Authors : 

World Meteorological Organization (WMO) in collaboration with other organizations (UNECA, WHO, UN Environment, IOM, UNHCR, WCRP, LEGOS, IGAD, ACMAD, Met Office…)

WMO currently has 193 member States and territories. WMO is the world’s leading authority on the state and evolution of the Earth’s atmosphere, its interaction with land and oceans, the weather and climate it produces and the distribution of water resources resulting from it.

Date of publication: October 2020

Link to the original document

Organisation’s site: WMO

Le changement climatique, depuis ces trente dernières années, est devenu l’une des préoccupations majeures de la planète. C’est un phénomène mondial qui touche forcément l’Afrique. Les quatre derniers rapports du Groupe d’experts intergouvernemental sur l’évolution du climat (GIEC) prévoient des scénarii catastrophiques dans les 50 prochaines années si rien n’est fait.

La situation pourrait, si ce n’est déjà le cas, particulièrement se dégrader pour le continent africain, notamment dans sa partie occidentale et sahélienne. Le défi d’adaptation et d’atténuation est donc crucial pour l’Afrique. Dans son rapport 2019, l’Organisation internationale pour les migrations (OIM) fait cas de 180 700 déplacés forcés dus aux catastrophes naturelles en Afrique de l’Ouest et du Centre. Du point de vue économique, selon le Fonds monétaire international, dans les pays avec une température annuelle moyenne de 25°, chaque augmentation de température d’un degré correspond à 1,2% de diminution du taux de croissance.

WATHI a choisi ce document parce que des prévisions en termes de conséquences multidimensionnelles (sociales, sanitaires, économiques) y sont soulevées. L’autre raison est purement factuelle. Les extrêmes climatiques et météorologiques sont des faits d’actualité en Afrique de l’Ouest. La saison pluvieuse qui vient de s’écouler en Afrique de l’Ouest a été marquée par des inondations, des périodes sèches, l’arrivée tardive et la fin brusque de cette saison pluvieuse et bien d’autres phénomènes. Ce sont des indicateurs qui traduisent la réalité du changement climatique. Ce document offre une base intéressante pour mener des réflexions profondes sur les problèmes climatiques auxquels sont confrontés les pays de la zone WATHI.

Why did we choose this document ?

Over the last thirty years, climate change has become one of the planet’s major concerns. It is a global phenomenon that necessarily affects Africa. The last four reports of the Intergovernmental Panel on Climate Change (IPCC) predict catastrophic scenarios in the next 50 years if nothing is done. The situation could be, if it is not already, particularly worse for the African continent, especially in its western and Sahelian parts. The challenge of adaptation and mitigation is therefore crucial for Africa.

In its 2019 report, the International Organization for Migration reports on 180,700 people forcibly displaced by natural disasters in West and Central Africa. On economic level, according to the International Monetary Fund, in countries with an average annual temperature of 25°C, each one degree increase in temperature is a 1.2% decrease in the growth rate.

WATHI has chosen this document because it raises forecasts in terms of multidimensional consequences (social, health, economic). The other reason is purely factual. Climate and meteorological extremes are topical facts in West Africa. The recent rainy season in West Africa has been marked by floods, dry periods, the late arrival and abrupt end of the rainy season and many other phenomena. These are indicators of the reality of climate change. This document provides an interesting basis for in-depth reflection on the climate problems facing the countries covered by WATHI.

Le continent africain a été confronté à plusieurs  manifestations du réchauffement climatique et continue d’en subir les conséquences. Les auteurs indiquent qu’à partir des expériences vécues, des pistes de solutions peuvent être dégagées avec des politiques d’adaptation (prendre de l’avance sur le problème) et d’atténuation (efforts dans la diminution des conséquences climatiques).

