mormyrid fish
象鼻鱼
mormyrid electric organ
象鼻鱼发电器官
mormyrid brain
象鼻鱼大脑
large mormyrid
���象鼻鱼
small mormyrid
小象鼻鱼
mormyrid species
象鼻鱼物种
mormyrid discharge
象鼻鱼放电
the mormyridae
长颌鱼科
african mormyrid
非洲象鼻鱼
mormyrid signal
象鼻鱼信号
mormyrid fish possess specialized electric organs that generate weak discharges for communication and navigation.
长颌鱼鱼拥有专门的电器官,能产生微弱的放电用于交流和导航。
researchers have long studied mormyrid electroreception to understand how these fish perceive their environment.
研究人员长期研究长颌鱼的电感受,以了解这些鱼如何感知周围环境。
the mormyrid brain contains unique structures that process electric signals with remarkable precision.
长颌鱼的大脑包含独特的结构,能够极其精确地处理电信号。
male mormyrid fish produce distinct electric pulse patterns during courtship behavior.
雄性长颌鱼在求偶行为中会产生独特的电脉冲模式。
scientists discovered that mormyrid species can recognize individual conspecifics by their electric signatures.
科学家发现长颌鱼物种可以通过电信号识别同类中的个体。
the mormyrid electric organ evolved from muscle tissue over millions of years of adaptation.
长颌鱼的电器官经过数百万年的适应,从肌肉组织进化而来。
neuroscientists use mormyrid models to investigate how neural circuits generate complex behaviors.
神经科学家使用长颌鱼模型来研究神经回路如何产生复杂行为。
mormyrid electroreceptors are located in the skin and detect minute changes in water conductivity.
长颌鱼的电感受器位于皮肤中,能检测水中微小的电导率变化。
the mormyrid electrosensory system filters out self-generated electric signals to detect external objects.
长颌鱼的电感系统会过滤掉自身产生的电信号,以探测外部物体。
aquarium studies reveal that mormyrid fish alter their electric discharge frequency when exploring novel environments.
水族馆研究表明,长颌鱼在探索新环境时会改变放电频率。
comparative anatomy shows that mormyrid species have larger cerebellums relative to other fish.
比较解剖学显示,长颌鱼物种的小脑比其他鱼类更大。
mormyrid research has provided valuable insights into the evolution of bioelectric communication systems.
长颌鱼研究为了解生物电通讯系统的进化提供了宝贵的见解。
mormyrid fish
象鼻鱼
mormyrid electric organ
象鼻鱼发电器官
mormyrid brain
象鼻鱼大脑
large mormyrid
���象鼻鱼
small mormyrid
小象鼻鱼
mormyrid species
象鼻鱼物种
mormyrid discharge
象鼻鱼放电
the mormyridae
长颌鱼科
african mormyrid
非洲象鼻鱼
mormyrid signal
象鼻鱼信号
mormyrid fish possess specialized electric organs that generate weak discharges for communication and navigation.
长颌鱼鱼拥有专门的电器官,能产生微弱的放电用于交流和导航。
researchers have long studied mormyrid electroreception to understand how these fish perceive their environment.
研究人员长期研究长颌鱼的电感受,以了解这些鱼如何感知周围环境。
the mormyrid brain contains unique structures that process electric signals with remarkable precision.
长颌鱼的大脑包含独特的结构,能够极其精确地处理电信号。
male mormyrid fish produce distinct electric pulse patterns during courtship behavior.
雄性长颌鱼在求偶行为中会产生独特的电脉冲模式。
scientists discovered that mormyrid species can recognize individual conspecifics by their electric signatures.
科学家发现长颌鱼物种可以通过电信号识别同类中的个体。
the mormyrid electric organ evolved from muscle tissue over millions of years of adaptation.
长颌鱼的电器官经过数百万年的适应,从肌肉组织进化而来。
neuroscientists use mormyrid models to investigate how neural circuits generate complex behaviors.
神经科学家使用长颌鱼模型来研究神经回路如何产生复杂行为。
mormyrid electroreceptors are located in the skin and detect minute changes in water conductivity.
长颌鱼的电感受器位于皮肤中,能检测水中微小的电导率变化。
the mormyrid electrosensory system filters out self-generated electric signals to detect external objects.
长颌鱼的电感系统会过滤掉自身产生的电信号,以探测外部物体。
aquarium studies reveal that mormyrid fish alter their electric discharge frequency when exploring novel environments.
水族馆研究表明,长颌鱼在探索新环境时会改变放电频率。
comparative anatomy shows that mormyrid species have larger cerebellums relative to other fish.
比较解剖学显示,长颌鱼物种的小脑比其他鱼类更大。
mormyrid research has provided valuable insights into the evolution of bioelectric communication systems.
长颌鱼研究为了解生物电通讯系统的进化提供了宝贵的见解。
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