Best Practices and Lessons Learned in the Implementation of Global Framework for Climate Services—Adaptation Programme in Africa: Tanzania-Experience ()
1. Introduction
Climate change is among the biggest challenges of the 21st century affecting all socio-economic sectors [1] [2] [3] [4]. Communities in both rural and urban settings in various countries including in Tanzania, have been suffering from the impacts of climate variability and change including observed and projected increase in frequency and magnitude of extreme weather and climate events such as floods and droughts [4] - [11]. People from rural settings are particularly vulnerable to the impacts of climate variability and change due to the inability to recover from drought and flood events, thus contributing to higher levels of food insecurity [6]. The situations have further been aggravated by other external factors including some gaps and challenges in the provision of climate services that cause weak adaptive capacity. This calls for the provision of effective climate services that is easily accessible and timely scientific climate data and information to support the government, institutions and individuals to make informed decisions.
To address this challenge, there have been various initiatives by the World Meteorological Organization (WMO) in collaboration with other stakeholders in weather and climate services across the Globe. The initiatives are aimed at strengthening adaptive capacity to climate change by societies including enhancing climate services by increasing effectiveness in the provision and utilization of science-based climate services at various levels [6]. Considering the fact that weather and climate risks affect human activities including the implementation of various national policies, the provision of early warning information is critical in saving lives and reducing losses from disastrous hazard events such as drought, storms and floods [12] [13] [14] [15].
Among the initiatives undertaken by WMO and partners in Africa was the implementation of the Global Framework for Climate Services Adaptation Programme in Africa (GFCS-APA). GFCS-APA was the first multi-agency initiative implemented under the GFCS in two African countries of Tanzania and Malawi with funding by the Royal Government of Norway [6]. In Tanzania, the programme was implemented in two phases from the year 2014 to 2021 in the three pilot districts of Kondoa, Longido and Kiteto located in Dodoma, Arusha and Manyara regions, respectively. Implementation of the GFCS-APA in Tanzania was one example of the WMO initiatives to reduce vulnerability caused by the impact of climate change through the provision of effective climate services that enhances the resilience of vulnerable sectors and populations [6] [16].
The overarching goal of the programme was to enable better management of the risks of climate variability and change at all levels, through the development and incorporation of science-based climate information and prediction services into planning, policy and practice. The programme aimed to increase the resilience of those most vulnerable to the impacts of weather and climate-related hazards, such as droughts and flooding, and associated health risks, including malnutrition, cholera and malaria [6] [17]. It focused on bridging the gap between providers and users of climate information and products through the development of user-driven climate services for food security, health and disaster risk reduction. It also emphasized on user engagements and co-productions of climate services. The implementation of this programme had a number of lessons learned and best practices during the course of its implementation in Tanzania and lead to the key achievements in provision, dissemination and utilization of climate information and products.
The study aimed at identifying and analyzing lessons learned and best practices documented during the implementation of the GFCS-APA phase I and II in Tanzania. The study also focused on exploring the role and significance of the identified lessons learned and best practices in the development of climate services, and the potential for scaling out within and outside Tanzania.
2. Description of the Study Area
The study was conducted in Kiteto and Longido districts in Manyara and Arusha regions respectively (Figure 1). Kiteto district is a Semi-arid area, located between latitudes 4˚31' and 6˚03'S and longitudes 36˚15' and 37˚25'E, and covering an area of 16,685 square kilometres, and with a population of about 244,669 people of which 120,233 are males and 124,436 are females [18]. Longido district is also a Semi-arid area, located between latitude 1˚00'S and 3˚00'S, and longitudes 36˚00' and 37˚30'E, and covering an area of 7782 square kilometres, with a population of about 123,153 people of which 62,954 are females and 60,199 males [19].
The climate pattern of both Kiteto and Longido districts is characterized by bimodal rainfall regime (the short rains and long rains) with stronger spatial and
Figure 1. Map showing Kiteto and Longido districts.
temporal variability. The short rain season begins in October and ends in December while the long rain season starts in March and ends in May. On the other hand, the southern part of Kiteto exhibit unimodal rainfall regime characterized by rains which peak from November to May [20].
Both Kiteto and Longido districts are frequently affected by climate variability and the associated weather and climate extremes, particularly droughts. Some of the severe droughts that affected the districts in the last two decades include the droughts of 2000, 2006, 2009 and 2016. The 2009 drought was the worst in record and led to severe food shortage, water scarcity and large migration of herders to other areas [21] [22] [23].
