physiological change 中文意思是什麼

physiological change 解釋
生理變化
  • physiological : adj. 生理的,生理學(上)的。 a physiologic strain【生物學】生理小種。 physiologicsaline 生理鹽水。-logi-cally adv.
  • change : vt 1 改變,變更,變換,變革。2 交換;兌換;把(大票等)換成零錢;把(支票等)兌成現金。3 換(車、...
  1. Biorhythm a periodic physiological or behavioral change that is controlled by a biological clock. circadian rhythms are an example

    生物節律:由生物鐘控制的周期性的生理上的或行為上的變化。晝夜節律就是一個很好的例子。
  2. This is so because climbing plants are likely to encounter intensive - changing environmental condition during their growth ( especially change of illumination ). secondly, there is a large proportion ( 30 - 40 % ) of climbing plants which belong to dioecism, and hence a gap between male and female plants on morphology, biological characteristic, economic value and so on. this dissertation focuses on herbaceous climbing plants, perennial or annual species such as dioecious trchosahthes kirilowii maxin and dioscorea opposita thumb, and monoecious luffa cylindrical ( l ) roem, it attempts to discover how climbing plants adapted to various environments and the mechanism of adaptation from aspects of physiological and reproductive ecologies at present, due to overuse of chlorofluorocarbons ( cfcs ), the ozonosphere has become thinner and thinner, and the ultraviolet - b ( uv - b ) radiation has increased considerably

    而攀援植物本身是一類理想的植物行為生態學研究材料:第一,攀緣植物由於受攀緣能力和支柱木資源的限制,在生長過程中通常要遇到強烈變化的環境條件(特別是光照) ;第二,攀緣植物中具有較高比例的雌雄異株類型,通常佔地區攀緣植物種類的30 40左右,不同性別的植物在形態學及生物學特性、經濟價值等方面存在一定的差距,因此,本文以雌雄異株攀緣植物栝樓( trchosahtheskirilowiimaxim ) (葫蘆科多年生草質藤本植物)和山藥( dioscoreaoppositathunb ) (薯蕷科薯蕷屬植物) 、雌雄同株異花攀緣植物絲瓜[ luffacylindrical ( l ) roem ] (葫蘆科一年生攀緣草本植物)為材料,試圖從生理生態學及生殖生態學角度揭示攀援植物如何適應不同生境及其機理。
  3. In recent years, the water - saving and control irrigation technique of rice has diverted from plot experimental and demonstration to lare scale. and has got remarkable economic and social benefits. amed at the characteristics of this irrigation area, optimal selection for water - saving techniques of rice, deciding the amout of leaching water and irrigation modles, investigating the adaptability of the water - saving and control irrigation technique in saline land. studying the increase in production mechanism of the technique are important to extend the technique, to better and develop saline land as well as slick spots. according to the results of field experiments, optimization study was conducted on the water - saving irrigation technique of rice in saline land, the effects of different water - saving irrigation techniques on the physiological indexes and yield of rice were systematically analyzed. by using mutiplepurpose fuzzy optimization method, better. water - saving irrigation technique was selector out, that is. the control irrigation technique in rice. the mechanism of it was analyzed from the aspect of the physiological and ecological saving water of rice to provide the implemental process and technical point ; throgh the quantitive analysis and comparision on control irrigation and control class ( flood irrigation ), high production and quality mechanism of the technique was analyzed in terms of physiology indexes of rice, the variation of soil moisture, the pest resistance and the lodge resistance, the change of soil temperature in paddy fields. the yield constitutive factors, the quality of rice and so on. in saline land. control irrigation and intermittent leaching modles were adopted to validate the adaptability of the technique in irrigation of rice in saline land, to analyze rice ' s physiological - ecological indexes and the change of soil salt content under the conditions of control irrigation leaching of rice and and to provide control irrigation and combined modle of intermittent leaching to adapt to different conditions

