lamellae 中文意思是什麼
lamellae
解釋
板, 層, 眼片-
The internal lamellae originate from an invagination of the inner of double membrances that surround the plastid.
片層起源於圍著質體雙層膜的內膜向內折伸。 -
Periodically, the lamellae become enlarged, forming flattened, membrane-enclosed vesicles called thylakoids.
片層周期性地擴展,形成扁平的有膜為界的囊,稱為類囊體。 -
The sheetlike layers of the thylakoids are called lamellae
類囊體上的層片叫做片層。 -
The spores are produced on small teeth or lamellae rather than gills
孢子都是由子實體的小齒或小孔中產生而不是在菌褶上產生。 -
The lamellae with edge - on and the flat - on orientation alternated to form the banded spherulites
利用原子力顯微鏡原位觀察了環帶球晶界面的片晶生長。 -
Microstructure evolution of twin lamellae with different lamellar size in rolling deformation at room temperature
孿晶片層結構在室溫軋制過程中的微觀結構演變 -
The results showed that lamellae were fit tissue for mycelia isolation, and success percentages of mycelia isolation with media pdas, pdaw, bm, pda are 74. 4 %, 35. 5 %, 15. 6 % and 8. 9 % respectively. the results also showed that stipe, mycorrhizae, and soil with the fungi are not fit for tricholoma matsutake isolation
另外,馬鈴薯葡萄糖麥數濾汁培養基( pdaw ) 、 bm培養基、 pda培養基也從菌褶2曾東方博士論文:腐生與共生食用菌菌絲體分離、培養及其dna鑒定研究分離到松茸菌絲體,分離成功率依次是35 . 5 % 、巧 -
The rapd - pcr analyses were conducted with different colour basidiocarps from different origin pleurotus mushrooms. the results showed that there are same dna fingerpringing patterns among the mycelial isolates, pileus ( including lamellae ) and stipe from one basidiocarps, but the similarity coefficients between different origin and colour basidiocarps vary from 0. 779 to 0. 976
試驗結果還表明:人工栽培產生的子實體及其組織分離菌絲體,與所用栽培菌種茵絲體及其種源子實體,都具有一致的rapd指紋圖譜:而不同來源的子實體之間的dna相似系數在0 . 886 0 . 986之間。 -
In ecap route c, in order to accommodate the severe shear deformation the deformation form of lamellae cementite in pearlitic steel include periodical bending, periodical shearing and shearing fracture etc
在c方式ecap變形中,珠光體鋼65mn中的滲碳體以周期性的彎曲變形,周期性的剪切變形,剪切斷裂等形式協調ecap的強烈塑性變形。 -
The microstructure of lamellae pearlite has evolved ultrafine cementite particles throughout the ferrite matrix uniformly after five passes. the ferrite matrix is homogeneous grains, average grain size is - 0. 3 m. 2
變形五道次后,片層狀的珠光體組織演變成了超細的滲碳體顆粒均勻分佈於鐵素體基體的組織,鐵素體基體為均勻的等軸晶,平均晶粒大小為0 . 3 m 。 -
The main results are as the following : ( 1 ) the microstructure of lamellae pearlite has evolved ultrafine cementite particles throughout the ferrite matrix uniformly after four passes. the ferrite matrix is homogeneous grains, and average grain size is - 0. 3um
主要結果如下: ( 1 ) ecap變形四道次后,片層狀的珠光體組織演變為了超細的滲碳體顆粒均勻分佈於亞微晶鐵素體基體的組織。 -
During the process of senescence, the structural abnormality occurred firstly in chloroplast in which chloroplast grana disordered and stromal lamellae twisted and in which starch grains became bigger and osmiophilic granules increased, and then converged into bigger granules
葉綠體最早出現結構異常:基粒結構紊亂,基質內囊體發生扭曲、澱粉粒由小變大、嗜鋨顆粒由少變多再逐漸匯集成大的顆粒。 -
