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1. A SUSTAINABLE WAY OF LIVING
PRESENTED BY
BIBHU SANTOSH BEHERA, PhD RESEARCH
SCHOLAR,OUAT,BHUBANESWAR,INDIA
E-mail Id:-b.behera88@gmail.com
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2. Abstract of Vision
Between now and 2050, the world’s population will increase by one-third. Most of these
additional 2 billion People will live in developing countries. At the same time, more people will be
living in cities. If current income and consumption growth trends continue, FAO estimates that
agricultural production will have to increase by 60 percent by 2050 to satisfy the expected
demands for food and feed. Agriculture must therefore transform itself if it is to feed a growing
global population and provide the basis for economic growth and poverty reduction. Climate
change will make this task more difficult under a business-as-usual scenario, due to adverse
impacts on agriculture, requiring spiraling adaptation and related costs. To achieve food security
and agricultural development goals, adaptation to climate change and lower emission intensities
per output will be necessary. This transformation must be accomplished without depletion of the
natural resource base. Climate change is already having an impact on agriculture and food
security as a result of increased prevalence of extreme events and increased unpredictability of
weather patterns. This can lead to reductions in production and lower incomes in vulnerable
areas. These changes can also affect global food prices. Developing countries and smallholder
farmers and pastoralists in particular are being especially hard hit by these changes. Many of
these small-scale producers are already coping with a degraded natural resource base.
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3. Abstract of Definition
• They often lack knowledge about potential options for adapting their production
systems and have limited assets and risk-taking capacity to access and use
technologies and financial services. Enhancing food security while contributing to
mitigate climate change and preserving the natural resource base and vital ecosystem
services requires the transition to agricultural production systems that are more
productive, use inputs more efficiently, have less variability and greater stability in
their outputs, and are more resilient to risks, shocks and long-term climate
variability. More productive and more resilient agriculture requires a major shift in
the way land, water, soil nutrients and genetic resources are managed to ensure that
these resources are used more efficiently. Making this shift requires considerable
changes in national and local governance, legislation, policies and financial
mechanisms. This transformation will also involve improving producers’ access to
markets. By reducing greenhouse gas emissions per unit of land and/or agricultural
product and increasing carbon sinks, these changes will contribute significantly to the
mitigation of climate change.

4. My Research Contribution to world
• The research and study will be conducted in global basis, where there may
be possibility of Climate Relicense and Impact of Extension Education play
major role for development of Biodynamic Livelihood for Holistic and
Sustainable Development. The Sample size taken From Each country and
continent was 30 and total sample size would be 600.This will be done by
Ex-post Facto design via Randomized block Analysis. The Empirical
models, conceptual frame work, concept road map and policy will be
formulated for achieving MDG, SDG and Vision 2050 in the final part of
this Study. Documentation and Data interpretation would be done
accordingly for Future Research and Technological Advancement
Refinement.(TAR)
• Key Words:-Biodynamic Livelihood, Climate Smart Extension Education,
Climate Smart Agriculture, Climate Resilescence, MDG, SDG, TAR,
FAO,Holistic Developement

5. Problem Under Study(Objectives)
• The problem under study will be 1.How we can develop sustainable holistic biodynamic livelihood status
in order to give food security, social prestige and future activities for our successors?
• 2.To develop concept map, road frame work and policies for this.
• 3.To liaison all relevant units, projects and entities for Collaboration, Coordination and cooperation to
make a holistic successful hyogo frame work which would be equal for all climatic zones by maintaining
equilibrium via ecofriendly approach.
• 4.To prepare a "Research Consortium" for collecting all information by implementing ICT tools,
Knowledge Engineering System, Artificial Intelligence and Expert system. By implementing all of these
system by blending with Decision support system, MIS and knowledge management portal to give them
instant solution.
• 5.To introduce "climate smart Extension Education", "Sustainable Bio Dynamic Livelihood Courses in the
Research and Educational Curriculum.(In University level,School,Colleges and grassroots organizations)
• 6.To develop Research Hubs for addressing all issues in each Climatic Zones and Biodiversity.
• 7.To document on Case studies, Success Stories and Analysis Report on Every Issues.
• 8.To study the Constraints, Draw Backs and Opportunities by SMART,SWOT and Management Analysis.
• 9.To develop so models, diorama, and Panacea Solution map for achieving March into crescendo via SDG
and MDG.

6. Problem Under Study
• 10.To conduct Over all research via Extension Activities like Awareness Campaign, Street
Show,Seminars,Symposia,Colloquim,Brain Storming and Social Media actions.
• 11.To undertake Outreach and Training on this concepts.
• 12.To find out realistic solution with energetic strategies via innovation, discovery
approaches.
• 13.To develop Recyclable approach from wastages to make success and excellencies in Third
Sustainable Green Revolution.
• 14.To frame Policies, Laws ,patents,IPRs and blue print for making this approach as One
Panacea of solution.
• 15.To implement all these things into a Collective approach for our future, current days by
comparison with previous stage.
• 16.To monitor and evaluate the total program via constructive appraisal.
• 17.To study the social inclusion, social innovation and society as a strata by holistic
approach.
• 18.To establish social incubator hubs in every zones for advocating of program.
• 19.To appoint Major group of Human resources for execution of this program.
• 20.To execute team building process, conflict resolution ,stress management and other
relevant process for every steps.

