Presentation by Andy Jarvis, Theme Leader, CCAFS at the at the CCAFS Workshop on Institutions and Policies to Scale out Climate Smart Agriculture held between 2-5 December 2013, in Colombo, Sri Lanka.
Day 1_Session 3_TRIPS_WASDS_Antoine Kalinganire - This presentation outlines the main outcomes of the CRP Dryland Systems inception phase in the West African Sahel and Dry Savannas target region.
The Learning Route on Natural Resource Management and Climate Change Adaptation best practices, the experience in Kenya; took place between the 6-13 July 2014 in several counties in Kenya.
The objective of this learning route is to scale up through peer to peer learning the Kenyan best multi stakeholders' strategies, tools and practices to fight environmental degradation and to adapt to climate change with the aim of improving the livelihoods of people living in affected communities.
The learning Route has been developed by International Fund for Agricultural Development (IFAD) CARE (relief agency) in Kenya and the Cgiar Research Program on Climate Change & Food Security, in partnership with Procasur Africa.
Here we have an overview of the all the second experience of the three host case studies that were visited:
Case 2: the CCAFS and dryland Agriculture site in Wote (Makueni)
Dr. William Payne delivered a presentation on the highlights of the CRO on Dryland Systems at the Launch meeting in Amman in mid-May.
The Dry Areas of the world represent fragile ecosystems, which is to say areas with physical water scarcity, rapid natural resource degradation, groundwater depletion and drought. The prominent features of these, “dryland systems” are that they cover 41% of the earths surface, are home to 2.5 billion people – and the majority of the world’s poor, they have a youth skewed age distribution and 93% of the malnourished people in the world live in them. Consequently, the Dryland Systems CRP will target the poor and highly vulnerable populations of dry areas in developing countries and the agricultural systems on which they depend.
System level outcomes to be addressed by the CG system through CRP1.1 include reduced rural poverty, improved food security, better nutrition and health and the sustainable management of natural resources. Specific outputs have been set for each of the strategic research themes.
Target area selection criteria for SRT2 and SRT3 were chosen during the inception phase. They include the length of the growing period, distribution of poverty, malnutrition, aridity index, environmental risk, land degradation, market access and population density. The CRP will operate at multiple scales and in multiple disciplines from the microbial level to the watershed with 5 crosscutting themes; youth, gender, biodiversity, nutrition and capacity building.
Partnership is a crucial part of he conceptual framework, it is critical to outscaling and impact, it sets research priorities and action sites and partners are an explicit part of overall governance.
Presentation by Andy Jarvis, Theme Leader, CCAFS at the at the CCAFS Workshop on Institutions and Policies to Scale out Climate Smart Agriculture held between 2-5 December 2013, in Colombo, Sri Lanka.
Day 1_Session 3_TRIPS_WASDS_Antoine Kalinganire - This presentation outlines the main outcomes of the CRP Dryland Systems inception phase in the West African Sahel and Dry Savannas target region.
The Learning Route on Natural Resource Management and Climate Change Adaptation best practices, the experience in Kenya; took place between the 6-13 July 2014 in several counties in Kenya.
The objective of this learning route is to scale up through peer to peer learning the Kenyan best multi stakeholders' strategies, tools and practices to fight environmental degradation and to adapt to climate change with the aim of improving the livelihoods of people living in affected communities.
The learning Route has been developed by International Fund for Agricultural Development (IFAD) CARE (relief agency) in Kenya and the Cgiar Research Program on Climate Change & Food Security, in partnership with Procasur Africa.
Here we have an overview of the all the second experience of the three host case studies that were visited:
Case 2: the CCAFS and dryland Agriculture site in Wote (Makueni)
Dr. William Payne delivered a presentation on the highlights of the CRO on Dryland Systems at the Launch meeting in Amman in mid-May.
The Dry Areas of the world represent fragile ecosystems, which is to say areas with physical water scarcity, rapid natural resource degradation, groundwater depletion and drought. The prominent features of these, “dryland systems” are that they cover 41% of the earths surface, are home to 2.5 billion people – and the majority of the world’s poor, they have a youth skewed age distribution and 93% of the malnourished people in the world live in them. Consequently, the Dryland Systems CRP will target the poor and highly vulnerable populations of dry areas in developing countries and the agricultural systems on which they depend.
System level outcomes to be addressed by the CG system through CRP1.1 include reduced rural poverty, improved food security, better nutrition and health and the sustainable management of natural resources. Specific outputs have been set for each of the strategic research themes.
Target area selection criteria for SRT2 and SRT3 were chosen during the inception phase. They include the length of the growing period, distribution of poverty, malnutrition, aridity index, environmental risk, land degradation, market access and population density. The CRP will operate at multiple scales and in multiple disciplines from the microbial level to the watershed with 5 crosscutting themes; youth, gender, biodiversity, nutrition and capacity building.
Partnership is a crucial part of he conceptual framework, it is critical to outscaling and impact, it sets research priorities and action sites and partners are an explicit part of overall governance.
