autogeny of life
生命的自发生
autogeny in evolution
演化中的自发生
understanding autogeny's mechanisms
理解自发生机制
exploring autogeny's potential
探索自发生的潜力
autogeny process
自动生成过程
autogeny mechanism
自动生成机制
study of autogeny
自动生成研究
autogeny in biology
生物学中的自动生成
understanding autogeny
理解自动生成
importance of autogeny
自动生成的意义
autogeny and evolution
自动生成与进化
applications of autogeny
自动生成的应用
challenges in autogeny
自动生成面临的挑战
autogeny is a fascinating process in biology.
自生是生物学中一个引人入胜的过程。
the concept of autogeny can be applied to various species.
自生的概念可以应用于各种物种。
researchers are studying autogeny in insects.
研究人员正在研究昆虫中的自生现象。
autogeny may influence evolutionary adaptations.
自生可能会影响进化适应。
understanding autogeny can help in conservation efforts.
理解自生可以帮助保护工作。
there are many theories surrounding the mechanisms of autogeny.
关于自生机制有许多理论。
autogeny is often compared to other reproductive strategies.
自生常常与其他繁殖策略进行比较。
students learned about autogeny during their biology class.
学生们在生物课上学习了自生。
the study of autogeny can reveal insights into genetics.
自生研究可以揭示遗传学的见解。
autogeny plays a role in the life cycle of certain organisms.
自生在某些生物的生命周期中起着作用。
autogeny is a fascinating concept in biology.
自生是生物学中一个迷人的概念。
researchers are studying the effects of autogeny on species adaptation.
研究人员正在研究自生对物种适应的影响。
autogeny can lead to unique evolutionary traits.
自生可以导致独特的进化特征。
understanding autogeny helps us comprehend ecological dynamics.
理解自生有助于我们理解生态动态。
many organisms exhibit autogeny in their life cycles.
许多生物在其生命周期中表现出自生。
autogeny plays a crucial role in self-sustaining ecosystems.
自生在自我维持的生态系统中发挥着关键作用。
the study of autogeny can inform conservation efforts.
自生研究可以为保护工作提供信息。
autogeny is often misunderstood in popular science.
自生在大众科学中常常被误解。
exploring autogeny can reveal new insights into evolution.
探索自生可以揭示进化的新见解。
scientists are publishing new findings on autogeny.
科学家们正在发表关于自生的新发现。
autogeny of life
生命的自发生
autogeny in evolution
演化中的自发生
understanding autogeny's mechanisms
理解自发生机制
exploring autogeny's potential
探索自发生的潜力
autogeny process
自动生成过程
autogeny mechanism
自动生成机制
study of autogeny
自动生成研究
autogeny in biology
生物学中的自动生成
understanding autogeny
理解自动生成
importance of autogeny
自动生成的意义
autogeny and evolution
自动生成与进化
applications of autogeny
自动生成的应用
challenges in autogeny
自动生成面临的挑战
autogeny is a fascinating process in biology.
自生是生物学中一个引人入胜的过程。
the concept of autogeny can be applied to various species.
自生的概念可以应用于各种物种。
researchers are studying autogeny in insects.
研究人员正在研究昆虫中的自生现象。
autogeny may influence evolutionary adaptations.
自生可能会影响进化适应。
understanding autogeny can help in conservation efforts.
理解自生可以帮助保护工作。
there are many theories surrounding the mechanisms of autogeny.
关于自生机制有许多理论。
autogeny is often compared to other reproductive strategies.
自生常常与其他繁殖策略进行比较。
students learned about autogeny during their biology class.
学生们在生物课上学习了自生。
the study of autogeny can reveal insights into genetics.
自生研究可以揭示遗传学的见解。
autogeny plays a role in the life cycle of certain organisms.
自生在某些生物的生命周期中起着作用。
autogeny is a fascinating concept in biology.
自生是生物学中一个迷人的概念。
researchers are studying the effects of autogeny on species adaptation.
研究人员正在研究自生对物种适应的影响。
autogeny can lead to unique evolutionary traits.
自生可以导致独特的进化特征。
understanding autogeny helps us comprehend ecological dynamics.
理解自生有助于我们理解生态动态。
many organisms exhibit autogeny in their life cycles.
许多生物在其生命周期中表现出自生。
autogeny plays a crucial role in self-sustaining ecosystems.
自生在自我维持的生态系统中发挥着关键作用。
the study of autogeny can inform conservation efforts.
自生研究可以为保护工作提供信息。
autogeny is often misunderstood in popular science.
自生在大众科学中常常被误解。
exploring autogeny can reveal new insights into evolution.
探索自生可以揭示进化的新见解。
scientists are publishing new findings on autogeny.
科学家们正在发表关于自生的新发现。
探索常用高频词汇