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AN ASSIGNMENT
ON
Role of Aquaculture in Rural Development
Course Name: Agricultural Research, Research Ethics
and Rural Development programme
Submitted to,
Prof. A.A. Vyas
Associate Professor
Dept. of Aquaculture
College of Fisheries Science, Submitted By
(JAU), Veraval – 362265 Name: Krishna
Reg. No. 2030316005
M.F.Sc. 1st Year
College of Fisheries
Science, (JAU), Veraval
COLLEGE OF FISHERIES SCIENCE
Junagadh Agricultural University
VERAVAL, GUJARAT 362265
CONTENT
S. No. Particular Page No.
1. Introduction 1
2. Food security, rural development and poverty alleviation 2-4
3. The contribution of aquaculture to rural development 4
4. Aquaculture production intensity and risks 4-5
5. Role of aquaculture in rural development 5 – 6
6. Strategies for an increased contribution by aquaculture to rural
development
6-8
7. Future prospects 8-9
8. Conclusion 9
9. References 10
1 |College of Fisheries Science, (JAU), Veraval
INTRODUCTION
Rural development, the process of sustained growth of the rural economy and
improvement of well-being of rural men, women and children, has various dimensions, but it
is particularly the development of the agricultural sector, which is widely believed to provide
the main impetus not only for reducing poverty and hunger but also for ensuring food
security for all. Only if more rapid agricultural growth takes place in countries with
impoverished rural populations, can rural farm and non-farm incomes rise sufficiently to
enable the rural poor to become more food secure. Various types of aquaculture form an
important component within agricultural and farming systems development. These can
contribute to the alleviation of food insecurity, malnutrition and poverty through the
provision of food of high nutritional value, income and employment generation, decreased
risk of monoculture production failure, improved access to water, enhanced aquatic resource
management and increased farm sustainability.
Global fish production has grown steadily in the last five decades, with food fish supply
increasing at an average annual growth rate of 3.2 percent, outpacing world population
growth at 1.6 percent. World per capita apparent fish consumption increased from an average
of 9.9 kg in the 1960s to 19.2 kg in 2012. The production of all cultured aquatic organisms
reached almost 66.6 million metric tonnes (mmt) in 2012 (FAO 2014), and it is expected that
this trend will continue despite several constraints, which may become more challenging in
the future.
Table 1. World aquaculture production (2014)
2007 2008 2009 2010 2011 2012
Production (million tonnes)
Aquaculture
Inland 29.9 32.4 34.3 36.8 38.7 41.9
Marine 20.0 20.5 21.4 22.3 23.3 24.7
Total aquaculture 49.9 52.9 55.7 59.0 62.0 66.6
Total world fisheries 140.7 143.1 145.8 148.1 155.7 158.0
(Source:- FAO, 2014)
In India, Fishery plays a vital role in economic development of the country and during
post independence it has been recognized as flourishing sector with varied resources and
potential. It contributes significantly to the national income, nutritional security and
employment generation. Furthermore, it has been stated that the vibrancy of the sector can be
visualized by 11 fold increase in just six decades, i.e. from 0.75 million tons in 1950-51 to
9.6 million tons during 2013-14 (Source: FAO, 2015). More than 14.5 million people are
engaged directly or indirectly with various fisheries activities for their livelihood. Indian
fisheries occupy the second position in global fish production with an annual growth rate of
4.7%, recording 3.2% growth in marine sector and 6.2% growth in inland sector, thereby
2 | College of Fisheries Science, (JAU), Veraval
contributing 1.10% to the total GDP and 5.3% to the total agricultural GDP of the nation
(Source: Handbook of Fisheries & Aquaculture, 2013).
Freshwater aquaculture contributes to over 95 percent of the total aquaculture
production. The national mean production level from ponds has gone up from about
60kg/ha/year in 1974 to over 2,900 kg/ha/year at present (Source Handbook of Fisheries &
Aquaculture 2013 ICAR Publication, India). Induced breeding of carps and catfishes,
hatcheries for mass-scale spawning, seed rearing and carp polyculture are some of the
epoch-making technologies actually accelerated the freshwater aquaculture development in
our country.
Table 2. Fisheries Resources of India
S. No. Resources Catchment area
1. Riverine 3.12 million km2
2. Estuary 1.44 million ha
3. Reservoirs 3.15 million ha
4. Flood plain wetland 0.2 million ha
5. Continental shelf 0.53 million km2
6. EEZ 2.02 million km2
7. Backwater and Lagoons 0.19 million ha
(Source: Handbook of Fisheries & Aquaculture, 2013)
Besides enhancing the socio-economic status of the rural population, fisheries can
contributes to the nutritional security of the economically backward people of the state with
its cheap source of protein. Looking into the importance of this sector it is need of the hour
to develop the fisheries sector of the state. First and foremost important pre-requisite for the
development of fisheries is the establishment of dependable fish seed resources of common
cultivable species. Henceforth for such practice a well trained and skilled persons are
required and therefore, various fisheries research institutes, College of Fisheries and related
departments can play a major role in development of the fisheries and aquaculture sector in
the country.
FOOD SECURITY, RURAL DEVELOPMENT AND POVERTY ALLEVIATION
Food security, rural development, and poverty alleviation are closely linked. The FAO
State of Food Insecurity Report 2000 estimates that 792 million people in 98 developing
nations are not getting enough food to lead normal, healthy and active lives. Even in
industrialized nations and countries in transition (those in Eastern Europe and the former
Soviet Union), the number of undernourished remains significant at 34 million children,
women and men.
