三亚湾珊瑚礁可以分为5个微相:生物骨架岩、生物屑、礁岩屑、珊瑚碎块、强烈改造的生物屑。
The coral reefs in Sanyawan can be divided into 5 microfacies: organic framework reef, bioclast, reef debris, coral detritus, and the strongly reformed bioclast.
如果你还觉得人类只能通过《侏罗纪公园》和博物馆里重建的巨大骨架来和已经灭绝的生物亲密接触,那你就落伍啦。
If you thought "Jurassic Park" and the large, reconstructed skeletons seen in museums were the closest we'd ever come to seeing extinct creatures come to life, you might want to think again.
细小而形似植物的珊瑚生物死亡时会褪色变白,原因通常是不断升高的温度,留下的只是一具白色的石灰岩珊瑚礁骨架。
Bleaching occurs when the tiny plant-like coral organisms die, often because of higher temperatures, and leave behind only a white limestone reef skeleton.
磷链构成DNA的骨架及其化学键,特别是在一种叫做三磷酸腺苷的分子中。 三磷酸腺苷是生物体储存能量的一种重要形式。
Phosphorus chains form the backbone of DNA and its chemical bonds, particularly in a molecule known as adenosine triphosphate, the principal means by which biological creatures store energy.
几世纪以来生物学家都知道鸟类的骨头又细又空,但鸟类的骨架并不比相同体积的哺乳动物的轻。
For centuries, biologists have known that bird bones are thin and hollow. Yet bird skeletons don't actually weigh any less than the skeletons of similarly sized mammals.
古生物学家们指出,在恐龙之外的物种,只有鸟类的骨架拥有一些恐龙才有的特征。
The paleontologists pointed to traits in their skeletons found elsewhere only in birds.
直到不久前,大多数船只还是脆弱的木质帆船,它们的骨架很快就被海洋生物侵蚀殆尽。
Until recently, most of these ships were fragile wooden sailing 2 vessels, their 3 skeletons quickly eaten away by Marine 4 organisms.
与老式的木制船不同,大型金属船只的骨架历经海洋的磨砺,经过漫长的年代,最终变成各种海洋生物的家园和避风港。
The bones of great metal ships, unlike the wooden vessels of old, survive the ravages of the sea long enough to become home and 6 haven for Marine life of all kinds.
芝加哥大学古生物学家PaulSereno正在给新发现的Raptorex暴龙的骨架上摆上脚爪。
Paul Sereno, a paleontologist at the University of Chicago, adding the toe claw to the skeleton of the new tyrannosaur Raptorex.
结论细胞骨架的损伤可引起细胞脆性增加、粘弹性下降,导致细胞生物力学特性的改变。
Conclusion the cytoskeleton injury could cause the increase of cellular fragility and the decrease of the viscoelasticity, which ultimately lead to the change of cellular biodynamics.
一个新骨架二萜生物碱。
New Skeleton Diterpenoid Alkaloid from Aconitum Vilmorinianum Kom.
环不是该类化合物具有生物活性的必需骨架部分。
D ring is not a necessary backing part which has biological activity in these compounds.
礁块的粘结岩成骨架中通常有大洞,是由于生物快速生成形成的。
Reefy boundstone or framework commonly contains large cavities formed through rapid organic growth.
骨架碳酸盐岩岩体类型有礁、礁丘和骨架生物层。
The framework carbonate rock bodies consists of reef, mound and framework organism layer.
目的旨在了解严重烧伤早期心肌生物力学特性的变化及细胞骨架损伤对心肌细胞粘弹力学特性的影响。
Aim to study the changes of myocardial biomechanical properties and the effect of cytoskeleton damage on the viscoelastic properties of myocardial cells in the early stage of burn injury.
接着由生物部门接手,他们研究肌肉组织、骨架以及猩猩的活动方式。
And then from there here goes our creatures department, which they are working on the whole muscular system, the skeleton system and the way that the apes will actually move.
所述漂浮性魔芋葡甘聚糖可作为漂浮性骨架材料,应用于生物化学、药学等领域。
The floating KGM can be used as a floating framework material and applied to the fields of biochemistry, pharmacy and the like.
核骨架和染色体骨架的结构与功能是细胞生物学的重要研究领域。
The structure and function of nuclear scaffold and chromosomal scaffold is an important research field of cell biology.
本发明涉及一类新型的具有苯并噻吩或噻吩骨架的异羟肟酸衍生物。
The present invention relates to a novel class of hydroxamic acid derivatives having a benzothiophene or thiophene backbone.
结论这种生物碱为首次从植物中分离得到,它在骨架结构上与已知的贝母生物碱截然不同。
Conclusion This alkaloid was found for the first time from the natural plant. Its skeleton and structure is very different from all known Fritillaria alkaloids.
含有吲哚结构的螺环骨架广泛存在于各种天然产物中,它具有显著的生理和生物活性。
The spiro compounds containing indole moiety which have significant physiological and biological activity are widely existed a variety of natural products.
应用分子组学和系统生物学等研究方法揭示激素信号调控模式植物细胞极性生长、细胞骨架动态、囊泡运输的分子机制。
Using transcriptomics and proteomic approaches to uncover hormonal signaling mechanisms regulating polar growth of plant cell, cytoskeletal dynamics, and vesicle trafficking.
应用分子组学和系统生物学等研究方法揭示激素信号调控模式植物细胞极性生长、细胞骨架动态、囊泡运输的分子机制。
Using transcriptomics and proteomic approaches to uncover hormonal signaling mechanisms regulating polar growth of plant cell, cytoskeletal dynamics, and vesicle trafficking.
应用推荐