ABOUT THE SPEAKER
Jill Farrant - Professor of molecular and cell biology
Jill Farrant is leading the development of drought-tolerant crops to nourish populations in arid climates.

Why you should listen

A professor of molecular and cell biology at the University of Cape Town (UCT) in South Africa, Jill Farrant researches the remarkable (and little known) world of resurrection plants. These are plants that can survive extreme drought, “resurrecting” when moistened or irrigated. If we can better understand their natural preservation mechanisms and their key protectants, she suggests, it could help us develop more drought-tolerant crops to feed populations in increasingly dry and arid climates around the world. Her research may also have medical applications.

Farrant was the African/Arab States recipient of the 2012 L'Oreal-UNESCO Award for Women in Science, one of only five scientists worldwide who were selected by an international jury as "researchers who will have a major impact on society and help light the way to the future." In 2009, she was awarded an A-rating by the National Research Foundation (the first female researcher at UCT ever to receive such a rating) as well as being made a member of the UCT College of Fellows.

More profile about the speaker
Jill Farrant | Speaker | TED.com
TEDGlobal>Geneva

Jill Farrant: How we can make crops survive without water

吉兒.法倫特: 我們如何讓作物在無水狀態下存活

Filmed:
1,562,697 views

隨著世界人口成長及日益明顯的氣候變遷效應,我們必須以愈來愈少的可耕作土地餵飽愈來愈多的人。分子生物學家吉兒‧法倫特研究一種非常罕見的現象,可能有所助益:「復甦植物。」這是一種超耐旱植物,可以自己起死回生。這種植物可否為愈來愈乾熱的世界帶來一線希望?
- Professor of molecular and cell biology
Jill Farrant is leading the development of drought-tolerant crops to nourish populations in arid climates. Full bio

Double-click the English transcript below to play the video.

