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Technologies for Adapting to Climate Change:
Water Resources and Agriculture
Anthony Nyong, University of Jos
NIGERIA
UNFCCC Seminar on the Development and Transfer of Environmentally Sound Technologies for Adaptation to Climate Change
14 – 16 June 2005, Tobago, Trinidad and Tobago
Outline of Presentation Introduction
Brief presentation on Vulnerability and Adaptation with regards to Africa Why Africa?
Most LDCs are in Africa Most vulnerable region Limited capacity to adapt to climate change Dependence on Agriculture and natural systems
Vulnerability of Africa’s agriculture and water resources to Climate Change.
Technologies for adapting to climate change in agric and water resources The two are inter-related as water is a major factor in agriculture
Adoption of such technologies in West African Sahel Who uses and who does not? Why?
The lessons learned Transfer of technology for adaptation is not one way. There is a synergy as
people also adapt to the technology.
Introduction and Background
Vulnerability to Climate Change Why are we so concerned about climate change?
The IPCC TAR identifies Africa as the most vulnerable region because of its dependence on the ecosystem, rain-fed agriculture and low adaptive capacity.
What are we vulnerable to? Designing any adaptation strategy requires that we
first of all know what it is we are vulnerable to. Vulnerability is not only a climate affair but an
interaction with non-climate factors that produce vulnerability Exposure, sensitivity and adaptive capacity
Adaptation should address these concerns.
UNFCCC and Adaptation Article 4.5 of refers to promoting, facilitating and financing transfer of
“environmentally sound technologies and know-how” to enable developing countries to implement provisions of the Convention. These technologies include adaptation technologies as well as the technologies for reducing GHG emissions.
Adaptation activities are considered in three stages: Stage I Adaptation: “Planning, which includes studies of possible
impacts of climate change, to identify particularly vulnerable countries or regions and policy options for adaptation and appropriate capacity building”;
Stage II Adaptation: “Measures, including further capacity building, which may be taken to prepare for adaptation . . . .”
Stage III Adaptation: “Measures to facilitate adequate adaptation, including insurance, and other adaptation measures . . .”
S/No Perceived Risk Percentage
1 Insufficient food for people 58.2
2 Shortage of water for domestic use 50.9
3 Shortage of water for animals 50.3
4 Shortage of crops for cultivation 48.4
5 Animal diseases 42.5
6 Insufficient pasture for animals 36.6
7 Limited land for cultivation 34.6
8 Crop failure 26.8
9 Conflicts/insecurity 22.2
10 Human diseases 20.9
11 Low prices for animals 13.7
12 Lack of employment 12.4
Reasons for Vulnerability (West African Sahel)
Adaptation to Climate Change: Agriculture Two Spheres of Adaptation: Farm level and Systemic Level.
Farm Level: Adjustments in planting and harvesting dates Planting of new crop varieties and species Changes in farming practices – tillage, use of topography Application of fertilizers, pesticides and herbicides Use of irrigation – timing and dose Use of farm equipment – tractors, harvesters, etc Improved food storage systems Herd management – splitting, switching, diversification Migration
Systemic Level: Transportation Finance National farm policies International agricultural policies and agreements Food Aid
Adaptation to Climate Change: Water Resources In Africa, the impacts of changes in climate on water resources are
minor compared to the problems being faced already with the present climate variability.
Coping for present day climate variability’ already takes us a long way down the road towards adapting for climate change.
Essence of adapting in the water sector is to be able to live in equilibrium with projected water scarcities.
Scarcity is influenced by factors at global level (climate change), regional level (land-use change), river basin level (water resource management) and household level (access to water).
Adaptation strategies in the water include Water exploitation methods Water storage methods +rain harvesting Water management and planning
Technologies for AdaptingAdaptation
TechnologiesNumber of Households
% Average no of years practiced
Mixed cropping 33 53 25
Early planting 24 39 15
Wetland farming 43 69 19
Early maturing/ drought resistant crops
18 29 8
Increased spacing of crops 22 35 10
Change in crop type 9 15 15
Increase in farm size 19 31 17
Agro-pastoralism
Weather forecasts/outlook
Farm implements
8
23
41
13
69
66
19
12
19
Water exploitation methods 21 34 12
Water storage methods 18 29 17
Food storage methods
Herd Management
8
22
13
35
11
18
Reasons for Adoption/Non-Adoption
Access Non-yield variables for crop technologies Understanding of technology Adaptive capacity
Individual/community Institutional
Uncertainties and risk aversion
Rainwater Harvesting
Broadly defined as the method of concentrating, diverting, collecting, storing, and utilizing and managing runoff for productive use.
One of the approaches to integrated land and water management, which could contribute to recovery of agricultural production in dry area as well as provide water for sustainable development.
Runoff is collected mainly from roof-tops, ground catchments as well as ephemeral streams (flood water harvesting), and road/footpath drainage.
Different structures are used for storage - tanks, reservoirs, dams, water pans, etc.
Types of rain water harvesting systems
In-situ water conservation Run-off harvesting
Storage rain water harvesting system Direct run-off harvesting system
Largely based on traditional systems that could be improved upon
Benefits of RWH System
Reduces erosion and water pollution Reduces damaging effects of floods Improves agricultural production Reduces conflict Improves water availability
Improved Crop Varieties
Several varieties of maize, groundnut, cowpeas and sorghum were identified.
Traditional (local) varieties still formed the bulk of the crops grown. The late maturing, low-seed yielding local variety of
cowpea most preferred because of ability to yield abundant fodder in addition to seed.
Serious insect pest problems have limited adoption of improved high seed-producing cowpea.
Non-yield factors such as market value, acceptability and cooking quality affect the adoption of improved maize varieties
Lessons to be learned
Local knowledge Cultural norms vs Engineering feats Participation and partnership Disparity between what beneficiaries want and what is
provided for them
Mal-adaptation Migration and conflicts Agricultural intensification and attendant
problems on the Fadama farms. Dependence on food aid. Dams
Salinization Lake Chad?
Conclusion A major underutilized resource in adaptation resides in the
knowledge and initiative of the local peoples themselves. If multilateral initiatives are to actually produce results on the ground, they must be palatable and appropriate to the peoples’ cultures, which have embodied adaptations to the rigors of climate variability and change.
There is a near absence of appropriate indigenous research, design, and development (RD&D) capabilities. Implying that the African countries have to depend on imported (high-cost) technology and its supplier for troubleshooting and upgrading needs.
One lesson of the past has been that development efforts have relied too much on prescriptions applied without sufficient understanding and sensitivity to the local communities.