Food demand will continue to rise significantly. Expanding populations and changing
eating habits will make a doubling of food output imperative within the next thirty years. The
problem in the modern world is not the lack of a sufficient quantity of food but rather the
disparities in global food availability and growing inequalities within and between regions.
3 | College of Fisheries Science, (JAU), Veraval
The recent report on the right to food by the Special Rapporteur of the Commission on
Human Rights points out that the “remarkable developments in agriculture and nutrition
science over the last twenty years have clearly so far failed to reduce malnourishment and
malnutrition for the poorest populations”, and that “a different model of development is
needed, one that is focused on local-level food security”. There are several fundamental
reasons why local food demand should be met by local food production to the greatest extent
possible. These are:
 that agriculture is the foundation of rural development and the most important
provider of gainful employment in rural areas.
 that local food production is the basis for sustaining and caring about landscapes and
the environment.
 that food demand has not and cannot be met logistically from surpluses elsewhere,
and;
 that the availability of foreign exchange is expected to remain a major problem for
most poor countries.
Rural development and, in particular, a prosperous smallholder agricultural economy, is
widely regarded as the cornerstone in a multi-pronged strategy aimed at reducing poverty
and hunger and ensuring food security for all. Alleviation of poverty is central to the concept
of rural development. Different emphases and approaches to rural development have been
followed in the past thirty years, variously focussing on the provision of basic needs, a joint
social and economic sector approach, and employment creation through establishment of
small enterprises in rural areas. A general consensus emerged from this experience -
whatever the sectoral emphasis, rural development requires greater participation of the rural
population and involvement of the people in planning for their own development. People’s
participation and ‘bottom-up’ planning were identified as essential elements of the
development process.
Aquaculture development followed a similar pattern. Starting in the 70’s there was
substantial assistance for developing the sub-sector in Latin America, Asia and Africa. The
tendency of these development initiatives was to focus overly on large infrastructure
development, technical packages and technical training, without paying sufficient attention
to the role of these, often new, production systems in the livelihood or farming system of the
intended beneficiaries. All too often, the result was lack of adoption by one of the intended
target groups – the rural poor. As a result of the apparent inability to impact the rural poor,
donor support for aquaculture development has declined in the past 10 years. Paradoxically,
the progress made in Asian aquaculture during this time saw a tremendous boom in
commercial scale aquaculture by households with better resource bases, hand in hand with
the economic expansion of the region, opening markets and increasing the flow of cash
economies to rural areas.
Poverty is a complex phenomenon, which cannot be understood in purely sectoral terms.
A series of consultations on small-scale rural aquaculture concluded that aquaculture should
4 | College of Fisheries Science, (JAU), Veraval
not be viewed as an isolated technology but be considered as one aspect of rural
development and form part of a holistic approach to development. Interdisciplinary
approaches were seen as an essential prerequisite.
More recently, there has been a re-evaluation of the role of small-scale aquaculture in
rural livelihoods and its importance in poverty alleviation and household food security,
particularly the mechanisms by which the rural poor can access and benefit from
aquaculture. It is also increasingly realised that rural people do not depend for their
livelihood on the agricultural sector alone, but rather on a range of livelihood options, which
together offer their families food security and reduce vulnerability to conditions over which
they have no control. Such options may be found in the diversification of activities in the
agricultural sector, through the use of open access or common property resources in the
natural environment and off-farm employment, whether close to home or far away in the
cities. Different members of the family may be involved in each of these options, to varying
degrees and at different times of the year. Rural poor people in resource poor environments
tend to have a broader range of livelihood strategies, precisely because their situation is one
of insecurity. A recent FAO/World Bank Farming Systems study noted the importance of five
major household strategies for escaping poverty for 70 farming systems across the world:
intensification, diversification, increased asset base, increased off-farm income, and exit
from agriculture. Diversification, which includes aquaculture, was judged to be the single
most promising source of farm poverty reduction in the coming years.
THE CONTRIBUTION OF AQUACULTURE TO RURAL DEVELOPMENT
Aquaculture comprises diverse systems of farming plants and animals in inland and
coastal areas, many of which have relevance for the poor. FAO defines aquaculture for
statistical purposes as the “farming of aquatic organisms, including fish, molluscs,
crustaceans and aquatic plants. Farming implies some form of intervention in the rearing
process to enhance production, such as regular stocking, feeding, protection from predators,
etc.. Farming also implies individual or corporate ownership of the stock being cultivated“.
In the context of the rural poor, aquaculture often complements catches from traditional
fisheries. The latter continue to play an important role and, in many areas, remain adequate
to satisfy subsistence needs and provide a valuable source of cash income for farmers. In
many cases, the capture or culture of aquatic species forms the basis for food security,
enabling the use of livestock or cultured fish as a source of income generation. Aquaculture
becomes an attractive and important component of rural livelihoods in situations where
increasing population pressures, environmental degradation or loss of access, limit catches
from wild fisheries.
