演替生態學 的英文怎麼說

中文拼音 [yǎnshēngtàixué]
演替生態學 英文
syngenetics
  • : 動詞1 (演變; 演化) develop; evolve 2 (發揮) deduce; elaborate 3 (依照程式練習或計算) drill;...
  • : Ⅰ動詞1 (代替) replace; substitute for; supply [take] the place of 2 [書面語] (衰敗) decline Ⅱ...
  • : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
  • : 名詞1. (形狀; 狀態) form; condition; appearance 2. [物理學] (物質結構的狀態或階段) state 3. [語言學] (一種語法范疇) voice
  • : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
  • 生態學 : ecology; oecology; mesology; hexicology; bionomics; [脊椎] ethology生態學家 ecologist
  • 生態 : organism s habits; modes of life and relation to their environment; ecology生態變異 ecocline; 生...
  1. In the course, the condition and the process of forming and changing of minerals, the typomorphic features of minerals, the characteristics of the distribution and the evolution of minerals and their paragenetic associations in the period and the space, the methods of mineral analyses and research, the geological thermometers and the geologicial barometers of minerals, mineral paragenetic associations and paragenesis analyses will be introduced, and the magnificent and the microscopic genetic characteristics of pyrite, quartz, garnet, pyroxene, amphibole, mica, feldspar, and other minerals will be dealt with particularly

    本課程主要講述礦物及其共組合的形成和變化的條件和過程,不同物理化條件下礦物的成分、結構、形、物性等標型特徵以及它們之間的內在聯系,礦物及其共組合在時間上和空間上的分佈和化規律,礦物成分、結構、形貌、物性等的分析測試方法,礦物地質溫度計和地質壓力計對其形成環境的表徵,不同體系(封閉體系、開放體系)條件下,礦物的穩定范圍和彼此代順序的共分析,重點介紹黃鐵礦、石英、石榴石、輝石、角閃石、雲母、長石等礦物(族)在成因上的宏觀標志和微觀信息,以及其成因信息在成巖作用和成礦作用中的地質意義。
  2. Study on the synecological characteristics of the early successional stage of an evergreen broadleaved forest on tiantong national forest park zhejiang province

    浙江天童國家森林公園常綠闊葉林前期的群落特徵
  3. Xuli tang, guoyi zhou, et al. dependence of soil respiration on soil temperature, soil moisture in successional forests in southern china. journal of integrative plant biology ( in press )

    唐旭利,周國逸. 2005 ,南亞熱帶典型森林類型粗死木質殘體貯量及其對碳循環的潛在影響.植物報, 29 , 559 - 568
  4. Ecologic process of the wash lands by debris flows in mountain region is very complex and variety, and is a specific catastrophe - ecologic phenomenon in mountain region. plant growth of the wash lands of debris flow sdistributed in high altitude area shows a natural restorative proccss. it is found that plant growth process and community feature in the wash lands of debris flow can bring to light of the time of debris flow formation in the last hundred years and to the succession law of natural vegetation ecosystem through study in the catastrophc - ecologic phenomena and the ecologic process in wash lands of debris flow in the huangbenliu gully of the east slope of gongga mountain. the research result for this region also shows that study of the catastrophe - ecologic phenomena of debris flow can promote scientific infiltration between the ecology and the catastrophology, and has important theoretical and practical significances

    山區泥石流發后的泥石流灘地呈現復雜多樣的過程,是山區所特有的一種災害現象.在人煙稀少的較高海拔,泥石流灘地植物長表現為一種自然恢復過程.通過貢嘎山東坡高海拔黃崩溜溝泥石流灘地上發的災害現象和過程的實地研究,發現泥石流灘地植物的過程和群落特徵,可以揭示近代泥石流的形成時間和自然植被系統的規律.研究表明,加強泥石災害現象的研究,可以促進災害科的滲透,具有重要的理論和實踐意義
  5. Therefore, the study of corporate organizational structural evolution is of vital importance to comprehension and interpretation of evolution for enterprises themselves and the whole economic system. focused on the study of corporate organizational structure and based on evolutional biology, complicated systematic theory, evolutional economics and organizational ecology, this thesis elaborates on the process, influencing factors and mechanism of corporate organizational structure evolution as well as the correlations of such evolution between corporate development and enterprise ecology succession. 1. this thesis comes up with four assumptions key to the study and defines corporate organizational structure

    本論文以企業組織結構進化現象作為主要研究對象,在進化、復雜系統理論、進化經濟和組織等理論研究的基礎上,對企業組織結構進化的歷程、影響因素、進化機制,以及企業組織結構進化與企業成長發育和企業之間的相互關系展開了系統的討論: 1 .在提出四個關鍵的研究假設前提后,本文對企業組織結構進行了界定。
  6. The theory of landscape ecology about drastic disturbance of landforms has been richened. a practical way could be found to identify the final direction of artificial ecosystem succession. moreover, the results can be applied into study the land reclamation and ecological rehabilitation of the developed opencast mines and developing ones in loess plateau

    本研究結果的科價值:豐富了極端境下劇烈擾動地貌的景觀理論,為確定人工正確誘導下的礦區方向提供了可借鑒的方法和途徑;應用價值主要體現:研究結果適宜於我國黃土高原正在開采和將要開採的大型露天煤礦的土地復墾與重建。
  7. Based on the enviroment of the nandagang wetland, combining the outside investigation and inside analysis, adopting the mathematical analysis methods such as the principal component analysis ( pca ), regression analysis, correlation analysis etc. the type of wetland ecosystem, the flora of the wetland plant, the type, the function, the formation and succession and the outside influencial factors of the vegetation, the ecological conditions and biomass of the reed population are all studied. the main results can be concluded as follows : 1 ) the nandagang wetland is a freshwater one close to the bohai sea. its ecosystem can be divided into two parts : natural ecosystem and semi - artificial ecosystem

    本研究從南大港濕地的實際環境出發,採用樣方調查的方法,以外業調查和內業分析相結合、野外採集測量與實驗室分析處理相結合、定性描述與定量分析相結合為根本研究路線,應用主分量分析( pca ) 、回歸分析、相關分析等數分析手段,對南大港濕地系統的類型、濕地植物的區系組成、濕地植被類型、植被的功能、植被的形成和、植被的外界影響因素、濕地蘆葦種群的條件和種群物量等方面進行了較深入的研究,主要研究結果如下: 1 )南大港濕地是濱海瀉湖型淡水濕地。
  8. The landscape pattern is in the constant development and change, and today ' s pattern took shape based on the past landscape flows, including natural, social, economic and various kinds of ecological processes, therefore through analyzing the landscape pattern change at different time, we can reflect the landscape ecological processes, expound succession mechanism and rules in landscape, predict the variation tendency in the future of the landscape, and realize the sustainable utilizing of landscape resource finally

    景觀格局不僅體現著自然的、物的和社會的各種過程在不同空間尺度上相互作用的結果,同時又決定著各種自然環境因子在景觀空間上的分佈和組合,從而制約著各種過程,影響著景觀內能量流、物質流和物種流的變化。因此,通過研究景觀格局可以更好地理解過程,通過分析景觀格局隨時間的變化可以反映景觀過程,揭示景觀的機制和規律,進而預測景觀的未來變化趨勢,最終實現資源的可持續利用。
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