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Why we're storing billions of seeds

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    All human life,
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    all life, depends on plants.
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    Let me try to convince you of that in a few seconds.
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    Just think for a moment.
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    It doesn't matter whether you live in a small African village,
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    or you live in a big city,
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    everything comes back to plants in the end:
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    whether it's for the food, the medicine,
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    the fuel, the construction, the clothing, all the obvious things;
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    or whether it's for the spiritual and recreational things
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    that matter to us so much;
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    or whether it's soil formation,
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    or the effect on the atmosphere,
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    or primary production.
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    Damn it, even the books here are made out of plants.
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    All these things, they come back to plants.
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    And without them we wouldn't be here.
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    Now plants are under threat.
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    They're under threat because of changing climate.
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    And they are also under threat because they are sharing a planet
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    with people like us.
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    And people like us want to do things that destroy plants,
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    and their habitats.
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    And whether that's because of food production,
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    or because of the introduction of alien plants
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    into places that they really oughtn't be,
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    or because of habitats being used for other purposes --
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    all these things are meaning that plants have to adapt,
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    or die, or move.
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    And plants sometimes find it rather difficult to move
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    because there might be cities and other things in the way.
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    So if all human life depends on plants,
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    doesn't it make sense that perhaps we should try to save them?
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    I think it does.
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    And I want to tell you about a project to save plants.
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    And the way that you save plants
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    is by storing seeds.
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    Because seeds, in all their diverse glory,
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    are plants' futures.
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    All the genetic information for future generations of plants
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    are held in seeds.
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    So here is the building;
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    it looks rather unassuming, really.
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    But it goes down below ground many stories.
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    And it's the largest seed bank in the world.
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    It exists not only in southern England,
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    but distributed around the world. I'll come to that.
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    This is a nuclear-proof facility.
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    God forbid that it should have to withstand that.
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    So if you're going to build a seed bank, you have to decide
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    what you're going to store in it. Right?
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    And we decided that what we want to store first of all,
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    are the species that are most under threat.
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    And those are the dry land species.
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    So first of all we did deals
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    with 50 different countries.
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    It means negotiating with heads of state,
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    and with secretaries of state in 50 countries
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    to sign treaties.
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    We have 120 partner institutions all over the world,
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    in all those countries colored orange.
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    People come from all over the world to learn,
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    and then they go away and plan exactly how
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    they're going to collect these seeds.
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    They have thousands of people all over the world
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    tagging places where those plants are said to exist.
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    They search for them. They find them in flower.
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    And they go back when their seeds have arrived.
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    And they collect the seeds. All over the world.
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    The seeds -- some of if is very untechnical.
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    You kind of shovel them all in to bags and dry them off.
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    You label them. You do some high-tech things here and there,
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    some low-tech things here and there.
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    And the main thing is that you have to dry them
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    very carefully, at low temperature.
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    And then you have to store them
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    at about minus 20 degrees C --
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    that's about minus four Fahrenheit, I think --
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    with a very critically low moisture content.
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    And these seeds will be able to germinate,
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    we believe, with many of the species,
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    in thousands of years,
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    and certainly in hundreds of years.
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    It's no good storing the seeds if you don't know they're still viable.
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    So every 10 years we do germination tests
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    on every sample of seeds that we have.
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    And this is a distributed network.
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    So all around the world people are doing the same thing.
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    And that enables us to develop germination protocols.
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    That means that we know the right combination of heat
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    and cold and the cycles that you have to get
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    to make the seed germinate.
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    And that is very useful information.
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    And then we grow these things,
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    and we tell people, back in the countries where these seeds have come from,
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    "Look, actually we're not just storing this
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    to get the seeds later,
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    but we can give you this information about
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    how to germinate these difficult plants."
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    And that's already happening.
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    So where have we got to?
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    I am pleased to unveil that our three billionth seed --
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    that's three thousand millionth seed --
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    is now stored.
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    Ten percent of all plant species on the planet,
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    24,000 species are safe;
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    30,000 species, if we get the funding, by next year.
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    Twenty-five percent of all the world's plants, by 2020.
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    These are not just crop plants,
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    as you might have seen stored in Svalbard in Norway --
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    fantastic work there.
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    This is at least 100 times bigger.
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    We have thousands of collections that have been sent out
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    all over the world:
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    drought-tolerant forest species sent to Pakistan and Egypt;
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    especially photosynthetic-efficient plants
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    come here to the United States;
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    salt-tolerant pasture species sent to Australia;
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    the list goes on and on.
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    These seeds are used for restoration.
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    So in habitats that have already been damaged,
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    like the tall grass prairie here in the USA,
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    or in mined land in various countries,
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    restoration is already happening because of these species --
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    and because of this collection.
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    Some of these plants, like the ones on the bottom
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    to the left of your screen,
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    they are down to the last few remaining members.
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    The one where the guy is collecting seeds there on the truck,
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    that is down to about 30 last remaining trees.
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    Fantastically useful plant,
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    both for protein and for medicine.
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    We have training going on in China, in the USA,
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    and many other countries.
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    How much does it cost?
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    2,800 dollars per species is the average.
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    I think that's cheap, at the price.
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    And that gets you all the scientific data
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    that goes with it.
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    The future research is "How can we find
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    the genetic and molecular markers
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    for the viability of seeds,
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    without having to plant them every 10 years?"
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    And we're almost there.
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    Thank you very much.
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    (Applause)
Title:
Why we're storing billions of seeds
Speaker:
Jonathan Drori
Description:

In this brief talk from TED U 2009, Jonathan Drori encourages us to save biodiversity -- one seed at a time. Reminding us that plants support human life, he shares the vision of the Millennium Seed Bank, which has stored over 3 billion seeds to date from dwindling yet essential plant species.
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Video Language:
English
Team:
closed TED
Project:
TEDTalks
Duration:
06:20
TED edited English subtitles for Why we're storing billions of seeds
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