The main crops grown in Kiteto district are sorghum, sunflower, cotton, finger millet and cassava, while Longido is endowed with a variety of livestock; dairy cattle, beef cattle, sheep, pigs, goats, donkeys. Food crops grown in Longido district include horticultural crops, maize, beans, green beans and potatoes in high lands and lower land [19].
3. Data Description
This paper used secondary data related to the implementation of Global Framework for Climate Services Adaptation Programme in Africa (GFCS APA) in Tanzania and related information. The data used were mainly project reports and publications by GFCS APA implementing partners in Tanzania. Other secondary data used were publications related to GFCS programme, including the National Framework for Climate Services (NFCS), GFCS book, and other related publications about climate services in the pilot areas and related countries.
4. Methodology
A qualitative approach was employed to analyze the lessons learned and best practices. Best practices and lessons learned were extracted from reports of various activities implemented under GFCS-APA phase I and II. The contributions of the lessons learned and best practices in enhancement of climate services were explored through in-depth review of the reports, and other related publications about climate services in the pilot areas. Interview with key informants (District Agricultural and Livestock Officers) in the pilot areas was also conducted to validate the socio-economic benefits of the identified best practices. Based on the geographic nature and livelihoods of the majority in the pilot areas with the support from the literature, potential areas where the best practices and lessons learned could be out-scaled to support enhancement of climate services were identified.
5. Results and Discussions on Best Practices and Lessons Learned
5.1. Best Practices
Some of the best practices documented during the implementation of GFCS programme are described. The highlighted best practices focus on various categories of climate services value chain and formulation, and implementation of the National Framework for Climate Services. These include information sharing, user-engagement including training and awareness, and governance mechanism.
5.1.1. Information Sharing Using Mobile Phones
GFCS programme aimed at enhancing information dissemination to end users using various channels, and in a more accessible and cost-effective manner. The use of short mobile text messages (SMS) and voice services of mobile phones were preferred options among many end users. More than 42,500 farmers (end users) in the pilot project districts received weather and climate information via FarmSMS system (text message) or through Beep 4 weather system (voice message). The Beep 4 weather system provides access of weather and climate information to those who are unable to read text messages properly. Furthermore, for those who could not understand Swahili properly, the translation of climate information to Maasai language was done for enhanced understanding [6] [23].
5.1.2. Dialogues between Providers and Users of Climate Services
GFCS-APA implementation used dialogues platforms among stakeholders, especially between providers and users of climate services. It was an opportunity for climate service provider to understand user needs; it also assisted better understanding and dissemination of climate services provided by TMA. Various platforms for sustained dialogue between providers and users of climate services were established and strengthened. These include the platforms between TMA experts and Media communities three times a year during preparation of the seasonal climate outlook for Tanzania, platform between TMA experts and stakeholders from climate sensitive sectors including stakeholders from Agriculture, Livestock, Water, Energy, Health and Disaster Risk Reduction sectors. Other stakeholders involved include extensionist, civil societies, security agencies and Local government authorities.
5.1.3. Use of Participatory Integrated Climate Services for Agriculture (PICSA) Tools in Designing and Executing Climate Service Programs
PICSA involved agriculture extension officers working with groups of farmers/pastoralists ahead of each growing season. A participatory needs assessment studies ensured that, differing information needs across vulnerable groups were considered in the on-going co-production of climate information products and services and ensuring that were evaluated on an on-going basis to further refine the products over time. Agriculture extension officers worked closely with farmers and pastoralists; to analyse historical climate information; to choose crops, livestock and livelihood options that best suit to individual farmers’ circumstances. The tool facilitated small scale farmers in the GFCS pilot areas to improve their resilience in the context of increasing climate variability and climate change manifested through decreasing rainfall patterns, shifting in rainfall seasonality and increasing temperature. The use of PICSA tool has enabled pastoralists to sustainably manage their livestock despite the changes in climatic conditions. Extension officers and NGO staffs were able to facilitate farmers and pastoralists to use complex information on historical climate, seasonal and short-term forecasts as well as crop, livestock and livelihood options in decision making leading to improved outputs. However, the tool needs to be translated into local languages for better understanding and enhanced uptake by the respective communities.
5.1.4. Governance Mechanism Ensuring High Level Involvement of Government Machinery in Steering the Implementation of GFCS and Establishment of Multi-Institutional Technical Committee
Project governance mechanism at national level is an important mechanism for smooth implementation of national projects and programmes. During GFCS implementation, National Steering Committee (NSC) and Project Delivery Team (PDT) were formed to governed smooth implementation of GFCS activities at national level. The NSC role was taken by the Tanzania Disaster Management Council (TADMAC) having the role of overseeing the implementation of GFCS and development of National Framework on Climate Services. It provided political support, sustainability, and platform to assess and measure project achievements. Whilst PDT was established as the technical committee with the role of coordinating and managing the implementation of program activities and was supported by GFCS desk officer and GFSC senior technical advisor.
