PLANT BIODIVERSITY
Definition
Genetic Diversity
Species diversity
Ecosystem Diversity
Agro-Biodiversity
Table 1.1 : Estimated number of
species worldwide
Plant Species
diversity
At present 1.7 million species have been recorded so far in the world
(Global Biodiversity, 1995). India’s contribution to this record stands at 7 %.
Surveys conducted so far have inventorised over 47,000 species of plants and
over 89,000 species of animals. Survey and inventorisation of India’s
biodiversity is still far from complete especially the lower groups of plants
and invertibrate animals (Table 1.2).
Floristic status
As noted earlier 47,000 species of plants representing about 12 % of the
recorded world’s flora have already been identified. Comparative statement of
recorded number of plant species in India and the world is given in Table 1.4.
Flowering plants accounts nearly 17,500 among 45,000 species of plants. The important
economic species includes rice, sugar cane, coix, beans, cowpeas, banana, Citrus, mango, coconut, cardamoms,
nutmeg, tea, cotton, jute, colocasia, pepper, ginger, Rhododendron, Jasmines, bamboos, Orchids, betel leaf etc.
Two regions of our country harbours maximum diversity, they are
North-East and Sourth-West India. The North- East region is a very active
centre of evolution and has diversity for a number of plants like Rhododndron, Camelia, Magnolia, Buddleia,
etc. (Khosoo, 1991).
On the basis of distribution pattern of plants, Good (1953), divided
plant wealth into 37 floristic zones. With in these zones, pockets of diversity
of plants species arose and they were domesticated by human kind during the
past 10,000 years.
During these years enormous variability was genertated because of
mutation, recombination and selection process. The result being complex
variation pattern in plants. These evolved plants bear little or no resemblance
with their ancestorsss.
Endemic Species
Cultivated
plants
Wild relatives
of Crops
Prioritization
approach and patenting
National network for the management of
protected areas with clearly specified inter-connections are required. There is
a need for long range, land use planning of the protected areas. The management
plan must be science and technology based and it should to be
over-exploitation. To accomplish such an obligation necessary legislative and
scientific steps should be taken for the survival, regulation and conservation
of threatened species.
INTRODUCTION
A Upanishadic rhymes is
“A Guru (i.e.,
master) asked his disciple to bring some waste plants, thereupon the disciple
goes in search of these plants and later comes only to report to his guru that
he could not find a single plant which is 'waste'.”
This means that plant on earth has some value. Nature has given plenty of plant resources to human beings and he started
tailoring them ever since the beginnings of civilization in manifold ways to
suit his needs whether knowingly or unknowingly. The civilization of man went
hand in hand with the domestication and cultivation of crop plants and their
evolution took place according to the evolution of mind and thought. Millions
of years, the evolution of crop plants has been taking place with the direct
human agency either consciously or unconsciously.
The quest for more knowledge of plant resources continues concomitant with
the rise in population and depletion of food materials. Many new plants have
been added to the existing ones with the modern techniques and trends in human
utilization.
Plants bring about economy to the country at large and it is a fact that
the wealth of any country largely depends upon its agriculture and plant
products.
In this unit, we shall review all aspect of plant diversity, sustainable development, and origin of plants
and their domestication.
PLANT BIODIVERSITY
Concept and
definition
Planet Earth is
endowed with a rich variety of life forms and the teeming millions of these
living organisms have been well-knit by the laws of nature. The
inter-dependence of the various life forms starting from the unicellular
primary producers to the complexly built higher plants and animals is a unique
feature of this green planet.
Bio-diversity, as this assemblage of life
forms is referred to, has now been acknowledged as the foundation for
sustainable livelihood, and food security. Scientists have estimated that more
than 50 million species of plants and animals including invertebrates and
micro-organisms occur on earth and hardly 2 million of them have been described
by man so far. Scientists are also aware of the immense potentials of the
various life forms especially in the context of recent advances made in science
and technology. The incessant human assault on forests has left indelible scars
on nature. One result of the United Nations Conference on Environment and
Development held in Rio de Janerio in June 1992 was a “Convention on Biological
Diversity” which was signed by 156 countries and European community.