00:12
I believe that the secret秘密 to producing生產
extremely非常 drought-tolerant耐旱 crops作物,
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我相信要培育出極耐旱作物,
00:17
which哪一個 should go some way
to providing提供 food餐飲 security安全 in the world世界,
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為世界糧食安全提供
一定程度的解決之道,
00:20
lies in resurrection復活 plants植物,
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秘密在於復甦植物,
00:23
pictured合照 here, in an extremely非常
droughteddroughted state.
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這張圖片顯示它們處在
嚴重乾旱下的狀態。
00:26
You might威力 think
that these plants植物 look dead,
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你們可能會認為
這些植物看起來已經死了,
00:29
but they're not.
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但並非如此。
00:30
Give them water,
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給它們水,
00:31
and they will resurrect復活, green綠色 up,
start開始 growing生長, in 12 to 48 hours小時.
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它們會在 12 到 48 小時內
復甦、變綠、開始成長。
為什麼我會說
00:38
Now, why would I suggest建議
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00:39
that producing生產 drought-tolerant耐旱 crops作物
will go towards providing提供 food餐飲 security安全?
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培育耐旱作物
可以提供糧食安全?
00:45
Well, the current當前 world世界 population人口
is around 7 billion十億.
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目前全世界約有 70 億人口。
00:48
And it's estimated預計 that by 2050,
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據估計到了 2050 年,
00:51
we'll be between之間 9 and 10 billion十億 people,
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我們會有 90 到 100 億人口,
00:54
with the bulk of this growth發展
happening事件 in Africa非洲.
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大部分的增長會在非洲。
00:57
The food餐飲 and agricultural農業的
organizations組織 of the world世界
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世界糧食與農業組織提出,
01:00
have suggested建議 that we need
a 70 percent百分 increase增加
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依目前的耕作方式,
我們需要 70% 的成長
01:03
in current當前 agricultural農業的 practice實踐
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01:05
to meet遇到 that demand需求.
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以滿足此需求。
01:07
Given特定 that plants植物
are at the base基礎 of the food餐飲 chain,
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有鑑於植物位於食物鏈的底層,
01:10
most of that's going
to have to come from plants植物.
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此增長必須由植物提供。
01:13
That percentage百分比 of 70 percent百分
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70 % 這樣的百分比數字,
01:16
does not take into consideration考慮
the potential潛在 effects效果 of climate氣候 change更改.
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還沒有考慮到
氣候變遷的潛在影響。
01:20
This is taken採取 from a study研究 by Dai
published發表 in 2011,
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這是截自戴研究員
於 2011 年出版的研究報告,
01:25
where he took into consideration考慮
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他考慮到
01:27
all the potential潛在 effects效果
of climate氣候 change更改
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所有氣候變遷的潛在影響,
01:29
and expressed表達 them --
amongst其中包括 other things --
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並陳述,除了其它影響,
01:31
increased增加 aridity乾旱 due應有 to lack缺乏 of rain
or infrequent罕見的 rain.
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因為缺雨或不常下雨,
乾旱情況會加重。
01:36
The areas in red shown顯示 here,
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這裡看到的紅色區域
01:38
are areas that until直到 recently最近
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是直到最近
01:40
have been very successfully順利
used for agriculture農業,
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都很成功的農業用地,
01:43
but cannot不能 anymore
because of lack缺乏 of rainfall雨量.
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但無法再使用,因為降雨不足。
01:46
This is the situation情況
that's predicted預料到的 to happen發生 in 2050.
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圖上這種情況預計
將於 2050 年發生。
01:50
Much of Africa非洲,
in fact事實, much of the world世界,
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非洲大部分地區,
事實上全球大部分區域,
01:53
is going to be in trouble麻煩.
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都會有麻煩。
01:54
We're going to have to think of some
very smart聰明 ways方法 of producing生產 food餐飲.
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我們不得不想一些
非常高明的方式來生產糧食。
01:58
And preferably優選 among其中 them,
some drought-tolerant耐旱 crops作物.
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最好是選耐旱作物。
02:01
The other thing
to remember記得 about Africa非洲 is
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非洲有另一件事要記得,
02:04
that most of their agriculture農業 is rainfed旱作.
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絕大部分的農業都是
看天田(雨養農業)。
02:08
Now, making製造 drought-tolerant耐旱 crops作物
is not the easiest最簡單的 thing in the world世界.
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在這個世界培育
耐旱作物並不容易。
02:11
And the reason原因 for this is water.
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原因是水。
02:14
Water is essential必要 to life on this planet行星.
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水是地球生命的要素。
02:17
All living活的, actively積極地
metabolizing代謝 organisms生物,
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所有活著、還在代謝的生物,
