environment and sustainable development - lu · margareth thatcher, ronald reagan; globalisation....
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Environment and Environment and Sustainable DevelopmentSustainable Development
Connie Hedegaard,
European Commissioner
for Climate Action
Everything is a question of timing. This is true for climate change too.
This presents both a problem and an opportunity. Briefly, the This presents both a problem and an opportunity. Briefly, the problem is that it is difficult to instil a sense of urgency when effects are slow to be felt.
The time horizons are too long for us as individuals and politicians. We are all made to deal with near–term, more immediate problems first, even at the expense of longer-term well-being.
Janez Potočnik,
European Commissioner
for the Environment
We have spent 40 years developing the environmental laws that have given Europeans cleaner water and air, while
We have spent 40 years developing the environmental laws that have given Europeans cleaner water and air, while providing a more level playing field for businesses. And, of course, we have new technologies at our fingertips.
However, we still need to change our behaviour, as consumers and as producers. The effects of global population growth, our aging societies and many other challenges are having a major impact on our planet.
Andris Piebalgs,
European Commissioner
for the Development
Humans have changed eco-systems extensively to meet the growing demand for food, fresh water, timber, fibre, growing demand for food, fresh water, timber, fibre, medicine and fuel.
Further population growth of two billion is predicted by 2030, combined with the goal to pull everyone out of extreme poverty, which will lead to an unprecedented pressure on ecosystems unless effective counteractive measures are taken.
Environmental
Performance Index–
Ranking & Scores
2012
1 Switzerland 892 Latvia 1*3 Norway 844 Luxembourg 1065 Costa Rica 1136 France 197 Austria 718 Italy 129 United Kingdom 209 Sweden 6311 Germany 5612 Slovakia 713 Iceland 64
120 Pakistan 72121 Tajikistan 38122 Eritrea 26
5
13 Iceland 6414 New Zealand 5015 Albania 416 Netherlands 9217 Lithuania 10418 Czech Republic 2519 Finland 5420 Croatia 7421 Denmark 4522 Poland 10723 Japan 6024 Belgium 925 Malaysia 33
...
122 Eritrea 26123 Libya 61124 Bosnia & Herzegovina 129125 India 95126 Kuwait 131127 Yemen 29128 South Africa 124129 Kazakhstan 126130 Uzbekistan 69131 Turkmenistan 123132 Iraq 125
* Latvia ten years before has 1. position in the Wor ld
Yale University (Yale Center for Environmental Law and Policy) and Columbia University (Center for
International Earth Science Information Network) in collaboration with the World Economic Forum and the
Joint Research Centre of the European Commission.
www.epi.yale.edu
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Rank Country Score Ten-Year Change
1 Switzerland 87.67 0.80%
2 Luxembourg 83.29 3.02%
3 Australia 82.40 2.32%
4 Singapore 81.78 0.94%
5 Czech Republic 81.47 3.47%
6 Germany 80.47 1.89%
7 Spain 79.79 1.82%
8 Austria 78.32 1.82%
9 Sweden 78.09 1.30%
10 Norway 78.04 2.79%
11 Netherlands 77.75 4.62%
12 United Kingdom 77.35 3.48%
13 Denmark 76.92 4.30%
14 Iceland 76.50 2.99%
26 Japan 72.35 2.17%
27 France 71.05 3.29%
28 Hungary 70.28 4.10%
29 Chile 69.93 7.44%
30 Poland 69.53 2.67%
31 Serbia 69.13 2.99%
32 Belarus 67.69 4.17%
33 United States of America 67.52 2.23%
34 Malta 67.42 2.70%
35 Saudi Arabia 66.66 4.09%
36 Belgium 66.61 3.22%
37 Brunei Darussalam 66.49 -0.84%
38 Cyprus 66.23 2.18%
39 Israel 65.78 0.70% 14 Iceland 76.50 2.99%
15 Slovenia 76.43 15.16%
16 New Zealand 76.41 2.58%
17 Portugal 75.80 7.23%
18 Finland 75.72 0.45%
19 Ireland 74.67 1.70%
20 Estonia 74.66 15.91%
21 Slovakia 74.45 2.66%
22 Italy 74.36 2.72%
23 Greece 73.28 6.20%
24 Canada 73.14 2.58%
25 United Arab Emirates 72.91 -0.95%
39 Israel 65.78 0.70%
40 Latvia 64.05 5.69%
41 Bulgaria 64.01 3.59%
42 Kuwait 63.94 22.96%
43 South Korea 63.79 7.37%
44 Qatar 63.03 -1.33%
45 Croatia 62.23 6.34%
46 Taiwan 62.18 4.33%
47 Tonga 61.68 0.37%
48 Armenia 61.67 8.02%
49 Lithuania 61.26 9.06%
50 Egypt 61.11 9.67%
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2013
Developmental dilemmas and challenges are not new. We should remind
What is World development
tendencies?