• Renforcer les systèmes d’alerte : A partir de l’expérience du cyclone Idai de 2018 en Mozambique, les auteurs suggèrent aux pays africains de renforcer le système de monitoring et de prévention basé sur des mesures structurelles et non structurelles. Concrètement, il faut détecter, suivre et analyser les risques et les éventuelles conséquences, notamment sur la sécurité des populations, la sécurité alimentaire et les questions liées aux déplacements.
• Mettre l’accent sur l’énergie propre et l’agriculture durable : Ce sont des secteurs économiquement inclusifs qui conduisent à la fois aux objectifs d’atténuation et d’adaptation et offrent ainsi au continent le chemin le plus court à une croissance socio-économique accélérée pour construire la résilience intrinsèque. Selon la FAO, grâce à valeur ajoutée, une productivité accrue dans le secteur agricole, qui emploie plus de 60 % de la population africaine, pourrait favoriser une réduction de la pauvreté deux à quatre fois plus vite.
• Donner plus de place aux femmes : Les évènements météorologiques extrêmes touchent en priorité les personnes vulnérables en Afrique qui sont entre autres les femmes. 60% d’entre elles travaillent dans l’agriculture. Il faut donc veiller à ce que les femmes aient un accès équitable à la météo et les services climatiques afin d’améliorer leur résilience et leur capacité d’adaptation. Il est également important de donner aux femmes la possibilité de jouer un rôle significatif dans la lutte contre les risques liés au changement climatique et les impacts en ayant accès à des rôles de leadership et des formations de renforcement de capacités, ainsi que la possibilité de participer à la prise de décision au sein de leurs communautés.

Pour l’Afrique de l’Ouest, les auteurs proposent :

• Renforcer les institutions de lutte contre le changement climatique : Mettre en synergie les actions de WASCAL, le Centre régional pour les énergies renouvelables et l’efficacité énergétique (ECREEE) et le CILSS pour créer une organisation unique portant sur le climat et le développement durable afin d’avoir plus d’impact sur le terrain.
• Augmenter les capacités techniques et professionnelles des centres météorologiques des pays membres de la CEDEAO afin d’être plus précis dans les prévisions.
• Structurer l’économie du climat et de l’environnement dans ces pays, particulièrement les pays sahéliens pour aller progressivement vers l’énergie propre, en supprimant les sources thermiques ; la capacité solaire de ces pays étant plus grande une bonne partie de l’année.

What lessons for the countries of the WATHI zone ?

The African continent has faced several manifestations of global warming and continues to suffer the consequences. The authors indicate that based on the lived experiences, solutions can be found with adaptation (getting ahead of the problem) and mitigation policies (efforts to reduce the climate consequences).

• Strengthen warning systems: Based on the experience of Cyclone Idai in 2018 in Mozambique, the authors suggest that African countries strengthen the monitoring and prevention system based on structural and non-structural measures. Concretely, it is necessary to detect, monitor and analyze risks and possible consequences, particularly on the security of populations, food security and issues related to displacement.
• Focus on clean energy and sustainable agriculture: These are economically inclusive sectors that lead to both mitigation and adaptation objectives and thus offer the continent the shortest route to accelerated socio-economic growth to build intrinsic resilience. According to the FAO, through value addition, increased productivity in the agricultural sector, which employs more than 60% of Africa’s population, could help reduce poverty two to four times faster.
• Giving more space to women: Extreme weather events primarily affect vulnerable people in Africa who are, among others, women. 60% of them work in agriculture. It is therefore necessary to ensure that women have equitable access to weather and climate services in order to improve their resilience and adaptive capacity. It is also important to empower women to play a significant role in addressing climate change risks and impacts by having access to leadership roles and capacity building training, as well as the opportunity to participate in decision-making in their communities.

For West Africa, the authors propose :

• Strengthen climate change institutions: Synergize the actions of WASCAL, the Regional Centre for Renewable Energy and Energy Efficiency (ECREEE) and CILSS to create a single organization focusing on climate and sustainable development to have more impact on the ground.
• Increase the technical and professional capacities of meteorological centers in ECOWAS member countries to be more accurate in forecasting.
• Structure the climate and environmental economics in these countries, particularly the Sahelian countries to move progressively towards clean energy, by eliminating thermal sources; the solar capacity of these countries being greater for a good part of the year.

Extracts from the document, pages: 7, 9-13, 18, 20-21, 23

State of the climate indicators

TEMPERATURE AND PRECIPITATION

Temperature and precipitation are two key indicators that characterize the state of the climate in Africa and which have continuously affected living conditions in African societies. Agriculture, food security and water resources are strongly impacted by variations in these two indicators. Agriculture contributes to a significant portion of the gross domestic product (GDP) of many African nations and provides a major source of employment.

