Based on the Karma model and the Eggleston regularization technique of the strong interfacial energy anisotropy, a phase-field model was established for HCP materials. An explicit finite difference numerical method wa...Based on the Karma model and the Eggleston regularization technique of the strong interfacial energy anisotropy, a phase-field model was established for HCP materials. An explicit finite difference numerical method was used to solve phase field model and simulate the dendrite growth behaviors of HCP materials. Results indicate that the dendrite morphology presents obvious six-fold symmetry, and discontinuity in the variation of interface orientation occurs, resulting in a fact that the corners were formed at the tips of the main stem and side branches. When the interfacial energy anisotropy strength is lower than the critical value(1/35), the steady-state tip velocity of dendrite increases with anisotropy as expected. As the anisotropy strength crosses the critical value, the steady-state tip velocity drops down by about 0.89%. With further increase in anisotropy strength, the steady-state tip velocity increases and reaches the maximum value at anisotropy strength of 0.04, then decreases.展开更多
Micropropagation techniques were set up for walnut. Many plantlets were obtained by culturing node explants in MS medium,with 30 g/L sucrose, 7 g/L agar, and different concentrations of BA or Kin alone and different c...Micropropagation techniques were set up for walnut. Many plantlets were obtained by culturing node explants in MS medium,with 30 g/L sucrose, 7 g/L agar, and different concentrations of BA or Kin alone and different concentrations of BA + NAA or BA + Kin. BA at concentration (2 mg L-1 BA) gave the best results in percentage response and number of shoots/plant (100%, 2.84) respectively. While, Kin at 3 mg L-1 gave the highest average shoot length (2.81 cm). However, MS medium supplemented with 2.5 mg L-1 + 0.5 mg L-1 Kin gave the best results compared with all treatment shoot/explants and the highest number of leaves/explants (3.7, 8.2) respectively. While the highest length of shoot (4.7 cm) in MS medium supplemented with 3 mg L-1 Kin. and a high rooting percentage up to 60% at MS medium supplemented with 1 mg L-1 IBA (Indole-3-butyric acid) was obtained.展开更多
叶大小与小枝大小关系反映了植物对木质部同其所支持的光合作用面积的配置比例关系,不同生境中其生长关系的变异体现植物对异质环境的适应方式。在祁连山北坡高寒草地,利用ArcGIS建立研究区域的数字高程模型(DEM),并提取样地坡向数据,...叶大小与小枝大小关系反映了植物对木质部同其所支持的光合作用面积的配置比例关系,不同生境中其生长关系的变异体现植物对异质环境的适应方式。在祁连山北坡高寒草地,利用ArcGIS建立研究区域的数字高程模型(DEM),并提取样地坡向数据,采用标准化主轴估计(standardized major axis estimation,SMA)方法,研究了不同坡向狼毒(Stellera chamaejasme)种群叶与枝的生长。结果表明:随着坡向由南坡向东坡、西坡和北坡转变,狼毒叶面积、叶片数和枝长度均呈逐渐增加趋势;狼毒叶片数、叶面积与枝长度均呈异速生长关系,枝长度增加的速度大于叶片数和叶面积增加的速度;随着坡向由北坡向东坡、西坡和南坡转变,狼毒叶片数与枝长度的异速斜率逐渐增大,叶面积与枝长度的异速斜率逐渐减小。生境对狼毒枝条与叶片的生长具有显著影响,北坡具有更适宜狼毒生长的生境条件,南坡土壤水分匮乏等不利影响使狼毒枝条与叶片变小,并且单位长度枝条支持更多的叶片。展开更多
The architectural analysis of the young date palm (Phoenix dactylifera L.) root system (its form and its structure), is necessary to describe its principal functions of absorption and anchoring. In this study the ...The architectural analysis of the young date palm (Phoenix dactylifera L.) root system (its form and its structure), is necessary to describe its principal functions of absorption and anchoring. In this study the authors present an analysis of the root branching process. It allows them to understand the distribution of inter-lateral root length on the radicle and to account the development of the root system in the soil. Root architecture was studied from samples sprouted naturally in the oases of Chott el Ferikh (Gabes) and other plants grown in polyethylene bags under the shadow. This analysis has showed five categories of roots belonging to four different topological orders in the youthful phasis.展开更多