What will be our future ?
What will happen when
natural resources will be
depleted ?
How we will be influenced by global
worming ?
Why there are so many disastersin the World ?
Does our children has clean and
safe environment ?
WHAT IS DEVELOPMENT ?WHAT IS DEVELOPMENT ?
The main message is that we are on the verge of a n ew such shift of our societies, to introduce a new development paradigm. It is sust ainable development.
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Developmental dilemmas and challenges are not new. We should remind ourselves that in many times in history our societies have changed th e direction ,
even changed the development paradigm.
Only during the last 100 years, four such changes o f direction may be found. Industrialism, introduced even earlier, was revolut ionary in terms of transformation of our society and its environmental consequences.
1600. The scientific revolution. Modern natural sciences, resource use.
1700. The Enlightenment. Development based on science and intellectual understanding.
1750. The Industrial Revolution, urbanisation. Consumer goods produced by large scale manufacturing in industries; use of fossil fuels on a large scale.
MANKIND DEVELOPMENTSMANKIND DEVELOPMENTS
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1900. Socialism, Democracy. A stronger civil society: development for everyone.
1920. Marxism/Capitalism (East/West). A new economic order.
1950. Modernism. State and market; economic growth.
1980. Neoliberal capitalism. Margareth Thatcher, Ronald Reagan; globalisation.
2000. Wanted: a new development ! Sustainable development !
During the last decades through new technologies, economic investments and political reforms have
improved the lives of many . Material standards are
more advanced
We are living better
Travels are morefreely
Health care is betterCommunications are easier
TENDENCIES OF THE DEVELOPMENTTENDENCIES OF THE DEVELOPMENT
The environment has rather been understood as a bac kground condition always available, always providing, limitless, robust, not really hurt.
It was not until recently that we had come to an un derstanding that this improvement has occurred with a cost, an environmental cost . Reformers of our
societies, politicians and economists, have not inc luded nature and the environment in their calculations.
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Over the 100 years between 1900 and 2000, the world ’s population increasedover four times, from 1.5 to six billion people.
On top of that, the resources each of these individ uals uses have on average On top of that, the resources each of these individ uals uses have on average quadrupled. Resource use has thus increased close t o 16quadrupled. Resource use has thus increased close t o 16--fold over this period;fold over this period;
it varies for different kinds of resources.it varies for different kinds of resources.
The number of pigs increased 9 times (we eat twice as much meat per capita)
Use of resources in the 20Use of resources in the 20 thth centurycentury
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Deforestation was 20%
The global economy increased 14 times
Industrial production increased 40 times
Energy use increased 16 times, almost entirely due to fossil fuels
Carbon dioxide emissions increased 17 times
Sulphur dioxide emissions increased 13 times
Ocean fishing catches increased 35 times
The number of pigs increased 9 times (we eat twice as much meat per capita)
Very intensive urbanisation !Very intensive urbanisation !
Growing transport system and industrialisation
Overuse of the resourcesOveruse of the resources ––some examplessome examples
Agricultural fields increased 2 times
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Very intensive Very intensive agriculture !!
The situation at the beginning of the 21st century is unique and unparalleled in the history of our societies and the Earth.
World in the 21World in the 21 thth centurycentury
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If we look more carefully at the developments over time, we see that the speed of growth is itself increasing . There is an exponential growth of resource use.
Exponential growth is characterised by a constant p ercentage increase.
We certainly cannot go on like this forever. There are limits to growth.
The limits are set by our planetThe limits are set by our planet !!
The present development is most clearly illustrated by the use of energy in our societies. As many other resources, its use has inc reased many times, but there is
an additional dilemma.
In the world as a whole, 85% of the energy supply r elies on fossil carbon: solid coal, liquid oil and gaseous natural gas.
THE ENERGY DILEMMA AND NONTHE ENERGY DILEMMA AND NON--RENEWABLE RESOURCESRENEWABLE RESOURCES
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These stores of carbon are the result of processes which took the planet millions of years to complete. They are non-renewable for the simple reason that we use
them about a million times quicker than they were f ormed.