Definition
Biological diversity refers to the variety
and variability among living organisms and the ecological complexes in which
they occur. Diversity can be defined as the number of different items and their
relative frequency. For biological diversity, these items are organized at many
levels ranging from complete ecosystems to the chemical structures that are the
molecules basis of heredity. Thus the term encompasses different ecosystems,
species, genes and their relative abundance.
Types of
Biodiversity
The term biodiversity includes three
different aspects, which are closely related to each other. Following are the
types of biodiversity:
Genetic Diversity
It refers to the variation of genes within
the species. This constitutes distinct population of the same species or
genetic variation within population or varieties within a species.
Species diversity
It refers to the variety of species within
a region. Such diversity could be measured on the basis of number of species in
a region.
Ecosystem Diversity
In an ecosystem, there may exist different
landforms, each of which supports different and specific vegetation. Ecosystem
diversity is difficult to measure since the boundaries of the communities,
which constitute the various sub ecosystems, are elusive.
Ecosystem diversity could best be
understood if one studies the communities in various ecological niches within
the given ecosystem; each community is associated with definite species
complexes. These complexes are related to composition and structure of
biodiversity.
Agro-Biodiversity
The agricultural biological diversity more
commonly referred to as the agro-biodiversity has been fast emerging as a
strong, evolutionary divergent line from the biodiversity, which deals with the
life forms at large. It has been specifically recognized to differentiate
between concern for ecosystems versus agro-ecosystems, wild forest flora and
fauna versus agriculture related plants, reptiles, insects, avian and microbes;
in situ conservation of wild forms versus on farm conservation of
landgraves and traditional/ primitive cultivars or ex-situ conservation of
plant genetic resources, etc.
Agro-biodiversity in a traditional farming
system is as follows (adopted from Altieri, 1991 and UNDP, 1995):
¨
Rich
in plant and animal species
¨
A
wide diversity of niches in the local environment utilized
¨
Reuse
of organic residues, consuming biomass enabled
¨
Ecosystem
functions, such as pest, weed and disease management enhanced
¨
Locally
available resources consumed to an advantage
¨
Reduction
of risk and optimization of resources use
¨
Associated
with farmers time tested local knowledge about resources.
Biodiversity at Global Levels
It is estimated
that there exists 5-30 million species of living forms on our earth and of
these, only 1.5 million have been identified and include 3,00,000 species of
green plants and fungi, 8,00,000 species of insects, 40,000 species of
vertebrates and 3,60,000 species of micro-organisms.
Recently it has
been estimated that the number of insects alone may be as high as 10 million,
but many believe it to be around 5 million.
The tropical forests are regarded as the
riches in biodiversity. According to the opinion of the scientists more than
half of the species on the earth live in moist tropical forests, which is only
7% of the total land surface. Insects (80%) and primates (90%) make up most of
the species.
Table 1.1 : Estimated number of
species worldwide
|
Taxonomic Group
|
Number of Species
|
|
Bacteria
|
3600
|
|
Blue Green Algae
|
1700
|
|
Fungi
|
46983
|
|
Bryophytes
|
17000
|
|
Gymnosperms
|
750
|
|
Angiosperms
|
250000
|
Status in India
During the last few
years, the subject of conservation of biological diversity has attracted
considerable attention at the national and global levels. India is a rich centre
of biodiversity and has contributed many economic plants to the world and many
useful genes for genetic upgrading of cultivated plants and domesticated
animals.
India has a land mass of 329 million hactares with a diversified eco-geographical regions. Almost all types of habitats available in the world are found in India. Ther are two biogeographical realms in India and it is the confluence of floras and faunas of Africa, Mediterranean, European, Sino-Japanese and Malayan rgions. As a result, we have a rich biological diversity (Gadgil, 1992).