AQUACULTURE PRODUCTION INTENSITY AND RISKS
Extensive to semi-intensive aquaculture systems still produce the bulk of aquaculture
products. Extensive farming usually involves unsophisticated methods, relies on natural food
and has a low input to output ratio. As production intensity increases, fish are deliberately
stocked and the natural food supply is enhanced by using organic and inorganic fertilizers
5 | College of Fisheries Science, (JAU), Veraval
and low-cost supplemental feeds derived from agricultural by-products. The system found
most frequently is the farming of fish in ponds, however rice-fish farming or the stocking of
fish into natural or impounded water bodies are also included as aquaculture systems. It is
extremely difficult to estimate the contribution of this type of aquaculture production, since
small-scale and dispersed production data do not appear in official statistics and the produce
is typically consumed or traded locally. Specific examples of aquaculture activities that have
positive impacts on the rural poor include: fry nursing and the development of nursing
networks, the integration of fish farming with rice crops in floodplains and the more remote
mountainous areas in Asia, sustaining and restoring aquatic biodiversity through simple
enhancement management methods.
In coastal areas, the farming of mud crabs, oysters, mussels, cockles, shrimps, fish and
seaweeds provides employment for the rural poor, mainly for direct labour inputs, as well as
seed and feed collection. Intensive aquaculture systems yield more output from a given
production unit, using technology and a higher degree of management control. This,
typically, involves facilities deliberately constructed for the purpose of aquaculture, which
are operated with higher stocking densities and use compound manufactured feed and
chemotherapeutant intervention on a regular basis. Intensive inland and coastal cage
aquaculture of high-value salmonids has been encouraged and supported to develop remote
rural areas in Europe and South and North America. Similar systems have emerged in Asia
and Australia for warm-water piscivorous fish, such as groupers, yellowtail, snappers and sea
bass. Coastal shrimp farming has raised particular interest throughout the tropics because of
its high value and opportunities for export and earning foreign exchange.
Whilst increasing the cash economies of many coastal areas and stimulating local
development, there have been wide ranging negative social and environmental impacts as a
result of some forms of aquaculture development. This situation is under increased scrutiny
for remediation.
ROLE OF AQUACULTURE IN RURAL DEVELOPMENT
1. The nutritional requirement is verycrucial in a developing country suchas India where
malnutrition and starvation are the major problems faced by millions of rural dwellers.
The low protein intake is an indication of shortage of high quality protein food in the
diet of Indians. Despite the increase in the major sources of animal protein such as
livestock and poultry industries, the problem of protein deficiency still continues
unabated. The protein deficiency in diet is equally associated with the inability of fish
farming industry to supply the required quantity of fish. The situation causes poor
health, low efficiency, low productivity and poor standard of living and decline in the
contribution of fishery industry’s contribution to the Gross Domestic Product (GDP).
By producing fishes through aquaculture this problem may be overcome in country.
2. A large number of rural employments are generated in aquaculture. The small-scale
fish farming requires less capital and more labour. The woman workers may easily be
engaged in fish farming. Fishermen are not only directly employed in fish farming but
6 | College of Fisheries Science, (JAU), Veraval
also some other alternative occupations like net making, marketing of fish seed and
fishery product, transport, etc. Many rural people may get employment in the
production and distribution system. Since fish is a perishable commodity proper
marketing channels should be established. Hence to reduce pressure from agriculture
aquaculture maybe alternative occupations for generating income and employment for
a large number of poor people.
3. The urban waste (i.e. garbage) may be recycled and be supplied as fish feed (to those
ponds and water areas lying near the towns) to raise fish production and to prevent the
environmental pollution in those areas.
4. Due to supply chain management, some rural infrastructures like connecting roads for
transport of fishes, markets for selling/buying fishes, cold storages, and electricity
connection may be developed. The rural development may bust up purchasing power
and standard of living of rural.
5. Indirect benefits include increased availability of fish in local rural and urban markets
and possible increase in household income through sales of other income generating
farm products, which will become available through increased local consumption of
fish.
6. Aquaculture can also benefit the landless from utilization of common resources, such
as finfish cage culture, culture of molluscs and seaweeds, and fisheries enhancement
in communal water bodies.
7. Fish farming in rice fields not only contributes to integrated pest management, but
also management of vectors of human medical importance. Furthermore, ponds
become important as on-farm water reservoirs for irrigation and livestock in areas
where there are seasonal water shortages.
In view of all these benefits, it is perhaps not surprising that aquaculture production has
grown rapidly since the 1970s, and has been the fastest growing food production sector in
many countries for nearly two decades; the sector exhibiting an overall growth rate of over
11.0% per year since 1984, compared with 3.1% for terrestrial farm animal meat production,
and 0.8% for landings from capture fisheries. By 2012, the production of all cultured aquatic
organisms reached 66.6 million mmt (FAO 2014). A total of 262 fish, crustacean, and
mollusc species, represent the most important animals used in aquaculture world-wide, are
listed in a recent survey. Although not all aquatic organisms are suitable for culture, the
variety of cultured species is still increasing. Freshwater finfish, particularly Chinese and
Indian carp species, account for the greatest share of total aquaculture production in 1999.
This is followed by molluscs and aquatic plants, mostly kelp, the majority of which come
from China.
STRATEGIES FOR AN INCREASED CONTRIBUTION BY AQUACULTURE TO
RURAL DEVELOPMENT
Human resource development and institutional strengthening are widely held to be the
principal requirements for improving integration at the level of individual farms and
communities, in river basin and coastal area management, and at the level of sectoral and
7 | College of Fisheries Science, (JAU), Veraval
macroeconomic policies. At the farm level, attention needs to focus first on resource use
efficiency and the economic or livelihood incentives that influence farmers decisions on
cropping patterns, the use of water, feeds, fertilizer, chemical treatments and other inputs.
