植物形态发生

植物的形态发生在许多方面（简单的和复杂的）与CO2交换过程是相互作用的。

Plant morphogenesis interacts with the process of CO2 exchange in many ways , both simple and complex .

研究结果将对植物体外形态发生的理论研究提供宝贵的资料，为利用胚性愈伤组织作为转化受体提供组织学依据。

The result of this study also could enrich up the data for theory of the somatic embryogenesis of plant and provide histological foundation for the using of embryonic callus tissues as transformational receptor .

细胞薄层培养在植物激素调节形态发生研究中的应用

Application of Thin Cell Layer Culture in Study on Morphogenesis Regulated by Phytohormones

黄铁矿成因形态学植物离体器官形态发生中的生物全息现象

The studies of Bio-holographic phenomenon in morphogenesis of plant organ in vitro

兼顾植物生理功能的形态发生模型，是在计算机上实现模拟植物生长发育的理论依据。

Morphogenesis model of plant considering its physiological function played the important role in simulating plant growth on computer .

研究表明，低磷条件下，植物根系形态结构会发生适应性变化，根冠间的物质分配会向根部倾斜使根冠比增加；

Many researches indicated that under low-phosphorus environment , plant root could make an adaptive change in morphology , and the matter allocation was inclined to root , inducing an increase of root / shoot ratio .

植物学家归纳出的植物结构模型，规定了植物形态发生的方式以及植物生长的最终结构。

Botanists have presented twenty-three plants architectural models , which are very important for visually modeling plant growth .

光敏色素是存在于植物和细菌中的感受光的功能色素蛋白，在植物的光形态发生和细菌的趋光性运动中发挥重要作用。

Phytochrome is the functional pigment protein photosensitizing light in plants and bacteria . It plays an important role in the formation of photomorphogenesis in plant and phototaxis movement in bacteria .

其后介绍了基于细胞和器官层次上植物生长的二维连续流体模型，以及以渗透压为生长驱动力、描述植物形态发生的二阶微分方程的推导和在对称性破缺条件下稳态解的给出。

To describe plant growth a second order differential equation is then derived , based on a continuous fluid model at the cellular level which regards osmotic pressure as the main driving force for growth , and the steady-state solution under the boundary condition of symmetry breaking is obtained .

土壤中过量的盐分离子对植物的生殖生长和营养生长都有抑制作用，一些离子还可以对植物进行直接毒害，引起植物的形态和结构发生变化。

Moreover extra salt ions in soil inhibit plant growth , some of them can directly injury plants .