種子物質性狀 的英文怎麼說
中文拼音 [zhǒngziwùzhíxìngzhuàng]
種子物質性狀
英文
physical characters of seeds- 種 : 種名詞(姓氏) a surname
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 物 : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
- 質 : Ⅰ名詞1 (性質; 本質) nature; character; essence 2 (質量) quality 3 (物質) matter; substance;...
- 性 : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
- 狀 : Ⅰ名詞1 (形狀) form; shape 2 (情況) state; condition; situation; circumstances 3 (陳述事件或...
- 種子 : seed; semen; germ; grain; stock; spermo ; spermato ; gono 種子測定 seed testing; 種子處理 seed tr...
- 物質 : matter; substance; material
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Magical fire ( eye doctor ) looks at well - being cream of sticking drawing tradition traditional chinese medicine formula famous and precious in tsinghua, is tied in wedlock modern up - to - date medicine result of scientific research, the various chinese medicinal crop famous and precious being carefully chosen, adopt the modern nano - technology and target to poison a technology to being given to, let various active material, tiny molecule, nutrition factor glutathione etc. guide medicine it is all right for to go ahead, the brute force passes through blood eye parclose, make pesticide effect reach nidus directly location, prompt the nutrition replenishing an eye with the part ( include ciliary muscle, retina, crystalline lens, optic nerve ), active eye part cell, improve eye part immunocompetence and oxidation resistance, boost an eye part organizing an assimilation of the new and excretion of the old, microcirculation improving and restoring an eye part, thereby reach eliminate look at strain, purpose improving and improving sight
清華神火視康貼汲取傳統中藥名貴配方之精華,結合現代醫藥最新科研成果,精選多種名貴中藥材,採用現代納米技術和靶向給藥技術,讓多種活性物質、微分子、營養因子谷胱甘肽等引藥上行,強力穿透血眼屏障,使藥效直達病灶部位,迅速補充眼部(包括睫狀肌、視網膜、晶狀體、視神經)的營養,激活眼部細胞,提高眼部免疫能力和抗氧化能力,促進眼部組織新陳代謝,改善和恢復眼部微循環,從而達到消除視疲勞,改善和提高視力的目的。This study was conducted to examine the interrelationship of 10 seed vigor traits in 12 wheat genotypes through variance, co - variance and path coefficient analysis, to determine broad - sense heritability, and to estimate genetic advance under selection. the genotypes showed significant difference for all traits, except for percentage of normal seedling. genetic correlation between conversion efficiency of seed reserve, electrical conductivity with other traits were not significant, showed that selection for any of them might be possible without hampering any other traits. however path coefficient analysis indicated that conversion efficiency of seed reserve, seed reserve utilization ratio have strong direct effect in affecting seedling weight, and that mean germination time has significantly negatively correlated in affecting gi. moderate to high estimates of broad - sense heritability, genetic coefficient of variation and expected genetic advance were obtained for electrical conductivity, germination index, mean germination time, seed dry weigh, seedling dry weigh, seed reserve depletion ratio indicating the possibility for improving these traits
本研究利用12個普通小麥品種對10個種子活力性狀的遺傳變異和相關研究,表明除正常幼苗百分率外,其餘種子活力性狀在品種間均存在顯著的差異.種子貯藏物質轉換效率、電導率兩個性狀間及與其它性狀均無顯著的遺傳相關,因此對他們的選擇不會影響到其它性狀.通徑分析表明幼苗干重主要取決于種子貯藏物質轉換效率、種子貯藏物質利用速率;發芽指數主要由平均發芽時間決定.電導率、發芽勢、幼苗干重、種子干重、發芽指數、種子貯藏物質消耗比率6個性狀表現中到高的遺傳力、遺傳變異系數和相對遺傳進展,指明通過遺傳育種手段改良這些性狀是可能的Therefore the emergence and development of the culture of science and technology can be traced back to the initial conditions of geography and climate, viewed as the factor of internal fluctuation from the sensitiveness of the random choices of the cognitive subject to the initial conditions. since a culture has a pivotal component as its core, once the culture of science and technology comes into being under nonlinear interactions of the social subsystems, the core component functions in the same manner as order parameter in the self - organization system, immensely attracting, regulating and controlling others under the slaving principle. and thus the analysis provides a nonlinear approach to the needham ' s problem