Next, the emphasis should be on farmers’ knowledge of available production and pest
management options, as well as on their ability to apply these. Agriculture and aquaculture
offer a large variety of cropping patterns under different climatic and soil conditions. If they
have the right skills, together with access to the necessary inputs, farmers will adopt the
farming or aquaculture system that is most suitable to their specific situation. Since farmer’s
management strategies are not based solely on economic criteria, but also include
minimization of risk, cropping flexibility, cultural preference for species, time and labour
requirements, extension and training. Farmer participation in these processes are crucial for
informed decision-making. The presence of an enabling infrastructure, such as availability of
inputs, markets and financial or credit facilities, are indispensable for optimal development
and integration of farming and aquaculture systems.
At the level of river basins and coastal areas, integration is aimed at managing sectoral
components as parts of a functional whole, explicitly recognizing that management needs to
focus on human behaviour, not just physical stocks of natural resources such as fish, land or
water. Integrated river basin and coastal area management employs a multi-sectoral strategic
approach to the efficient allocation of scarce resources among competing users and the
minimization of unintended natural resource and environmental impacts. Land use planning
and zoning, together with environmental impact assessment procedures, are vital tools for
reducing or rationalizing the conflicts between resource users, minimizing negative
environmental impacts and enhancing sustainable development. The effective participation
of fisheries agencies in these planning activities is absolutely essential.
The participation of all resource users and other stakeholders at an early stage is
indispensable for effective land use planning and zoning, not least because of their intimate
knowledge of local socio-economic conditions and the state of natural resources. At the
government level, the functions of the various agencies with regulatory and development
mandates need to be well coordinated. Two broad distinctions can be made in the wide range
of possible institutional arrangements for integrated river basin and coastal area
management:
1. Multisectoral integration - involves coordinating the various agencies responsible
for river basin and coastal management on the basis of a common policy, and
bringing together the various government agencies concerned, as well as other
stakeholders, so that they can work towards common goals by following mutually
agreed strategies; and
2. Structural integration - an entirely new, integrated institutional structure is created
by placing management, development and policy initiatives within a single
institution.
8 | College of Fisheries Science, (JAU), Veraval
Many river basin and coastal management issues can be addressed through sound
sectoral management, but must take into account the impacts of, and interdependencies with,
other sectors and ecosystem processes, such as; the provision and enforcement of
environmental legislation; the need for a transparent and consultative process of land use
planning and siting; and the design of major infrastructure projects such as dams. The costs
of a formal process for the preparation of a river basin or coastal area management plan are
most likely to be justified in areas where intense multisectoral resource utilization either
exists or is planned.
At the macro level, economic policies, such as subsidies for production inputs and
import and export duties, can have profound impacts on the characteristics and level of
resource use, as well as on the occurrence of undesirable environmental effects. The
advantages of subsidising chemical inputs, such as fertilizer and pesticides, need to be
weighed against the potential harm they can do to aquatic environments and to fishery
resources, which provide food for fishers and fish consumers alike.
FUTURE PROSPECTS
India has a vast water resource potentiality. By utilizing these water resources there are
huge prospects of aquaculture of fishes. These resources can be divided into two categories: i)
Inland and ii) Marine. Inland resources constitute both capture and culture areas like ponds,
rivers, marshy lands, canals, reservoirs etc.
Marine
Length of coast line (Km) 8,118
Exclusive Economic Zone (EEZ) million Sq Km 2.02
Continental Shelf (‘000 sq km) 530
Number of Fish Landing Centres 1,537
No of Fishing villages 3,432
No of fishermen families 8,74,749
Fisher-folk population 40,56,213
Inland
Total inland water bodies (lakh Ha) 73.59
Rivers & canals (Km) 195210
Reservoirs (Lakh ha) 29.07
Tanks & ponds (lakh Ha) 24.14
Flood plain lakes/derelict waters (lakh Ha) 7.98
Brackish water (lakh Ha) 12.40
(Source: State Governments, CIFRI & CMFRI)
Production of fishes through aquaculture may be a better option to satisfy the demand of
fishes as well as earning money from exporting other states and even other countries. This
practice may generate huge employment to the small and marginal fishermenand fish farmers’
family members. Poly culture or Composite Fish Culture System should be practiced. The
general survival rate of fish farming is 80%. Stocking of various species should be in a certain
9 | College of Fisheries Science, (JAU), Veraval
proportion such that various types of fishes live in various layers and eat the entire food
organism which is called Composite Fish Culture. In this situation the ponds eco-system
should be maintained.
Aquaculture should be practiced in a scientific method. To use the scientific methods of
aquaculture some training should be required in the grassroots level. Aquaculture is a short
duration of crop assuring quick return on investment. Harvesting of fishes can be panned
according to market demands for fetching better prices such as festival or marriage seasons
when demand of fishes are high and prices are more.
CONCLUSION
The aquaculture provides employment to the rural poor people. The women workers are
also be engaged in family or neighbor fish farms. They also get jobs in fish/prawn processing
centres. The small fishery requires more labour and less capital. Unskilled labour are also be
engaged at low remuneration in fishery or allied sectors. Private entrepreneurs also find
interest to invest in the ancillary business of fishery sector.
10 | College of Fisheries Science, (JAU), Veraval
REFERENCES
1. ICAR. 2013. Handbook of Fisheries and Aquaculture. ICAR. PP .
2. http://www.fao.org/3/a-y4490e/y4490e04.pdf
3. http://www.sundarbanmahavidyalaya.in/ejournal/pdf/9-02.pdf
4. http://dahd.nic.in/documents/handbook-fisheries-statistics-2014
5. http://www.fao.org/3/a-i5555e.pdf
6. file:///C:/Users/acer/Downloads/Importance_of_Sustainable_Aquaculture_in_Rural_
Dev.pdf

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Role of aquculture in rural development..

