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Title: EVIDENCE OF CLIMATE CHANGE: Science, vulnerability and Impacts


1

EVIDENCE OF
CLIMATE CHANGEScience, vulnerability and Impacts
  • D. Okali
  • Emeritus Professor of Forest Ecology
  • University of Ibadan
  • Chairman
  • Nigerian Environmental Study/Action Team (NEST)
  • d_okali_at_yahoo.com

2
Outline
  • Short story
  • Evidence
  • Science
  • Impact, Vulnerability
  • Consequences
  • Actions

3
Climate Change impact on livelihood?
  • Achebe 1958 Things Fall Apart pp 21 - 22

4
CC Impact on livelihood
The year that Okonkwo took eight hundred yams
from Nwakibie was the worst year in living
memory. Nothing happened at the proper time it
was either too early or too late. It seemed as
if the world had gone mad.
5
CC Impact on livelihood
  • The first rains were late and, when they came
    lasted only a brief moment. The blazing sun
    returned, more fierce than it had ever been
    known, and scorched all the green that had
    appeared with the rains. The earth burned like
    hot coals and roasted all the yams that had been
    sown.

6
CC Impact on livelihood
  • Like all good farmers, Okonkwo had begun to sow
    with the first rains. He had sown four hundred
    seeds when the rains dried up and the heat
    returned.

7
CC Impact on livelihood
  • He watched the sky all day for signs of rain
    clouds and lay awake all night

8
CC Impact on livelihood
  • In the morning he went back to his farm and saw
    the withering tendrils.

9
CC Impact on livelihood
  • He had tried to protect them from the smouldering
    earth by making rings of thick sisal leaves
    around them. But by the end of the day the sisal
    rings were burnt dry and grey.
  • He changed them every day and prayed that the
    rain might fall in the night. But the drought
    continued for eight market weeks and the yams
    were killed.

10
CC Impact on livelihood
  • Some farmers had not planted their yams yet. They
    were the lazy easy going ones who always put off
    clearing their farms as long as they could. This
    year they were the wise ones

11
CC Impact on livelihood
  • They sympathized with their neighbours with much
    shaking of head, but inwardly they were happy for
    what they took to be their foresight

12
CC Impact on livelihood
  • Okonkwo planted what was left of his seed yams
    when the rains finally returned. He had one
    consolation. The yams he had sown before the
    drought were his own, the harvest of the previous
    year. He still had the eight hundred from
    Nwakibie and four hundred from his fathers
    friend. So he would make a fresh start.

13
CC Impact on livelihood
  • But the year had gone mad. Rain fell as it had
    never fallen before. For days and nights together
    it poured down in violent torrents, and washed
    away the yam heaps. Trees were uprooted and deep
    gorges appeared
  • everywhere.
  • Then the rain became less violent. But it
  • went on from day to day without a pause.

14
CC Impact on livelihood
  • The spell of sunshine which always came in the
    middle of the wet season did not appear. The yams
    put on luxuriant green leaves, but every farmer
    knew that without sunshine the tubers would not
    grow.

15
CC Impact on livelihood
  • That year the harvest was sad, like funeral and
    many farmers wept as they dug up the miserable
    and rotting yams.

16
CC Impact on livelihood
  • One man tied his cloth to a tree branch and
    hanged himself.

17
Climate change realNow the issue
  • Early doubts rested
  • At centre of international dialogue debate
  • A security issue 2007 Nobel Peace Prize to IPCC
    and Al Gore
  • Most serious threat to the poor
  • No other single issue presents such a
  • clear and present danger to the future
  • welfare of the worlds poor (Christian Aid)
  • Climate change strikes at the root of the
    foundation of the world economic system energy
    use

18
Evidence
  • IPCC Reports 1990, 1995, 2001, 2007
  • Warming
  • - 0.70C last 100 years
  • - 1.8 - 6.40 C by 2100
  • - 80 ocean to 3000 m depth
  • - 1995 2006 warmest since 1850

19
Evidence
  • Melting ice
  • Warming caused ice to melt global snow cover
    down by 10 since 1900
  • - Arctic circle now sailable ecological
    consequences
  • Sea Level Rise (SLR)
  • Melting ice and thermal swelling lead to sea
    level rise
  • Sea level up 10 25 cm past 100 yr now 3.1
    mm/yr

20
Evidence
  • Precipitation changes
  • onset, cessation, intensity, amount
  • Extreme weather events
  • droughts, floods, cyclones, hurricanes, heatwaves
  • Intensity, frequency

21
CC in Nigeria (NIMET)
22
Climate Change in Nigeria (NIMET)

23
CC in Nigeria (NIMET)
24
CC in Nigeria (NIMET)
25
Causes of Climate Change
  • Radiative forcing
  • Alteration in balance between incoming and
    outgoing radiation in the Earths atmosphere
  • Radiative forcing factors
  • - changes in the concentration of
    greenhouse gases in the atmosphere
  • - changes in aerosol conc
  • - land cover changes
  • - solar activity
  • - volcanic eruptions

26
Radiative Forcing Values
27
Radiative forcing values(W m-2)
  • Greenhouse gases
  • CO2 - 1.66
  • CH4 - 0.48
  • N2O - 0.16
  • Halocarbons - 0.34
  • Aerosol/land cover - -0.7
  • Solar - 0.12
  • Aircraft - 0.01
  • Total net anthropogenic - 1.6

28
GREENHOUSE GASES
  • CO2 (CARBON DIOXIDE)
  • gt60 greenhouse effect
  • 280 370 ppmv (31 increase since mid 19th
    Century)
  • Sources
  • Fossil fuels (coal, oil, gas) combustion for
    transport, manufacturing, heating , cooling,
    generating energy
  • Biomass burning (firewood, bush burning, farm
    residues)
  • Land use changes (deforestation, desertification,
    farming, settlements etc)

