Global Climate Change Scenario Dr. A.K.M. Saiful Islam SAARC Training Program on Climate Change...

Global Climate Change Global Climate Change Scenario Scenario

Dr. A.K.M. Saiful Islam

SAARC Training Program on Climate Change Adaptation and Disaster Risk Reduction in South Asia

Bangladesh University of Engineering and Technology

Associate Professor, IWFMCoordinator , Climate Change Study Cell

Copy right @ Dr. A.K.M. Saiful Islam, IWFM, BUET

Outline

Introduction to Climatic System

Green House Effect and Global Warming

Status of Global Climate Change

Climate Change Predictions

Climate Change Scenarios

Climate Change Scenarios for Bangladesh

Overview of the Impact of Climate Change


Climate Systems

• The complicated system consisting of various components, including the dynamics and composition of the atmosphere, the ocean, the ice and snow cover, the land surface and its features, the many mutual interactions between them, and the large variety of physical, chemical and biological processes taking place in and among these components.

• Climate refers to the state of the climate system as a whole, including a statistical description of its variations.

Atmosphere

– 78% nitrogen, 21% oxygen, and 1% other gases.– Carbon dioxide accounts for just 0.03 - 0.04%. – Water vapor 0 to 2%


Components of Climate System


Green house gases

CO2 and some other minor gases

1. Absorb some of the thermal radiation leaving the surface of the earth.

2. Emit radiation from much higher and colder levels out to space.

These radiatively active gases are known as greenhouse gases.

– They act as a partial blanket for the thermal radiation from the surface which enables it to be substantially warmer than it would otherwise be, analogous to the effect of a greenhouse.


Green house effect


Human induced climate variation

Perturbations of the atmospheric composition – the enhanced greenhouse effect

Effect of aerosols:

– direct effect (scattering of incoming solar radiation)– indirect effect (affecting the radiative properties of clouds)

Land-use change (agriculture, deforestation, reforestation, afforestation, urbanisation, traffic, …)


Sector wise Green house gas emission


Increasing trends of CO2


Human induced changes of green house gases


Global temperature and Greenhouse gases


Temperature variation past 1,000 years


Increase of Temperature past 140 year


Surface Air temperature (1960-1990)


Ice melting

Images gathered from the Defense Meteorological Satellite Program of NASA show the minimum Arctic sea ice concentration 1979 (left) and 2003 (right).

1979 2003


Cracks in Ice bars


Trends of Sea Surface temperature


Sea Level Rise (1980-2000)20 cm rise of Global Sea Level in last century.

Prediction of another 80 cm rise by 2100.


Trends of Precipitations


Climate Models to predict climate change Climate models are computer-based simulations that use

mathematical formulas to re-create the chemical and physical processes that drive Earth’s climate.

To “run” a model, scientists divide the planet into a 3-dimensional grid, apply the basic equations, and evaluate the results.

Atmospheric models calculate winds, heat transfer, radiation, relative humidity, and surface hydrology within each grid and evaluate interactions with neighboring points.

Climate models use quantitative methods to simulate the interactions of the atmosphere, oceans, land surface, and ice.


GCM typical horizontal resolution of between 250 and 600 km, 10 to 20 vertical layers in the atmosphere and sometimes as many as 30 layers in the oceans.


Special Report on Emissions Scenarios (SRES)

The Special Report on Emissions Scenarios (SRES) was a report prepared by the Intergovernmental Panel on Climate Change (IPCC) for the Third Assessment Report (TAR) in 2001, on future emission scenarios to be used for driving global circulation models to develop climate change scenarios.

It was used to replace the IS92 scenarios used for the IPCC Second Assessment Report of 1995. The SRES Scenarios were also used for the Fourth Assessment Report (AR4) in 2007.


SERS Emission Scenarios

A1 - a future world of very rapid economic growth, global population that peaks in mid-century and declines thereafter, and the rapid introduction of new and more efficient technologies. Three sub groups: fossil intensive (A1FI), non-fossil energy sources (A1T), or a balance across all sources (A1B).