5.2. Lessons Learned
5.2.1. Comprehensive Stakeholders’ Participation Is Critical for Project Ownership, Effective Implementation and Sustainability
Successful implementation of the project requires strong collaboration and engagement among stakeholders. During project appraisal stage, focus should be on community needs through co-planning of project activities. Rural communities were not involved in the designing stage of the GFCS programme and as a result, some of the communities did not feel sense of ownership of the project interventions. It is important to ensure active involvement of the local communities from planning process to adequately and appropriately capture the specific climate services user needs and priorities to enhance utility and sustainability of the outputs and outcome. For example, the GFCS program rehabilitated the earth dam in Olpopong village, in Kiteto district to fulfil community priority and needs to improve water availability, even though it was not prioritized in the initial planning stages due to lack of involvement of the communities from Olpopong village in Kiteto district. Community priorities change with local circumstances; hence it is a good practice if the project initiates an innovation platform with flexibility and to have a co-planning component of project activities with local communities.
5.2.2. Enhanced Awareness and Effective Use of Climate Services Is a Key for Sustainable Management of Natural Resources
Raising awareness about the challenges of climate change and the importance of mainstreaming climate services information and products in planning and implementation of various socio-economic sectors is critical for climate change adaptation and enhanced production and productivity in all sectors. Promoting rainwater harvesting technologies and enhanced adoption among local communities and Local government authorities contribute to addressing the emerging water shortage due to decreasing rainfall trend and increasing climate variability in some areas, the problem which has been attributed to climate change. The decreasing rainfall patterns and increasing temperature trend coupled with increasing frequency and intensity of extreme events are becoming widespread and consequential [5] [21] [24]. The dry spells are becoming more frequent and lengthy [21] [25].
5.2.3. Establishing a Clear and Sustained Feedback Mechanism between Users and Providers of Climate Services Is Important for Improvement in Service Provision
User feedback mechanism plays an important role in improving climate services. It helps climate service providers to understand the gaps, emerging needs and the challenges in the services provision and thus be able to adjust accordingly to improve efficiency and effectiveness. It enables the services provided to be more relevance and valuable. During the design and initial stages of implementation of the GFCS programme, there was no clear feedback mechanism, which also affected the uptake. However, this challenge was rectified in the course of the implementation of the project and in the establishment and implementation of the National Framework for Climate Services, whereby feedback mechanism was integrated in the process of preparation of seasonal climate outlooks, but also through administering of questionnaire through various national exhibitions such as agricultural exhibition annually held in August. It is a good practice to put in place feedback mechanism for monitoring and improvement of the programme activities.
5.2.4. Increasing Demand of High-Resolution Climate Information
The demand for high resolution climate information is increasing due to the challenges of climate change, but also due to increasing awareness about the importance of factoring in climate information and products in planning and implementation of various socio-economic sectors. Provision of high-resolution climate information that captures local climate features can only be achieved by expanding, enhancing and sustaining climate observation network. During the implementation of the programme, insufficient observation network in the pilot districts was a limiting factor for production of high-resolution climate information. Similarly, it has become increasingly difficult to recruit people to act as manual weather observers, and so installation of new technologies (automatic weather stations) can overcome shortfalls in human resources.
5.2.5. Timely, Appropriate, Adequate and Innovative Reporting Is Important for Successfully Implementation of the Programme
Programme reporting is a key component in ensuring project objectives, output, outcome, challenges, best practices and lessons learned are well communicated and documented. Project implementers in Tanzania designed a clear template for reporting project progress on monthly and quarterly basis. The reports were presented and discussed at the technical committee (PDT) meetings, which were convened quarterly. The deliberation of the progress reports in implementation of the individual project activities enabled members and partners to have common understanding about the progress and was instrumental in identifying the bottlenecks and also facilitated in avoiding duplication and ensuring synergies and coherence in the implementation of the GFCS activities. The innovative part of the reporting was provision of needs and mechanism for capturing segregated gender perspectives in the implementation of all GFCS activities. It is also important to ensure that, key components of the project logframe including the outcome, outputs and indicators are reflected in the designing of the reporting mechanism and template.
