It explains biodiversity and its cinservation

1. Biodiversity
Prepared by: Veereshgouda. M. Police Patil
Assistant Professor
College of Agriculture ,Shivamogga
UAHS, Shivamogga

2. Bio-diversity
The word BIODIVERSITY
• originates from the Greek word BIOS = LIFE
• and Latin word DIVERSITAS = VARIETY or DIFFERENCE.
• The whole word BIO DIVERSITY generally therefore means: VARIETY OF
LIFE.
• The term “Biological diversity” coined by: Thomas Lovejoy.
• The word “Biodiversity” coined by Walter. G. Rosen in 1985
Definition: The variety and variability among living organisms and the
ecological complexes in which they occur (U.S. office of Technology, 1987).
• ‘Biological diversity’ or biodiversity is that part of nature which includes
the differences in genes among the individuals of a species, the variety
and richness of all the plant and animal species at different scales in
space, locally, in a region, in the country and the world, and various types
of ecosystems, both terrestrial and aquatic, within a defined area.

5. Number of species worldwide
There are about 14,13,000 identified species. A large number
unidentified. If it is done number could be 5 million or more
Insects - 751,000
Plants - 248,000
Other animals - 281,000
Fungs - 69,000
Protests - 30,000
Algae - 26,000
Bacteria
and similar forms
- 4,800
Viruses - 1,000

7. A sample of fungi collected in summer
2008 in Northern Saskatchewan mixed
woods, near LaRonge. In this photo,
there are also leaf lichens and mosses
An example of the species diversity of
fungi

8. Comparison Between the Number of Species in India and the
World.
Group No. of sps. in India No. of sps. in World % of India to world
Mammals 350 4,629 07.60
Birds 1,224 9,702 12.60
Reptiles 408 6,550 06.20
Amphibians 197 4,522 04.40
Fishes 2,546 21,730 11.70
Flowering Plants 15,000 2,50,000 06.00

9. Biodiversity hotspot
• A biodiversity hotspot is a biogeographic region with
significant levels of biodiversity that is under threat from
humans.
To qualify as a biodiversity hotspot on Myers 2000 edition of the
hotspot-map, a region must meet two strict criteria:
 it must contain at least 0.5% or 1,500 species of vascular
plants as endemics, and
 it has to have lost at least 70% of its primary vegetation.
Around the world, 34 Biodiversity hotspots (in India 4) and these
sites support nearly 60% of the world's plant, bird, mammal,
reptile, and amphibian species, with a very high share of
those species as endemics.

11. Biodiversity hotspots of India
1. Western Ghats and Sri Lanka: western India and Sri Lanka
2. Eastern Himalayas: Bhutan, northeastern India, and
southern, central, and eastern Nepal.
3. Indo-Burma: from Eastern Bangladesh to Malaysia and
includes North-Eastern India south of Brahmaputra river,
Myanmar, the southern part of China's Yunnan province, Lao
People’s Democratic Republic, Cambodia, Vietnam and
Thailand.
4. Sundaland: Thailand, Malaysia, Singapore, Brunei and
Indonesia. India is represented by the Nicobar Islands.

12. Biodiversity hotspots of India

13. • India is known for its rich heritage of biodiversity.
• India is one of the 17 mega-biodiversity countries in the
world.
• With only 2.4 % of the world’s area, India accounts for 7–8 %
of the world’s recorded plant and animal species.
• India’s ten biogeographic zones possess an exemplary
diversity of ecological habitats like alpine forests, grasslands,
wetlands, coastal and marine ecosystems, and desert
ecosystems.

14.  India has 16 major types and 251 subtypes of forests.
 Jim Corbett National Park covering an area of 325 sq km came
into being as the India’s first and world’s third National Park in
1936.
 India has currently 4.79 % of total geographic area under an
elaborate network of PAs, which includes 99 National Parks,
513 wildlife sanctuaries, 43 conservation reserves, 4
community reserves and 3 biodiversity heritage sites.