Crop performance in particular, which is based predominately on rainfed agriculture, is highly sensitive to temperature and precipitation variations. Increases in temperature and changes in rainfall patterns also significantly affect population health across Africa. Warmer temperatures and higher rainfall increase habitat suitability for biting insects and the transmission of vector-borne diseases such as dengue fever, malaria and yellow fever. The monitoring and prediction of these two indicators therefore constitute a primary entry point to analyse the state of the African climate and associated impacts.

TEMPERATURE OVER THE AFRICAN CONTINENT

African temperatures in recent decades have been warming at a rate comparable to that of most other continents, and thus somewhat faster than global mean surface temperature, which incorporates a large ocean component. Averaged across mainland Africa, at 0.56 °C to 0.63 °C above the 1981–2010 long-term mean, 2019 was most likely the third warmest year on record, following 2010 and 2016. Both 2010 and 2016 were also warm years globally due in part to El Niño conditions at the start of the year.

There were regional variations in temperature anomalies at a subcontinental scale in 2019. Temperatures exceeding 2 °C above the 1981–2010 average were recorded in South Africa, Namibia and parts of Angola. Large areas extending from the south to the north of the continent were more than 1 °C above normal. Only limited areas in the north-west, including Mauritania, as well as adjacent ocean areas, were slightly cooler than the 1981–2010 average.

PRECIPITATION 

Annual precipitation totals in 2019 were below the long-term means in Southern Africa, east of the Gulf of Guinea, along the south-west coast of West Africa, north-west of the High Atlas Mountains, on the Madeira and Canary Islands, and in some regions of Madagascar. Above-normal precipitation fell in northern and southern Madagascar, in East Africa, in much of the Sahel, between the Volta and Niger Rivers, north of the lower Congo River and in western Central Africa.

Annual precipitation totals very much above average (above the 90th percentile) were observed in Central and East Africa. Very low annual precipitation totals (below the 10th percentile) were found in most of Southern Africa, east of the Gulf of Guinea, north-west of the High Atlas Mountains and on the Canary Islands.

SEA-SURFACE TEMPERATURES INFLUENCED PRECIPITATION AND OTHER CLIMATE FEATURES

Sea-surface temperatures (SSTs) were above average across large areas of the globe in 2019. Tropical Pacific SSTs briefly reached the threshold of El Niño conditions early in the year but reverted to neutral conditions thereafter. The lack of a typical El Niño-like pattern in global precipitation was consistent with the relatively weak SST El Niño signal. Above-normal precipitation in the Greater Horn of Africa and below-normal precipitation in Southern Africa in 2019 are both consistent with El Niño conditions, however.

The latest forecast, covering the five-year period from 2020 to 2024, shows continued warming especially over North and Southern Africa

Indian Ocean SSTs played an important role in the events of 2019 around the Indian Ocean basin. In the latter half of the year, warmer than average waters in the western Indian Ocean and cooler than average temperatures in the east of the basin along the west coast of Indonesia – a pattern characteristic of a very strong positive phase of the IOD were also associated with well above-average precipitation in parts of East Africa from October to December.

The south-western Indian Ocean also saw much higher than average tropical cyclone activity during the 2018/2019 season. Over this region, there were positive SST anomalies, along with a neutral but positive phase of the El Niño–Southern Oscillation and positive IOD. These influences are associated with more precipitation and cyclone activity over the western side of the Indian Ocean basin.

NEAR-TERM PREDICTIONS FOR 2020–2024

Annual to decadal climate predictions (ADCP) provide decision makers with information on near-term climate by starting forecasts from the observed state of the climate system. Such forecasts are updated annually by several international centres and collected by the WMO Lead Centre for ADCP. Due to their experimental status, it is important to monitor the annual updates of these predictions. The latest forecast, covering the five-year period from 2020 to 2024, shows continued warming especially over North and Southern Africa, with a dominant decreasing rainfall feature in both subregions and increased rainfall over the Sahel.