02:21
from microbes微生物 to you and I,
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舉凡微生物或你我,
02:23
are comprised predominately主要 of water.
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主要都由水組成。
02:25
All life reactions反應 happen發生 in water.
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所有的生命反應都在水中發生。
02:28
And loss失利 of a small amount
of water results結果 in death死亡.
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失去一小部分的水
就會導致死亡。
02:31
You and I are 65 percent百分 water --
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你和我有 65% 是水,
02:33
we lose失去 one percent百分 of that, we die.
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只要失去 1% 的水就會死亡。
02:35
But we can make behavioral行為的
changes變化 to avoid避免 that.
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但是我們能改變行為
以避免這種情況。
02:39
Plants植物 can't.
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植物不能。
02:41
They're stuck卡住 in the ground地面.
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它們牢牢釘在地上。
02:43
And so in the first instance they have
a little bit more water than us,
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所以首先它們比我們
多含一點水,
02:46
about 95 percent百分 water,
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大約 95% 都是水,
02:47
and they can lose失去
a little bit more than us,
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可以比我們多失去一點水分,
02:49
like 10 to about 70 percent百分,
depending根據 on the species種類,
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從 10% 到約 70% 都可以,
端看是哪種植物,
02:54
but for short periods only.
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但是只能短暫失水。
02:56
Most of them will either try
to resist or avoid避免 water loss失利.
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大部分植物都會想辦法
抗拒或避免失水。
03:00
So extreme極端 examples例子 of resistors電阻
can be found發現 in succulents多肉植物.
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植物抗拒失水最極端的例子
就是多肉植物。
03:04
They tend趨向 to be small, very attractive有吸引力,
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它們通常很小、很漂亮,
03:07
but they hold保持 onto their water
at such這樣 great cost成本
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但是它們為了保住水分,
付出了極大的代價,
03:10
that they grow增長 extremely非常 slowly慢慢地.
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就是長得奇慢無比。
03:13
Examples例子 of avoidance躲避 of water loss失利
are found發現 in trees樹木 and shrubs灌木.
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可以在樹木或灌木中
找到避免失水的例子。
03:18
They send發送 down very deep roots,
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它們札下深根 ,
03:19
mine subterranean地下 water supplies耗材
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佈下地網尋找水源,
03:21
and just keep flushing沖洗
it through通過 them at all times,
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隨時補注自己,
03:23
keeping保持 themselves他們自己 hydrated水合.
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保持含水狀態。
03:25
The one on the right is called a baobab猴麵包樹.
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右邊這種樹
叫波巴布樹(猢猻樹)。
03:27
It's also called the upside-down上下翻轉 tree,
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又稱為倒栽樹,
03:29
simply只是 because the proportion比例
of roots to shoots is so great
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就是因為根與莖的比例
差別如此之大,
03:33
that it looks容貌 like the tree
has been planted種植的 upside上邊 down.
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看起來很像倒著種的樹。
03:36
And of course課程 the roots are required需要
for hydration水化 of that plant.
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當然它的根部
必需讓整棵樹含水。
03:40
And probably大概 the most common共同 strategy戰略
of avoidance躲避 is found發現 in annuals一年生植物.
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大概最常見的避免失水策略
可在一年生植物中看到。
03:45
Annuals年鑑 make up the bulk
of our plant food餐飲 supplies耗材.
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一年生植物
佔糧食供給的一大部分。
03:49
Up the west西 coast of my country國家,
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我國西海岸,
03:50
for much of the year
you don't see much vegetation植被 growth發展.
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一年大部分的時間
都看不到什麼植物生長。
03:54
But come the spring彈簧 rains降雨, you get this:
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但是春天一下雨,
你就看到這個:
03:57
flowering開花 of the desert沙漠.
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開花的沙漠。
03:59
The strategy戰略 in annuals一年生植物,
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一年生植物的策略,
04:00
is to grow增長 only in the rainy多雨的 season季節.
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是只在雨季成長。
04:03
At the end結束 of that season季節
they produce生產 a seed種子,
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到了季末它們會結種子,
04:06
which哪一個 is dry, eight to 10 percent百分 water,
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種子是乾的,
8% 到 10% 的水,
04:09
but very much alive.
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但是的確是活的。
04:10
And anything that is
that dry and still alive,
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那麼乾卻還活著的東西,
04:13
we call desiccation-tolerant乾燥容錯.
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我們就稱為耐旱。
04:15
In the desiccated脫水 state,
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在乾燥狀態時,
04:17
what seeds種子 can do
is lie謊言 in extremes極端 of environment環境
