川明参 meaning in Chinese
chuanminshen violaceum
Examples
- For a . sylvestris , it is usually the second year that plant flower and procreate and company with clone . the time of procreate would be delayed for
二年龄明党参和川明参未有死亡,而干旱条件下的峨参在营养生长期仍有40植株死亡。 - The time and the devotion of procreate of three species are both influenced by soil water . it is possible for three year old flourish plant of c . smyrnioide to flowering . it is later more for the plants stressed by drought
3种土壤水分条件下,明党参和川明参植株一年龄至二年龄的存活率均为85 . 7 ,而峨参较低,饱和条件下最高为71 . 4 ,干旱条件下最低,仅14 . 3 。 - The leaves biomass , root biomass , total biomass , sla , lar , srl , rlr and rgr of three species had very obvious plasticity to soil water . but the plasticity degree of three plants to different soil water were c . smyrnioides > a . sylvestris > c . violaceum
三物种的叶生物量、根生物量、总生物量、 sla 、 lar 、 srl 、 rlr和rgr对土壤水分的可塑性均较大,但可塑性程度为明党参峨参川明参。 - The leaves of c . smyrnioides had been yellow in the end of april and the overground part of the plant had been blasted in the first of may . but at the same time , it just turned yellow for saturation treatment . and a . sylvestris and c . violaceum have similar tendency , that is , the plant in drought treatment blasted earlier than in saturation treatment
受到干旱胁迫的明党参植株在4月中旬叶片就已开始发黄, 5月中旬地上部分已枯萎,而此时饱和水分条件下植株的叶片刚开始变黄,川明参和峨参均与明党参相似,干旱条件下植株的枯萎时间均早于饱和条件下。 - Based on the research of photosynthetic carbon assimilation in natural habitat , the physiecological features of net photosynthesis ( pn ) and growth of changium smyrnioides wolff and anthriscus sylvestri ( l . ) hoffm were measured under controlled soil water status ( saturation status ( ss ) , moderate status ( aw50 ) and dry status ( aw20 ) ) , the difference of photosynthesis and transpiration to environmental factors and the adaptation to environmental fluctuation compared , to analyze the mechanism of c . smyrnioides to be endangered
本文在对野外自然条件下濒危植物明党参( changiumsmyrnioideswolff )和非濒危植物峨参光合碳固定能力测定的基础上,研究了在控制土壤水分条件下明党参、峨参和另外一种濒危植物川明参( chuanminshenviolaceum )的光合和生长特点,比较它们的光合、蒸腾等对光照、温度等环境因子响应及对环境变化适应能力的差异,分析了明党参濒危的原因和机理。