This means that the stock of these resources will end at some point, just as the money in the bank will be depleted if you take it out a million times faster than you put it in. There is only limited amount of coal, oil and gas on the planet. According to recent
estimations, about half of their amount was used up in 2008.
Then we reached the global peak oil, i.e., the year of
NONNON--RENEWABLE RESOURCESRENEWABLE RESOURCES
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Then we reached the global peak oil, i.e., the year of maximum extraction of oil and gas. Now the
extraction of coal, oil and gas has started to decline.
There will be ever less of it each year and a large demand will remain. The prices will increase.
We need to find other energy sources!
It can be illustrated by a comparison with the ener gy we need daily for our bodily functions. This is about 2.5 kWh (or about 2 100 kcal).
How much energy do we use ?
Is it much orlittle?
Energy and Energy and WWee
This means that the effect of an active person is about 100 W or the same as a normal, rather bright lamp bulb.
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We use close to 100 times moreenergy per capita than the body itself. We have abo ut
Very much can be achieved with one kWh. Not only is it enough for keeping a person running, with all their bodily functions, fo r about 10 hours.
It is also enough for lifting a heavy car to the top of the Eiffel Tower .
One kWhOne kWh
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energy per capita than the body itself. We have abo uta hundred “energy slaves”, each one of us.
The energy dilemma in our societies is threefold:
we use too much energy
we use mostly non-renewable energy – coal, oil and gas
we use energy for the most part very
inefficiently
In the pre-industrial society only renewable resour ces were used. For example, a mill to grind the wheat was propelled by wind or wa ter, and the household was
heated by burning wood.
Access to oil changed things dramatically. One litr e of oil can provide very much energy. Life became simpler and the new energy sour ce offered new
opportunities.
Industries were builtThe car with a motor run on oil
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Industries were builtThe car with a motor run on oil was better than a horse fed on
barley
Oil was used for fuels, solvents, plastics, to produce crop fertilisers, etc, etc.
< <<
Riga’s TES-2 as main fuel is natural gas, (~230 milj.m3/year).
Alternative is diesel.
USE OF NONUSE OF NON--RENEWABLE RESOURCESRENEWABLE RESOURCES
The lignite power plant in Belchatow in Poland is typical of most electricity production. It is
presently the largest emitter of carbon dioxide in the European Union. Lignite mining is seen
in the foreground.
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At present for each barrel of oil found three are extracted.Peak oil, the year of max extraction, was registered in 2008.
The production of fossil oil and gas is predicted to continue up to 2050, at which time the known resources could be depleted.
The oil ageThe oil age
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Using fossil fuels as an energy source is not only connected with the dilemma of using up non-renewables.
It is also connected to the down-stream side of the process, that is, the waste produced.
For any process, we have to look at three stages:
What kind of waste does it lead to?
Where does the resource come from?
What is its use ?
Consequences by using fossil fuelsConsequences by using fossil fuels
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The problem with the use of fossils is that it is not balanced by an equal amount of uptake.
It is a linear flow, from source to waste, rather than a circular one.
In the case of the combustion of fossil carbon, we will always have carbon dioxide, CO2, as the waste
product.
CO2 is taken upby plants and algae during photosynthesis.
It is clear that the present level of carbon
The use of fossil carbon has continued since the beginning of industrialisation, about mid-1700s. The data shows that from a pre-industrial level
of about 280 ppm of carbon dioxide in the atmosphere, we have reached 387 ppm in 2009
and 400 ppm in 2013.
The use of fossil fuels on a massive scale leads to the accumulation of massive The use of fossil fuels on a massive scale leads to the accumulation of massive amounts of carbon dioxide in the atmosphere !amounts of carbon dioxide in the atmosphere !
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It is clear that the present level of carbon dioxide has not occurred for at least 800 000
years.
It should be compared to data on the atmosphere gathered through analysis
of ice cores in the Arctic and Antarctic. It allowsus to analyse the composition of air hundreds of
thousands of years back.
Correlation between concentration of CO2
and global temperature.
Along with water, carbon dioxide is the most important greenhouse gas of the atmosphere and thus a decisive factor for the temperature on the planet.
If we continue to emit carbon dioxide into the atmosphere, we will experience even
The increased levels of carbon dioxide have led to an increased average temperature !
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higher temperatures. Furthermore, we need to add emissions of other greenhouse gases, especially the increasing emissions of methane, to the increased
carbon dioxide levels, as well as other eff ects such as reinforcing feedback mechanisms studied by the climate scientists. Predictions are surely inexact, but who would like to chance that they are wrong?