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種子能做的就是
靜躺在極端環境下
04:19
for prolonged經久 periods of time.
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很長一段時間。
04:21
The next下一個 time the rainy多雨的 season季節 comes,
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下次雨季來時,
04:23
they germinate發芽 and grow增長,
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就發芽成長,
04:25
and the whole整個 cycle週期 just starts啟動 again.
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生命週期周而復始。
04:28
It's widely廣泛 believed相信 that the evolution演化
of desiccation-tolerant乾燥容錯 seeds種子
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大家普遍認為
種子的耐旱性演化
04:32
allowed允許 the colonization定植 and the radiation輻射
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可以使開花植物
04:34
of flowering開花 plants植物,
or angiosperms被子植物, onto land土地.
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或被子植物,能在陸地上拓殖、輻射。
04:38
But back to annuals一年生植物
as our major重大的 form形成 of food餐飲 supplies耗材.
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再來談一年生植物
如何成為最主要的糧食來源。
04:42
Wheat小麥, rice白飯 and maize玉米 form形成 95 percent百分
of our plant food餐飲 supplies耗材.
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小麥、稻米及玉米
佔植物糧食供應量的 95%。
04:48
And it's been a great strategy戰略
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這是很好的策略,
04:50
because in a short space空間 of time
you can produce生產 a lot of seed種子.
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因為你可以在短時間內
生產大量的種子。
04:53
Seeds種子 are energy-rich能源豐富
so there's a lot of food餐飲 calories卡路里,
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種子富含能量,
所以能提供很多卡路里,
04:55
you can store商店 it in times of plenty豐富
for times of famine飢荒,
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你可以儲糧以備飢荒,
05:00
but there's a downside缺點.
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但是有個缺點。
05:02
The vegetative營養 tissues組織,
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一年生植物的營養組織,
05:03
the roots and leaves樹葉 of annuals一年生植物,
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根部及葉片,
05:06
do not have much
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沒有太多
05:07
by way of inherent固有 resistance抵抗性,
avoidance躲避 or tolerance公差 characteristics特點.
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抗受性、迴避性或耐受性的遺傳特質。
05:11
They just don't need them.
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它們不需要這些特質。
05:12
They grow增長 in the rainy多雨的 season季節
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它們在雨季生長,
05:14
and they've他們已經 got a seed種子
to help them survive生存 the rest休息 of the year.
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然後結種子以幫助它們
撐過一年其餘的日子。
05:17
And so despite儘管 concerted一致
efforts努力 in agriculture農業
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所以儘管在農業界
大家一致努力
05:20
to make crops作物 with improved改善 properties性能
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要改良作物的
05:23
of resistance抵抗性, avoidance躲避 and tolerance公差 --
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抗受性、迴避性及耐受性,
05:25
particularly尤其 resistance抵抗性 and avoidance躲避
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尤其是抗受性及迴避性,
05:27
because we've我們已經 had good models楷模
to understand理解 how those work --
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因為我們有很好的範本
瞭解這些如何作用,
05:30
we still get images圖片 like this.
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我們仍然得到像圖上
這樣的結果。
05:32
Maize玉米 crop作物 in Africa非洲,
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非洲的玉米田
05:33
two weeks without rain
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在兩星期無雨的情況下,
05:35
and it's dead.
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死亡殆盡。
我們有一個解決方案:
05:37
There is a solution:
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05:39
resurrection復活 plants植物.
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復甦植物。
05:41
These plants植物 can lose失去 95 percent百分
of their cellular細胞的 water,
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這種植物可以失去
細胞內 95% 的水分,
05:45
remain in a dry, dead-like死樣 state
for months個月 to years年份,
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維持在乾燥、近似死亡
狀態下數月到數年,
05:49
and give them water,
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然後給它們水分,
05:50
they green綠色 up and start開始 growing生長 again.
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它們就會變綠,又開始成長。
05:53
Like seeds種子, these are
desiccation-tolerant乾燥容錯.
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這些就像種子一樣
可以耐旱。
05:56
Like seeds種子, these can withstand經受 extremes極端
of environmental環境的 conditions條件.
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這些就像種子一樣
可以禁得起極端環境條件。
這是非常罕見的現象。
06:01
And this is a really rare罕見 phenomenon現象.
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06:03
There are only 135 flowering開花
plant species種類 that can do this.
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只有 135 種開花植物
可以做到這點。
06:08
I'm going to show顯示 you a video視頻
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我要給大家看一段影片,
06:09
of the resurrection復活 process處理
of these three species種類
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是這三種植物的復甦過程,
06:12
in that order訂購.
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按圖片上的順序播放。
06:13
And at the bottom底部,