  • 1. AN ASSIGNMENT ON Role of Aquaculture in Rural Development Course Name: Agricultural Research, Research Ethics and Rural Development programme Submitted to, Prof. A.A. Vyas Associate Professor Dept. of Aquaculture College of Fisheries Science, Submitted By (JAU), Veraval – 362265 Name: Krishna Reg. No. 2030316005 M.F.Sc. 1st Year College of Fisheries Science, (JAU), Veraval COLLEGE OF FISHERIES SCIENCE Junagadh Agricultural University VERAVAL, GUJARAT 362265
  • 2. CONTENT S. No. Particular Page No. 1. Introduction 1 2. Food security, rural development and poverty alleviation 2-4 3. The contribution of aquaculture to rural development 4 4. Aquaculture production intensity and risks 4-5 5. Role of aquaculture in rural development 5 – 6 6. Strategies for an increased contribution by aquaculture to rural development 6-8 7. Future prospects 8-9 8. Conclusion 9 9. References 10
  • 3. 1 |College of Fisheries Science, (JAU), Veraval INTRODUCTION Rural development, the process of sustained growth of the rural economy and improvement of well-being of rural men, women and children, has various dimensions, but it is particularly the development of the agricultural sector, which is widely believed to provide the main impetus not only for reducing poverty and hunger but also for ensuring food security for all. Only if more rapid agricultural growth takes place in countries with impoverished rural populations, can rural farm and non-farm incomes rise sufficiently to enable the rural poor to become more food secure. Various types of aquaculture form an important component within agricultural and farming systems development. These can contribute to the alleviation of food insecurity, malnutrition and poverty through the provision of food of high nutritional value, income and employment generation, decreased risk of monoculture production failure, improved access to water, enhanced aquatic resource management and increased farm sustainability. Global fish production has grown steadily in the last five decades, with food fish supply increasing at an average annual growth rate of 3.2 percent, outpacing world population growth at 1.6 percent. World per capita apparent fish consumption increased from an average of 9.9 kg in the 1960s to 19.2 kg in 2012. The production of all cultured aquatic organisms reached almost 66.6 million metric tonnes (mmt) in 2012 (FAO 2014), and it is expected that this trend will continue despite several constraints, which may become more challenging in the future. Table 1. World aquaculture production (2014) 2007 2008 2009 2010 2011 2012 Production (million tonnes) Aquaculture Inland 29.9 32.4 34.3 36.8 38.7 41.9 Marine 20.0 20.5 21.4 22.3 23.3 24.7 Total aquaculture 49.9 52.9 55.7 59.0 62.0 66.6 Total world fisheries 140.7 143.1 145.8 148.1 155.7 158.0 (Source:- FAO, 2014) In India, Fishery plays a vital role in economic development of the country and during post independence it has been recognized as flourishing sector with varied resources and potential. It contributes significantly to the national income, nutritional security and employment generation. Furthermore, it has been stated that the vibrancy of the sector can be visualized by 11 fold increase in just six decades, i.e. from 0.75 million tons in 1950-51 to 9.6 million tons during 2013-14 (Source: FAO, 2015). More than 14.5 million people are engaged directly or indirectly with various fisheries activities for their livelihood. Indian fisheries occupy the second position in global fish production with an annual growth rate of 4.7%, recording 3.2% growth in marine sector and 6.2% growth in inland sector, thereby
  • 4. 2 | College of Fisheries Science, (JAU), Veraval contributing 1.10% to the total GDP and 5.3% to the total agricultural GDP of the nation (Source: Handbook of Fisheries & Aquaculture, 2013). Freshwater aquaculture contributes to over 95 percent of the total aquaculture production. The national mean production level from ponds has gone up from about 60kg/ha/year in 1974 to over 2,900 kg/ha/year at present (Source Handbook of Fisheries & Aquaculture 2013 ICAR Publication, India). Induced breeding of carps and catfishes, hatcheries for mass-scale spawning, seed rearing and carp polyculture are some of the epoch-making technologies actually accelerated the freshwater aquaculture development in our country. Table 2. Fisheries Resources of India S. No. Resources Catchment area 1. Riverine 3.12 million km2 2. Estuary 1.44 million ha 3. Reservoirs 3.15 million ha 4. Flood plain wetland 0.2 million ha 5. Continental shelf 0.53 million km2 6. EEZ 2.02 million km2 7. Backwater and Lagoons 0.19 million ha (Source: Handbook of Fisheries & Aquaculture, 2013) Besides enhancing the socio-economic status of the rural population, fisheries can contributes to the nutritional security of the economically backward people of the state with its cheap source of protein. Looking into the importance of this sector it is need of the hour to develop the fisheries sector of the state. First and foremost important pre-requisite for the development of fisheries is the establishment of dependable fish seed resources of common cultivable species. Henceforth for such practice a well trained and skilled persons are required and therefore, various fisheries research institutes, College of Fisheries and related departments can play a major role in development of the fisheries and aquaculture sector in the country. FOOD SECURITY, RURAL DEVELOPMENT AND POVERTY ALLEVIATION Food security, rural development, and poverty alleviation are closely linked. The FAO State of Food Insecurity Report 2000 estimates that 792 million people in 98 developing nations are not getting enough food to lead normal, healthy and active lives. Even in industrialized nations and countries in transition (those in Eastern Europe and the former Soviet Union), the number of undernourished remains significant at 34 million children, women and men. Food demand will continue to rise significantly. Expanding populations and changing eating habits will make a doubling of food output imperative within the next thirty years. The problem in the modern world is not the lack of a sufficient quantity of food but rather the disparities in global food availability and growing inequalities within and between regions.