5.2.6. Gender Mainstreaming Is a Key towards Successful Program Implementation
The effects of weather and climate are not gender neutral. Women and men are frequently and differently affected by weather and climate impacts. During GFCS implementation, gender aspects were reflected in project activities, with women participation comparatively fair. There was an observation that some women were not free to talk in front of men due to cultural norms. Women voices were only heard when they were encouraged to talk, as well as when providing them with gender specific needs. GFCS programme emphasized reflection on gender perspective during implementation and reporting, and this was the reason behind formation of women exclusive community listening groups for community radio programmes and “Her Voice on Air” climate change radio segments. The female exclusive community listening groups and Her Voice on Air radio segments were very successful in ensuring gender issues particularly those of women are aired and adequately addressed during the implementation of the project.
5.3. Contribution of the Lessons Learned and Best Practices in Enhancement of Climate Services in the Respective Areas and Sectors
The contribution of the best practices and lessons learned in enhancement of climate services in Longido and Kiteto district as well as in the priority sectors are as outlined below:
5.3.1. Contribution of Best Practices
1) The use of mobile phones through FarmSMS system and Beep 4 weather for climate information sharing contributed in enhancing efficiency and effectiveness in dissemination of climate information in remote areas, hence there was improved access to climate information that facilitated planning of socio-economic activities and decision making due to timely dissemination of information and availability of feedback and interactive mechanism.
2) The use of community radios contributed to improved dissemination and awareness to the surrounding communities, particularly on the application on weather information. The knowledge acquired through the project, supported farmers and pastoralists in planning and making informed decisions by making use of locally relevant advisories that were provided by agriculture and livestock extension officers through special radio programmes. Farmers and pastoralists could further discuss the advisories in special listener groups of men and women, with their local extension officers and have a consensus on appropriate actions to be taken. One of the community radio that was used in the programme was Farm Radio International (FRI).
3) The use of local language in communicating weather and climate information contributed in effective use of weather information. Most of the farmers and pastoralists in the study area were much more conversant and comfortable to use their local tribal language as compared to Swahili and English. The translation of climate information to their local language (Maasai) increased understanding as well as ownership of the information.
4) Dialogue platforms on climate services facilitated cross learning between providers and users of climate services in terms of the existing challenges and opportunities, thus paving the way for effective implementation of the GFCS project, its sustainability as well as effective implementation of future projects.
5) The use of District Health Information System version 2 (DHIS2) had a significant contribution in health early warning services as it integrated directly the weather and climate data with health information and thus increased resilience of climate change impacts to health sector.
6) The governance mechanism of GFCS project contributed to successful implementation of the GFCS phase I & II. Involvement of Tanzania Disaster Management Council (TADMAC) as the National Steering Committee (NSC) and the Project Delivery Team (PDT) contributed in effective implementation of the project. The NSC provided political support for sustainability of the project, national ownership and coordination of the development and implementation of the National Framework for Climate Services (NFCS).
The details about the best practices and their contribution in enhancing climate services in the localities are stipulated in Table 1.
5.3.2. Contribution of Lessons Learned
1) Involvement of local project beneficiaries in the design of activities helped to address local needs, project ownership and sustainability. An example was the decision to come up with an activity on rehabilitation of earth dam which was through involvement of local people. This activity was not part of the initial project plan but it was included and implemented after being raised as a local
Table 1. Contribution of best practices in enhancement of climate services.
community requirement and it became a remarkable achievement that contributed in ensuring availability of water for agro-pastoral activities during dry seasons over the area.
2) The use of climate services in natural resources management (e.g water resources management in Olpopong village) helped communities to respond to poor rainfall distribution and low water availability through rainwater harvesting using the rehabilitated earth dam. The harvested water ensured availability of water for agro-pastoral activities during dry seasons over the area. Therefore, rainwater harvesting is the key in areas, which are strongly impacted by climate variability and change.
3) Feedback gathered from users through user interface platforms such as “Uliza Polls”, Beep 4 weather, community radios, meetings and workshops contributed considerably in enhancing climate services in Longido and Kiteto districts. The feedback was used as input in improvement in the generation and packaging of the products and services provided by TMA. For instance, through user feedback, a need to increase rainfall observation stations was raised whereby TMA acted on the need by installing six rain gauges in the two districts. Also, the need for translating weather information into Maasai language came up from user feedback.
4) Mainstreaming of gender aspects in the implementation of GFCS APA made climate services to be effective. Through the gender related “Community Listener Groups”, climate information priorities for men and women were identified whereby the first priority for men was the start dates of the rainy season as an indication of availability of water and pasture for livestock, as well as good soil moisture to support farming activities. On the other hand, the first priority for women was amount of rainfall as indication of sufficient water availability. Moreover, following the observation that some women were not free to talk in front of men due to cultural norms, “(60) Community Listener Groups” for community radio programmes were formed of which thirty-eight (38) groups were “Women Exclusive Community Listener Groups”. In addition, “Her Voice on Air” climate change radio segment was formed to encourage women to express themselves.