Day 1 Session 2 TRIPS WASDS Presentation by Bill Payne - This presentation gives an overview of the CGIAR Research Program on Dryland Agricultural Systems, setting out the conceptual research framework, CGIAR Intermediate Development Outcomes (IDOs), and cross-cutting themes
This presentation was given at a COP20 side event workshop titled "Tools and methods for planning and decision-making for agriculture and climate change," organized by CCAFS and ONF Andina.
Presentation given by Caitlin Corner-Dolloff.
James Stevenson and Paul Viek
Policy Seminar
Managing natural resources for sustainable production systems: A research agenda at the crossroads
Co-organized by CGIAR Independent Science and Partnership Council (ISPC); IFPRI; and CGIAR Research Program on Policies, Institutions and Markets
Feb 28, 2018 - 12:15 pm to 01:45 pm EST
Presentation from Dr Caitlin Corner-Dolloff (CIAT) about decision-support framework for targeting investment towards climate-smart agriculture, presented on July 8 at the Our Common Future Under Climate Change science conference in Paris.
Karen Macours
Policy Seminar
Managing natural resources for sustainable production systems: A research agenda at the crossroads
Co-organized by CGIAR Independent Science and Partnership Council (ISPC); IFPRI; and CGIAR Research Program on Policies, Institutions and Markets
Feb 28, 2018 - 12:15 pm to 01:45 pm EST
Using whole-farm models for policy analysis of Climate Smart AgricultureFAO
www.fao.org/climatechange/epic
This presentation was prepared to as background to the Scientific conference on Climate-Smart Agriculture held in Montpellier, France, on 16-18 March 2015.
Insights from scenario-guided policy development across six global regions. Presentation held at Our Common Future event in Paris, France in July 2015.
Sara J. Scherr
Policy Seminar
Managing natural resources for sustainable production systems: A research agenda at the crossroads
Co-organized by CGIAR Independent Science and Partnership Council (ISPC); IFPRI; and CGIAR Research Program on Policies, Institutions and Markets
Feb 28, 2018 - 12:15 pm to 01:45 pm EST
Day 1 Session 2 TRIPS WASDS Presentation by Bill Payne - This presentation gives an overview of the CGIAR Research Program on Dryland Agricultural Systems, setting out the conceptual research framework, CGIAR Intermediate Development Outcomes (IDOs), and cross-cutting themes
This presentation was given at a COP20 side event workshop titled "Tools and methods for planning and decision-making for agriculture and climate change," organized by CCAFS and ONF Andina.
Presentation given by Caitlin Corner-Dolloff.
James Stevenson and Paul Viek
Policy Seminar
Managing natural resources for sustainable production systems: A research agenda at the crossroads
Co-organized by CGIAR Independent Science and Partnership Council (ISPC); IFPRI; and CGIAR Research Program on Policies, Institutions and Markets
Feb 28, 2018 - 12:15 pm to 01:45 pm EST
Presentation from Dr Caitlin Corner-Dolloff (CIAT) about decision-support framework for targeting investment towards climate-smart agriculture, presented on July 8 at the Our Common Future Under Climate Change science conference in Paris.
Karen Macours
Policy Seminar
Managing natural resources for sustainable production systems: A research agenda at the crossroads
Co-organized by CGIAR Independent Science and Partnership Council (ISPC); IFPRI; and CGIAR Research Program on Policies, Institutions and Markets
Feb 28, 2018 - 12:15 pm to 01:45 pm EST
Using whole-farm models for policy analysis of Climate Smart AgricultureFAO
www.fao.org/climatechange/epic
This presentation was prepared to as background to the Scientific conference on Climate-Smart Agriculture held in Montpellier, France, on 16-18 March 2015.
Insights from scenario-guided policy development across six global regions. Presentation held at Our Common Future event in Paris, France in July 2015.
Sara J. Scherr
Policy Seminar
Managing natural resources for sustainable production systems: A research agenda at the crossroads
Co-organized by CGIAR Independent Science and Partnership Council (ISPC); IFPRI; and CGIAR Research Program on Policies, Institutions and Markets
Feb 28, 2018 - 12:15 pm to 01:45 pm EST
DryArc Interface: R4D framework for collaboration between CGIAR and FAO on Dr...Francois Stepman
DryArc Interface
Chandrashekhar Biradar
Head of Geoinformatics and RDM Unit
Research Theme Leader- GeoAgro and Digital Augmentation
FAO e-Agriculture Webinar, June 15, 2020
Research on sustainable intensification in the CGIAR research programsILRI
Presented by Iain Wright at the Sustainable intensification of crop-livestock systems to improve food security and farm income diversification in the Ethiopian highlands: Project Design Workshop, Addis Ababa, Ethiopia, 30 January-2 February 2012.
Dr. William Payne delivered a presentation on the highlights of the CRO on Dryland Systems at the Launch meeting in Amman in mid-May.
