植物蒸騰 的英文怎麼說

中文拼音 [zhízhēngténg]
植物蒸騰 英文
evaporation form vegetation
  • : Ⅰ動詞1. (栽種) plant; grow; cultivate 2. (樹立) establish; set up Ⅱ名詞(姓氏) a surname
  • : 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...
  • : Ⅰ動詞1. (蒸發) evaporate2. (利用水蒸氣的熱力使食物熟或熱) steam Ⅱ名詞[中醫] (將藥物隔水蒸熟) steaming
  • : 騰象聲詞(形容猛然動作發出的聲音)
  • 植物 : plant; flora; botany; stray; greenery; phyton; phytum; phyta; phyt ; phyto ; phyte : 草本植物 her...
  • 蒸騰 : (of steam) rising
  1. In aerial parts of the plant the outer wall of the epidermis is usually covered by a waxy cuticle that prevents desiccation, protects the underlying cells from mechanical damage, and increases protection against fungi, bacteria, etc

    地上部分的表皮的最外層通常覆蓋一層蠟質角質層,起保護作用以防止過渡,並使下方的細胞免於機械損傷,同時增加對真菌、細菌等的防禦能力。
  2. Potometer an apparantus for measuring the rate of water uptake by a cut shoot or whole plant

    計:通過莖切段或整個體來測量水分吸收速率的儀器。
  3. Loss of water also includes the transpiration of water to the atmosphere from plants.

    水的散失也包括從體中到大氣層中的水。
  4. In one very real sense, however, transpiration is not a loss, because it is a necessary function of plant life.

    以實際意義來說,不是散失,因為它是生命必要的機能作用。
  5. Evapotranspiration is the total evaporation from moist soil and from vegetated surfaces plus transpiration

    濕潤土壤及表面的總發量加上量稱為散量。
  6. It was showed that c. arborescens ecotype wu was generally the most drought tolerant one except lower than c. arborescens ecotype xj which was the maximum in may, bore comparison with zygophyllum xanthoxylum by estimating seasonally ; c. latens ecotype nx was significantlly lower than c. arborescens ecotype wu, the result was contrary to being known ; c. arborescens ecotype kerqin was significantlly lower than wu ; xj, the maximum in may, showed no else great difference to nx ; c. lanata was high in april and not high afterwards, however its phenological phase presented visible changes as compared with the original life patterns in western america

    Arborescensecotypexj ) 5月耐旱性表現最強,其他時間與寧夏駝絨藜差別不大;北美駝絨藜( c lanata ) 4月拐點很高, 4月以後耐旱性降低,其候期與原分佈區(美國西部)相比發生了很大變化。駝絨藜屬在不同季節中速率的日變化基本上都為典型的單峰曲線。
  7. A comparison of transpiration characteristics and water use efficiency between poaceae plants and chenopodiaceae plants under the simulated light source

    模擬光條件下禾本科和藜科植物蒸騰特性與水分利用效率比較
  8. The system measures photosynthesis rate by using infrared co2 gas analyze method. it has two work modes : open route and close route. it can measure the leaf photosynthesis rate, transpiration rate, stomata conductance and co2 thickness in cell clearance etc parameters about plant physiology

    本文研究設計了測定光合、速率的主從式虛擬儀器系統,系統採用紅外線分析法測定光合速率,設置有開路和閉路兩種測定方式,可以測量葉片的光合速率、速率、氣孔導度和細胞間隙co _ 2濃度等與光合作用相關的參數。
  9. Diurnal and seasonal changes in tr of ceratoides spp. displayed typically a single peak. tr was higher and response was more sensitive to environmental factors in ceratoides spp

    與霸王( zygophyllumxanthoxylum )和沙拐棗( calligonumrubicundum )相比,駝絨藜屬及檸條( caraganakorshinski )的速率較高、對環境反應較敏感。
  10. Some plants had single peaks each month, but others had two peaks per month

