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  • Hi, Alex here? What is sustainability?

  • Is there a definition that would be easy to understand and that we could

  • all agree upon? Well let's get drawing!

  • Sustainability. Sustainable development.

  • You must have heard these words a lot over the last number of years.

  • Well, at least I did. And maybe just maybe

  • sometimes you were not totally clear as to what people really meant.

  • So you may be familiar with the Brundtland definition

  • which is quite common: sustainable development

  • is development that meets the needs of the present without compromising the

  • ability of future generations

  • to meet their own needs. Although this doesn't exactly tell us what to do on

  • Monday morning

  • it's a very easy definition to understand and to communicate.

  • There's another one, one that was created in the late

  • nineteen eighties that is more of a scientific definition

  • it was created by a Swedish doctor his name is Karl-Henrick Robèrt

  • and he was frustrated with the lack

  • of common language around sustainability so he thought

  • what if he managed to get a group of scientists together

  • and to agree on what sustainability means

  • based on science and thermodynamics and maybe

  • that will lead to understanding what the root causes of

  • unsustainability are. So that's what he did

  • he put together a group of 50 scientists: mathematicians, physicists,

  • chemists, etc.

  • and after 22 drafts they agreed on several things.

  • First they agreed on the fact that we live in the biosphere

  • so the biosphere is this very thin layer

  • at the surface of the earth where life is possible

  • proportionally speaking it's as

  • thin and fragile as the skin on an onion. And within this biosphere

  • there are plants and animals. Plants produce

  • oxygen and food which are consumed by the animals

  • and in return the animals produce fertilizer

  • and CO2 (carbon dioxide) which

  • are used by the plants and we have a cycle that is well balanced.

  • So this is a very quick cycle

  • we eat every day and we breath every second and it works very well

  • Then they agreed on the fact that this system,

  • the biosphere, is open with respect to energy

  • So this means that energy

  • from the Sun comes in and radiations come out

  • And they also agreed on the fact that this system

  • is closed with respect to matter so

  • maybe you remember this very famous phrase from Lavoisier that says

  • nothing is created, nothing disappears, everything is only transformed.

  • So this is also known as the first law of thermodynamics

  • the law of conservation of matter and

  • it means that except for a few satellites and meteorites

  • all the matter that was on earth

  • 4 billion years ago is still here today

  • it has changed form and the molecules

  • reorganized themselves over time but

  • it is still the same matter and the other thing that comes with this

  • is that everything has a tendency to disperse

  • So for example take an iPhone

  • and wait for a million years, it's very likely that you will get a pile of dust.

  • Take a pile of dust and wait for a million years

  • you will never get an iPhone. It works only in one direction.

  • This is also known as the second law of thermodynamics,

  • the law entropy. So

  • if everything disperses all the time, how is it possible

  • that we live here in such a beautiful world

  • with beautiful nature, cities, people,

  • flowers and so on. Well this is what

  • photosynthesis does for us. Photosynthesis

  • pays the bills. It enables plants

  • to use the energy from the Sun in order to reorganize

  • matter and create new structure. So the group of scientists

  • also agreed on the fact that there are other cycles,

  • very slow geological cycles, that bring matter

  • from the lithosphere, that we also call the earth's crust,

  • to the biosphere and these cycles

  • are also very well balanced: some matter

  • moves from the earth's crust to the biosphere

  • through things like volcano eruptions and weathering.

  • And just about the same amount of matter goes back from the biosphere to the

  • earth's crust

  • via things like mineralization and sedimentation

  • and all this is well balanced. These cycles take millions of years

  • they're very slow unlike the previous ones and

  • they also work very well. So this is what the scientific community agreed upon

  • so this is the world we live in and

  • so we can ask a question what is sustainability? Well

  • sustainability is actually the capacity of

  • our human society to continue indefinitely within these natural cycles

  • and sustainable development would be

  • a development towards this state of sustainability. So you may be thinking well

  • this does not exactly tell us what to do on Monday morning either.

  • Well that's right but it enabled the group of scientists

  • to look at the things that we do to interfere with these natural cycles

  • and they found 4 root causes of

  • unsustainability and these are the 4 things

  • that we need to stop doing to be sustainable

  • And that will be the next video. Before moving to the next one, here are the key

  • points to keep in mind: all the matter that was on earth

  • four billion years ago is still here today there is no "away"

  • everything has a tendency to disperse and lose its structure over time

  • photosynthesis pays the bills it

  • uses the energy from the Sun to reorganize matter

  • left to their own devices natural cycles

  • are well-balanced and sustainability

  • is the capacity of our human society to continue indefinitely within

  • the natural cycles. So I hope this is helpful.

  • Please subscribe if you like the content and thank you for watching

Hi, Alex here? What is sustainability?

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持続可能性の定義:科学的でシンプル (Sustainability definition: scientific & simple)

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    VoiceTube に公開 2021 年 01 月 14 日
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