The Dry Areas of the world represent fragile ecosystems, which is to say areas with physical water scarcity, rapid natural resource degradation, groundwater depletion and drought. The prominent features of these, “dryland systems” are that they cover 41% of the earths surface, are home to 2.5 billion people – and the majority of the world’s poor, they have a youth skewed age distribution and 93% of the malnourished people in the world live in them. Consequently, the Dryland Systems CRP will target the poor and highly vulnerable populations of dry areas in developing countries and the agricultural systems on which they depend.
System level outcomes to be addressed by the CG system through CRP1.1 include reduced rural poverty, improved food security, better nutrition and health and the sustainable management of natural resources. Specific outputs have been set for each of the strategic research themes.
Target area selection criteria for SRT2 and SRT3 were chosen during the inception phase. They include the length of the growing period, distribution of poverty, malnutrition, aridity index, environmental risk, land degradation, market access and population density. The CRP will operate at multiple scales and in multiple disciplines from the microbial level to the watershed with 5 crosscutting themes; youth, gender, biodiversity, nutrition and capacity building.
Partnership is a crucial part of he conceptual framework, it is critical to outscaling and impact, it sets research priorities and action sites and partners are an explicit part of overall governance.
Introducing the sustainable intensification assessment frameworkafrica-rising
Presented by Mark Musumba, Philip Grabowski, Cheryl Palm and Sieglinde Snapp at the Africa RISING West Africa Review and Planning Meeting, Accra, 1-2 February 2017
Watershed/Landscape Management for Multiple Benefits and Climate Resilience ...CIFOR-ICRAF
Learn how watershed and landscape management can be made climate resilient and be designed for multiple benefits. This presentation by Sally Bunning, Senior Land/Soils officer of the FAO Land and Water Division focuses on the principles of integrated watershed management, experiences, strategy and lessons learned based on the experiences from East Africa.
Durable Solutions to Water Scarcity and Land Degradation, covering issues such as Rainfed:improving soil fertility,land and water management. Irrigation:revitalizing irrigation in Africa and Asia. Wastewater:recovering nutrients and other resources from solid and liquid waste streams. Basins:Managing water and land resources in major agricultural river basins in ways that meet the needs of people and ecosystems
The Climate Change, Agriculture and Food Security Regional Program for Southeast Asia (CCAFS-SEA) recently concluded a collective engagement and communication program workshop at the Agricultural Genetics Institute in Hanoi, Vietnam on 29-30 May.
The workshop participants drew insights from best practices of CGIAR member-centers, developed a roadmap to actively engage partners, and draw an overall communication plan to support the implementation of CCAFS research agenda and priorities.
Presented by Dr. Leocadio Sebastian
The climate-smart village : a model developed by CCAFS program to improve the adaptive capacity of communities
Presented by Dr Robert Zougmoré, Regional Program Leader, CCAFS West Africa. Africa Agriculture Science Week 6, 15 July 2013, Accra, Ghana. http://ccafs.cgiar.org/events/15/jul/2013/africa-agriculture-science-week-2013
Similar to Jordan morocco sept by Hichem Bn SAlem2014 (20)
Artificial Reefs by Kuddle Life Foundation - May 2024punit537210
Situated in Pondicherry, India, Kuddle Life Foundation is a charitable, non-profit and non-governmental organization (NGO) dedicated to improving the living standards of coastal communities and simultaneously placing a strong emphasis on the protection of marine ecosystems.
One of the key areas we work in is Artificial Reefs. This presentation captures our journey so far and our learnings. We hope you get as excited about marine conservation and artificial reefs as we are.
Please visit our website: https://kuddlelife.org
Our Instagram channel:
@kuddlelifefoundation
Our Linkedin Page:
https://www.linkedin.com/company/kuddlelifefoundation/
and write to us if you have any questions:
info@kuddlelife.org
Willie Nelson Net Worth: A Journey Through Music, Movies, and Business Venturesgreendigital
Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
Follow us on: Pinterest
Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
"Understanding the Carbon Cycle: Processes, Human Impacts, and Strategies for...MMariSelvam4
The carbon cycle is a critical component of Earth's environmental system, governing the movement and transformation of carbon through various reservoirs, including the atmosphere, oceans, soil, and living organisms. This complex cycle involves several key processes such as photosynthesis, respiration, decomposition, and carbon sequestration, each contributing to the regulation of carbon levels on the planet.
Human activities, particularly fossil fuel combustion and deforestation, have significantly altered the natural carbon cycle, leading to increased atmospheric carbon dioxide concentrations and driving climate change. Understanding the intricacies of the carbon cycle is essential for assessing the impacts of these changes and developing effective mitigation strategies.
By studying the carbon cycle, scientists can identify carbon sources and sinks, measure carbon fluxes, and predict future trends. This knowledge is crucial for crafting policies aimed at reducing carbon emissions, enhancing carbon storage, and promoting sustainable practices. The carbon cycle's interplay with climate systems, ecosystems, and human activities underscores its importance in maintaining a stable and healthy planet.
In-depth exploration of the carbon cycle reveals the delicate balance required to sustain life and the urgent need to address anthropogenic influences. Through research, education, and policy, we can work towards restoring equilibrium in the carbon cycle and ensuring a sustainable future for generations to come.
