photosynthetic pigment 中文意思是什麼
photosynthetic pigment
解釋
光合色素- photosynthetic : adj. 【植物;植物學】光合的。adv. -ically
- pigment : n. 1. 顏料,色料。2. 【生物學】色素。
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Absorption, fluorescence emission and excitation spectra of five pigment - protein complexes were determined. photosynthetic electron transfer was measured from the dcip photoreduction. p700 concentration was assayed from the ferricyanide - oxdised minus ascorbate - reduced difference spectrum
測定裙帶菜各色素蛋白復合物的吸收光譜、熒光發射光譜和熒光激發光譜,並進行了dcip的光還原測定和化學法的氧化還原差示光譜測定。 -
The photosynthetic pigment in bacteria is bacteriochlorophyll.
細菌光合作用的色素是細菌葉綠素。 -
Effects of zn2 on the photosynthetic pigment content of porphyra haitanensis thalli
對壇紫菜葉狀體光合色素含量的影響 -
Cd destroyed photosynthetic pigment, especially chlorophyll a and photosynthetic tissues, which then affected the photosynthetic efficiency and held back the growth of plants
Cd ~ ( 2 + )破壞美人蕉光合作用色素特別是葉綠素a 、光合組織等,影響其光合作用效率,抑制其正常生長。 -
Examples of such metalloporphyrins are the iron porphyrins ( e. g. heme in hemoglobin ) and the magnesium porphyrin, chlorophyll, the photosynthetic pigment in plants
例如金屬卟啉象鐵卟啉(如血紅素中的亞鐵)以及鎂卟啉、植物中的葉綠素與光合色素。 -
The changes in photosynthetic pigment content and specific leaf weight further proved that in terms of their adaptability i. cornuta var. fortunei ranked the first, i. viridis ranked secondly and hex chinensis ranked last
葉片光合色素和比葉重變化進一步證明,全緣枸骨適應能力最好,綠冬青次之,冬青相對較差。 -
The contributions of non - leaf organs to photosynthesis next, studies on photosynthetic pigment, the rates of photosynthetic oxygen evolution and 77k fluorescence emission spectrum of awns and lemmas in rice and wheat were carried out
隨著小麥芒的衰老過程,其中葉綠體的數量也隨之減少,並且這種減少的趨勢在旗葉中先發生。 -
Effects of water stress on photosynthetic pigment in leaves and chlorophyll fluorescence of cynanchum komarovii
水分脅迫對牛心樸子葉片光合色素及葉綠素熒光的影響 -
Variation of photosynthetic pigment content in eleven ornamental tree species to sulfur dioxide stress treatment
2脅迫下11個園林綠化樹種光合色素含量的變化 -
As a result of adapting shaded environment, large variations took place in photosynthetic unit size, electron transmission, pigment content, endogenous hormones and enzyme activities, morphological and anatomical structure, nutrient absorption and distribution to ensure fully utilizing light energy at shading conditions, and to maintain its energy equilibrium and normal life activities
草本植物為適應蔭的環境,導致在光合作用單位、電子傳遞、光合色素含量、內源激素及酶活性、植株形態解剖結構、營養物質的吸收及分配等方面產生變化,以保證在遮蔭下仍能充分利用光能,維持生長所需的能量平衡,進行正常的生命活動。
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