Leaf longevity is an important adaptive strategy that allows plants to maximize photosynthetic carbon gain.Due to the difficulty of identifying overwintering bud scars and distinguishing the age sequence of twigs,leaf...Leaf longevity is an important adaptive strategy that allows plants to maximize photosynthetic carbon gain.Due to the difficulty of identifying overwintering bud scars and distinguishing the age sequence of twigs,leaf longevity is rarely studied in Cupressaceae species,which further limits our understanding of the leaf economic spectrum (LES) for these populations.Here,we investigated the leaf longevity,as well as mass-based leaf nitrogen concentration (N;),of Juniperus saltuaria at different canopy heights for both subalpine and alpine timberline forests in the Sergymla Mountains,southeastern Tibet.We found that the mean leaf longevity was 4.2±1.2 years,and overall it did not differ significantly between different elevations.Along the vertical profiles of juniper canopies,the leaf longevity did not reflect a linear trend.With increasing leaf longevity,N;showed declining trends.We further analyzed the relationship between leaf longevity and the corresponding length of green twigs,and found that the length of green twigs could only explain 1%-3%of the variation in leaf longevity,indicating that the length of green twigs is a poor predictor for the variation in leaf longevity.In summary,for the J.saltuaria species in timberline or nearby subalpine forests,the effects of elevation and canopy depths on leaf longevity are minor,and the leaf trait analysis is in accordance with the prediction of LES.展开更多
A phase-field model with forced liquid metal flow was employed to study the effect of boundary heat flux on the dendritic structure forming of a Ni-40.8%Cu alloy with liquid flow during solidification.The effect of th...A phase-field model with forced liquid metal flow was employed to study the effect of boundary heat flux on the dendritic structure forming of a Ni-40.8%Cu alloy with liquid flow during solidification.The effect of the flow field coupling with boundary heat extractions on the morphology change and distributions of concentration and temperature fields was analyzed and discussed.The forced liquid flow could significantly affect the dendrite morphology,concentration and temperature distributions in the solidifying microstructure.And coupling with boundary heat extraction,the solute segregation and concentration diffusion were changed with different heat flux.The morphology,concentration and temperature distributions were significantly influenced by increasing the heat extraction,which could relatively make the effect of liquid flow constrained.With increasing the initial velocity of liquid flow,the lopsided rate of the primary dendrite arm was enlarged and the transition of developing manner of the secondary arms moved to the large heat extraction direction.It was the competition between heat flux and forced liquid flow that finally determined microstructure forming during solidification.展开更多
基金Project(10834015)supported by the National Natural Science Foundation of ChinaProject(12SKY01-1)supported by the Doctoral Fund of Shangluo University,China
文摘Based on the Karma model and the Eggleston regularization technique of the strong interfacial energy anisotropy, a phase-field model was established for HCP materials. An explicit finite difference numerical method was used to solve phase field model and simulate the dendrite growth behaviors of HCP materials. Results indicate that the dendrite morphology presents obvious six-fold symmetry, and discontinuity in the variation of interface orientation occurs, resulting in a fact that the corners were formed at the tips of the main stem and side branches. When the interfacial energy anisotropy strength is lower than the critical value(1/35), the steady-state tip velocity of dendrite increases with anisotropy as expected. As the anisotropy strength crosses the critical value, the steady-state tip velocity drops down by about 0.89%. With further increase in anisotropy strength, the steady-state tip velocity increases and reaches the maximum value at anisotropy strength of 0.04, then decreases.
文摘Micropropagation techniques were set up for walnut. Many plantlets were obtained by culturing node explants in MS medium,with 30 g/L sucrose, 7 g/L agar, and different concentrations of BA or Kin alone and different concentrations of BA + NAA or BA + Kin. BA at concentration (2 mg L-1 BA) gave the best results in percentage response and number of shoots/plant (100%, 2.84) respectively. While, Kin at 3 mg L-1 gave the highest average shoot length (2.81 cm). However, MS medium supplemented with 2.5 mg L-1 + 0.5 mg L-1 Kin gave the best results compared with all treatment shoot/explants and the highest number of leaves/explants (3.7, 8.2) respectively. While the highest length of shoot (4.7 cm) in MS medium supplemented with 3 mg L-1 Kin. and a high rooting percentage up to 60% at MS medium supplemented with 1 mg L-1 IBA (Indole-3-butyric acid) was obtained.