Plant Species
diversity
At present 1.7 million species have been recorded so far in the world
(Global Biodiversity, 1995). India’s contribution to this record stands at 7 %.
Surveys conducted so far have inventorised over 47,000 species of plants and
over 89,000 species of animals. Survey and inventorisation of India’s
biodiversity is still far from complete especially the lower groups of plants
and invertibrate animals (Table 1.2).
Table 1.2 : India’s Biological Wealth
|
Plant Taxa
|
Species
|
Animal Taxa
|
Species
|
|
Bacteria
|
850
|
Protista
|
2577
|
|
Viruses
|
Unknown
|
Mollusca
|
5070
|
|
Algae
|
6500
|
Arthropoda
(Insecta, Crustacea etc.)
|
68389
|
|
Fungi
|
14500
|
Other Invertebrates
|
8329
|
|
Lichens
|
2000
|
Protochordata
|
119
|
|
Bryophytes
|
2850
|
Pisces
|
2546
|
|
Pteridophytes
|
1100
|
Amphibian
|
209
|
|
Gymnosperms
|
64
|
Reptilian
|
456
|
|
Angiosperms
|
17500
|
Aves
|
1232
|
|
|
|
Mammalian
|
390
|
|
Total
|
45364
|
Total
|
89317
|
Based on the available data, India ranks
10th in the world and 4th in Asia in plant diversity and
ranks 11th in the number of Angiosperm species (table 1.3). India
ranks 10th in the number of mammalian species and 11th in
the number of endemic species of higher vertebrates in the world.
Table 1.3 : Number of angiosperm species
in different countries.
|
Country
|
Angiospermic
species
|
|
Brazil
|
55000
|
|
Colombia
|
45000
|
|
Ecuador
|
29000
|
|
China
|
27000
|
|
Mexico
|
25000
|
|
Australia
|
23000
|
|
South Africa
|
21000
|
|
Indonesia
|
20000
|
|
Venezuela
|
20000
|
|
Peru
|
20000
|
|
India
|
17000
|
Floristic status
As noted earlier 47,000 species of plants representing about 12 % of the
recorded world’s flora have already been identified. Comparative statement of
recorded number of plant species in India and the world is given in Table 1.4.
Table 1.4 :
Comparative statement of Recorded number of
plant species in India.
|
Plant Taxa
|
Species
|
Percentage of India to the World
|
|
|
India
|
World
|
||
|
Bacteria
|
850
|
4000
|
21.25
|
|
Viruses
|
Unknown
|
4000
|
-
|
|
Algae
|
6500
|
40000
|
16.25
|
|
Fungi
|
14500
|
72000
|
20.14
|
|
Lichens
|
2000
|
17000
|
11.80
|
|
Bryophytes
|
2850
|
16000
|
17.80
|
|
Pteridophytes
|
1100
|
13000
|
8.64
|
|
Gymnosperms
|
64
|
750
|
8.53
|
|
Angiosperms
|
17500
|
25000
|
7.00
|
Flowering plants accounts nearly 17,500 among 45,000 species of plants. The important
economic species includes rice, sugar cane, coix, beans, cowpeas, banana, Citrus, mango, coconut, cardamoms,
nutmeg, tea, cotton, jute, colocasia, pepper, ginger, Rhododendron, Jasmines, bamboos, Orchids, betel leaf etc.
Two regions of our country harbours maximum diversity, they are
North-East and Sourth-West India. The North- East region is a very active
centre of evolution and has diversity for a number of plants like Rhododndron, Camelia, Magnolia, Buddleia,
etc. (Khosoo, 1991).
On the basis of distribution pattern of plants, Good (1953), divided
plant wealth into 37 floristic zones. With in these zones, pockets of diversity
of plants species arose and they were domesticated by human kind during the
past 10,000 years.
During these years enormous variability was genertated because of
mutation, recombination and selection process. The result being complex
variation pattern in plants. These evolved plants bear little or no resemblance
with their ancestorsss.