16. Levels of Biodiversity
1. Genetic diversity
2. Species diversity
3. Ecosystem diversity

19. Genetic diversity
• Variation within individual species.
• Genetic variation within species, both among geographically
separated population and among individuals within single
population .
• Includes the differences in DNA composition
among individuals within a given species.
Ex: varieties of Rice, varieties of Mango

20. Varieties of Mango

21. Varieties of Rice

22. Varieties of Dog

25. Species diversity
• Species = a particular type of organism; a population or group
of populations whose members share certain characteristics
and can freely breed with one another and produce fertile
offspring
› Species diversity = the number or variety of species in a
particular region.
› Species richness = number of species
› Evenness, or relative abundance = extent to which numbers of
different species are equal or skewed
Ex: viruses, bacteria, protista, plants, animals and fungi.

26. Diversity of species

27. Ecosystem diversity
• Variety of habitats that occur within a region or the mosaic of
patches found within a landscape.
• Includes diversity above the species level.
• Some alternative ways to categorize it include:
 Community diversity
 Habitat diversity
 Landscape diversity

28. Grassland ecosystem

29. Desert ecosystem

30. Aquatic ecosystem

32. Plant and animal species extinct since 1600 (India)
Animals Plants
Molluscees - 202 Ferns 16
Crustacean - 4 Gymnosperm 12
Insects - 61
Fishes - 33 Angiosperm
Amphibians - 2 Dicot 458
Reptiles - 23 Monocot 120
Birds - 117
Mammals - 62
Total 504 Total 596

33. • 1 mammal species
every 400 years
• 1 bird species/200 yrs
Now…………...
• 10,000 times the
background rate!
• 20-75 plant/animal
species each day?
Background rates

34. Values/Benefits/Importance of Biodiversity

35. Direct values
• The direct value include food resources like grains, vegetables, fruits which
are obtained from plant resources and meat, fish, egg, milk and milk
products from animal resources. These also include other values like
medicine, fuel, timber, fiber, wool, wax, resin, rubber, silk and decorative
items.
• The direct values are of two types (i) Consumptive use value and (ii)
Productive use value.
(i) Consumptive use value: These are the direct use values where the
biodiversity products can be harvested and consumed directly. Example:
Food, fuel and drugs. These goods are consumed locally and do no figure
in national and international market.
(a) Food:
(i) Plants: wheat, maize and rice constitute more than two third of the food
requirement all over the world.
(ii) Fish: Through the development of aquaculture techniques, fish and fish
products have become the largest source of protein in the world.

36. (b) Fuel wood and timber: forests provided wood which is used as a fuel.
Moreover fossil fuels like coal, petroleum, natural gas are also product of
biodiversity which are directly consumed by humans.
(c) Drugs and medicines: The traditional medical practice like ayurveda
utilizes plants or their extracts directly. In allopathy, the pharmaceutical
industry is much more dependent on natural products.
Indigenous medicine systems utilize nearly 6,500 native plants for both
human and animal healthcare.
Many drugs are derived from plants like
• Quinine: The famous anti malaria drug is obtained from cinchona tree.
• Penicillin: A famous antibiotic is derived from pencillium, a fungus.
• Tetracycline: It is obtained from bacterium (Antibiotic).
• Recently vinblastin and vincristine, two anti cancer drugs have been
obtained from catharanthus plant which has anti cancer alkaloids
.

37. (ii) Productive use values: These are the direct use values where the product
is commercially sold in national and international market. Many industries
are dependent upon these values.
• Example- Textile, leather, silk, paper and pulp industry etc.