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影片下方有時間軸,
06:14
there's a time axis
so you can see how quickly很快 it happens發生.
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大家可以看到過程有多快。
06:56
(Applause掌聲)
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(掌聲)
07:02
Pretty漂亮 amazing驚人, huh?
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很驚人吧?
07:03
So I've spent花費 the last 21 years年份
trying to understand理解 how they do this.
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我過去 21 年都在
試著瞭解它們如何辦到這一點。
07:08
How do these plants植物 dry without dying垂死?
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這些植物如何能乾枯卻不死亡?
07:11
And I work on a variety品種
of different不同 resurrection復活 plants植物,
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我研究很多種不同的復甦植物,
07:13
shown顯示 here in the hydrated水合 and dry states狀態,
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這裡看到的是含水及乾燥狀態,
07:16
for a number of reasons原因.
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有幾個原因。
07:17
One of them is that each
of these plants植物 serves供應 as a model模型
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其中一個是這裡的
每種植物都充作研究範本,
07:20
for a crop作物 that I'd like
to make drought-tolerant耐旱.
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以研究我想培育的耐旱作物。
07:23
So on the extreme極端 top最佳 left,
for example, is a grass,
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舉個例子,左上方是一種草,
07:26
it's called Eragrostis畫眉 nindensisnindensis,
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畫眉草屬植物,
07:28
it's got a close relative相對的
called Eragrostis畫眉 tefTEF --
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它有個近親叫
衣索比亞畫眉草,
07:30
a lot of you might威力 know it as "teff畫眉草" --
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很多人叫它苔麩,
07:32
it's a staple釘書針 food餐飲 in Ethiopia埃塞俄比亞,
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這是衣索比亞國民食物,
07:34
it's gluten-free不含麩質,
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無麩質,
07:35
and it's something we would like
to make drought-tolerant耐旱.
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我們想讓它耐旱。
07:38
The other reason原因 for looking
at a number of plants植物,
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另一個原因要看各種植物,
07:41
is that, at least最小 initially原來,
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就是,至少起初是這樣,
07:42
I wanted to find out:
do they do the same相同 thing?
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我想知道:是不是
每種植物都有同樣的反應?
07:44
Do they all use the same相同 mechanisms機制
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是不是都用同一種機制
07:46
to be able能夠 to lose失去
all that water and not die?
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讓自己失水卻不至於死?
07:49
So I undertook承諾 what we call
a systems系統 biology生物學 approach途徑
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所以我著手用我們稱為
系統生物學的方法,
07:52
in order訂購 to get
a comprehensive全面 understanding理解
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以期對耐旱性能有完整的瞭解,
07:54
of desiccation乾燥 tolerance公差,
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07:56
in which哪一個 we look at everything
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我們看所有的東西,
07:57
from the molecular分子 to the whole整個 plant,
ecophysiological生理生態 level水平.
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從分子到全株、
生理生態學階層都看。
08:00
For example we look at things like
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舉個例子,我們會看像是
08:02
changes變化 in the plant anatomy解剖學
as they dried out
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植物在變乾的過程中,
在解剖學上經歷的變化
08:04
and their ultrastructure超微結構.
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及其超微結構。
08:05
We look at the transcriptome轉錄,
which哪一個 is just a term術語 for a technology技術
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我們會看轉錄組,
這只是一個技術名詞,
08:09
in which哪一個 we look at the genes基因
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基本上就是要看哪些基因
08:10
that are switched交換的 on or off,
in response響應 to drying烘乾.
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在因應乾燥過程中
會被開啟或關閉。
08:12
Most genes基因 will code for proteins蛋白質,
so we look at the proteome蛋白質組.
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大部分的基因都製造蛋白質,
所以我們也看蛋白質組。
08:16
What are the proteins蛋白質 made製作
in response響應 to drying烘乾?
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為了因應乾燥,
會製造出哪些蛋白質?
08:19
Some proteins蛋白質 would code for enzymes
which哪一個 make metabolites代謝產物,
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有些蛋白質是為了合成酵素,
產生代謝物,
08:23
so we look at the metabolome代謝組.
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所以我們也看代謝物組。
08:25
Now, this is important重要
because plants植物 are stuck卡住 in the ground地面.
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這很重要,
因為植物牢牢釘在地上。
08:28
They use what I call
a highly高度 tuned調整 chemical化學 arsenal兵工廠
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它們用我稱為
非常精準的化學兵工廠
08:32
to protect保護 themselves他們自己 from all
the stresses應力 of their environment環境.
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來保護自己不受環境逆境影響。
08:35
So it's important重要 that we look
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所以去看死亡過程的
化學變化就很重要。
08:37
at the chemical化學 changes變化
involved參與 in drying烘乾.
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08:40
And at the last study研究