Endemic Species
Every major habitat, from areas of heavy
rainfall to the dry desert, from coldest to the hottest climatic conditions,
from highest elevation down to the sea level is found in the country. India has
a rich endemic flora.
Endemism of Indian biodiversity is
significant. About 4950 species of flowering plants or 33% of this recorded
flora are endemic to the country. These are distributed over 141 genera
belonging to 47 families. These are concentrated in the floristically rich
areas of North-East India, the Western Ghats, North-West Himalayas and the
Andaman & Nicobar Islands.
The Western Ghats and Eastern Himalayas
are reported to have 16000 and 3500 endemic species of flowering plants,
respectively. These areas constitute two of the 34 hot spots identified in the
world.
Cultivated
plants
Indian region alone has given to the world
nearly 167 economical plants whose centre of origin/ diversity lie in India
along with their 320 species of wild relatives and land races.
India is considered to be the centre of
origin of rice, sugar cane, minor millets, pigeon pea, brassicas, rice-bean,
Asiatic vignas, egg plant, banana, citrus, mango, cardamom, jack fruit, jute,
edible diascorea, black pepper, seed amaranths, turmeric, ginger, several
umbellifers and cucurbits, bittergourd, colacasia, okra, coconut, bamboo, taro,
indigo, sun hemp, gooseberries and many herbal drugs, rhododendron, jasmine,
some orchids and betel nut. This remarkable diversity of life-forms in a single
country is because of the great diversity of ecosystems.
The gene bank of National Bureau of Plant
Genetic Resources (NBPGR) has a collection of over 1,59,080 varieties. The
details of the active germplasm holding and base collections of NBPGR are given
in Table 1.5.
Table 1.5 : Active germplasm holding and
base collections at NBPGR.
|
Crop groups
|
Active
germplasm
|
Base collection holdings
|
|
Cereals
|
12086
|
43409
|
|
Pulses
|
38695
|
22269
|
|
Millets & Minor Millets
|
10349
|
14488
|
|
Oilseeds
|
19808
|
14278
|
|
Vegetables
|
12146
|
5681
|
|
Medicinal & Aromatic Plants
|
870
|
942
|
|
Pseudocereals
|
4739
|
736
|
|
Tuber Crop/ Spices
|
2053
|
-
|
|
Forage Crop
|
4060
|
-
|
|
Horticultural/ Ornamentals
|
22212
|
-
|
|
Fibre Crops
|
-
|
3212
|
|
Released crop Varieties
|
-
|
904
|
|
Reference Samples
(Medium Term)
|
-
|
53161
|
|
Total
|
107018
|
159080
|
Wild relatives
of Crops
There are several hundred species of wild
crop relatives distributed all over the country. A major centre for wild rice
is the eastern peninsular India, i.e., West Bengal, Orissa and Andhra Pradesh.
The North-Eastern hills and Tamil Nadu hills are rich in wild relatives of
millets. Wild relatives of wheat and barley have been located in the western
and North-Eastern Himalaya. Table 1.6 gives the statement of wild relatives of
crops recorded so far.
Table 1.6 : Wild relatives of crop
|
Crop
|
No. of
Wild relatives
|
|
Millets
|
51
|
|
Fruits
|
104
|
|
Spices and condiments
|
27
|
|
Vegetables and pulses
|
55
|
|
Fibre crop
|
24
|
|
Oil seeds, tea, coffee,
tobacco, & sugarcane
|
12
|
|
Medicinal plants
|
3000
|
Utilization of plant biodiversity
Biological resources contribute much to
the social and economical development of the nation. Utilizing the species for
industry and medicine and developing new products for national and
international market provides good opportunities. Greater agricultural
production and prevention of diseases and pests are also important. Biological
and genetic diversity are fundamental to the proper functioning of any
ecosystem and hence to human welfare.