These predictions are consistent with the amplified warming over land and at high northern latitudes expected from increased atmospheric concentrations of greenhouse gases and the northward shift of the Atlantic Intertropical Convergence Zone expected from warmer temperatures in the North Atlantic Ocean than in the South Atlantic Ocean.

OCEAN HEAT CONTENT AND SEA LEVELS

OCEAN HEAT CONTENT

On timescales longer than about a year, the vast majority (more than 90%) of the Earth’s energy imbalance goes into heating the oceans. Ocean heat content (OHC) is a measure of the amount of heat in the ocean as a whole and is a more comprehensive measure of the amount of heat in the marine part of the climate system than SST. As the oceans warm, they expand, resulting in both global and regional sea-level rise. Increased OHC accounts for about 40% of the observed global sea-level increase over the past 60 years.

The capacity to measure OHC in the upper layers of the ocean, particularly the uppermost 700 metres, has improved dramatically in the twenty-first century as a result of the deployment of the network of Argo profiling floats, which make regular profiles of the upper ocean across most of the world’s oceans. Tracking ocean temperatures and associated changes in OHC allows us to monitor variations in the Earth’s energy imbalance over time.

SEA LEVELS

The global mean sea level has risen since the early 1990s, with an average rate of 3.2 +/- 0.3 mm/year and an acceleration of ~0.1 mm/year. However, the rate of rise is far from regionally uniform. In some areas of the oceans, the rate is between two and three times higher than the global mean as measured by satellite altimetry. There is significant regional variability in sea-level trends around Africa. In the West African region, especially between 10°N and 10°S, the rate of sea-level rise is slightly above the global mean (3.5–4.0 mm/year).

The global mean sea level has risen since the early 1990s

Some East African regions display higher trends (4.0–5.0  mm/year). These include north-eastern Africa (Egypt and the Nile Delta region) and countries along the Red Sea and Oman Gulf, as well as Mozambique and the Indian Ocean side of South Africa. Trends exceeding 5 mm/year have been observed in the south-western Indian Ocean from Madagascar eastward towards and beyond Mauritius. These regional trends are mostly driven by non-uniform ocean thermal expansion, reflecting non-uniform heat storage in the upper ocean layers. In all other parts of the African region, sea-level trends are on the same order of magnitude as the global mean.

COASTAL DEGRADATION

Conventional satellite altimetry measures open ocean sea-level change up to ~10 km from the coast. However, dedicated processing methodologies applied to satellite altimetry allow the rate of sea-level change to be estimated very close to the coast (within 1 to 4 km). Recent results suggest that at some sites along African coastlines, the rate of sea-level rise can differ from the rate offshore. There are differences in sea-level trends between 15 km offshore and within the first few kilometres of the coast for the period 2002–2018.

This may result from a variety of small-scale coastal processes, for example, coastal currents, trends in waves, freshwater runoff in river estuaries, and so forth. Such coastal processes may either amplify or attenuate the regional trends observed offshore. While the general impacts of climate-related sea-level rise are well known, the number of studies of the African continent is limited due to the lack of systematic in situ observations and modelling exercises.

About 56% of the coastlines in Benin, Côte d’Ivoire, Senegal and Togo are eroding, at an average rate of 1.8 m/year

It has been reported that parts of the West African coasts currently experience accelerated degradation related to pluvial and fluvial floods, high winds and waves, storm surges, damages to critical ecosystems (mangroves, marine habitats) and human development along the coast. Coastal erosion, especially of low-lying sandy and muddy coasts, is widespread in this region and partly attributed to alongshore sediment transport resulting from changes in wave regime and human intervention such as the building of river dams and coastal urbanization.

About 56% of the coastlines in Benin, Côte d’Ivoire, Senegal and Togo are eroding, at an average rate of 1.8 m/year. In all countries, the cost of erosion is expected to increase considerably in the future. While today, sea-level rise is not a dominant contributor to coastal erosion in West Africa, the expected acceleration in the rate of sea-level rise in the coming decades will combine with other factors to exacerbate the negative consequences of environmental changes.