WRI’s brand new “Food Service Playbook for Promoting Sustainable Food Choices” gives food service operators the very latest strategies for creating dining environments that empower consumers to choose sustainable, plant-rich dishes. This research builds off our first guide for food service, now with industry experience and insights from nearly 350 academic trials.
Natural farming @ Dr. Siddhartha S. Jena.pptxsidjena70
A brief about organic farming/ Natural farming/ Zero budget natural farming/ Subash Palekar Natural farming which keeps us and environment safe and healthy. Next gen Agricultural practices of chemical free farming.
UNDERSTANDING WHAT GREEN WASHING IS!.pdfJulietMogola
Many companies today use green washing to lure the public into thinking they are conserving the environment but in real sense they are doing more harm. There have been such several cases from very big companies here in Kenya and also globally. This ranges from various sectors from manufacturing and goes to consumer products. Educating people on greenwashing will enable people to make better choices based on their analysis and not on what they see on marketing sites.
1. CRP Dryland Systems
Updating notes & Action points
Hichem Ben Salem
ICARDA’s Focal Point - CRP-DS
ICARDA – NCARE Technical Meeting for Tafilah-Salamieh Action Site
(Jordan sites)
21 - 22 September, 2014
Amman, Jordan
1
2. Title Outline
2
1. Dynamic building of CRP DS
2. Performance evaluation .. us and them
3. Requested changes
4. Activities clustering
5. Concluding remarks
3. TitleStrategic and Results Framework (SRF)
3
1. The SRF (CGIAR 2011) advocates new
areas of core competency to achieve
impact in four SLOs
2. One is development of core
competency in the area of
“production systems”
3. This will test the ability of the system
to undertake inter-center research
4. Systems research will integrate
commodity, natural resource
management and policy research to
improve productivity and livelihoods
in a sustainable manner at the
national and regional level
4. Learning, growing, spiral impact
pathway
1. Traditional research-for-development
impact pathway
includes four steps: research,
outputs, outcomes and impact.
2. CRP1.1 views these steps not as a
linear sequence, but as an upward
spiral of learning and growing.
3. This results in an iterative research
cycle, with continuous
improvement in technologies.
5. Strategic Research Themes and their outputs
SRT1: Approaches and models for
strengthening innovation systems,
building stakeholder innovation
capacity, and linking knowledge to
policy action
SRT2: Reducing vulnerability and
managing risk
SRT3: Sustainable intensification for
more productive, profitable and
diversified dryland agriculture with
well-established linkages to markets
SRT4: Measuring impacts and cross-regional
synthesis
6. 6
IDOs
IDO 1. More resilient
livelihoods for
vulnerable households in
marginal areas
IDO 2. More stable
and higher per capita
income for
intensifiable
households
IDO 3. Women and children in
vulnerable households have year
round access to greater quantity
and diversity of food sources
IDO 4. More sustainable
and equitable
management of land
and water resources in
pastoral and
agropastoral
IDO 5. Better
functioning markets
underpinning
intensification of
rural livelihoods
IDO 6. More integrated, effective
and connected service delivery
institutions underpinning
resilience and system
intensification
IDO 7. Policy reform
removing constraints
and creating incentives
for rural households to
engage in more
sustainable practices
that improve resilience
and intensify production
7. Title
Program Objectives and
Flagships Target Regions
7
Program objectives
Dryland Systems aims to improve livelihoods in two distinct drylands agro-ecosystem
types:
• Marginal, low-productivity areas: where people need support to mitigate
vulnerability and solutions for resilience for food production.
• Areas that have the potential to improve productivity: where people need
support to engage in the sustainable intensification of their agricultural
production.
Program research-for- development architecture: Flagship Target Regions
1. West African Sahel & Dry Savannas
2. North Africa & West Asia
3. East & Southern Africa
4. Central Asia
5. South Asia
8. The inception phase
Bringing together the
foremost scientists from a
multitude of disciplines in
order to assess needs and
formulate hypothesis,
outcomes and activities
Inception
Regional
Workshops
Regional
Launch
Meeting &
Kick-off
meetings
by site
Plan of
Work
and
Budget
8
2011 2013
ICARDA scientists & management
NARS scientists & decision makers
Assumption: Communities/farmers “opinion” is reflected through
ICARDA and NARS scientists and other resource persons
9. The implementation phase
MoAs preparation
Implementation of
activities
Workshop
Extension
proposal
Science &
Implemen
tation
Meeting
Evaluati
on
Task
Force
9
Late 2013 2014
ICARDA scientists & management
NARS scientists & decision makers
Assumption: Task force to improve CRP DS performance
10. Crosscutting themes and linkages of CGIAR Research Programs* (CRPs)
CRP
DS
CRP
PIM
Policies, Institutions, and Markets
Integrated pests and
diseases management
CRP
CRP
GL
Enhancing productivity and managing risks
through diversification, sustainable intensification,
and integrated agro-ecosystem approaches
CRP
DC
CRP
L&F
CRP
N&H
Gene Banks
Managing biodiversity in agro-systems.