that we do at the molecular分子 level水平,
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我們最近的研究
在看分子層次,
08:43
we look at the lipidome脂質組 --
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我們看的是脂類組,
08:44
the lipid油脂 changes變化 in response響應 to drying烘乾.
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脂質如何變化以因應死亡。
08:46
And that's also important重要
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這也很重要,
08:47
because all biological生物 membranes
are made製作 of lipids血脂.
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因為所有的生物膜
都由脂質組成。
08:50
They're held保持 as membranes
because they're in water.
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它們能形成薄膜是因為在水中。
08:53
Take away the water,
those membranes fall秋季 apart距離.
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把水拿掉,薄膜就會解體。
08:56
Lipids血脂 also act法案 as signals信號
to turn on genes基因.
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脂質還作為打開基因的信號。
然後我們用生理及生化研究
09:00
Then we use physiological生理
and biochemical生化 studies學習
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09:02
to try and understand理解
the function功能 of the putative假定 protectants防護劑
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試著瞭解我們假設的
保護因子的功用,
09:06
that we've我們已經 actually其實 discovered發現
in our other studies學習.
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這些因子是我們
在其它研究中發現的。
09:09
And then use all of that
to try and understand理解
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然後用所有研究結果
去試著瞭解
09:11
how the plant copes科佩斯
with its natural自然 environment環境.
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植物如何適應自然環境。
09:15
I've always had the philosophy哲學 that
I needed需要 a comprehensive全面 understanding理解
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我一直有套哲理,
就是我必須
對耐旱性機制有全盤瞭解,
09:19
of the mechanisms機制 of desiccation乾燥 tolerance公差
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09:22
in order訂購 to make a meaningful富有意義的 suggestion建議
for a biotic生物 application應用.
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才能對其生物應用
提出有意義的建議。
09:27
I'm sure some of you are thinking思維,
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我很確信有些人正在想:
09:28
"By biotic生物 application應用,
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「生物應用?
09:29
does she mean she's going to make
genetically基因 modified改性 crops作物?"
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她是說她要培育基改作物?」
09:34
And the answer回答 to that question is:
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這個問題的答案是:
09:35
depends依靠 on your definition定義
of genetic遺傳 modification修改.
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要看你怎麼定義基改。
09:39
All of the crops作物 that we eat today今天,
wheat小麥, rice白飯 and maize玉米,
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我們今天吃的作物,
小麥、稻米、玉米,
09:42
are highly高度 genetically基因 modified改性
from their ancestors祖先,
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其基因都已改造成
與原來的老祖宗大不相同,
09:45
but we don't consider考慮 them GMGM
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但是我們不認為這些是基改,
09:47
because they're being存在 produced生成
by conventional常規 breeding配種.
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因為這些是傳統育種的產物,
09:50
If you mean, am I going to put
resurrection復活 plant genes基因 into crops作物,
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如果你問,我是否要把
復甦作物的基因放進作物中,
09:54
your answer回答 is yes.
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答案是沒錯。
09:56
In the essence本質 of time,
we have tried試著 that approach途徑.
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時間就是成敗的關鍵,
我們已經試過這種方法。
09:59
More appropriately適當,
some of my collaborators合作者 at UCTUCT,
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更正確的說法是
我在開普敦大學的合作夥伴,
10:02
Jennifer詹妮弗 Thomson湯姆森, SuhailSuhail RafudeenRafudeen,
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湯姆森和拉弗丁博士,
10:04
have spearheaded帶頭 that approach途徑
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已經帶頭做這種方法,
10:05
and I'm going to show顯示 you some data數據 soon不久.
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我等一下就會
給大家看一些數據。
10:09
But we're about to embark從事
upon an extremely非常 ambitious有雄心 approach途徑,
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但是我們即將用一項
非常有野心的方法,
10:13
in which哪一個 we aim目標 to turn on
whole整個 suites套房 of genes基因
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我們的目標是打開一系列基因,
10:16
that are already已經 present當下 in every一切 crop作物.
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它們本來就存在於每種作物內。
10:19
They're just never turned轉身 on
under extreme極端 drought乾旱 conditions條件.
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只是在非常乾旱的情況下
這些基因從未被打開過。
10:22
I leave離開 it up to you to decide決定
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我讓大家自己判斷
10:24
whether是否 those should be called GMGM or not.
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這該不該稱為基改。
10:27
I'm going to now just give you
some of the data數據 from that first approach途徑.
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我現在就給大家看一下
第一次做的數據。
10:31
And in order訂購 to do that
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為了讓大家明白,
10:32
I have to explain說明 a little bit
about how genes基因 work.
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我必須解釋一下
基因如何運作。
10:35
So you probably大概 all know