Risks and impacts on food security and population

In addition to conflicts, instability and economic crises, climate variability and extreme weather and climate events are among the key drivers of the recent increase in global hunger. After decades of decline, food insecurity and undernourishment are on the rise in almost all subregions of sub-Saharan Africa. In drought-prone sub-Saharan African countries, the number of undernourished people has increased by 45.6% since 2012 according to FAO.

The year 2019 recorded a deteriorating food security situation in sub-Saharan Africa, as well as increased population displacement and the increased food insecurity of those displaced people. Refugee populations often reside in climate “hot spots”, where they are exposed to and affected by slow and sudden-onset hazards, resulting in some cases in secondary displacements.

CENTRAL AND WEST AFRICA

Of the 5 135 000 forcibly displaced persons identified by IOM across six countries in Central and West Africa, 4%, or approximately 180 700 individuals, were displaced by natural disasters. In its 2020 Global Report on Internal Displacement (GRID), the Internal Displacement Monitoring Centre (IDMC) reported 649 448 new disaster-induced displacements in West and Central Africa, mainly due to floods. While conflict remained the major driver of food insecurity in Central Africa, damages associated with floods and pests further exacerbated the situation in affected areas.

These factors disrupted agricultural activities and triggered an increase in staple food prices, affecting livelihoods and constraining access to food across the region. Despite localized production shortfalls due to floods, pests and conflict, the aggregate regional production of cereals in 2019 was close to the previous five-year average of about five million tons.

West Africa was also hit by floods due to heavy precipitation in July and August. This resulted in localized crop and livestock losses and population displacement in several countries. According to IOM, 66 800 people were displaced in Nigeria as a result of disasters as of January 2020, representing 3% of the 2 600 000 individuals displaced in the country.

IMPLICATIONS FOR AGRICULTURE AND FOOD SECURITY

Africa faces significant challenges in addressing climate change risks, including increasing temperature, changing precipitation patterns, rising sea levels and more frequent extreme weather and climate events. These risks are becoming more severe as the environment is rapidly warming and have a pronounced effect on the agricultural sector. Agriculture is the backbone of Africa’s economy and accounts for the majority of livelihoods across the continent.

Africa is therefore a vulnerability “hot spot” for the impacts of climate variability and change

Africa is therefore a vulnerability “hot spot” for the impacts of climate variability and change. Key risks to agriculture include reduced crop productivity associated with heat and drought stress and increased pest damage, disease damage and flood impacts on food system infrastructure, resulting in serious adverse effects on food security and on livelihoods at the regional, national and individual household levels.

These risks and their consequent effects have been identified with “high confidence”, and the level of risk has been identified as “very high” if the global mean temperature increases 2 °C and 4 °C above pre-industrial levels by 2080–2100. By the middle of this century, major cereal crops grown across Africa will be adversely impacted, albeit with regional variability and differences between crops.

Under the RCP 8.5 climate change scenario, a reduction in mean yield of 13% is projected in West and Central Africa, 11% in North Africa, and 8% in East and Southern Africa. Millet and sorghum have been found to be the most promising crops, with a yield loss by 2050 of just 5% and 8%, respectively, due to their greater resilience to heat-stress conditions, while rice and wheat are expected to be the most affected crops with a yield loss by 2050 of 12% and 21%, respectively.

HEALTH IMPLICATIONS

Climate change has widespread effects on human health, impacting both environmental and social determinants. Africa is particularly at risk for the health effects of climate change because it has high burdens of climate-sensitive diseases and low preparedness and adaptive and response capacity at the institutional and community levels. Increases in temperature as well as changes in rainfall patterns also contribute to infectious disease transmission across Africa.

Warmer temperatures and higher rainfall increase suitability for habitats of biting insects and transmission of vector-borne diseases such as dengue fever, malaria and yellow fever. In addition, new diseases are emerging in African regions where they were previously not present. In 2017, an estimated 93% of global malaria deaths occurred in Africa; children are the most vulnerable to this disease, and pregnant women are another high-risk group.

Malaria epidemics often occur after periods of unusually heavy rainfall, such as those associated with El Niño events in parts of East Africa. In addition, warming in the East African highlands is allowing malaria-carrying mosquitoes to survive at higher altitudes, endangering new populations that were previously less affected by and are less resistant to the disease.

 

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Source photo : WMO