對于任何思想文化傳統而言,其形成和延續都有其現實的物質生活的根源,因而,對于科技文化的產生和發展,我們能夠返回到其發生的原點? ?即地理氣候等初始條件,從認知主體的隨機性選擇對初始狀態的敏感性方面,視其為科技文化產生的內漲落因素,考察其對科技文化形成的影響;而一種文化之所以稱其為文化,必有其全局控制力的核心因素,科技文化是在社會各子系統非線性的相互作用下形成,其核心因素所發揮的作用就如同序參量在自組織系統中的作用那樣,在支配原理的作用下起著規范、引導和支配等效用。Layered and pillared material are a kind of multifunctional material which were developed in recent years, much attention has been paid to this kind of material for its application in ion - exchange catalysts solid state proton conductivity, nonlinear optics and physic. a lot of literature have reported the intercalation behavior of a - zirconium phosphate ( abbreviated as a - zrp ), different guest molecules inserted into a - zrp have been studied in detail, those guest molecules include amine, alcohok amino acid protein, enzyme coornadiate compound and coronal compound. the intercalation guest is restricted by their size and basicity
層柱材料是近年來發展起來的一類多功能材料,由於其在離子交換、催化、固態質子導體、非線性光學以及醫學等方面的廣泛應用而受到國內外研究者的重視,大量文獻報道了-磷酸氫鋯zr ( hpo _ 4 ) _ 2 ? h _ 2o ( - zirconiumphosphate ,縮寫為- zrp )的超分子插層化合物及插層性能,其中對不同的客體分子對磷酸鋯的嵌入做了詳細的報道,客體分子的種類包括氨、醇、氨基酸、蛋白質、酶、配合物、冠狀化合物等。Discusses in detail the microscopic nature of various physical quantities characterizing the intrinsic attributes of hydrogen atom to prove that the hydrogen atom ' s quantum energy, the inner quantum orbital momentum of electron and the relative quantum distance between atomic nucleus and electron all relate to the quantum state of the atomic system
摘要闡述了表徵氫原子內在屬性的各種物理量的微觀本質,證明氫原子系統的量子能量、系統內部電子的量子軌道動量及原子核和電子的量子相對距離均與原子系統所處的量子狀態有關。Finally, the size of trees and the area required for field trails create considerable difficulties in assessing the performance. the technology of plant genetic transformation provides a efficient method to overcome many of these obstacles and to accelerate tree - breeding programs
植物遺傳轉化能在分子水平上改造植物的遺傳物質,它可以打破物種之間的生殖隔離障礙,定向改造植物遺傳性狀,提高了育種的目的性和可操作性。Lf305a is designed for widely electronic assembly applications. it is a lead - free, mildly active solder paste
Lf305a這種材料的設計被廣泛應用於電子零件的裝配.它是一種無鉛,低活性硬質糊狀物In this project, based on a great quantity of screening experiments, b. thuringiensis and b. cereus strains " culture was found containing a kind of protein which inhibits autoinducer activity. this protein was named aii and its encoding gene was named aii
本研究經大量篩選,發現蘇雲金芽胞桿菌和蠟狀芽胞桿菌的培養物可抑制酰基高絲氨酸內酯( acyl - homoserine - lactone ,簡稱ahl )類ai分子的活性,其活性物質是一種蛋白質,稱之為aii蛋白。A common problem confronting banana taxonomists and horticulturist in selecting and utilizing is the homonym and synonym caused by different languages and dialects of different region ( country ). the current system of classification and evolution route research of banana is suggested by simmonds and his co - workers in 1955, which based on the morphological characters
品種間的同名異物和同物異名現象普遍,影響香蕉種質資源的評價與利用。香蕉的分類及進化途徑的研究主要依照基於形態學性狀的simmonds系統,分子標記在蕉類起源分類上的研究則主要集中在栽培品種,很少涉及到野生蕉。It has been well known that vascular endothelial cells ( vec ) are not only a mechanical and biological barrier of blood vessels, but also an endocrine organ, which maintain vascular normal tension and reactivities througth synthesis and release vasoactive substances such as nitric oxide ( no )
研究發現,血管內皮細胞( vascularendothelialcells , vec )能合成多種血管活性物質,是維持血管正常張力狀態和血管反應性的關鍵因素。其中vec釋放的一氧化氮( nitricoxide , no )是人們發現的機體第一種氣體信使分子,具有明顯的血管活性、介導了血管內皮依賴性舒張反應。At this year ' s march meeting of the american physical society, the group reported that this gossamer substance is ferromagnetic ( like iron ), the only type of pure carbon that has that property
在今年3月舉行的美國物理學年會中,該研究群發表了這種薄紗狀的物質能擁有像鐵一樣的鐵磁性,這可是純碳物質中唯一具有這種特性的例子。This paper gives a historical perspective about the past developments of physics in order to understand its present status and furthermore to glimpse its future prospects. we hope that this view may be helpful for those who are engaged in teaching and research in physics. from the stratification of the physical world, it is shown that there is coupling as well as decoupling between different strata, so that complex systems composed of an enormous number of particles will show properties which can not be simply reduced to laws governing individual particles. from this viewpoint, the frontiers of research in physics are discussed in relation to its future prospects. a bright future is anticipated for physics
文章試圖對物理學的發展歷史作一透視,從而理解其現狀,並進而窺測其未來的前景.我們希望這一看法對于當今從事物理學教學與科研的人士有所助益.由於物理世界的層次化,諸層次之間既可能存在耦合,又可能出現脫耦.因而大量粒子所構成的復雜體系中所涌現的各種層展性質就不能簡單地還原成個別粒子所服從的規律.我們根據這一觀點並結合物理學的未來前景,討論了當今物理學研究的若干前沿問題.一切跡象預示著物理學將有光明的前景分享友人