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你們大概都知道
10:36
that genes基因 are made製作
of double-stranded雙鏈 DNA脫氧核糖核酸.
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基因由雙股 DNA 組成。
10:38
It's wound傷口 very tightly緊緊 into chromosomes染色體
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DNA 緊密纏繞成染色體,
10:40
that are present當下 in every一切 cell細胞
of your body身體 or in a plant's工廠 body身體.
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存在於你或植物體內的
每一個細胞中。
10:44
If you unwind放鬆 that DNA脫氧核糖核酸, you get genes基因.
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如果你把 DNA 解開,
就得到基因。
10:47
And each gene基因 has a promoter啟動,
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每個基因都有一個啟動子,
10:50
which哪一個 is just an on-off開關 switch開關,
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就像開關一樣,
10:52
the gene基因 coding編碼 region地區,
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還有基因編碼區,
10:54
and then a terminator終結者,
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及一個終止子,
10:55
which哪一個 indicates指示 that this is the end結束
of this gene基因, the next下一個 gene基因 will start開始.
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表示這是該基因的終點,
下一個基因要開始。
10:59
Now, promoters促銷員 are not
simple簡單 on-off開關 switches開關.
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啟動子不像開關
那麼簡單。
11:02
They normally一般 require要求
a lot of fine-tuning微調,
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它們通常需要很多微調,
11:05
lots of things to be present當下 and correct正確
before that gene基因 is switched交換的 on.
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很多條件必須存在且正確,
基因才會打開。
11:10
So what's typically一般 doneDONE
in biotech生物技術 studies學習
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所以做生技研究時,
11:13
is that we use an inducible誘導 promoter啟動,
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我們通常使用可誘導型啟動子,
11:15
we know how to switch開關 it on.
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我們知道如何開啟它。
11:16
We couple一對 that to genes基因 of interest利益
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我們將其與要研究的基因配對
11:18
and put that into a plant
and see how the plant responds響應.
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並放入植物中,
看該植物如何反應。
11:22
In the study研究 that I'm going
to talk to you about,
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在我要跟大家談的這個研究中,
11:24
my collaborators合作者 used
a drought-induced乾旱導致 promoter啟動,
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我的合作夥伴用一種
由乾旱誘發的啟動子,
11:27
which哪一個 we discovered發現
in a resurrection復活 plant.
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我們在復甦植物中發現。
11:29
The nice不錯 thing about this promoter啟動
is that we do nothing.
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這個啟動子的好處是
我們不用管它。
11:32
The plant itself本身 senses感官 drought乾旱.
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植物本身會感覺到乾旱。
11:35
And we've我們已經 used it to drive駕駛 antioxidant抗氧化劑
genes基因 from resurrection復活 plants植物.
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我們用這個啟動子驅動
復甦植物內的抗氧化基因。
11:40
Why antioxidant抗氧化劑 genes基因?
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為什麼是抗氧化基因?
11:42
Well, all stresses應力,
particularly尤其 drought乾旱 stress強調,
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因為所有的逆境,
尤其是乾旱,
11:45
results結果 in the formation編隊 of free自由 radicals自由基,
239
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都會產生自由基,
11:48
or reactive反應 oxygen species種類,
240
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或活性氧類,
11:50
which哪一個 are highly高度 damaging有害
and can cause原因 crop作物 death死亡.
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它們的破壞性極強,
且會導致作物死亡。
11:53
What antioxidants抗氧化劑 do is stop that damage損傷.
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抗氧化基因會停止該破壞。
11:57
So here's這裡的 some data數據 from a maize玉米 strain應變
that's very popularly普遍 used in Africa非洲.
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現在看到的是某種玉米品系的數據,
這在非洲極常使用。
12:01
To the left of the arrow箭頭
are plants植物 without the genes基因,
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箭頭左邊的是
沒有該基因的植株,
12:04
to the right --
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右邊的
12:05
plants植物 with the antioxidant抗氧化劑 genes基因.
246
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植株有抗氧化基因。
12:07
After three weeks without watering灑水,
247
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三星期不澆水後,
12:09
the ones那些 with the genes基因
do a hell地獄 of a lot better.
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有該基因的植株
表現好的不得了。
12:13
Now to the final最後 approach途徑.
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最後一點。
12:15
My research研究 has shown顯示
that there's considerable大量 similarity相似
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我的研究顯示
12:18
in the mechanisms機制 of desiccation乾燥 tolerance公差
in seeds種子 and resurrection復活 plants植物.
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種子與復甦植物
耐旱性的機制相當相似。
12:23
So I ask the question,
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所以我問這個問題,
12:24
are they using運用 the same相同 genes基因?
253
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這兩者都用同樣的基因嗎?
12:26
Or slightly differently不同 phrased措辭,
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或用略為不同的問法,
12:28
are resurrection復活 plants植物 using運用 genes基因
evolved進化 in seed種子 desiccation乾燥 tolerance公差
