種群的聚集度 的英文怎麼說

中文拼音 [zhǒngqúnde]
種群的聚集度 英文
degree of aggregation fo the population
  • : 種名詞(姓氏) a surname
  • : Ⅰ名詞(聚在一起的人或物) crowd; group Ⅱ量詞(用於成群的人或物) group; herd; flock
  • : 4次方是 The fourth power of 2 is direction
  • : 動詞(聚集; 聚積) assemble; gather; get together
  • : gatherassemblecollect
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • 聚集 : 1 (集合; 湊在一起) gather; assemble; collect 2 [工業] accumulation;congestion; concrescence; re...
  1. The competition among those species like s. tsinyunensis, dryopteris erythrosora and veronicastrum stenostachyum etc., is intense in the communities, which may be one of the reasons why s. tsinyunensis is going to be endangered and with a very restricted distribution. the distribution patterns of the seven populations of s. tsinyunensis are clumped among the eight populations we studied, except population v of random distribution. the spatial pattern of 6 populations of s. tsinyunensis have high consistency with the negative binominal distribution, while another 2 populations, i. e., i and iii are poisson distributions

    6 )縉雲黃芩各空間分佈格局基本呈分佈,其中7個分佈格局類型是分佈,其較高,另有一個為隨機分佈;其離散分佈擬合結果也嚴格符合一定數學模式,其中負二項分佈、 poisson分佈分別是該物空間分佈理論分佈模式,其中6個擬合出結果是負二項分佈,i和m擬合出結果是poisson分佈。
  2. Previous researchers have always determined the sp atial distribution patterns ( sdp ) of castanopsis kawakamii with a sample - dis tance method. however, the distribution patterns may be affected by the quadrat si ze and, in the course of analysis, the density differences among the cluster plots are not considered ; therefore, differences of cluster plot size and the dispersi on degree among individuals of cluster plots can not be known. authers of this pa per have determined the spatial distribution patterns of castanopsis kawakamii population in different habitats by means of non - quadrat distance method and a nalysed the pattern intensity and grain of the sdp. the pattern intensity is defi ned with the relative density differences and the pattern grain can embody the d ispersion degree of the individuals in the plots, and the dispersion degree among the plots. the determined results are as follows. the intensities of the species range in order from strong to week : litsea mollifolia p. kawakamii i. purpure a r. cochinchinensis c. kawakamii c. carlessii d. oldphamii s. superba. the gra ins of the species queue in order from coarse to close : s. superba = litsea mollif olia r. cohinchinensis c. kawakamii = i. purpurea c. carlessii p. racemosam d. oldp hamii. these determined results tally basiclly with the results authers of this paper have got in determining the same plots by means of aggregate index access ing method. in view of this, it is held that the sdp of c. kawakamii is closely related to the habitats and biological features

    前人都是採用樣方方法對格氏栲數量空間格局進行測定,而格局分佈有可能受樣方大小影響,且分析過程中沒有涉及塊間密問題,因而無法掌握塊大小差別及塊內個體間離散程.本研究採用無樣方距離法,測定不同生境格氏栲空間格局,分析格氏栲格局和紋理.強塊和間隙差來定義,紋理則是體現塊內個體間離散程與諸塊間分離程.測定結果表明,格氏栲格局強從高到低排列次序為:木姜子蚊母樹冬青茜草樹格氏栲米櫧虎皮楠木荷;格局紋理從粗到細順序是:木荷=木姜子茜草樹格氏栲=冬青米櫧蚊母樹虎皮楠.這一測定結果與作者採用指標測定相同樣地格氏栲空間格局結果基本相符.因此,格氏栲空間格局類型及分佈與格氏栲生物學特性及生境關系密切
  3. We studied its distribution pattem by using the following measures f the test for fitting to the poisson, negative binomial and neyman a distribution. at the same time, we use negative binomial parametef, dispersal index, patchiness index, cassie s index and clumping index, estimated the aggregation intensity. the results showed that the distribution pattern is typically aggregated, and the intensity of aggregation vari

    經統計分析,青島百合復合、各局部內個體分佈格局離散分佈擬合結果符合負二項分佈;各參數中,叢生指標)和cassie指標(二k )均大於o ,負h項參數限)均較小,擴散系數k卜擴散型指數)和塊性指標( m m )均大於1 ,以上這些表明各個局部分佈格局都為分佈。
  4. The higher landscape heterogeneity, the closer to nature secondary forest. along the gradient, landscape congregation index exhibits descendent tendency, showing a significant relationship between the extent of patch mosaic and the extent of disturbance, according to changes of landscape mean shape index ( lmsi ) and landscape mean fractal dimension index, integrated disturbance ( nature disturbance, human activities, vegetational inner succession or population dynamics ) tend to enhance

    景觀指數是隨著梯區呈下降變化趨勢,表明斑塊之間鑲嵌聯系與受到干擾程有極為重要關系。從景觀平均形狀指數和景觀平均分維數變化,可看出綜合干擾(自然干擾、人為活動、植被內源演替或動態變化)是呈增強發展趨勢。
分享友人
分享到 Line

分享到臉書