结果建立了单种群细菌波动生长与环境关系数学模型。
Results a mathematical model of the relationship between the bacterial wave growth and environment was established.
结果建立了单种群细菌波动生长与环境关系数学模型。
Results a mathematical model of the relationship between the bacterial wave growth and environment was established. Conclusion This model is veri...
结论证明了模型的合理性并给出了模型的数值模拟结果,为研究细菌波动生长规律作了量化分析探索。
Conclusion This model is verified to be scientific and its numerical simulation results are obtained, providing a helpful quantitative analysis for the research on the laws of bacterial wave growth.
他们说,由于每天食量的波动而导致的不规则的生长,是使突然死亡的危险上升的原因。
They say uneven growth, due to the fluctuation in the amount eaten per day, is responsible for the increase in the risk of sudden death.
运行稳定。可以在没有操作员的连续监控下高效运行;生长的生物群可以防止由于水压或有机负荷波动引起的干扰。
Stable Operation. Operates efficiently without continuous operator supervision; captive microbial population prevents upsets due to fluctuating hydraulic or organic loads.
盛承发提出的随机波动环境假说可以导致生长冗余的产生;
The stochastic fluctuating environment hypothesisadvanced by Sheng can indeed result in growth redundancy;
“双s”型生长曲线因不同品种的果实生长量和三个生长期持续时间不同而波动趋势有差异。
The motion trend of growth curve of double s form shows difference because of different fruit growth quantity of different varieties and different last time of three growth periods.
“双s”型生长曲线因不同品种的果实生长量和三个生长期持续时间不同而波动趋势有差异。
The motion trend of growth curve of double s form shows difference because of different fruit growth quantity of different varieties and different last time of three growth periods.
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