotic species
4. Co-extinctions
·         Habitat loss and fragmentation
The cutting trees and burning of forest destroys the natural habitat of a species. The construction of mines, dams, harbors, industries and buildings for human settlement has also affected the biodiversity. The Habitat destruction is the primary and major reason for the loss of biodiversity.
The tropical rain forest is the example of the habitat loss where forest covering has been reduced from 14% of land surface to 6%.
The Amazon rain forest, called ‘The Lungs of the Planet ', which harbors millions of species, is being cleared for cultivating soybean or developing grasslands for raising cattle. The pollution is also the factor for degradation of habitat.
When large habitats are broken into small fragments due to various human activities, the population of migratory animals, mammals and birds, that require a large territory, are adversely affected.
·         Overexploitation
In ecology, overexploitation describes one of the five main activities threatening global biodiversity. Overexploitation can lead to resource destruction, including extinctions. Many marine fishes are also being over harvested. Over fishing from a water body, or over harvesting a product is
just like ‘killing a goose laying golden eggs '.
.
·         Invasion of Alien or exotic species
When alien species are introduced into an explored area, some of the species turn invasive and cause decline or extinction of indigenous species.
For example –
                       Introduction of Nile perch into lake Victoria (E. Africa) led to the extinction of more than 200 species of Cichlid fish in the lake
Introduction of weed species, like Carrot grass (Parrhenium), Lantana and water hyacinth (Eicchornia) has posed threat to the native species  and   damage to environment.
 The illegal introduction of African cat fish (Clarias gariepinus) for aquaculture purposes into the river has threatened indigenous cat fishes.
·         Co-extinctions
Whenever a plant or animal species becomes extinct, its obligatory-associated species also becomes extinct. For example, when a host species becomes extinct, the parasite also meets the same fate. In case of ‘plant pollinator mutualism ' the extinction of one species leads to the extinction of the other.

Process of extinction of biodiversity


1. Natural extinction -
With the change of environmental conditions some species have disappeared and the more adaptive species have appeared. This  extinction is slow and is called ‘Background extinction’.

2. Mass extinction –
lt is extinction of large number of species due to natural calamities/catastrophes. The extinction of Dinosaurs is one such example.

3. Anthropogenic extinction -
It is the disappearance of species due to human activities. This man-made extinction represents a severe depletion of biodiversity in terms of time. The current rate of extinction is thousand times higher than the background extinction.
If the current rate of losses continues the earth may lose up to 50% of the species by the end of 2 l “Century.
   

Susceptilibility to extinction -


The species with the following features are more susceptible (vulnerable) to extinction than the other species.

l. Larger body size (eg. Elephant, Bengal Tiger and Lion etc.)

2. Smaller population with low reproductive rate (eg. Blue whale and Giant panda)

3. Fixed habitat or migratory routes (eg. Whooping cranes and Blue whales).

4. Feeding at higher trophic level in the food chain, (eg. Bengal tiger and Bald Eagle).

5. Narrow range of distribution (eg. Island species and woodland caribou).



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