  • 5. 3 | College of Fisheries Science, (JAU), Veraval The recent report on the right to food by the Special Rapporteur of the Commission on Human Rights points out that the “remarkable developments in agriculture and nutrition science over the last twenty years have clearly so far failed to reduce malnourishment and malnutrition for the poorest populations”, and that “a different model of development is needed, one that is focused on local-level food security”. There are several fundamental reasons why local food demand should be met by local food production to the greatest extent possible. These are:  that agriculture is the foundation of rural development and the most important provider of gainful employment in rural areas.  that local food production is the basis for sustaining and caring about landscapes and the environment.  that food demand has not and cannot be met logistically from surpluses elsewhere, and;  that the availability of foreign exchange is expected to remain a major problem for most poor countries. Rural development and, in particular, a prosperous smallholder agricultural economy, is widely regarded as the cornerstone in a multi-pronged strategy aimed at reducing poverty and hunger and ensuring food security for all. Alleviation of poverty is central to the concept of rural development. Different emphases and approaches to rural development have been followed in the past thirty years, variously focussing on the provision of basic needs, a joint social and economic sector approach, and employment creation through establishment of small enterprises in rural areas. A general consensus emerged from this experience - whatever the sectoral emphasis, rural development requires greater participation of the rural population and involvement of the people in planning for their own development. People’s participation and ‘bottom-up’ planning were identified as essential elements of the development process. Aquaculture development followed a similar pattern. Starting in the 70’s there was substantial assistance for developing the sub-sector in Latin America, Asia and Africa. The tendency of these development initiatives was to focus overly on large infrastructure development, technical packages and technical training, without paying sufficient attention to the role of these, often new, production systems in the livelihood or farming system of the intended beneficiaries. All too often, the result was lack of adoption by one of the intended target groups – the rural poor. As a result of the apparent inability to impact the rural poor, donor support for aquaculture development has declined in the past 10 years. Paradoxically, the progress made in Asian aquaculture during this time saw a tremendous boom in commercial scale aquaculture by households with better resource bases, hand in hand with the economic expansion of the region, opening markets and increasing the flow of cash economies to rural areas. Poverty is a complex phenomenon, which cannot be understood in purely sectoral terms. A series of consultations on small-scale rural aquaculture concluded that aquaculture should
  • 6. 4 | College of Fisheries Science, (JAU), Veraval not be viewed as an isolated technology but be considered as one aspect of rural development and form part of a holistic approach to development. Interdisciplinary approaches were seen as an essential prerequisite. More recently, there has been a re-evaluation of the role of small-scale aquaculture in rural livelihoods and its importance in poverty alleviation and household food security, particularly the mechanisms by which the rural poor can access and benefit from aquaculture. It is also increasingly realised that rural people do not depend for their livelihood on the agricultural sector alone, but rather on a range of livelihood options, which together offer their families food security and reduce vulnerability to conditions over which they have no control. Such options may be found in the diversification of activities in the agricultural sector, through the use of open access or common property resources in the natural environment and off-farm employment, whether close to home or far away in the cities. Different members of the family may be involved in each of these options, to varying degrees and at different times of the year. Rural poor people in resource poor environments tend to have a broader range of livelihood strategies, precisely because their situation is one of insecurity. A recent FAO/World Bank Farming Systems study noted the importance of five major household strategies for escaping poverty for 70 farming systems across the world: intensification, diversification, increased asset base, increased off-farm income, and exit from agriculture. Diversification, which includes aquaculture, was judged to be the single most promising source of farm poverty reduction in the coming years. THE CONTRIBUTION OF AQUACULTURE TO RURAL DEVELOPMENT Aquaculture comprises diverse systems of farming plants and animals in inland and coastal areas, many of which have relevance for the poor. FAO defines aquaculture for statistical purposes as the “farming of aquatic organisms, including fish, molluscs, crustaceans and aquatic plants. Farming implies some form of intervention in the rearing process to enhance production, such as regular stocking, feeding, protection from predators, etc.. Farming also implies individual or corporate ownership of the stock being cultivated“. In the context of the rural poor, aquaculture often complements catches from traditional fisheries. The latter continue to play an important role and, in many areas, remain adequate to satisfy subsistence needs and provide a valuable source of cash income for farmers. In many cases, the capture or culture of aquatic species forms the basis for food security, enabling the use of livestock or cultured fish as a source of income generation. Aquaculture becomes an attractive and important component of rural livelihoods in situations where increasing population pressures, environmental degradation or loss of access, limit catches from wild fisheries. AQUACULTURE PRODUCTION INTENSITY AND RISKS Extensive to semi-intensive aquaculture systems still produce the bulk of aquaculture products. Extensive farming usually involves unsophisticated methods, relies on natural food and has a low input to output ratio. As production intensity increases, fish are deliberately stocked and the natural food supply is enhanced by using organic and inorganic fertilizers