    本文從試驗及試驗資料入手,取得以下主要成果和結論:對鹽堿地水稻節水灌溉技術進行優化研究,系統地分析了不同節水灌溉技術對水稻生理指標及產量的影響,採用了多目標模糊優化的方法,對灌水技術進行綜合評判,優選了節水灌溉技術,論證該地區宜採用水稻控制灌溉技術;闡述控灌技術通過調節和控制水稻的需水規律,降低水稻高產情況下的無效水量消耗,從水稻生理、生態節水兩方面分析了控灌技術節水機理,針對性地總結出水稻各生育期實施節水控灌技術的步驟及技術要點;通過控灌與淹灌的定量對照比較,從根系、莖蘗、冠層葉片及綠葉動態到株高,土壤水分變化,抗病蟲害、抗倒伏能力,稻田土溫變化,產量構成因素及稻米品質等諸多方面進行動態比較,分析控灌技術高產優質機理;在鹽堿稻地採用控制灌溉+間歇淋洗模式,跟蹤測試田間水鹽變化狀況,驗證控制灌溉技術在鹽堿地區水稻灌溉中應用的適應性,通過分析水稻控制灌溉淋洗條件下水稻生理生態指標,提出優化控制灌溉+間歇淋洗組合模式,為進一步在高礦化度地區試驗水稻控灌技術奠定基礎。
  4. Corresponding relations between the structure, physiological functions, pathological changes of the human body as microcosm and the change of the nature environments as a macrocosm

    人體組織結構,生理活動以及病理變化作為小宇宙,同自然界大宇宙的對應關系。
  5. Change law of physiological indices and yield for paddy rice under different water and nitrogen supply

    不同水肥處理條件下水稻生理指標及產量變化規律
  6. A period of life characterized by physiological and psychic change that marks the end of the reproductive capacity of women and terminates with the completion of menopause

    絕經期,更年期生命的一個階段,特徵是標志婦女生殖能力終結及以停經完成為結束的生理、心理變化
  7. The simulated results of net primary production ( npp ) are similar to other ' s study. the annual, seasonal and daily change of npp can reflect the physiological characteristic of vegetation growing very well and has close relationship with climatological factors

    年npp的模擬結果與國內的一些其它類似研究結果接近, npp的模擬結果能較好地反映出植被生長的生理特點npp的月變化、日變化及年際變化對氣候因子有不同的響應。
  8. Effect of alternate partial root - zone irrigation on physiological change and quality of lily lilium spp cut flower

    分根區交替灌溉對百合鮮切花生理變化和質量的影響
  9. Course contents ( containing practice period ) : introduction to the course ; basic function of cells ; breath ; blood ; blood circulation ; digesting and absorption ; energy metabolism and body temperature ; the excretion of kidney ; sensory organs ; nervous system ; endocrine system ; urogenital system ; physical constitution ; change of physiological function of human body in each sports stage ; lung ' s function measurement ; blood type test ; hemoglobin measurement ; auscultation of heart sounds ; measurement of blood pressure ; electrocardiogram measurement ; measurement of visual field ; measurement of body temperature ; cardiovascular function test before and after sport

    課程內容(含實踐活動) :緒論、細胞的基本功能、呼吸、血液、血液循環、消化與吸收、能量代謝和體溫、腎臟的排泄、感覺器官、神經系統、內分泌、生殖、身體素質、運動各階段人體生理功能的變化、肺功能測定、血型鑒定、血紅蛋白測定、心音聽診、血壓測定、心電圖測定、視野測定、體溫測定、運動前後心血管功能變化。
  10. The fractional change in bold signal for a given change in blood flow can vary in different parts of the brain, depending on the local density of blood vessels and the physiological state of the particular tissues at rest

    同樣的血流改變所導致的血氧濃度變化信號變化,在腦的不同部位會有不同的大小,端視局部的血管密度以及靜態下特定組織的生理狀態而定。
  11. Shading could change plant growth surroundings and remarkably affected physiological and biochemical characteristics and yield