文摘叶大小与小枝大小关系反映了植物对木质部同其所支持的光合作用面积的配置比例关系,不同生境中其生长关系的变异体现植物对异质环境的适应方式。在祁连山北坡高寒草地,利用ArcGIS建立研究区域的数字高程模型(DEM),并提取样地坡向数据,采用标准化主轴估计(standardized major axis estimation,SMA)方法,研究了不同坡向狼毒(Stellera chamaejasme)种群叶与枝的生长。结果表明:随着坡向由南坡向东坡、西坡和北坡转变,狼毒叶面积、叶片数和枝长度均呈逐渐增加趋势;狼毒叶片数、叶面积与枝长度均呈异速生长关系,枝长度增加的速度大于叶片数和叶面积增加的速度;随着坡向由北坡向东坡、西坡和南坡转变,狼毒叶片数与枝长度的异速斜率逐渐增大,叶面积与枝长度的异速斜率逐渐减小。生境对狼毒枝条与叶片的生长具有显著影响,北坡具有更适宜狼毒生长的生境条件,南坡土壤水分匮乏等不利影响使狼毒枝条与叶片变小,并且单位长度枝条支持更多的叶片。
文摘The architectural analysis of the young date palm (Phoenix dactylifera L.) root system (its form and its structure), is necessary to describe its principal functions of absorption and anchoring. In this study the authors present an analysis of the root branching process. It allows them to understand the distribution of inter-lateral root length on the radicle and to account the development of the root system in the soil. Root architecture was studied from samples sprouted naturally in the oases of Chott el Ferikh (Gabes) and other plants grown in polyethylene bags under the shadow. This analysis has showed five categories of roots belonging to four different topological orders in the youthful phasis.
基金The Key Scientific and Technological Research Projects in Tibet Autonomous Region (XZ202101ZY0005G)The Second Tibetan Plateau Scientific Expedition and Research (STEP) Program (2019QZKK0301-1)。
文摘Leaf longevity is an important adaptive strategy that allows plants to maximize photosynthetic carbon gain.Due to the difficulty of identifying overwintering bud scars and distinguishing the age sequence of twigs,leaf longevity is rarely studied in Cupressaceae species,which further limits our understanding of the leaf economic spectrum (LES) for these populations.Here,we investigated the leaf longevity,as well as mass-based leaf nitrogen concentration (N;),of Juniperus saltuaria at different canopy heights for both subalpine and alpine timberline forests in the Sergymla Mountains,southeastern Tibet.We found that the mean leaf longevity was 4.2±1.2 years,and overall it did not differ significantly between different elevations.Along the vertical profiles of juniper canopies,the leaf longevity did not reflect a linear trend.With increasing leaf longevity,N;showed declining trends.We further analyzed the relationship between leaf longevity and the corresponding length of green twigs,and found that the length of green twigs could only explain 1%-3%of the variation in leaf longevity,indicating that the length of green twigs is a poor predictor for the variation in leaf longevity.In summary,for the J.saltuaria species in timberline or nearby subalpine forests,the effects of elevation and canopy depths on leaf longevity are minor,and the leaf trait analysis is in accordance with the prediction of LES.
基金supported by the NPU Foundation of Fundamental Research,China(Grant No.JC201272)
文摘A phase-field model with forced liquid metal flow was employed to study the effect of boundary heat flux on the dendritic structure forming of a Ni-40.8%Cu alloy with liquid flow during solidification.The effect of the flow field coupling with boundary heat extractions on the morphology change and distributions of concentration and temperature fields was analyzed and discussed.The forced liquid flow could significantly affect the dendrite morphology,concentration and temperature distributions in the solidifying microstructure.And coupling with boundary heat extraction,the solute segregation and concentration diffusion were changed with different heat flux.The morphology,concentration and temperature distributions were significantly influenced by increasing the heat extraction,which could relatively make the effect of liquid flow constrained.With increasing the initial velocity of liquid flow,the lopsided rate of the primary dendrite arm was enlarged and the transition of developing manner of the secondary arms moved to the large heat extraction direction.It was the competition between heat flux and forced liquid flow that finally determined microstructure forming during solidification.