  • 7. 5 | College of Fisheries Science, (JAU), Veraval and low-cost supplemental feeds derived from agricultural by-products. The system found most frequently is the farming of fish in ponds, however rice-fish farming or the stocking of fish into natural or impounded water bodies are also included as aquaculture systems. It is extremely difficult to estimate the contribution of this type of aquaculture production, since small-scale and dispersed production data do not appear in official statistics and the produce is typically consumed or traded locally. Specific examples of aquaculture activities that have positive impacts on the rural poor include: fry nursing and the development of nursing networks, the integration of fish farming with rice crops in floodplains and the more remote mountainous areas in Asia, sustaining and restoring aquatic biodiversity through simple enhancement management methods. In coastal areas, the farming of mud crabs, oysters, mussels, cockles, shrimps, fish and seaweeds provides employment for the rural poor, mainly for direct labour inputs, as well as seed and feed collection. Intensive aquaculture systems yield more output from a given production unit, using technology and a higher degree of management control. This, typically, involves facilities deliberately constructed for the purpose of aquaculture, which are operated with higher stocking densities and use compound manufactured feed and chemotherapeutant intervention on a regular basis. Intensive inland and coastal cage aquaculture of high-value salmonids has been encouraged and supported to develop remote rural areas in Europe and South and North America. Similar systems have emerged in Asia and Australia for warm-water piscivorous fish, such as groupers, yellowtail, snappers and sea bass. Coastal shrimp farming has raised particular interest throughout the tropics because of its high value and opportunities for export and earning foreign exchange. Whilst increasing the cash economies of many coastal areas and stimulating local development, there have been wide ranging negative social and environmental impacts as a result of some forms of aquaculture development. This situation is under increased scrutiny for remediation. ROLE OF AQUACULTURE IN RURAL DEVELOPMENT 1. The nutritional requirement is verycrucial in a developing country suchas India where malnutrition and starvation are the major problems faced by millions of rural dwellers. The low protein intake is an indication of shortage of high quality protein food in the diet of Indians. Despite the increase in the major sources of animal protein such as livestock and poultry industries, the problem of protein deficiency still continues unabated. The protein deficiency in diet is equally associated with the inability of fish farming industry to supply the required quantity of fish. The situation causes poor health, low efficiency, low productivity and poor standard of living and decline in the contribution of fishery industry’s contribution to the Gross Domestic Product (GDP). By producing fishes through aquaculture this problem may be overcome in country. 2. A large number of rural employments are generated in aquaculture. The small-scale fish farming requires less capital and more labour. The woman workers may easily be engaged in fish farming. Fishermen are not only directly employed in fish farming but
  • 8. 6 | College of Fisheries Science, (JAU), Veraval also some other alternative occupations like net making, marketing of fish seed and fishery product, transport, etc. Many rural people may get employment in the production and distribution system. Since fish is a perishable commodity proper marketing channels should be established. Hence to reduce pressure from agriculture aquaculture maybe alternative occupations for generating income and employment for a large number of poor people. 3. The urban waste (i.e. garbage) may be recycled and be supplied as fish feed (to those ponds and water areas lying near the towns) to raise fish production and to prevent the environmental pollution in those areas. 4. Due to supply chain management, some rural infrastructures like connecting roads for transport of fishes, markets for selling/buying fishes, cold storages, and electricity connection may be developed. The rural development may bust up purchasing power and standard of living of rural. 5. Indirect benefits include increased availability of fish in local rural and urban markets and possible increase in household income through sales of other income generating farm products, which will become available through increased local consumption of fish. 6. Aquaculture can also benefit the landless from utilization of common resources, such as finfish cage culture, culture of molluscs and seaweeds, and fisheries enhancement in communal water bodies. 7. Fish farming in rice fields not only contributes to integrated pest management, but also management of vectors of human medical importance. Furthermore, ponds become important as on-farm water reservoirs for irrigation and livestock in areas where there are seasonal water shortages. In view of all these benefits, it is perhaps not surprising that aquaculture production has grown rapidly since the 1970s, and has been the fastest growing food production sector in many countries for nearly two decades; the sector exhibiting an overall growth rate of over 11.0% per year since 1984, compared with 3.1% for terrestrial farm animal meat production, and 0.8% for landings from capture fisheries. By 2012, the production of all cultured aquatic organisms reached 66.6 million mmt (FAO 2014). A total of 262 fish, crustacean, and mollusc species, represent the most important animals used in aquaculture world-wide, are listed in a recent survey. Although not all aquatic organisms are suitable for culture, the variety of cultured species is still increasing. Freshwater finfish, particularly Chinese and Indian carp species, account for the greatest share of total aquaculture production in 1999. This is followed by molluscs and aquatic plants, mostly kelp, the majority of which come from China. STRATEGIES FOR AN INCREASED CONTRIBUTION BY AQUACULTURE TO RURAL DEVELOPMENT Human resource development and institutional strengthening are widely held to be the principal requirements for improving integration at the level of individual farms and communities, in river basin and coastal area management, and at the level of sectoral and