7. Methodology of Research
• 1.To prepare crop specific, climate specific plans via "Bioclimatic" clock and "Biodiversity"
map.
• 2.To prepare strong information dissemination system for latest updates of technology.
• 3.To prepare "Technology advancement and refinement"(TAR) hubs in order to blending of
technology for "sustainable technology transfer".
• 4.To recruit holistic major and minor groups for sustainable implementation of programmes.
(Human Resources for future).
• To prepare strategies of adoption, diffusion of technologies by eradicating
dissonance,conflict,discontinouity as a whole.
• 5.Hyogo frame work approach with strong wisdom and innovativeness.
• My project is completely dedicated to social dynamics. It is a blending of Climate, Livelihood
and Gender. It has justified by addressing real problems we feel by heart now. For saving us
and our mother earth from future up comings it may act as "Future Super Engine" by
comparing past,sustaining present and projecting for future.So it is totally a different and
"Society Change" project maintaining sustainability,equilibrium as a whole.

8. What has been and is the projected impact of My
initiative?
• My initiative for this project is to create awareness among
people in the society via social media,campaign.Being a
Doctoral Research Fellow and a future Scientist i am
confident to made a concrete and hypothetical research from
my University so that i can take the future initiative works
with greater solutions. For this i need all support regarding
patenting my idea, financial support, and all support i
deserved and required for completing and implementing this
research world wide.So I need the donors from abroad and
India

9. What is the potential for growth of the idea?
• As growth is a continuous and dynamic process, it can be measured time to
time by seeing its impact on society entropy as well as the progress of the
concept through sustainable adoption. Here my project is completely new
and it is the "Theoretical brain child" of me. Only i have qualitative part
that is 1.knowledge in terms of data,information,2.skill in terms of
applicability in society, technical feasibility, acceptable by all and
sustainable mode and 3.attitude by means of the energetic will for work
motivation with commitment and dedication. Being a Social Extensionist i
can act as change agent to change the
knowledge,skill,attitude,behaviour,art of living by means of my potential
enthusiasm. The result will be fruitful after proper implementation and
execution.

10. CLIMATE SMART EXTENSION MODEL

11. CLIMATE SMART VILLAGE CONCEPT

12. CLIMATE SMART ECONOMICS CONCEPT

13. CLIMATE SMART LIVELIHOOD MANAGEMENT

14. My Developed Model
• Research-Extension-Farmer-Climate-Market-
End User (REFCME)
• This model is being developed by me( Bibhu
Santosh Behera) from this study of research.
This is the best model for achieving success in
day to day life.

15. Concluding Remark
• Climate Smart Extension Education must be fruitful when it is
preached and applied in Climate smart Agriculture .It should be
introduced in Course curriculum in University as well schools for
betterment of our future comings. So lets put our hand to translate
this concept into action. So Follow this caption.
• GO GREEN
• ADOPT ORGANIC
• MARCH AHEAD
• FOLLOW CLIMATE SMART EXTENSION
• SUSTAIN THE FUTURE
Bibhu Santosh Behera,Father of Climate Smart
Extension, Indian PhD Researcher

16. References Followed
• 1.Wheeler, T. & von Braun, J. Climate change impacts on global food security. Science 341, 508–513
(2013).
• 2. · IPCC Summary for Policymakers Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part
A: Global and Sectoral Aspects (eds Field, C. B. et al.) (Cambridge Univ. Press, 2014).
• 3. Porter, J. R. et al. in Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A: Global and
Sectoral Aspects (eds Field, C. B. et al.) 485–533 (IPCC, Cambridge Univ. Press, 2014).
• 4. Tubiello, F. N. et al. The FAOSTAT database of greenhouse gas emissions from agriculture. Environ.
Res. Lett. 8, 015009 (2013).
• 5. Gitz, V. & Meybeck, A. Risks, Vulnerabilities and Resilience in a Context of Climate Change (FAO,
2012).
• 6. Challinor, A., Martre, P., Asseng, S., Thornton, P. & Ewert, F. Making the most of climate impact
ensembles. Nature Clim. Change 4, 77–80 (2014).
• 7. McCarthy, N., Lipper, L. & Branca, G. Climate-Smart Agriculture: Smallholder Adoption and
Implications for Climate Change Adaptation and Mitigation (Mitigation of Climate Change in Agriculture
Series No. 4, FAO, 2011).
• 8. Financing Climate-smart Agriculture 375–406 (Climate-Smart Agriculture Sourcebook Module 14,
FAO, 2013).
• 9. Report on the Sixth Replenishment of the GEF Trust Fund (Global Environment Facility Secretariat
(GEF) Secretariat and World Bank, for Fifth GEF Assembly, 2014).
• 10. World Development Report: Risk and Opportunity: Managing Risk for Development (World Bank,
2014).

17. THANK YOU FOR YOUR KIND
ATTENTION
GO GREEN
ADOPT ORGANIC
MARCH AHEAD
FOLLOW CLIMATE SMART EXTENSION
SUSTAIN THE FUTURE