为了重振他的事业,大胡子博士窃取了一位博士后科学家关于人造光合作用的发现,将之描述为“不消耗能量的发动机”,并试图为自己所用。
To reinvigorate his career, Dr Beard steals a postdoctoral scientist's discovery of artificial photosynthesis, described as "an engine running on nothing", and tries to harness it.
叶绿素作为一种色素,植物,藻类和蓝细菌都利用此色素通过光合作用从太阳光中获取能量。 现在研究人员可能已经发现了一种新的叶绿素分子。
Researchers may have found a new form of chlorophyll, the pigment that plants, algae and cyanobacteria use to obtain energy from light through photosynthesis.
它的发现者是麻省理工大学的安吉拉·贝尔彻,她的灵感来自于植物,因为植物中的特殊色素在光合作用中能吸收太阳能,并分解水。
MIT's Angela Belcher took her cue from plants, where special pigments capture solar energy in photosynthesis, involving the splitting of water.
猜测包括了火星上发现微生物、土卫六上的光合作用、甚至是一颗小行星上发现了细菌。 全都不是——NASA发现了一种能消来砷的细菌以及将它们组成它的DNA。
Suggestions included microbes on the Red Planet, photosynthesis on Titan, or perhaps even bacteria on an asteroid.
它有至少一个基因是光合作用所必需的——到目前为止这是唯一被发现具有此项能力的动物。
It has at least one gene necessary for photosynthesis-so far it's the only animal known with this ability.
这种和光合作用微生物的亲密共存现象曾被发现存在于无脊椎动物中,比如说珊瑚,但是从未在脊椎动物中发现过。
Such a close co-existence with a photosynthetic organism has previously been found in invertebrates, such as corals, but never in a vertebrate.
在视频的最后画面中,你能发现石块顶部由进行光合作用的细菌组成的绿色膜,和下部由白色硫化细菌构成的白色的膜。
You can see the films of green photosynthetic bacteria on top of a rock and a film of white sulfide-oxidizing bacteria underneath it in the very last scene of the movie.
它的发现者是麻省理工大学的安吉拉·贝尔彻,她的灵感来自于植物,因为植物中的特殊色素在光合作用中能吸收太阳能,并分解水。
M.I.T. 's Angela Belcher took her cue from plants, where special pigments capture solar energy in photosynthesis, involving the splitting of water.
这一发现可视作为对我们所提出的解释光合作用反应中心的电子转移方向性的设想提供一个间接实验支持。
This finding seems to be an indirect experimental evidence supporting our hypothesis proposed for understanding the directionality of electron transfer within reaction center of photosynthesis.
结果发现,天然芸苔素内脂可以明显提高大扁杏的叶绿素含量,提高光合作用强度,增强大扁杏的抗旱性。
The result found that NBR could improve the content of chlorophyll and the rate of photosynthesis of apricot, increase drought resistance.
结果发现,天然芸苔素内脂可以明显提高大扁杏的叶绿素含量,提高光合作用强度,增强大扁杏的抗旱性。
The result found that NBR could improve the content of chlorophyll and the rate of photosynthesis of apricot, increase drought resistance.
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