38. Indirect values
• These include social and cultural values, ethical values, aesthetic values,
option values and environment service values.
(i) Social and cultural values: Many plants and animals are considered holy
and sacred in India and are worshipped like Tulsi, peepal, cow, snake etc.
In Indian society great cultural value is given to forest and as such tiger,
peacock and lotus are named as the national animal, bird and flower
respectively.
(ii) Ethical values: These values are related to conservation of biodiversity
where ethical issue of ‘all life forms must be preserved’ is laid down. There
is an existence value which is attached to each species because
biodiversity is valuable for the survival of human race. Moreover all
species have a moral right to exist independent of our need for them.

39. (iii) Aesthetic value: Natural landscapes at undisturbed places are a delight to
watch and also provide opportunities for recreational activities like bird
watching, photography etc. It promotes eco-tourism which further
generates revenue by designing of zoological, botanical gardens, national
parks, wild life conservation etc.
(iv) Option values: These values include the unexplored or unknown
potentials of biodiversity.

40. (v) Environment service values: The most important benefit of biodiversity is
maintenance of environment services which includes
(i) Carbon dioxide fixation through photosynthesis.
(ii) Maintaining of essential nutrients by carbon (C), oxygen (O), Nitrogen (N),
Sulphur (S), Phosphorus (P) cycles.
(iii) Maintaining water cycle and recharging of ground water.
(iv) Soil formation and protection from erosion.
(v) Regulating climate by recycling moisture into the atmosphere.
(vi) Detoxification and decomposition of waste.

41. Measuring Biodiversity
[I] Alpha diversity
[II] Beta diversity
[III] Gamma diversity

42. [I] Alpha diversity:
Refers to Number of species in a unit area.
This diversity comes closest to the popular concept of species
richness and can be used to compare the number of species in
different ecosystem types.
Richness and evenness of individuals within a habitat unit.
Alpha Diversity of Site A = 7 species, Site B = 5 species, Site C = 7
species.
A vs B = 8 species
B vs C = 4 species
A vs C = 10 species

43. [II] Beta diversity:
This refers to the degree to which species composition changes along an
environmental gradient.
Beta diversity is high for example, if the species composition of moss
communities changes at successively higher elevations on a mountain
slope, but is low if the same species occupy the whole mountain side.
Beta Diversity = expression of diversity between habitats.
In the example below, the greatest Beta Diversity is observed between Site A
and C with 10 species that differ between them and only 2 species in
common.
A vs B = 8 species
B vs C = 4 species
A vs C = 10 species

44. [III] Gamma diversity:
This applies to larger geographical scales and
The rate at which additional species are encountered as geographical
replacements within a habitat type in different localities.
Thus gamma diversity is a species turnover rate with distance between sites
of similar habitat or with expanding geographic areas”.
Gamma Diversity = landscape diversity or diversity of habitats within a
landscape or region.
In this example, the gamma diversity is 3 habitats with 12 species total
diversity.
A vs B = 8 species
B vs C = 4 species
A vs C = 10 species

45. Why biodiversity is rich in the tropics ?
• More stable climate than the temperate zones.
• Tropical communities are older than temperate ones and, therefore, there has
been more time for them to evolve. This could have allowed them greater
degree of specialization and local adaptation to occur.
• Warm temperatures and high humidity in most tropical areas provide
favourable conditions for many species.
• In tropics, there may be greater pressure from pests, parasites and diseases.
This does not allow any single species to dominate and thus there is
opportunity for many species to co-exist. On the contrary in temperate zones
there is reduced pest pressure due to cold.
• Higher rates of out crossing may lead to higher levels of genetic variability.
• Tropical areas receive more solar energy over the year more productive or
greater resource base that can support a wider range of species.

46. Threats to biodiversity
[I] Habitat destruction
[II] Habitat fragmentation
[III] Habitat degradation and pollution
[IV] Introduction of exotic species
[V] Disease
[VI] Overexploitation
[VII] Shifting or Jhum cultivation
[VIII] Others
 Urbanization
 Industrialization
 Overgrazing
 Destruction of forests
 Illegal trade
 Mining
 Developmental works; dams, roads, electric line, schools etc.