Focused Identification of Germplasm
Strategy. Characterization of genetic
resources at landscape level.
Hyper and ultra spectral
mapping of genotypic and
phenotypic variability
CRP
CCAFS
CRP
WLE
GB
Wheat
Improving productivity and
profitability of wheat,
improved resistance to
pests and diseases, climate
resilient, and increasing
yield while reducing inputs
Grain Legumes
Sustainable intensification-challenges
and constraints,
integrated crop and pest
management practices, and
value chain linkages
Dryland Cereals
Validating high yielding varieties with
better pest and disease resistance,
tolerance to abiotic stresses, and
improved crop management
technologies
Livestock and Fish
Resilience and vulnerability of livestock
production under changing climate, land
use and markets, identify and address key
constraints and opportunities
Sustainable intensification, challenges
and constraints, integrated crop and pest
management practices, and value chain
linkages
Climate Change
Eco-friendly climate change
adoption - strengthening
approaches for better
management of agricultural
risks associated with
increased climate variability
and extreme events
Water, Land and Ecosystems
Improving land and water,
productivity, and ecosystem
services. Assessment of land
degradation, soil health and
nutrition, and climate
change impact
Nutrition and Health
Improving synergies between
agriculture, nutrition, and health.
Location base services-distribution,
access pattern, value chain, and control
of zoonotic diseases/pests and risks
Bio-physical-spectral
libraries for mapping
agricultural productivity
Mapping inter and intra
variability at species,
field, and farm scales
Geo-referenced in
situ/field photo
and data collection
Innovative tools and techniques
for improved agronomic
practices and management
Quantification of trends
and status of soil fertility,
salinity, and degradation,
Location based
services in natural
resource management
Dryland Systems
Crop
spectra
WHEAT
*ICARDA
Led/Involved
Linkages and
Activities
Established in
2013
11. Major Agricultural Livelihood Systems in
NA&WA
ALS Brief description Major constraints Sites
Agropastoral
Systems
Agricultural livelihood based
on small ruminants, barley
crop, small scale irrigation
Overgrazing, feed
imbalances, land
degradation, water
scarcity, climate
variability, conflicts
over resources,
youth
unemployment
Tafilah-Salamya,
Beni Khedache-
Sidi Bouzid,
Karkheh River
Basin
Intensive rainfed
Systems
Wheat-based cropping
system, land fragmentation,
horticulture is intensifiable
and market-oriented
including for export,
intensive dairy cattle
production
Land degradation,
nutrient
deficiencies, water
scarcity, climate
variability, youth
unemploymeent
Meknes-Saies,
Karkheh River
Basin
11
12. ALS Brief description Major constraints Sites
Tree-based Systems
Mixed tree-crop-livestock,
variant of
agropastoral (Jordan &
Tunisia: olive-figs -
almonds-barley - sheep)
& intensive rainfed;
rainfed (Meknes: wheat-fruit
trees-dairy cattle)
Fast degradation of
natural resources,
overgrazing, land
degradation,
climate variability,
youth
unemployment
Tafilah-
Salamya, Beni
Khedache-Sidi
Bouzid,
Meknes-Saies
Irrigated Crop
Systems
Market-oriented
vegetable and fruit; high
yielding wheat and
forage crops, dairy
cattle.
Land constrained
by groundwater
depletion,
salinization, heat
stress, youth
unemployment
Nile Delta
12
Major Agricultural Livelihood Systems in
NA&WA
13. 13
NA&WA Interdisciplinary Research Team
http://drylandsystems.cgiar.org/people
TORs (in progress):
1. To identify research needs
2. Science quality control
3. Engage partner at field level
4. Support the FC for planning
and reporting
5. Etc.
14. Self-evaluation – among the drawbacks of Phase 1
1. Lack of integration across activities, NARS of the same
country, regions and CRPs
2. Different methodological approaches and tools are used
across action sites, regions and CRPs
3. NARS still not familiar with CRP DS
4. Timely delivering and reporting
5. Heavy management of funds
6. Under-spending
7. Continuous change of CRP DS approach
14
15. 1. What do you really want to achieve in your Target Region through the
CRP, and HOW?
2. What are your main research questions (the science), and what methods
and tools have you been using to address those?
3. What scale have you been working so far, and what is envisaged?
4. What collaboration frameworks and partnerships are you using, and how
do they work in practice (within and across regions)?
5. What have you achieved so far: concrete activities and results so far?
6. What was successful; what did not work well, and why?
7. What are your biggest implementation challenges now and in the next 2-
3 years?