5) Enhancing ground observation network is the key in the provision of high-resolution climate services. Availability of rainfall stations in the pilot districts helped to address the need of downscaled forecasts by communities. The need for more stations came up in the course of implementation of the project, as the available stations are inadequate to represent the various agro-ecological zones. However, the stations should be automatic to ensure a smooth flow of data and avoid the cost implication of manual observers.
6) Through baseline survey, TMA was able to identify priority activities, which were proposed by users. Among the survey findings which contributed in enhancing of climate services provided by TMA include gender preferences in climate services and reliance of farmers and pastoralists in Indigenous Knowledge (IK) which necessitated the need for integration of IK with scientific forecast that will enhance area specific climate information.
The details about the lesson learned and their contribution in enhancing climate services in the localities are stipulated in Table 2.
5.4. Applicability of the Best Practices and Lessons Learned and Potential for Scaling Out to Other Countries
Studies show that users of climate services in many countries, particularly in Africa have limited access and uptake of relevant climate information [23] have indicated that barriers to uptake of climate services are attributed to how the knowledge is conceptualized, framed and en-countered. According to [26], one of the primary barriers is to view the user as lacking climate knowledge relevant for services and applications. [26] views this as a “linear mode of knowledge production” or “deficit model” which focuses on the notion that all that is required is to fill up the deficit or knowledge gap between providers of climate information and end users. This barrier to uptake of climate services has also been narrated by [27]. In addition to access and uptake, studies have indicated that most projects face the challenge of sustainability and knowledge uptake [28].
Since the challenges presented by the authors seem to be more or less the same as the ones that existed in Longido and Kiteto districts, the best practices and lessons learned provided in this paper can be applied and be of benefit to other countries within and outside Africa, especially in the tropical areas to support effective climate services and resilience to climate change.
6. Conclusion
Capturing, documenting and sharing the best practices and lessons learned in the implementation of the GFCS projects and other climate, water and environmental related projects and initiatives is critical for enhancing cross-learning and ensuring the best use of available resources and maximizing the benefits of the intervention across the globe. The best practices and lessons learned shared from the implementation of the GFCS programme in Tanzania, with an emphasis
Table 2. Contribution of lessons learned in enhancement of climate services.
on Longido and Kiteto provides opportunities for enhancing efficiency and effectiveness and for accelerating the implementation of similar initiatives, particularly in countries or regions with a similar setup and similar geographic and climatic characteristics to Longido and Kiteto districts. The practices demonstrated to be highly instrumental in enhancing climate services as they contributed significantly in enhancing awareness and understanding, availability, accessibility, utilization, ownership and sustainability of climate services among users (farmers and pastoralists) of various genders, as well as intermediaries and decision-makers.
7. Recommendations
Since the findings indicate that some of the challenges that existed in Longido and Kiteto districts also exist in other areas within and outside Tanzania, it is recommended for the documented best practices and lessons learned to be considered in planning and implementation of ongoing and future projects or operational activities in other regions within Tanzania and in other countries, with similar challenges. Potential areas for out-scaling within Tanzania could include Shinyanga, Simiyu, Singida, Dodoma and parts of the Mwanza regions. Areas outside Tanzania could include countries with aridity to semi-aridity nature, including Sub-Saharan Africa.
Acknowledgements
The authors would like to acknowledge the financial and technical support by WMO and the Royal Government of Norway that facilitated the preparation of this paper through the GFCS-APA programme. We would like also to acknowledge the GFCS-APA implementation partners, authors of reports, publications and other documentation related to GFCS APA implementation in Tanzania, including WMO, Norwegian Capacity/Norwegian Refugee Centre (NORCAP/NRC), TMA, Ministry of Agriculture (MoA), Ministry of Health, Community Development, Gender, Elderly and Children (MoHCDGEC), the University of Dar es Salaam, CGIAR Research Programme on Climate Change, Agriculture and Food Security (CCAF), Tanzania Red Cross (TRC), the World Food Programme (WFP-Tanzania), and the World Health Organization (WHO-Tanzania). We also thank colleagues from the TMA for fruitful discussion and recommendations that helped to improve this article. Lastly, but not least, the authors extend their gratitude to officials and experts at Kiteto and Longido district councils, and pastoralists and farmers for their support, particularly in validating the information presented in this paper.