A2 - A very heterogeneous world. The underlying theme is that of strengthening regional cultural identities, with an emphasis on family values and local traditions, high population growth, and less concern for rapid economic development.

B1 - a convergent world with the same global population, that peaks in mid-century and declines thereafter, as in the A1 storyline.

B2 - a world in which the emphasis is on local solutions to economic, social and environmental sustainability.


Impact of the Changes of Green house gases Summary of changes in the global environment by the

2050s and 2080s for the four scenarios expressed as changes from the 1961-90 average. The current (1999) CO2 concentration is about 370ppmv. The effects of aerosols on climate are not considered. (ppmv = parts per million by volume)


Temperature increase versus SRES


Predicted changes of Temperature


Projected changes in annual temperatures for the 2050s

The projected change in annual temperatures for the 2050s compared with the present day, when the climate model is driven with an increase in greenhouse gas concentrations equivalent to about 1% increase per year in CO 2

BW 11


Sea Level Rise


Climatic Condition of Bangladesh

Mean daily temperature of Bangladesh has increased with a rate of 1.03 0C per 100 years

y = 0.0103x + 25.428

R2 = 0.2996

23

24

25

26

27

1948

1953

1958

1963

1968

1973

1978

1983

1988

1993

1998

2003

2008

(c)


Change of mean temperature (0C/year)


Predicting Rainfall

[Output of PRECIS model using SRES A2 scenario]


Predicting Maximum Temperature



Predicting Minimum Temperature



Predictions over Bangladeshhttp://teacher.buet.ac.bd/akmsaifulislam/climate/index.htm


Overview of the Impacts of climate change

Human Health impacts

Ecosystem Impacts

Agriculture Impacts

Water Resources Impacts

Market Impacts


Human Health impacts

Expansion of the areas of potential transmission of malaria and dengue fever (medium-to-high confidence); roughly 300 million more people at risk of malaria

Increased heat-related deaths and illness, affecting particularly the elderly, sick, and those without access to air conditioning

Increased risks to human life, risk of infectious disease epidemics and many other health risks where floods, droughts or storms increase in frequency and/or intensity

Decreased winter deaths in some temperate regions


Ecosystem Impacts

Coral death from exposure to 3-4 ºC higher seasonal maximum sea-surface temperatures for 6 months or more

Substantial reduction in glacier and ice-cap volume; tropical glaciers particularly vulnerable to elimination

Loss of unique vegetation systems and their endemic species (e.g. vegetation of Cape region of South Africa and some cloud forests)

Extensive reduction in Arctic summer sea-ice extent with benefits for shipping but adverse effects on sea-ice dependent animals (e.g. polar bears, seals, walrus)

Coastal wetland loss from sea level rise (up to 10% globally for 20 cm rise, higher percentages in some areas)

Increased disturbances of ecosystems by fire and insect pests

Increase net primary productivity of many mid- and high-latitude forests

Extinction of some critically-endangered and endangered species


Agriculture Impacts

General decrease in cereal crop yields in mid-latitudes

Decreased crop yields in areas of increased drought

Food prices increase relative to projections that exclude climate change

Decreased cereal crop yields in most tropical and subtropical regions

Increased heat stress in livestock and crop damage from heat waves

Decreased frost damage for some crops


Water Resources Impacts

Decreased water quantity and quality in some areas of increased drought

Increased flood damage due to more intense precipitation events

Decreased water supply in many water stressed countries (half-billion people in central Asia, southern Africa, and countries surrounding the Mediterranean affected)

Increased water supply in some other water stressed countries (e.g. parts of Asia)


Market Impacts

Net market sector losses most regions and for global aggregate

Increased insurance prices and reduced insurance availability in response to increased frequency and intensity of some extreme climate events

Decreased energy demand for heating buildings in winter and increased energy demand for cooling buildings in summer

Net market sector losses in many developing countries


Emission of CO2 ->who is responsible?

Per capita emissions of CO2 is less than 0.2 ton annually in Bangladesh, compared to 1.6 tons in the developing countries


Thank you

Global Climate Change Scenario Dr. A.K.M. Saiful Islam SAARC Training Program on Climate Change...

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