The fracture and spheroidization of cementite shows obvious anisotropy. there are two possible mechanism about spheroidization of cementite : the fracture cementite lamellae grows up non - uniformly and the fine spherical cementite particles grows up as the core
滲碳體的破碎和球化表現出明顯的各向異性。滲碳體的球化可能以兩種機制進行:破碎滲碳體片的非均勻長大和細小球狀滲碳體顆粒的形核長大。 -
The growth of lamellae at the interface of the banded spherulites was studied in situ using atomic force microscopy ( afm ) with a hot - stage
研究表明,片晶的扭轉不是一個漸變的過程,而是發生在相對較窄的區域。 -
The lamellae in different directions could join and stop growing by each other at the interface of spherulites, which lead the formation of defects
在球晶的edge - on片晶生長前沿相遇時,形成片晶束。也有的片晶在互相接觸后停止生長,導致缺陷增多。 -
The lamellae with edge - on orientation in the ridges and the flat - on lamellae in the valleys of the banded spherulites were observed clearly. the twisting between the edge - on and flat - on lamellae was also observed
片晶在凹下環帶區域的排列主要是flat - on取向,而凸起環帶區域的片晶排列主要是edge - on取向。 -
24 samples including matsutake basidiocarps and different origin isolates were analyzed with rapd fingerprinting comparison using 17 arbitrary decamer nucleotide primers. the results showed that all slow - growing mycelia isolated from lamellae have the same dna fingerprinting
試驗還對松茸菌根、帶菌絲土壤進行了分離,結果很容易獲得各種快生型的絲狀真菌,因此認為菌根、土壤並不適合分離鬆口蘑菌絲體。 -
In higher salinity ( 200, 400mm ) the lamellae expanded remarkably, the membrane of the chloroplast was broken, some crystallinity was found in some chloroplast. there is also some compound vesicular structure in the mesophyll cells under salt stress. the results were discussed with regard to the mechanism by which the vesicular structure was produced
200mm有些葉綠體中被膜破碎,基粒、基質片層界限非常混亂,類囊體結構扭曲,排列雜亂,澱粉粒輪廓模糊,有些葉綠體被膜向外突出,形成管泡狀結構。 -
When inadequate n was added, the chloroplast structure in mesophyll cell was damaged in ear leaf, the amount of carbohydrate decreased in mestome sheath, and excessive n - redistribution and n - transportation to grain from vegetative mass appeared, which resulted in earlier leaf senescence. excessive n application led to too high activity of nitrate reductase, excessive vigorous nitrogen metabolism and too much exhaustion of carbohydrate in ear leaf, which resulted in the lack of enough carbohydrate in the lower leaf, meanwhile, the expansive chloroplast grana lamellae in leaf mesophyll cell and starch grain without nuclear in mestome sheath cell was observed, which led to the decrease of chlorophyll content and photosythetic capacity in maize leaf, then the early senescence occured
氮肥用量不足導致穗葉葉肉細胞葉綠體結構性差,維管束鞘細胞碳水化合物累積減少,營養體氮素再分配率大而引起葉片早衰;而過量供氮則導致生長後期硝酸還原酶活性過高,氮素代謝過旺,消耗了大量碳水化合物,以致下位葉不能得到充足的碳水化合物供應而提早脫落,同時葉肉細胞葉綠體片層結構膨脹,呈「肉汁化」特徵,維管束鞘細胞澱粉粒大量消耗,無核澱粉粒出現,從而葉片葉綠素含量下降,光合能力降低而出現早衰。 -
It is radial and fan - shaped which make use of flowing adhesive to make the lamellae of abrasive - cloth adhered. it is appiled in the factory, mining industry and decoration industry
帶柄頁輪選用樹脂砂布成小塊粘合成圓盤,可裝在電動、風動工具上打磨復雜彎接處,廣泛用於廠礦及裝飾行業。
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