29
GREENHOUSE GASES
  • CH4 (METHANE)
  • up to 20 greenhouse effect
  • 700 1760 ppbv (151 increase since mid 19th C)
  • Sources
  • Decaying organic matter, garbage
  • Wetlands, swamp rice
  • Livestock production
  • Fossil fuel production and combustion
  • Biomass burning
  • Waste water treatment

30
GREENHOUSE GASES
  • N20 (NITROUS OXIDE)
  • ca 6 greenhouse effect
  • 276 316 ppbv (175 increase since mid 19th
    Century)
  • Sources
  • naturally from soils and the ocean
  • Soil cultivation nitrogen fertilisers
  • Livestock production
  • Chemical industry nylon manufacture
  • Fossil fuel and biomass burning

31
GREENHOUSE GASES
  • HALOCARBONS (Cl, Fl, Br, I compds)
  • up to 14 greenhouse effect
  • Man-made prominent since 50s (also ozone
    depleting)
  • Sources
  • Industrial and home uses especially as
    propellants and refrigerants

32
GREENHOUSE GASES
33
GREENHOUSE GASES
34
GREENHOUSE GASES
35
OTHER RADIATIVE FORCING FACTORS
  • Aerosols
  • Soil dust, vehicular, Harmattan haze, sea salt,
    smoke, organic debris, pollen, spores,
    microorganisms, manufacturing dust, cement,
    construction, volcanic emissions
  • Negative radiative forcing, cooling effect
  • Land cover
  • albedo
  • Solar activity and volcanic eruptions
  • solar irradiance varies up to 11 in 28 year
    cycle
  • sulphate aerosols from volcanic eruptions

36
Impacts, Vulnerability
  • Changes listed above not even on all surfaces of
    Earth
  • But all subject to climate change impact/effect
  • - Impacts adverse, beneficial challenges and
    opportunities
  • - Vulnerability extent to which adverse impacts
    do damage varies by geographical location,
    extent to which economic activities depend on
    climate level of economic development

37
  • Resilience degree to which system can withstand
    impact without changing to a new state i.e.
    ability to return to initial state after impact

38
Consequences
  • CO2 fertilization could have positive impact, but
    countered by higher respiration from warmer
    temperature
  • Warm temperatures extend range of disease vectors
    e.g. malaria up warmer higher ground
  • Increased intensity, severity and frequency of
    extreme weather-related disasters floods,
    droughts, wild fires
  • Increased unpredictability of weather patterns
    disruption of agricultural activities, threat to
    food security

39
Consequences
  • Natural and human systems affected, exacerbated
    desertification, flooding, soil erosion, spread
    of water-borne diseases, biodiversity loss
  • Ecological disruptions, economic losses,
    livelihood disruptions, heightened social
    conflicts
  • Sea level rise coastal erosion, flooding,
    threat to economic activity, salt water intrusion
    into freshwater systems

40
OUR COASTLINE
41
OUR COASTLINE
42
Action
  • Global and local dimensions
  • Framework for global governance
  • UNFCCC (Stabilization of greenhouse gases within
    a time frame to allow ecosystems to adapt, food
    prodn and economic development to continue)
  • Conferences of Parties (COPs) and various
    committees
  • Mitigation and Adaptation

43
Global action
  • Kyoto Protocol firm commitments
  • Clean Development Mechanism (CDM) challenges to
    opportunities
  • Carbon trade certified emission trading,
    regulated and unregulated etc

44
Local Action
  • Local actions to combat climate change reinforce
    actions already being taken or planned for
    meeting development challenges
  • Local action must be systematic, concerted and
    coordinated at the national level

45
Framework for local action
  • Administrative
  • Focal Point,
  • Designated National Authority (DNA) for CDM
  • Reporting arrangements National communications

46
Framework for local action
  • Enabling institutional framework
  • policies, strategies, An Adaptation
    Plan(Programme) of Action legislation,
    coordinating mechanisms
  • Massive public awareness - to mobilize strong
    public and political support (Role of Media)
  • Effective information management and networking,
    cooperation among stakeholders
  • Improved knowledge base
  • Integrating CC considerations into national
    planning and programmes

47
Role of policy-makers
  • Climate change involves complex interactions
    among climatic, environmental, economic,
    political, institutional, social and
    technological processes
  • To be effective local action should be driven at
    the topmost level of policy making

48
Role of Policy-makers
  • Policy makers are best placed to decide which
    aspects of the problem are sufficiently important
    to invest time and resources on, which sectors or
    sections of the country to pay particular
    attention to, and the best ways by which
    government, donors and a range of stakeholders
    could work together, and with the international
    community, to address the problem.

49
President YarAdua
  • The consequences of Climate Change are
    frightening and life threatening. All countries
    are affected in varying degrees. The African
    continent is particularly vulnerable to the
    impacts of climate change, a vulnerability that
    is compounded by the continents massive
    infrastructure deficit, endemic poverty, and
    disease burden.
  •  

50
President YarAdua
  • Nigeria with a population of over 140 million
    and growing at the rate of over 2 per annum, is
    extremely vulnerable to the adverse effects of
    climate change. The combined effects of
    desertification and soil erosion in the northern
    and southern parts of the country, respectively,
    continue to adversely impact on our agriculture,
    energy, biodiversity and water resources.

51
President YarAdua
  • Nigerias adaptation strategy is, therefore,
    necessarily mainstreamed into its developmental
    policies.

52
  • N

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