  • 9. 7 | College of Fisheries Science, (JAU), Veraval macroeconomic policies. At the farm level, attention needs to focus first on resource use efficiency and the economic or livelihood incentives that influence farmers decisions on cropping patterns, the use of water, feeds, fertilizer, chemical treatments and other inputs. Next, the emphasis should be on farmers’ knowledge of available production and pest management options, as well as on their ability to apply these. Agriculture and aquaculture offer a large variety of cropping patterns under different climatic and soil conditions. If they have the right skills, together with access to the necessary inputs, farmers will adopt the farming or aquaculture system that is most suitable to their specific situation. Since farmer’s management strategies are not based solely on economic criteria, but also include minimization of risk, cropping flexibility, cultural preference for species, time and labour requirements, extension and training. Farmer participation in these processes are crucial for informed decision-making. The presence of an enabling infrastructure, such as availability of inputs, markets and financial or credit facilities, are indispensable for optimal development and integration of farming and aquaculture systems. At the level of river basins and coastal areas, integration is aimed at managing sectoral components as parts of a functional whole, explicitly recognizing that management needs to focus on human behaviour, not just physical stocks of natural resources such as fish, land or water. Integrated river basin and coastal area management employs a multi-sectoral strategic approach to the efficient allocation of scarce resources among competing users and the minimization of unintended natural resource and environmental impacts. Land use planning and zoning, together with environmental impact assessment procedures, are vital tools for reducing or rationalizing the conflicts between resource users, minimizing negative environmental impacts and enhancing sustainable development. The effective participation of fisheries agencies in these planning activities is absolutely essential. The participation of all resource users and other stakeholders at an early stage is indispensable for effective land use planning and zoning, not least because of their intimate knowledge of local socio-economic conditions and the state of natural resources. At the government level, the functions of the various agencies with regulatory and development mandates need to be well coordinated. Two broad distinctions can be made in the wide range of possible institutional arrangements for integrated river basin and coastal area management: 1. Multisectoral integration - involves coordinating the various agencies responsible for river basin and coastal management on the basis of a common policy, and bringing together the various government agencies concerned, as well as other stakeholders, so that they can work towards common goals by following mutually agreed strategies; and 2. Structural integration - an entirely new, integrated institutional structure is created by placing management, development and policy initiatives within a single institution.
  • 10. 8 | College of Fisheries Science, (JAU), Veraval Many river basin and coastal management issues can be addressed through sound sectoral management, but must take into account the impacts of, and interdependencies with, other sectors and ecosystem processes, such as; the provision and enforcement of environmental legislation; the need for a transparent and consultative process of land use planning and siting; and the design of major infrastructure projects such as dams. The costs of a formal process for the preparation of a river basin or coastal area management plan are most likely to be justified in areas where intense multisectoral resource utilization either exists or is planned. At the macro level, economic policies, such as subsidies for production inputs and import and export duties, can have profound impacts on the characteristics and level of resource use, as well as on the occurrence of undesirable environmental effects. The advantages of subsidising chemical inputs, such as fertilizer and pesticides, need to be weighed against the potential harm they can do to aquatic environments and to fishery resources, which provide food for fishers and fish consumers alike. FUTURE PROSPECTS India has a vast water resource potentiality. By utilizing these water resources there are huge prospects of aquaculture of fishes. These resources can be divided into two categories: i) Inland and ii) Marine. Inland resources constitute both capture and culture areas like ponds, rivers, marshy lands, canals, reservoirs etc. Marine Length of coast line (Km) 8,118 Exclusive Economic Zone (EEZ) million Sq Km 2.02 Continental Shelf (‘000 sq km) 530 Number of Fish Landing Centres 1,537 No of Fishing villages 3,432 No of fishermen families 8,74,749 Fisher-folk population 40,56,213 Inland Total inland water bodies (lakh Ha) 73.59 Rivers & canals (Km) 195210 Reservoirs (Lakh ha) 29.07 Tanks & ponds (lakh Ha) 24.14 Flood plain lakes/derelict waters (lakh Ha) 7.98 Brackish water (lakh Ha) 12.40 (Source: State Governments, CIFRI & CMFRI) Production of fishes through aquaculture may be a better option to satisfy the demand of fishes as well as earning money from exporting other states and even other countries. This practice may generate huge employment to the small and marginal fishermenand fish farmers’ family members. Poly culture or Composite Fish Culture System should be practiced. The general survival rate of fish farming is 80%. Stocking of various species should be in a certain
  • 11. 9 | College of Fisheries Science, (JAU), Veraval proportion such that various types of fishes live in various layers and eat the entire food organism which is called Composite Fish Culture. In this situation the ponds eco-system should be maintained. Aquaculture should be practiced in a scientific method. To use the scientific methods of aquaculture some training should be required in the grassroots level. Aquaculture is a short duration of crop assuring quick return on investment. Harvesting of fishes can be panned according to market demands for fetching better prices such as festival or marriage seasons when demand of fishes are high and prices are more. CONCLUSION The aquaculture provides employment to the rural poor people. The women workers are also be engaged in family or neighbor fish farms. They also get jobs in fish/prawn processing centres. The small fishery requires more labour and less capital. Unskilled labour are also be engaged at low remuneration in fishery or allied sectors. Private entrepreneurs also find interest to invest in the ancillary business of fishery sector.
  • 12. 10 | College of Fisheries Science, (JAU), Veraval REFERENCES 1. ICAR. 2013. Handbook of Fisheries and Aquaculture. ICAR. PP . 2. http://www.fao.org/3/a-y4490e/y4490e04.pdf 3. http://www.sundarbanmahavidyalaya.in/ejournal/pdf/9-02.pdf 4. http://dahd.nic.in/documents/handbook-fisheries-statistics-2014 5. http://www.fao.org/3/a-i5555e.pdf 6. file:///C:/Users/acer/Downloads/Importance_of_Sustainable_Aquaculture_in_Rural_ Dev.pdf