The Climate-Smart Agriculture Papers : : Investigating the Business of a Productive, Resilient and Low Emission Future.
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| Place / Publishing House: | Cham : : Springer International Publishing AG,, 2018. ©2019. |
| Year of Publication: | 2018 |
| Edition: | 1st ed. |
| Language: | English |
| Online Access: | |
| Physical Description: | 1 online resource (314 pages) |
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Table of Contents:
- Intro
- Acknowledgments
- Contents
- Chapter 1: An Introduction to the Climate-Smart Agriculture Papers
- 1.1 Tracking Progress
- 1.2 Overview of the Chapters
- 1.3 Implications for Development
- References
- Part I: Climate Risks and Impacts
- Chapter 2: Future Climate Projections in Africa: Where Are We Headed?
- 2.1 Introduction
- 2.2 Past and Present: Evidence Africa's Climate Has Already Changed
- 2.3 Future: Climate Model Projections for Africa
- 2.4 Implications for Development
- 2.4.1 Adapting African Agriculture to Climate Change
- 2.4.2 Collecting and Using Climate Data
- References
- Chapter 3: Climate Change and Infectious Livestock Diseases: The Case of Rift Valley Fever and Tick-Borne Diseases
- 3.1 Background
- 3.2 Case Studies
- 3.2.1 Rift Valley Fever
- 3.2.1.1 Drivers
- 3.2.1.2 Climate Change and RVF
- 3.2.2 Ticks and Tick-Borne Diseases (TBDs)
- 3.2.3 Inferences from the Case Studies
- 3.3 Mitigations and Adaptations
- 3.4 Conclusions and Implications for Development
- References
- Chapter 4: Large Scale Crop Suitability Assessment Under Future Climate Using the Ecocrop Model: The Case of Six Provinces in Angola's Planalto Region
- 4.1 Introduction
- 4.2 Materials and Methods
- 4.2.1 Sources of Climate Data
- 4.2.2 Analysis of Crop Suitability
- 4.3 Results and Discussion
- 4.3.1 Projected Climate Changes
- 4.3.2 Effects of Climate Change on Distribution of Crop Suitability
- 4.3.2.1 Cassava
- 4.3.2.2 Maize
- 4.4 Implications for Development
- References
- Chapter 5: Understanding the Role of Soils and Management on Crops in the Face of Climate Uncertainty in Zimbabwe: A Sensitivity Analysis
- 5.1 Introduction
- 5.2 Methods
- 5.2.1 Study Site
- 5.2.2 Climate Data
- 5.2.3 Crop Model Setup and Sensitivity Tests
- 5.3 Results.
- 5.3.1 Maize Response to CO2, Temperature, Rainfall and Fertilizer
- 5.3.2 Groundnuts Response to CO2, Temperature, Rainfall and Fertilizer
- 5.3.3 Combined Effects of Climate Factors on Maize
- 5.3.4 Combined Effects of Climate Factors on Groundnuts
- 5.4 Discussion
- 5.4.1 Maize and Groundnut Response to CO2, Temperature, Rainfall and Fertilizer
- 5.4.2 Combined Effects of Climate Factors on Maize and Groundnuts
- 5.5 Implications for Development
- References
- Part II: Adaptive Germplasm Delivery Systems
- Chapter 6: Role and Challenges of the Private Seed Sector in Developing and Disseminating Climate-Smart Crop Varieties in Eastern and Southern Africa
- 6.1 Introduction
- 6.2 The Emerging Private Seed Sector in ESA
- 6.3 Low Rates of Variety Turnover and Agricultural Research and Development Investment in ESA
- 6.4 Driving Genetic Gain for CS Traits Through Public-Private Partnerships (PPP)
- 6.5 Enhancing the Delivery of CS Maize Varieties: Harmonising Seed Laws and Promoting Adoption
- 6.6 Implications for development
- References
- Chapter 7: Fast-Tracking the Development and Dissemination of a Drought-Tolerant Maize Variety in Ethiopia in Response to the Risks of Climate Change
- 7.1 Introduction
- 7.2 Climate Change and Drought in Ethiopia
- 7.3 Research Efforts to Develop New Hybrids
- 7.3.1 Release and Adoption of BH661
- 7.3.2 How Were Farmers Convinced About the Superior Performance of BH661?
- 7.4 Outcome of the Replacement Activities
- 7.5 Conclusion and Implications for Development
- References
- Chapter 8: Access to Early Generation Seed: Obstacles for Delivery of Climate-Smart Varieties
- 8.1 Introduction
- 8.2 Brief Overview of Seed Systems and Related Interventions
- 8.3 EGS Case Studies
- 8.3.1 Case Study 1: Successful Partnerships for Highland Bean Varieties.
- 8.3.2 Case Study 2: The EGS Hurdle for a Bean Variety High in Iron and Zinc
- 8.4 Possible Solutions and Implications for Development
- References
- Chapter 9: Climate Change and Seed Systems of Roots, Tubers and Bananas: The Cases of Potato in Kenya and Sweetpotato in Mozambique
- 9.1 The Significance of RTB Crops for Food and Income Security Under Climate Change
- 9.2 Challenges to RTB Seed Systems
- 9.3 Case Studies
- 9.3.1 Improving Access to Quality Seed of Climate-Smart Potato Varieties in Kenya
- 9.3.1.1 Climate-Smart Varieties
- 9.3.1.2 Complexity of the Seed Potato Production System
- 9.3.1.3 Diversifying Seed Potato Systems
- 9.3.1.4 Using Apical Cuttings to Boost Potato Seed Systems
- 9.3.1.5 Productivity Obtained by Informal Seed Multipliers
- 9.3.2 Adapting Sweetpotato Varieties and Seed Systems Combatting Drought and Food Insecurity in Mozambique
- 9.4 Implications for Development
- References
- Chapter 10: Delivering Perennial New and Orphan Crops for Resilient and Nutritious Farming Systems
- 10.1 Introduction
- 10.2 Can Perennial NOC Contribute to the Resilience of Eastern and Southern African Food Systems?