8. If you had to start again, what would you do differently now?
15
ISAC’s Questions
16. CO/CRP DS Office … 33 points
1. An integrated systems approach at all sites that uses innovative
16
science. New science: eg. How to handle/manage megadata
sets, data fusion and modeling using remote sensing/GIS for
integration of land use, ecosystem services; how to cope with
stochasticity, non linearity, feedbacks, spatial and temporal
dynamics of new components/systems; risk management
approaches; trade-off-analysis; knowledge systems sciences;
trans-disciplinarily how to achieve it especially economics and
ecosystems; use of modern ICT to engage youth in agricultural
employment; use of the Focused Identification of Germplasm
Strategy (FIGS) for targeting interventions and matching
genotypes to environment and management options
17. 17
CO/CRP DS Office … 33 points
2. Well defined inter-disciplinary teams (these can change in
composition over the lifetime of an activity depending on what
is identified as the main barriers to uptake of research for
example)
3. Clear linkages of research hypotheses to outputs, outcomes
and IDO’s that could be a mixture of outputs and outcomes
4. Plausible outcomes identified including the identification of the
barriers to outscaling of research outputs
18. 18
CO/CRP DS Office … 33 points
5. Inclusive partnerships including more than 1 CGIAR center,
development of innovation platforms
6. Explicit linkages to other CRP’s and especially those that link
germplasm development to NRM within a production systems
context. Shift from descriptive to systems analysis & modeling
7. Increasing inclusiveness in partnerships
8. Value chain focus complements on-farm focus
19. 19
CO/CRP DS Office … 33 points
9. Increasing recognition of need for and attention to, enabling
institutions & governance
10. Contested paradigms hard vs soft sciences; researcher vs
farmer knowledge, what is the balance?
11. Greater social equity and gender considerations
12. Primary focus on agricultural livelihood system (pastoral,
agro-pastoral, irrigated crop, intensive rain-fed and tree-based)
13. Fit for purpose participatory approaches
20. 20
CO/CRP DS Office … 33 points
14. Options x context approach in research sites, research at
scale of impact (see report of the S&I meeting)
15. Much more emphasis on SRT 1 & 4 (better functioning
innovation systems, measuring impacts and cross-regional
synthesis)
16. Capacity development needs to be built in and made explicit
with perhaps as much as 10-15% of the budget for
identified capacity development needs (some of these were
also recommended at the S&I meeting). CD strategy under
definition.
21. CO/CRP DS Office … 33 points
17. Decreasing budget
18. Activities clustering
19. W1&W2 funds to complement and integrate results (outputs,
21
outcomes) from completed, ongoing and expected bilateral
projects.
20. W1 & W2 funds could be used to fund new activities in case a
specific gap is identify.
21. Mapping W3/Bilateral results
22. All results should be pointed to field sites or to global scale
(dryland Systems) where the field sites are not applicable.
22. 22
CO/CRP DS Office … 33 points
23. Clear reporting structure for Bilateral project in order to
integrate the developed science.
24. At least 10% of the budget should be allocated to Gender
(Integration).
25. At least 1% should be used for M&E activities. ICARDA as all
other centers should have staff checking results at action site
level.
26. At least 1% should be used for Risk management. ICARDA as
all other centers should implement procedure for assessing
possible risk for the program implementation.
23. 23
CO/CRP DS Office … 33 points
27. All scientists are familiar with the S&IM recommendations
(http://drylandsystems.cgiar.org/sites/default/files/DS_CRP_
science_and_implementation_meeting.pdf).
28. Include in each activity a budget allocation for
communication (i.e. for their brochure, media events, etc).
29. Include in each activity a budget allocation for CDU support
(i.e. for collecting CD data, support in the organization).
30. Include in each activity a budget allocation for GU (i.e. for
maps, GIS support etc).
24. 24
CO/CRP DS Office … 33 points
31. ICARDA should support the flagship coordination of NAWA
and CA.
32. Activity description should clearly state how there will be a
cross fertilization among scientists working in different
regions and action sites.
33. Organize a priority list for the activity and phase those who
do not achieve the system approach. The integrated
approach should be clearly stated in each activity and those
ones involving interdisciplinary research team should be as
first priority.
25. 25
To consider for year 2015
1. Clustering and developing an impact pathway for
each cluster in relation with the targeted IDO(s) with clear
cause/effect for outputs/outcomes
2. Phasing
3. Harmonize
4. Mapping W3/bilateral projects
26. CRP-DS revised IDOs
SLOs
IDO1
Resilience
IDO2
Wealth &
Wellbeing
IDO3
Food
access
IDO4
NRM
IDO5
Gender
empowermt
IDO6
Capacity to
innovate
More resilient livelihoods
for vulnerable HH in
marginal areas
More sustainable & higher
income & well-being for
sustainable HH
Women & children
have access to
greater quantity &
diversity of food
More sustainable &
equitable mgt of
land, water, energy
& biodiversity
Women & youth have
better access to and
control over resources
& market and more
equitable share of
income & food ..
Increased &
sustainable capacity
to innovate allowing
to seize new
opportunities ..
27. 27
IDO 1
Newly-focused
Intermediate
Development
Outcomes (IDOs)
Target
(2025) &
Data
source
Indicator
Name
Explanation/Metric
IDO 1
RESILIENCE:
More resilient
livelihoods for
vulnerable
households in
marginal areas
25%;
Baseline
survey
(BLS),
follow-up
surveys
Household
food security
Number (or %) of HH food insecure before and after
dissemination and adoption of program outputs. % of HHs
with more secure food (with increased and more stable per
capita food access from farm sources and local markets).
