The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations (FAO) concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its f. [...] In terms of the structure of the guide, Chapter 1 introduces the background and discusses the impact of climate change on global agriculture and tropical fruit production. [...] Chapter 2 explains the scope of the guide, including: The countries selected for further investigation into the impacts of climate change on pineapple production; the climate trends affecting these countries; and a brief overview of some of the countries’ experiences to date in developing National Adaptation Plans for the agriculture sector. [...] 1.5 Purpose of the guide and who is it for? The purpose of this technical guide is to: • provide up-to-date information on recent and predicted climate change effects and trends in key pineapple producing and exporting countries; • identify climate change risks and impacts on the production and trade of pineapple; • identify adaptation practices and recommendations that may help to address these r. [...] Chapter 2 explains the scope of the guide, including the countries selected for further investigation into the impacts of climate change on pineapple production; the climate trends affecting these countries; and a brief overview of some of their experiences to date in developing National Adaptation Plans for the agriculture sector.
- Pages
- 124
- Published in
- Nepal
Table of Contents
- Abbreviations 9
- Acknowledgements 10
- Executive summary 13
- Chapter 1. Introduction to the guide 21
- 1.1 Global significance of climate change and its impact on agriculture: Why is adaptation needed? 21
- 1.2 Climate change and its impact on global tropical fruit production and trade 23
- 1.3 Pineapples as important tropical fruit exports at risk of climate change impacts 26
- 1.4 The Responsible Fruits Project and FAO’s Strategy on Climate Change 27
- 1.5 Purpose of the guide and who is it for? 29
- 1.6 Methodology and limitations of the guide 29
- 1.7 Structure of the guide 31
- Chapter 2. Scope of the guide 33
- 2.1 Pineapple production and export 33
- 2.2 Climate trends affecting key producing and exporting countries 36
- 2.3 Nationally determined contributions and the importance of National Adaptation Plans for the agriculture sector 41
- Chapter 3. Climate risks facing pineapple production 47
- 3.1 Temperature 48
- 3.2 Precipitation 51
- 3.3 Soil health 52
- 3.4 Strong winds 53
- 3.5 Pests and diseases 53
- 3.6 Soil erosion 54
- Chapter 4. Climate change adaptation strategies for pineapple production 57
- 4.1 Agroforestry 59
- 4.2 Control natural flowering through artificial induction 61
- 4.3 Crop rotation 62
- 4.4 Drainage systems 64
- 4.5 Early warning systems and monitoring systems 67
- 4.6 Integrated pest management (IPM) 70
- 4.7 Intercropping 76
- 4.8 Integrated management of agricultural water resources 77
- 4.9 Mulching and cover crops 81
- 4.10 Solar protectors 85
- 4.11 Waste management 89
- 4.12 Windbreaks and living fences 92
- Chapter 5. Discussion and conclusions 97
- Annex 1. Suggested resources 103
- Technical and guidance publications and articles 103
- Toolboxes and websites 105
- Policy briefs and full publications 106
- References 107
- Figure 1. Major tropical fruits: Share of 2022 (preliminary) export quantities by type, measured in USD billion, constant dollar (2014–2016) and tonnes 26
- Figure 2. Map of global pineapple production distribution 34
- Figure 3. Pineapple export quantities from the leading exporters 2018-2022 (preliminary data for 2022) 35
- Figure 4. Mean temperatures projected by 2100, by SSP model and pineapple producing country 37
- Figure 5. Projected precipitation by 2100, reference period 1995–2014, for pineapple producing countries 38
- Figure 6. Precipitation change rate by 2100 using the SPSP2-4.5 model in pineapple producing countries 38
- Figure 7. Private sector entry-points in the NDC planning related to the agriculture sectors, by region and subsector 43
- Figure 8. Pineapple plantation grown in an agroforestry system in Ghana 59
- Figure 9. Surface drainage system by open ditches 65
- Figure 10. Sub-surface drainage system using buried drains 66
- Figure 11. Efficient drainage system and water level control is crucial in the cultivation of pineapple in low lying Mekong delta in Viet Nam 67
- Figure 12. Information flow in an early warning system 68
- Figure 13. Mechanical weed removal in Kenya 75
- Figure 14. Intercropping system of pineapple and maize crop in Mexico 76
- Figure 15. Keyline design as an example of for integrated water management in agriculture 78
- Figure 16. Example of agricultural waste from pineapple plants to be used for mulching 82
- Figure 17. Use of plastic mulch and cover crops in a pineapple plantation in Ghana 83
- Figure 18. Tractor with modified equipment used to lay silver shine plastic mulch for pineapple cultivation in Malaysia 84
- Figure 19. Use of different shade nets to protect pineapple from direct sun 87
- Figure 20. Reusable, plastic covers are used to prevent sun scorch on MD-2 pineapples in Malaysia 87
- Figure 21. Pineapple productive system under natural shade in western Mexico 88
- Figure 22. Pineapple by-products extracted from different fruit parts 90
- Figure 23. Sandals made from pineapple residues by ASOPROPIMOPLA in the Dominican Republic 92
- Figure 24. Design of living fences or windbreaks combining trees and bushes 93
- Figure 25. Use of vetiver (Chrysopogon zizanioides) as living fence in the drainage channels 94
- Table 1. Impacts of climate change on the phenology of fruit crops 24
- Table 2. Overview of temperature and precipitation trends associated with climate change in selected pineapple producing countries 39
- Table 3. Summary of the support provided by the NAP-Ag Programme to countries for the development of their NAPs 44
- Table 4. Main climate risks and other associated impacts and threats for pineapple production 48
- Table 5. Increased temperature impact on pineapple production 49
- Table 6. Summary of impacts of water deficit or excess on pineapple production 51
- Table 7. Prevalent pests and diseases present in pineapple production in Costa Rica 54
- Table 8. List of climate adaptation practices and climate hazards and impacts they address 58
- Table 9. Biological control methods identified for pineapple pathogens (non-exhaustive) 72
- Table 10. By-products derived from pineapple residues (non-exhaustive) 91
- Table 11. Recommended species for living fences or windbreaks for pineapple plantations (non-exhaustive) 95
- Box 1. Example from Nicoverde, a pineapple company using biological control methods in Costa Rica 73
- Box 2. Drainage systems and soil management practices used by ASOPROPIMOPLA in the Dominican Republic 80
- Box 3. Example of an integrated approach of soil and natural resources management in Costa Rica 85
- Box 4. Example of the use of living fences and reforestation to deal with a changing climate in Costa Rica 96