- 10.2.1 Perennial NOC Foods and Crop Portfolios
- 10.3 Perennial Foods and FAOSTAT Yield Stabilities
- 10.4 What Measures Are Needed to Drive Perennial NOC Integration into Eastern and Southern African Food Systems?
- 10.5 Implications for Development
- References
- Chapter 11: Generating Farm-Validated Variety Recommendations for Climate Adaptation
- 11.1 Introduction
- 11.2 Analyzing Data from On-Farm Trials Using the Tricot Approach
- 11.3 Deriving Variety Recommendations from On-Farm Trials
- 11.4 Contribution of the Tricot Approach
- 11.5 Implications for Development
- References
- Part III: The Climate-Smartness of Technologies.
- Chapter 12: What Is the Evidence Base for Climate-Smart Agriculture in East and Southern Africa? A Systematic Map
- 12.1 Investments in CSA
- 12.2 A Systematic Approach
- 12.3 The Evidence
- 12.4 Implications for Practitioners
- References
- Chapter 13: Understanding the Multidimensionality of Climate-Smartness: Examples from Agroforestry in Tanzania
- 13.1 Introduction
- 13.2 Production and Mitigation Benefits of Agroforestry and Intercropping Practices in Dodoma
- 13.3 Production and Resilience Benefits of Cassava-Based Intercropping Practices in Tabora
- 13.4 Implications for Development
- References
- Chapter 14: A Participatory Approach to Assessing the Climate-Smartness of Agricultural Interventions: The Lushoto Case
- 14.1 Introduction
- 14.2 Materials and Methods
- 14.3 Results and Discussion
- 14.3.1 Suitable Farm-Level Indicators
- 14.3.2 Importance of Indicators in the Food Security and Adaptation Pillars
- 14.3.3 Performance of CSA Interventions Across Two Pillars
- 14.4 Implication for Development
- 14.5 Conclusion
- References
- Chapter 15: Household Welfare Effects of Stress-Tolerant Varieties in Northern Uganda
- 15.1 Introduction
- 15.2 Data and Methods
- 15.2.1 Description of Variables
- 15.3 Results of Econometric Analysis
- 15.3.1 Determinants for Adoption of Improved Varieties
- 15.3.2 Estimating the Impact of Improved Varieties Adoption Decision
- 15.3.3 Sensitivity Tests for Estimated Average Treatment Effects
- 15.4 Implications for Development
- References
- Chapter 16: Considering Religion and Tradition in Climate Smart Agriculture: Insights from Namibia
- 16.1 Introduction
- 16.2 Cultural Barriers to CSA Adoption
- 16.2.1 Religious Faith and Belief
- 16.2.2 Symbolic Significance of Agricultural Practice
- 16.2.3 Traditional Agricultural Knowledge.
- 16.3 Working with Religious and Traditional Belief Systems to Enable Adaptation
- 16.3.1 Positioning Religious and Traditional Leaders as 'Champions'
- 16.3.2 Integrating Traditional and Scientific Knowledge
- 16.3.3 Changing the Framing of CSA
- 16.4 Implications for Development
- References
- Part IV: Climate-Resilient Value Chains
- Chapter 17: The Role of Farmers' Entrepreneurial Orientation on Agricultural Innovations in Ugandan Multi-Stakeholder Platform
- 17.1 Introduction
- 17.2 Methods
- 17.3 Findings
- 17.4 Implications for Development
- Appendix 1
- Appendix 2
- Appendix 3
- References
- Chapter 18: Shea Butter: A Pro-Poor, Pro-Female Route to Increased Income
- 18.1 Introduction
- 18.2 Methods
- 18.3 Results
- 18.3.1 Household Livelihoods and Farm Characteristics
- 18.3.2 The Impacts on Household Welfare Indicators
- 18.3.3 Shea Derived Incomes
- 18.4 What Factors Led to the Success of This Project?
- 18.5 Implications for Development
- References
- Chapter 19: One Size Does Not Fit All: Private-Sector Perspectives on Climate Change, Agriculture and Adaptation
- 19.1 Introduction
- 19.2 Provide Granular Data to Assist in Risk Management
- 19.3 Tailor Information to Companies' Position in Supply Chain
- 19.4 Make the Business Case for CSA
- 19.5 Implications for Development
- References
- Chapter 20: Climate-Smart Agricultural Value Chains: Risks and Perspectives
- 20.1 Introduction
- 20.2 Methodology
- 20.3 Results
- 20.3.1 Effects of Climate Change on Value Chains
- 20.3.2 Options for Adapting Value Chains to Climate Change
- 20.3.3 Impediments to Adaptation at the Local Level
- 20.4 Implications for Development
- References
- Chapter 21: Nutrition-Sensitive Value Chain Development in a Changing Climate
- 21.1 Introduction
- 21.2 Nutrition-Sensitive Value Chains.
- 21.3 Value Chains for Nutritious Foods: Lessons from the Field.