To date, the increase has been close 1°C.
The conclusions are alarming. If the concentration of carbon dioxide stops at the present level, we will have about 2 °C of temperature increase !
As a reference for how much a change of a few degrees means, we may compare thepresent with the most recent Ice age. Back then the global mean temperature was by
about 5 °C lower than today.
In 2003, we had the highest mean summer temperature ever recorded in Europe (predicted to be normal about 2025). During that summer there were about 35 000
additional deaths caused by excessive heat, and the economic damagesfor farmers were about 25%, depending on the crop.
A few degrees do matter !
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The most serious consequences of increased temperat ure includes :
Economic impacts because of reduced agriculturalproduction
Changed patterns of precipitation
Health impacts, also due to increased
incidents of insect-borne diseases
Landscape changes, e.g.
raising sea levels
More frequent extreme weather
events whichlead to physical
destruction
Forest fires; Greece, 2007.
Climate change Climate change –– some consequencessome consequences
Forest fires; Greece, 2007.
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Destruction of polar ice sheets
We may use renewable energy resources:• flowing energy resources – wind, water and sun;
▪ stored energy resources, bio-energy – solid resources such as, e.g., wood, liquid, ethanol made from sugar, and biogas.
SOLVING THE ENERGY DILEMMASOLVING THE ENERGY DILEMMA
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The most developed technology is hydropower. Today wind power comes in as the second.
Today in many countries flowing energy is already a cheaper alternative as the necessary investment is paid back a er a few years.
In some countries the government provides an economic incentive to support the development of alternatives to fossils.
In the long-term we have to create society run on renewable energy either directly, as provided by flowing energy resources, or indirectly, by using bio-energy.
Biogas plant in Uppsala, Sweden.
RENEWABLE RENEWABLE ENERGY ENERGY RESOURCESRESOURCES
Hydropower station in Pļaviņas, Latvia.
Second biggest in the European Union by power.
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In Europe as a whole, the energy use is often both extensive and inefficient today.
In the short term perspective, the energy efficiency increase is typically the most profitable strategy in the conversion to fossil independency.
By improving, e.g., the insulation of buildings or the design of district heating, heat consumption may be reduced dramatically.
Energy efficiencyEnergy efficiency
Making economic development independent of fossil carbon is called decoupling . It is the first step towards the conversion of an economy to fossil independency, which
some countries have slowly begun.
consumption may be reduced dramatically.
28
Recently a study has been carried out to define the limits for a number of processes on the Earth more exactly. These were called the nine planetary boundaries . They have
been defined for nine different processes or resources.
It is clear that these trends need to be reversed to protect future life. It is promising that the effects of one boundary transgressed some years back have been reversed – the
concentration of ozone depleting gases in the upper atmosphere. This is now within safe limits, and the properties of protection against the UV radiation of the ozone layer are
PLANETARY BOUNDARIESPLANETARY BOUNDARIES
limits, and the properties of protection against the UV radiation of the ozone layer are slowly being restored.
Solution – Sustainable Development
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Three of the defined boundaries are transgressed to day. These are:
The concentration of greenhouse gases in the atmosphere
The speed with which biodiversity decreases
Nitrogen and phosphorus inputs to the biosphere
OVERSHOOT OF THE PLANETARY BOUNDARIESOVERSHOOT OF THE PLANETARY BOUNDARIES
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The alternative – a development which reaches a dyna mic balance with theresource base – is sustainable development.
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32
s
If the growth in a system continues unhampered, it will eventually use more
resources than what are produced (overshoot) and will collapse at some point; at the same
time, the resource base is degraded. The alternative – a development which reaches a dynamic balance with the resource base – is
sustainable development.
Consumption changes with
time
Overshoot and collapseOvershoot and collapse
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Overshoot and collapse had happened in some communities, particularly on isolated islands, where boundaries (resources and space) are visible.
Planet Earth is island in the space !
What will happen to our world if growthcontinues, the so-called ‘business as usual’.
The answer was that there would be overshoot, a peak and then collapse. In a
2004 update, most parameters were shown to peak around 2025. Nevertheless, it will be
different for different parameters.
The estimation is that species extinction is today 100 to 1 000 times faster than “natural”, i.e., before civilisation.
The most dramatic threat to biodiversity occurs in tropical forests where biodiversity is very large, but the Baltic Sea region is also part of the decreased biodiversity.