47. Threats to biodiversity
• Human activity is the major threat to biodiversity and following are the
chief causes of extinction of species caused by man to fulfill its needs.
[I] Habitat destruction:
Habitat destruction is the process in which natural habitat is rendered
functionally unable to support the species present. In this process, the
organisms that previously used the site are displaced or destroyed,
reducing biodiversity.
 Human population went from 1 billion in 1850, to 2 billion in 1930, to 5.3
billion in 1990, 6.5 billion in the year 2000, 7.1 billion in 2011.
 More than 50% of the wildlife habitat has been destroyed in 49 out of 61
Old World tropical countries.
 Huge amounts of habitat are lost each year as the world’s forests are cut
down. Rain forests, tropical dry forests, wetlands, mangroves and
grasslands are threatened habitats and leading to desertification.

48. Burnt forest area

49. [II] Habitat fragmentation: Habitat fragmentation is the
process by which habitat loss results in the division of large,
continuous habitats into smaller, more isolated remnants.
Habitat that formerly occupied wide areas are now often divided
up into pieces by roads, fields, towns, canals, power lines etc.
Habitat fragmentation is the process where a large,
continuous area of habitat is both, reduced in area and
divided into two or more fragments.

50. [III] Habitat degradation and pollution: some activities may not
affect the dominant species in the community but other
species are greatly affected by such habitat degradation. For
example, physical degradation of forest habitat by
uncontrolled ground fires, might not kill the trees, but the rich
perennial wild plant community and insect fauna on the forest
floor would be greatly affected.

51. [IV] Introduction of exotic species: Introduction of exotic species
increased levels of diseases, and excessive exploitation of
particular species by people.
[V] Disease: Animals held in captivity are also more prone to
higher level of disease.
[VI] Overexploitation: Increased use of natural resources.
[VII] Shifting or Jhum cultivation: Rural people destroy biological
communities and hunt endangered species because they are
poor and have no land of their own.

52. HABITAT FRAGMENTATION

53. • Swidden agriculture (slash-and-burn)
> 60% of deforestation
> Rapid decline in soil productivity (nutrient storage?)
> Can be sustainable
-- (15 - 20 year rotation)
> Inequitable land ownership (e.g., Brazil where only 5% of
farmers own land)
Shifting cultivation

54. Over exploitation
Extinct of Dodo bird
Hunting of tigers for skin
Elephant tusk for Ivory

55. • Commercial logging
21% of deforestation
creaming of the most valuable hardwoods
1-2 trees per hectare taken (widespread damage)
clearcut versus selective
Uncontrolled Logging

56. • Cattle ranching
12% of deforestation
frequently aided by government subsidies
2 trees destroyed for each hamburger made from
“tropical forest beef”
Unscientific Cattle ranching

57. Biodiversity conservation strategies
Global scenario
• Considering the immense value of biodiversity and
subsequent rapid loss of the same, during past couple of
decades, enormous conservation efforts were made for
restoring the biodiversity of various habitats.

58. Conservation of biodiversity
i. Ex-Situ Conservation: maintenace and breeding of endangered
species both plants and animals, outside their original
habitat.
ii. In situ Conservation: conservation of species in its natural
habitat in places where the species naturally occurs.

60. Other biodiversity conservation techniques
• Imparting Environmental Education
• Environmental Legislations
• Population control
• Reviewing the Agricultural Practices -Sustainable use
• Controlling Urbanization
• By adopting the above measures we can stop doing harm to
the biodiversity and conserve it.

61. International efforts for biodiversity conservation
• United nations environment programme (UNEP)
• World conservation union
• WWF
• Convention on international trade in endangered animals and
plant species (CITES)

62. Indian efforts for biodiversity conservation
• The biodiversity bill 2002
• India became party to convention on biodiversity (CBD)
• May 22nd international day on biodiversity celebrated.