30%
decrease
avoided;
BLS,
follow-up
surveys
Herd
stability
Control livestock survival & destocking rate & replacement
rate and the relevant reasons. (Livestock survival = ratio of
adult survival at the end of the year to adult survival at the
beginning of the year; Destocking rate = ratio of number of
animals sold or slaughtered to total number of animals;
replacement rate = number of yearling animals to total
number of animals).
20%; BLS
and
follow-up
Tree density
and
resilience
benefits
Through remote sensing the change in density of trees
attributable to program outputs and estimate the number of
settled drylands HH who benefit from these program outputs
through a higher and more even supply throughout the year
and particularly during the dry season of tree based foods,
goods and energy and incomes derived from this.
28. 28
IDOs 2-3
Newly-focused
Intermediate
Development
Outcomes (IDOs)
Target (2025)
& Data source
Indicator
Name
Explanation/Metric
IDO 2 WEALTH
AND WELLBEING:
More sustainable
and higher income
and well-being of
per capita for
intensifiable
households
20%; BLS,
follow-up
surveys
Income
Number (and %) of all HH who increased their income
by at least 20% after dissemination and adoption of
program outputs. Estimate % of low income HH who
increased their income by at least 20%.
IDO 3 FOOD
ACCESS: Women
and children in
households have
year-round access
to greater
quantity and
diversity of food
sources
30%; BLS,
follow-up
surveys
Women and
children
dietary
improvement
Estimate number (and %) of HH who improved their
dietary scores after dissemination and adoption of
program outputs.
29. 29
IDO 4
Newly-focused
Intermediate
Development
Outcomes (IDOs)
Target
(2025) &
Data source
Indicator
Name
Explanation/Metric
IDO 4 NATURAL
RESOURCES
MANAGEMENT:
More sustainable
and equitable
management of
land, water
resources, energy
and biodiversity
25%;
Assessment
and
modeling at
field and
watershed
levels
Reduced
land
degradati
on
Amount of carbon sequestered will be increased by 20% over
the baseline survey estimates. NARS would adopt improved
management of PSs with the demonstrations at action sites.
Soil erosion reduced by 25% as measured through sediment
load in runoff measured. Sediment yield and runoff losses
reduced as a result of implementing soil and water
conservation interventions.
20%; BLS,
follow-up
surveys
Increased
water
productivi
ty of
crops,
trees and
livestock
Economic, livelihood and/or biophysical outputs derived from
use of a unit of water (e.g. $/cubic meter); $ return from
marketable crops and tree and animal products per unit of
water transpired or used to produce these products (e.g. total
water consumed by the crop, tree or animal).Trade-offs
between land and water productivity (Maximum water
productivity, Optimum land productivity). Levels of natural
resources (water and land), as compared to the initial
situations, when best-bet management
techniques/technologies are applied.
30. 30
IDO 4
Newly-focused
Intermediate
Development
Outcomes
(IDOs)
Target
(2025) &
Data
source
Indicator
Name
Explanation/Metric
IDO 4
NATURAL
RESOURCES
MANAGEME
NT: More
sustainable
and equitable
management
of land,
water
resources,
energy and
biodiversity
25%; BLS
and
follow-up
% of
reduction in
ABD
decrease
over time
Change in levels of agricultural biodiversity (ABD) maintained by
households and uses derived from it. It takes into consideration
the number of crop species grown by households during the year
(crop species richness at the household level)
1-2%
increase in
soils with
low or
average
OC
contents
Enhanced
soil fertility
Increased soil organic matter content that improves soil nutrient
and water dynamics, soil structure and productivity. Measured as
organic carbon (OC) content of soil (%).
31. 31
IDO 4
Newly-focused
Intermediate
Development
Outcomes
(IDOs)
Target
(2025) &
Data
source
Indicator
Name
Explanation/Metric
IDO 4
NATURAL
RESOURCES
MANAGEME
NT: More
sustainable
and equitable
management
of land,
water
resources,
energy and
biodiversity
50%
farmers
using BMP
Best
Managemen
t Practices
adopted
Soil nutrient status and productivity improved through use of
fertilizer and nutrient best management practices (BMP)
25%; BLS
and
follow-up
surveys
Use or
adoption of
sustainable
agro-ecosystem
managemen
t
Change in number of land-users applying sustainable agro-ecosystem
management, and effects on natural resources;
Number of land-users applying sustainable agro-ecosystem
management with measurable reduction of land & water
degradation, reduced depletion of soil, water & biodiversity, or
increased efficiency.