Biodiversity Biodiversity –– the variety of life the variety of life –– has become one of the most has become one of the most seriously threatened resourcesseriously threatened resources
The Porpoise in the Baltic Sea.In the Baltic Sea, our only dolphin species – the Porpoise – is facing extinction.
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Ecosystem services Ecosystem services ::
Cultural ecosystemservices - beauty of nature and joy of spending time in our living
environment when walking, hiking, travelling on water or just
resting
Provisioning ecosystem
services - supply of food, water and clean air
Regulating ecosystemservices - climate, nutrient
flows, self-cleaning and regulation of water,
pollination
Nature is thus not only a pleasant fund.Nature is thus not only a pleasant fund.It provides for us what is called ecosystem service s.It provides for us what is called ecosystem service s.
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Realitātē par daudziem ekosistēmu pakalpojumiem ikdienā nav jāmaksā, bet jāsaprot,
ka maksa var būt planētas nākotne kopumā, tāpēc jārūpējas par dabu un resursi
jāizmanto, rūpīgi ievērojot to pašatjaunošanās spējas
resting
It is obvious that all this is priceless in the basic sense – that we would not be able to live without these services. Yet it is possible
to estimate the monetary value. The most cited assessment of the price is USD 33 trillion for the global society. This is more than the sum of all goods and services bought and sold over a year.
However, we very seldom pay for this; and we need to take bettercare of ecosystem services.
Sustainable society needs to be economically viable (of great vitality). Obviously the environment needs to be functional to allow for a functioning economy.
Otherwise there would be no agriculture, forestry and fishery, production of energy etc, but not only that.
In the industrial sector, an important approach is cleaner production that is resource efficient and does not lead to pollution. Cleaner production has its technical aspects –
how to recycle resources, reduce leakage of energy and materials.
A WAY TO IMPROVE INDUSTRIAL PRODUCTION AND THE ECON OMYA WAY TO IMPROVE INDUSTRIAL PRODUCTION AND THE ECON OMY
36
Companies working with environmental management systems may becomecertified according to one of the international systems, among which the best known is the ISO 14001 certification (ISO – the International Organisation of Standardisation) or
EMAS (Environmental management and auditing scheme – EU).
how to recycle resources, reduce leakage of energy and materials.
“Reduce” - we should make an effort to make
withoutan additional product.
“Reuse” oftenmeans “repair” - do not
waste a product but take care of it.
“Recycle” refers to the material the
products are made of.
The concern regarding a product does not stop at it s production; the extraction of resources needed for the product, the use of the product and its
waste, i.e., its entire life cycle is the concern. The cycle needs to be environmentally and economically sound.
Sorting wasteEfficient recycling at the household level is a prerequisite for good waste management in
sustainable society.
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We need a combination of:
technology development
regulations, taxes and rules supportingsustainable solutions
new infrastructures, e.g. for communication and travel
life stylechanges
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A scheme which improves the public transport and supplies renewable fuels, best electricity, for cars; life style changes towards supporting living without using energy
unnecessary are all essential.
It is possible to exemplify with the energy sector. To use only renewable energy, weneed technology to provide energy from solar cells, solar panels, wind and wave power stations etc. Nevertheless, there is also a need for policy instruments (regulations) that support it. A state policy of tariffs (guaranteed price) for renewable electricity has been
pointed out as a key regulation in the energy sector.
A sustainable life needs to be more dematerialised – it is fi ne to do things which do not increase the capital that much, e.g. spendin g time with one’s family,
friends, playing music etc.
There is a limit to how much we may consume, but it does not necessarily lead to There is a limit to how much we may consume, but it does not necessarily lead to
A sustainable life leads to less work – this is some times referred to as ‘slow life’.This term comes from the ‘slow cities’ and ‘slow fo od’ movements which started
in Italy.
How to live sustainably ?How to live sustainably ?
39
There is a limit to how much we may consume, but it does not necessarily lead to There is a limit to how much we may consume, but it does not necessarily lead to a decreased life quality !a decreased life quality !
Beddington Zero Energy Development, the United Kingdom, the largest sustainable
community in the UK, was completed in 2002. It uses 50% of the electricity and 20% of the
heating of the UK average. The design, including solar panels and solar cells, helps the inhabitants
solve problems of heating and water use,facilitates walking rather than driving and
improves the quality of life.
It is always difficult to see our present situation from a distance. However, some basic facts are obvious. From a distant historical perspective, we, the human society, are in a new and
very critical period, well into the Anthropocene, a geological era dominated by man .