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復甦植物會利用
種子的耐旱性基因
在根部與植物上嗎?
12:33
in their roots and leaves樹葉?
256
741280
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12:34
Have they retasked重新分派 these seed種子 genes基因
257
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它們會把這些種子基因的任務
12:36
in roots and leaves樹葉
of resurrection復活 plants植物?
258
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在根部及葉片上利用嗎?
12:39
And I answer回答 that question,
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我的答案是,
從我的研究小組,
12:41
as a consequence後果 of a lot
of research研究 from my group
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及最近一起合作,
位於荷蘭的希和教授,
12:44
and recent最近 collaborations合作 from a group
of Henk亨克 HilhorstHilhorst in the Netherlands荷蘭,
261
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12:47
Mel梅爾 Oliver奧利弗 in the United聯合的 States狀態
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美國的奧利佛
12:49
and Julia朱莉婭 BuitinkBuitink in France法國.
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法國的茱莉亞等
所得的結果,
12:51
The answer回答 is yes,
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我的答案是有,
12:53
that there is a core核心 set of genes基因
that are involved參與 in both.
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的確有一組關鍵基因
與兩者都有關。
12:56
And I'm going to illustrate說明 this
very crudely粗製濫造 for maize玉米,
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我用這張圖跟大家粗略
說一下玉米的情況,
12:59
where the chromosomes染色體 below下面 the off switch開關
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開關之下的染色體
13:02
represent代表 all the genes基因 that are required需要
for desiccation乾燥 tolerance公差.
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代表耐旱基因。
13:05
So as maize玉米 seeds種子 dried out
at the end結束 of their period of development發展,
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玉米在種子發育
最後階段要乾掉時,
13:09
they switch開關 these genes基因 on.
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就會打開這些基因。
13:12
Resurrection復活 plants植物
switch開關 on the same相同 genes基因
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復甦植物在乾掉時
也會打開同樣的基因。
13:15
when they dry out.
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13:17
All modern現代 crops作物, therefore因此,
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因此,所有現代作物
13:19
have these genes基因
in their roots and leaves樹葉,
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根部及葉片內都有這種基因,
13:21
they just never switch開關 them on.
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只是從來不打開。
13:22
They only switch開關 them on in seed種子 tissues組織.
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它們僅打開
種子組織內的這種基因。
所以我們現在正在
13:25
So what we're trying to do right now
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13:27
is to understand理解 the environmental環境的
and cellular細胞的 signals信號
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瞭解環境與細胞信號
13:29
that switch開關 on these genes基因
in resurrection復活 plants植物,
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如何打開
復甦植物內的這些基因,
13:33
to mimic模仿者 the process處理 in crops作物.
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並在作物中模擬此過程。
13:35
And just a final最後 thought.
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最後一點想法。
13:37
What we're trying to do very rapidly急速
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我們現在做的就是,
13:39
is to repeat重複 what nature性質 did
in the evolution演化 of resurrection復活 plants植物
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很快速地重現一千到四千萬年前
大自然復甦植物演化的過程。
13:43
some 10 to 40 million百萬 years年份 ago.
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我的植物和我
都感謝大家的關注。
13:46
My plants植物 and I thank you
for your attention注意.
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13:48
(Applause掌聲)
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(掌聲)
Translated by Regina Chu
Reviewed by Yi-Fan Yu

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ABOUT THE SPEAKER
Jill Farrant - Professor of molecular and cell biology
Jill Farrant is leading the development of drought-tolerant crops to nourish populations in arid climates.

Why you should listen

A professor of molecular and cell biology at the University of Cape Town (UCT) in South Africa, Jill Farrant researches the remarkable (and little known) world of resurrection plants. These are plants that can survive extreme drought, “resurrecting” when moistened or irrigated. If we can better understand their natural preservation mechanisms and their key protectants, she suggests, it could help us develop more drought-tolerant crops to feed populations in increasingly dry and arid climates around the world. Her research may also have medical applications.

Farrant was the African/Arab States recipient of the 2012 L'Oreal-UNESCO Award for Women in Science, one of only five scientists worldwide who were selected by an international jury as "researchers who will have a major impact on society and help light the way to the future." In 2009, she was awarded an A-rating by the National Research Foundation (the first female researcher at UCT ever to receive such a rating) as well as being made a member of the UCT College of Fellows.

More profile about the speaker
Jill Farrant | Speaker | TED.com

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