32. 32
IDO 4
Newly-focused
Intermediate
Development
Outcomes
(IDOs)
Target
(2025) &
Data
source
Indicator
Name
Explanation/Metric
IDO 4
NATURAL
RESOURCES
MANAGEME
NT: More
sustainable
and equitable
management
of land,
water
resources,
energy and
biodiversity
30%; BLS,
recording
by the
project
team
Increased
livestock
performance
Live weight gain (LWG), score of body condition, lambing rate,
milk yield and litter survival (LWG = difference between final live
weight (i.e. end of the control period) and initial live weight (start
of the control period); Score of body condition is assessed by
class using the PET method; Lambing rate = number of females
giving birth to total number of females, Milk yield = amount milk
produced by animal during milking period; Litter survival = ratio
of litter size at weaning to litter size at birth).
33. 33
IDO 5
Newly-focused
Intermediate Development
Outcomes (IDOs)
Target
(2025) &
Data source
Indicator Name Explanation/Metric
IDO 5 GENDER
EMPOWERMENT: Women
and youth have better
access to and control over
productive assets, inputs,
information, market
opportunities and capture
a more equitable share of
increased income, food
and other benefits
30% of the
countries;
BLS and
follow-up
workshops
Out-scaling gender
equitable
development
interventions by
NARS and partners
Changes based on initial assessments of
level of gender-sensitive options
promoted by partners and methods used,
determine changes; Number of NARS and
other partners adopting procedures for
institutionalizing out-scaling gender-equitable
development interventions
30% of the
countries;
BLS and
follow-up
workshops
NARS and
development
partners adoption of
guidelines for
empowering rural
women and
increased gender
equity
Change in uptake of women-empowering
actions; Number of development
organizations (national, International,
NGOs, etc.) applying DS guidelines for
empowering rural women and gender
equity.
34. 34
IDO 6
Newly-focused
Intermediate Development
Outcomes (IDOs)
Target
(2025) &
Data source
Indicator Name Explanation/Metric
IDO 6 CAPACITY TO
INNOVATE - Increased and
sustainable capacity to
innovate within and
among low income and
vulnerable rural
community systems,
allowing them to seize new
opportunities and meet
challenges to improve
livelihoods, and bring
solutions to scale.
20% of the
organizatio
ns involved;
BLS
assessment
and follow-up
workshops
Organizational
innovation by local
communities
Change in uptake of organizational
innovations; Number of community
organizations or CBOs adopting
innovative organizational approaches
promoted.
35. TPithleased Activities, ALS, Flagships, IDOs
35
Dryland Systems Results &
Management Framework
1. Framework integrates
Activities, Outputs and
Outcomes
2. Follows 4-phased research
pathway
3. Leads to 6 intermediate
development outcomes (IDOs)
4. Delivers on 4 SLOs
5. Entry points at activity level
with other CRPs
6. Donors can target investments
on activities at specific phases
36. Current activities for NA&WA Flagship
36
1. Conservation agriculture
2. Small ruminant productivity
3. Water & land productivity in irrigated systems
4. Policies on water resources
5. System vulnerability
6. Bio-economic farm
7. Innovation platforms &scenarios
8. High value chain clusters
9. In situ biodiversity
10.Water harvesting & soil conservation
11.Water & land productivity in rainfed systems
12.Managing salinity
13.Seed system & dissemination
14.Cereal & legume species adaptation
15.Cereal and legume system IPM
16.Managing agropastoral rangelands
17.Post-harvest & market access
18.Cereal aggregation approach
19. Gender in drylands
37. 37
Clustering - NA&WA Flagship
Recommended Clusters Activities under each cluster
Cluster 1 – Sustainable
management of
marginal ecosystems
1.1. Conservation agriculture
1.2. Livestock productivity and Health
1.3. Water and land management
1.9. In situ biodiversity
1.10. Water harvesting and soil conservation
1.16. Managing rangelands
Cluster 2 – Sustainable
intensification in
favorable ecosystems
1.2. Livestock productivity and Health
1.11. and 1.12. Sustainable water and land
productivity in irrigated systems
1.13. Seed system & dissemination
1.14 Cereal & legume species adaptation
1.15. Cereal and legume system IPM
New. Improving agronomic practices
38. 38
Clustering - NA&WA Flagship
Recommended Clusters Activities under each cluster
Cluster 3 – Developing
and scaling innovation
capacity
1.5. Reducing system vulnerability and improving
resilience (or System analysis)
1.6. Bio-economic modeling
1.7. Innovation platforms
Cluster 4 - Markets and
Policies
1.4. Policies
1.8. High value chains
1.17. Post-harvest & market access
1.18. Cereal aggregation approach
Cluster 5 – Gender in
Drylands
1.19. Gender in drylands
39. 39
Coming .. Move to Flagship by
ALS instead of by region
1. Pastoral ALS
2. Agropastoral ALS
3. Intensive rain-fed ALS
4. Irrigation-based ALS
5. Tree-Cropping ALS
• Better integration among regions
• Better collaboration between CG centers
• Better linkage with other CRPs
40. 40
Concluding remarks …
1. Integration
2. Harmonization
3. New science
4. Clustering
5. Partnership
6. Bring other CG-centers in the
NA&WA flagship
7. Linkage with other CRPs
8. Mapping W3