The most important contribution of the
earth’s biota is to maintain the ecosystem ability to provide essential life
support functions, e.g. fixation of solar energy. Genetic resources are most
precious asset. They are nature’s tool for harvesting solar energy and
processing mineral resources in to food, fibre, fertilizer etc. They are
crucial for human survival in the physical environment. They are the result of
evolution over million of years.
Biological resources are active entities
and extremely vulnerable. Once they are lost, they can not be replaced at any
cost.
Success of genetic engineering depends
upon genes (the basic building blocks) from plants, animals and
micro-organisms. Therefore, ensuring success in genetic engineering, we need to
conserve biological resources.
Genetic diversity is heritable with in and
between of the species of a genus. Genetic diversity is very critical to our
agriculture, horticulture, forestry and animal husbandry. Many germplasms from
India have made many distinctive contributions in plant improvement. Broadly
speaking biological diversity satisfies human needs in two different ways,
direct and indirect.
Biodiversity will not only help in
increasing agricultural productivity but also in developing disease resistant
varieties. It was evident in the early 1970’s when epidemic called grassy stunt
virus destroyed more than 1,60,000 ha of rice in Asia, could be controlled from
a single sample of wild rice Oryza nivara from Central India, which was found to be the
only known genetic source of resistance to the grassy stunt. Besides 20 major
genes from wild for disease and pest resistance are used in rice improvement
programmes.
Besides food and other basic needs, human
health has gained priority in welfare programmes. Once all medicines used to
come from plant and animal resources. Worldwide medicines from plants are now
worth 40 billion dollars a years. Even now 80 percent people in the developing
countries depend upon traditional medicines.
Indirect benefits include nutrient
trapping, maintaining water cycles, soil production and protection of soil,
absorption and break down of pollutants, provision of recreational, aesthetic,
scientific, spiritual etc.
It is estimated that more than 25 percent
of all medicines available today are derived from tropical plants. Over 40
percent of Pharmaceuticals available in the USA depend on natural sources.
In 1960, a child contracting Leukemia had
one chance in five survival, since then scientists have developed a drug –
Vincristine from a plant of the tropical forests, Vinca rosea, that now allow
leukemia sufferer four chances in five of survival.
The National Cancer Institute near
Washington DC has screened 29,000 plant species, and at least five may come to
rival vincristine. The institute believes that mass extinctions of species
could represent a serious back to the future of anti-cancer campaigns.
Among other medical products the “pill”
that is swallowed by million women each day contains sex hormone combination
derive from a Mexican forest yam. Over-the-counter sales of the pill are re
worth one million dollar a year.
Prioritization
approach and patenting
The list of species to be conserved is
ever-increasing. There are also other
plants and animals, which are likely to be important in future. There is a
whole range of threatened/ endangered plants numbering around 2000 in India.
Resource constraints do not allow, all these to be saved and it would be
totally unrealistic even to attempt this.
Approach of prioritization, both of
economic importance and academic interest are needed. With in a country
different states could select an indigenous mammal, bird, wild flower and a
tree. These could then be declared as state mammal, bird, flower and tree.
Rajasthan state has declared Great Indian Bustard (Ardeotis nigriceps)
as state bird and Khejri (Prosopis cineraria) as state tree. Based on
indepth study, an agreed list of species could be arrived and the best way of
conservation method(s) to b employed.
Patents are meant to stimulate innovation
and increase public perception about new ideas and inventions. A patent is,
therefore, a limited monopoly for a given number of years during which patentee
has exclusive rights to the invention. In view of expanding role of “Genetic
raw materials” is genetic engineering, patenting of cultivars by multinationals
has to be looked in a proper manner. During patenting, legal, economical and
technical issues may be taken into account.
Each country needs to critically review
their network of conservation areas, together with their future plans. The
conservation of just wild animals alone will not succeed unless, the carefully
chosen ecosystem need to be taken up for conservation purpose. Special
attention must be paid to forests having large biological diversity of plants
and animals.
Biological diversity has become a
sensitive subject. Countries having biodiversity needs to adopt a code of
conduct and has to conserve the diversity for sustainable use for the future
generations.