    遮蔭可明顯改變草本植物的生長環境,進而對其生理生化特性及產量產生較大的影響。
  12. Driving is mainly composed of perception and information processing. driver fatigue is the representation of physiological change

    駕駛是以感知和信息處理為主的作業,駕駛疲勞是駕駛員作業行為變化和生理變化的多種形式的表現。
  13. Subjective questionnaire and physiological signal are used to record the change of driver ’ s heart rate ( hr ), breath rate ( br ) and surface electromyogram ( semg ). the result shows that hr, br, semg of loin can be used to describe df and the average of hr and br drops, semg raises during driving process

    實驗結果表明:駕駛員心率、呼吸頻率和表面肌電值可反應駕駛疲勞程度,並且心率平均值、呼吸頻率平均值隨時間變化總體呈下降趨勢;腰部表面肌電絕對積分值隨時間變化總體呈上升趨勢。
  14. This paper expatiates on the philosophical and physiological theories in sports training designing with regard to the unity of the opposites, mutual change law of quality and quantity and negation of negation law in sports training etc

    採用文獻資料法、邏輯思維法等方法,較系統地闡述了運動訓練設計思想中的相關哲學原理與生理基礎,論述了運動訓練關于對立統一、質量互變和否定之否定等基本規律的哲學思辯。
  15. The result showed that physiological response were mainly affected by concentration of peg and less affected by time of peg ( 6000 ) treatment. relative water content of leaves root activity, and growth of roots and plants showed a less reduction under 10 - 20 % peg ( 6000 ) treatment, but ratios of root cap, and contains of soluble sugar, contain of pro and potassium showed a less increase. all those just described indexes showed a marked change under 25 % peg treatment

    在10 20的peg濃度脅迫下,葉片相對含水量、根系活力、根系及地上部生長量下降的幅度較小;根冠比、可溶性糖、脯氨酸( pro ) 、 k ~ +上升的幅度也較小,而在25的peg濃度脅迫下上述指標發生了很顯著的變化,葉片相對含水量、根系活力明顯下降,可溶性糖最大含量出現的時間較20濃度脅迫的提早3d ,且較20時的最大含量小,並在延長處理3d后又開始下降,根系和地上部的生長受到嚴重抑制,且地上部影響大於根系,根冠比顯著增大,脅迫後期趨于恆定狀態,生長幾乎完全停止。
  16. Abstract : this paper depicts the physiological basis for the application of rare earth elements in agriculture. the contents, distribution, the forms and cytolocalization of rare earth elements in plants are discussed. the effects of rare earth elements on seed germination, root development, seedling growth, nutrient uptake, change of hormones, and photosynthesis are also discussed. further more the rare earth elements affecting the plasma membrane and calcium physiological function are reviewed as well

    文摘:本文從稀土元素在植物中的含量分佈、存在形式、細胞定位以及它對植物種子萌發、根系發育、植物生長、養分吸收、內源激素變化、光合作用、質膜結構與功能和鈣離子生理功能的影響等方面闡述了稀土在農業中應用的生理學基礎。
  17. 7 the transpiration rate and stomatal conductance of these four species show increase first and then decrease with the leaves locating from lower to upper, and the causes for this change due to the changing environment and the different physiological traits of the leaves

    7 、四物種不同葉位葉片的氣孔傳導力和蒸騰速率從下到上基本上表現出先逐漸增加后減少的變化趨勢,出現這種變化的原因與環境條件變化和葉片的生理特性差異有關。
  18. The abilities of cultured cells mentioned above cannot be obtained just by optimization of medium formulations and the implementation of high - performance bioreactor configurations. modifying the cells themselves by gene technology to change their physiological exhibitions may provide a better way to make the cells more robust to challenging environments

    工程細胞上述能力的獲得僅由培養基配方和培養條件優化設計很難實現,必須從工程細胞本身著手,對細胞本身的生理特徵進行改造,才有可能實現。
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