With 7 billion inhabitants on the Earth, with the number sure to be going up to at least nine billion, the sheer number of people is threatening. We have moved well outside the
envelope of our historical experience in terms of our relationship with our planet.
One Planet LivingOne Planet Living
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We need to establish society which does not require more resources than the planet can provide. One Planet Living is the title of a recent project of the World Wide Fund for Nature.
It requires that we reduce our “footprints” to the size available when we begin to share resources in a just way. We will need to rethink ou r energy management, our nutritional and
travelling habits.
A school teacher in Visby, Gotland, the island in the middle of the Baltic Sea, used to ask his pupils to design a space ship for a very long journey. They had to say what they would like to bring. The
ship can only carry so much. The kids may disagree on what is the most important, but much talking it turns out they agree on basic things needed to secure a reasonable life. Personal items
vary. It is only a long discussion they start to compare the spaceship with our planet Earth.
School teachingSchool teaching
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Uppsala University – Baltic University Programme(Centre for Environment and Development Studies – CEMUS)
BUP student’s conference “Ecosystems,
biological diversity, resources, sustainable
development”
Rogow, Poland, April 14-18, 2010.
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Uppsala UniversityUppsala University (UU), located in Sweden, is one of the oldest universities
in the Nordic countries. UU is the coordinator of the Baltic University Programme.
Baltic University Programme-BUP• Established in 1991,
• BUP is a network of 220 universities and institutes of higher learning,• 14 countries in the Baltic Sea Basin are involved,
• 15 regional centres are selected,• 1,500 teachers/researchers are contributors,
• 9,500 students take part yearly.
Environmental Protection Law in the Republic of Environmental Protection Law in the Republic of
LatviaLatviaCHAPTER VIII. Environmental science, environmental education and education
for sustainable development
Section 42. Environmental Education
(1) The matters in respect of environmental education and education for sustainable
development shall be included in the mandatory curriculum of the subject or course
standard in accordance with the specific character of each subject by co-ordinatingstandard in accordance with the specific character of each subject by co-ordinating
and ensuring succession on different education levels.
(2) The environmental protection course shall be included in the mandatory part of all
study programmes of authorities of higher education and colleges.
(3) A course regarding sustainable development shall be included in the study programmes of instructors of all authorities of higher education and colleges.
Law approved in Saeima (Parliament) of the Republic of Latvia on November 2, 2006
Development of EnvironmentalDevelopment of Environmental
Science Study Content and Study MaterialsScience Study Content and Study Materials
Norway Grants Project LV0044
September 2008 – April 2011
Participating Participating iinstitutionsnstitutions of the Projectof the Project
Study CourseStudy Course
”Environment and Sustainable Development””Environment and Sustainable Development”
for Universitiesfor Universities
1. Introduction 2. Environmental Science
3. Ecosystem Services 4. Ecology
5. Environmental Systems 6. Natural Disasters
7. Resources 8. Environmental Pollution
9. Climate Change 10. Water Pollution
11. Lithosphere Pollution 12. Environmental Health
13. Economics – the Environment – Growth 14. Nature Protection13. Economics – the Environment – Growth 14. Nature Protection
15. Cultural Environment 16. Environmental Legislation
17. Environment and Territory Planning 18. Environmental Management, Institutions
19. International Cooperation 20. Environmental Technologies
21. Prevention of Air Pollution 22. Technologies for Drinking Water Processing
23. Wastewater Treatment Technologies 24. Solid Waste Management Systems
25. Sustainable Development 26. Implementation of Sustainable Development
27. Students’ Perspective on Sustainable Development
VidZ 1000 (4 CP)Total amount of the study hours 64Number of lecture hours: 32first test, second test, final exam.
Academic text book Academic text book
”Environment and Sustainable Development””Environment and Sustainable Development”
Environmental Simulation GamesEnvironmental Simulation Games
www.AtKisson.com© 2011 AtKisson, Inc.
EKOPROFIL: www.ekoprofil.com
Educational FilmsEducational Films
Films by VIDES FAKTI included in the study course
”Environment and Sustainable Development”
(89 films, 5–7 minutes long each)
Presentation of the bookPresentation of the book
Nordic Conferenceon SustainableDevelopmentin the Baltic RegionTurku, Finland,31 Jan–2 Feb, 2011
European Commission and DG Environment
Belarusian State University, Minsk
Moscow State University of Economics,Statistics and Informatics Opening Ceremony
of the Sustainability Index
Thank You for attention !Thank You for attention !