    除狼牙刺外,所有日平均速率均在8月最低。
  11. The hydrological cycle involves the movement of water in three phases from the ocean, land or living matter into the atmosphere by evaporation and transpiration and back into the earth s surface through a chain of complex atmospheric processes

    水以三種不同的型態水汽液態水冰,自洋麵陸地及動透過發及進入大氣層,又通過一連串復雜的大氣過程返回地球表面。整個循環稱為水分循環。
  12. The main results indicated that : significant differences exist in diurnal average transpiration rate and the range of diurnal transpiration rate ; the transpiration rate of sawtooth oak, amorpha, lalang grass varied with a regular double apex rhythm, but that of the rest varied with a regular single apex rhythm, stomatal conductance play a maximal important role in transpiration rate, temperature ( air temperature, the earth ' s surface temperature ) also influence the transpiration rate ; transpiration rate has prominent negative correlation with the relative air humidity, the biggest coefficient is 0. 866

    筆者對日照沿海防護林幾種主要木本和草本速率和環境因子的關系進行了研究,結果表明: 8種日平均速率和速率日變幅各異;麻櫟、紫穗槐和白茅的速率日變換呈現出雙峰式的變化規律,其它5種植物蒸騰速率表現為單峰式的變化規律;氣孔導度影響著速率,溫度(氣溫、地面溫度)是影響植物蒸騰速率的主要因子;空氣相對濕度和速率表現為顯著或極顯著負相關,相關系數高達0 . 866 。
  13. Acute experimental results of effects of high - voltage electrostatic field on animal organisms

    高壓電場對機體影響的研究電暈電場對植物蒸騰作用發生影響的可能性
  14. Cushion plants usually have small thick leaves to minimize water loss, or hairy leaves to reduce transpiration

    墊狀通常都具有小而厚的葉片,目的是減少水分的流失,葉片捲曲以便減少作用。
  15. It was estimated that plants account for around 65 % fresh water use every year, which was mainly lost through stomata

    全球每年約耗掉65的淡水資源,而這些水分大部分是通過氣孔的作用喪失掉的。
  16. Asa efficient plant water retention agent : one type of chemical material reducing plant evaporation, simulating plant growth regulator through adopting of the simulation of plant endogenous growth regulating substance

    高效保水劑,一種減少植物蒸騰的化學質,系採用仿製內源性調節生長質的技術方法生產的仿生生長調節劑。
  17. With the exception of sophora viciifolia, the transpiration rates for all plants were lowest in august

    速率季節變化曲線與降雨量季節變化一致,持續乾旱可導致植物蒸騰速率顯著降低。
  18. As result, a new method is presented by using the acoustic emission ( ae ) signal from stem of individual plant as its demand information. based on virtual instruments technique, which is becoming a popular tool in measurement and automation fields international, a computer - based detecting system is developed for the fast, real - time measurement. take tomato crops for testing example in greenhouse, the relation between ae and transpiration, environmental factors has been studied

    因此,從本身出發,本文在國內首次採用了以株莖部聲發射信號作為農作需水信息的新方法,運用目前在測控領域國際流行的虛擬儀器技術,建立了對作株莖部聲發射信息進行實時、快速測量的微機檢測系統,並以溫室盆栽番茄為對象,研究了聲發射信息同植物蒸騰以及環境因子間的關系。
  19. Characteristics of primary elements migration at different geomorphological positions and their correlation to plant transpiration in guilin karst experimental site

    桂林巖溶試驗場不同地貌部位主要元素遷移特徵及與植物蒸騰作用的相關性
  20. And this is the first full application of two - layer model in remote sensing. from separated evaporation and transpiration through the model some important field parameters can be derived, such as canopy resistance, co2 flux and crop water use efficiency. a simplified two - layer model was also presented in case of that only radiative temperature is available

    在組分溫度的幫助下,實現了土壤發和的準確分離,並且用速率反算出冠層氣孔阻抗、二氧化碳通量、以及作群體水分利用效率等農田關鍵參數,是遙感獲得此類參數的新思路。
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