stolon 中文意思是什麼
stolon
解釋
n. 名詞 【植物;植物學】匍匐莖[枝];【動物;動物學】生殖根。adj. 形容詞 -ic
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Basipetal and epitropic integration of resources acquired from adventitious roots instantaneously occurred in stolon
臭柏不定根所獲取的資源在匍匐莖中能實現向頂性的和向基性的共享。 -
The study of nuclear type on 5 stolon - plant of allium l. in inner mongolia
5種常見根莖組植物的核型研究 -
Studies on tip meristem culture rapid propagation and induction of in vitro stolon of manyflower betony stachys floridana schuttl. ex benth
銀條莖尖培養快繁及離體根狀莖的誘導 -
Effects of different planting time on growth and development of gladiolus stolon and cormel
唐菖蒲種球種植期對匍匐莖和子球生長發育的影響 -
If the intervening runner or stolon rots or is cut away, the daughter plants becomes independent
當連接處的長條枝或匍匐枝腐爛或被人為剪斷,子代植株就成為獨立的植株。 -
With extension of the stolon, changes of the internode length, branching intensity and ramet length were fit to exponential model. it seemed to " flexibly " adapting to the habitat because the clonal architecture of s. vulgaris had both the traits of " guerilla " and " phalanx "
分株長度、間隔物長度和分枝強度隨匍匐莖延伸呈指數模型變化,其克隆構型兼有「游擊」型和「密集」型的特點,能比較「靈活」的適應環境。 -
After the stolon had suffered from severing disturbance, clonal ramets could keep photosynthetic organ from being damaged through the plastic responses of the chlorophyll fluorescence traits, such as increasing nonphotochemical quenching of chlorophyll fluorescence ( npq ), decreasing actual photochemical efficiency of ps ii in the light ( f / fm " ) and photochemical electron transport rate ( etr ). moreover, the clonal ramets could also increase water use efficiency by means of decreasing stomatal conductance
在匍匐莖受到切斷干擾后,臭柏能通過提高非光化學猝滅( npq ) 、降低ps實際光化學量子產量( f fm 』 )和表觀光合電子傳遞速率( etr )等葉綠素熒光特性的可塑性反應來保護小枝光合機構不被破壞,並且可以降低氣孔導度以提高水分利用效率。 -
Light intensity, nutrient availability and salinity all have significant effects on clonal growth and clonal morphology of h. ruthenica. deep shade, low nutrient availability and high salinity markedly reduced its growth. moreover, the degree and pattern of plasticity in biomass, leaf area, number of ramets, stolon length, petiole length and root to shoot ratio in response to salinity demonstrated genotypic variation
深度遮光、低養和高鹽均顯著削弱金戴戴的生長,其生物量、葉面積、分株數、匍匐莖長及葉柄長和根冠比對基質鹽分的可塑性大小和格局顯示出基株間的差異。
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