结果表明,饲料显著影响刺参的摄食率、排粪率、食物转化效率和表观消化率,因此影响到刺参的生长和能量分配。
Results showed that the diets significantly affected food ingestion rate, feces production rate, food conversion efficiency and apparent digestive ratio, hence the growth and energy budget.
另外表明,水分供应不足,叶片的羧化效率和表观量子。
In short supply of water, leaf carboxylation efficiency and apparent quantum yield were cut down.
推导了膜生长效率的理论表达式;表观迁移分数的关系式。
Mathematic expressions of film growth efficiency and the relationship between apparent and real transport Numbers have been derived.
不同光质对草莓叶片的表观量子效率、羧化效率及光呼吸速率影响较大。
The apparent quantum yield (AQY), photorespiratory rate (Pr)and carboxylation efficiency (CE) were also strongly affected by light quality.
用排气扇与各种通风方式对高大平房仓进行降温对比试验,将试验仓与对比仓的降温情况、通风效率、表观风速和水分变化进行比较。
In large warehouse, a control test of lowering temperature with exhaust fan and other equipment in lowering temperature, ventilating efficiency, air flow rate and moisture content was carried out.
孕穗-灌浆期的净光合速率和表观量子效率的急剧增加可能成为突变株系增产的主要原因。
The higher grain yield in mutated strains was mainly due to increasing the net photosynthetic rate and apparent quantum yield considerably at the stage from booting to filling.
在不同光强下,表观羧化效率也随光的增强而增大。
Similarly, apparent carboxylation efficiency increased with light intensity but CO_2 compensation point decreased.
这主要表现在上午的表观初始量子效率比下午大。光合产物对光合作用的反馈抑制会造成这种量子效率的差异性。
The light use efficiency was higher in the morning and apparent quantum yield owing the photosynthetic feedback inhibition, contrasting to that in the afternoon.
表观量子效率(aqy)可在一定程度上反映PSII光化学效率的大小。
Apparent quantum yield (AQY) can partly reflect the photochemistry activity of PSII.
效率违约作为经济分析法学的代表观点之一,突破了传统违约理论的范畴。
The efficient breach of contract has been one of the representive views of economic analysis of law, exceeding the traditional theory of breach of contract.
效率违约作为经济分析法学的代表观点之一,突破了传统违约理论的范畴。
The theory of efficient breach is one of the basic theories of common law on the breach of contracts.
突变株系增产的主要原因可能是孕穗灌浆期净光合速率和表观量子效率的急剧增加。
The higher grain yield in mutated strains was mainly due to abundant carbohydrate synthesis and transfer to grains during booting-filling stage .
突变株系增产的主要原因可能是孕穗灌浆期净光合速率和表观量子效率的急剧增加。
The higher grain yield in mutated strains was mainly due to abundant carbohydrate synthesis and transfer to grains during booting-filling stage .
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