heterotrophy mode
异养模式
heterotrophy organisms
异养生物
heterotrophy nutrition
异养营养
heterotrophy process
异养过程
heterotrophy types
异养类型
heterotrophy examples
异养例子
heterotrophy species
异养物种
heterotrophy classification
异养分类
heterotrophy adaptation
异养适应
heterotrophy characteristics
异养特征
heterotrophy is essential for the survival of many organisms.
异养对于许多生物的生存至关重要。
plants exhibit autotrophy, while animals rely on heterotrophy.
植物表现出自养,而动物依赖于异养。
understanding heterotrophy helps in studying food webs.
理解异养有助于研究食物网。
some bacteria can switch between autotrophy and heterotrophy.
一些细菌可以在自养和异养之间切换。
heterotrophy involves consuming organic substances for energy.
异养涉及消耗有机物质来获取能量。
the study of heterotrophy reveals insights into ecosystem dynamics.
异养的研究揭示了生态系统动态的见解。
heterotrophy can influence the distribution of species in an environment.
异养可以影响物种在环境中的分布。
some organisms exhibit both heterotrophy and parasitism.
一些生物表现出异养和寄生的特性。
heterotrophy is a key concept in nutritional ecology.
异养是营养生态学中的一个关键概念。
heterotrophy mode
异养模式
heterotrophy organisms
异养生物
heterotrophy nutrition
异养营养
heterotrophy process
异养过程
heterotrophy types
异养类型
heterotrophy examples
异养例子
heterotrophy species
异养物种
heterotrophy classification
异养分类
heterotrophy adaptation
异养适应
heterotrophy characteristics
异养特征
heterotrophy is essential for the survival of many organisms.
异养对于许多生物的生存至关重要。
plants exhibit autotrophy, while animals rely on heterotrophy.
植物表现出自养,而动物依赖于异养。
understanding heterotrophy helps in studying food webs.
理解异养有助于研究食物网。
some bacteria can switch between autotrophy and heterotrophy.
一些细菌可以在自养和异养之间切换。
heterotrophy involves consuming organic substances for energy.
异养涉及消耗有机物质来获取能量。
the study of heterotrophy reveals insights into ecosystem dynamics.
异养的研究揭示了生态系统动态的见解。
heterotrophy can influence the distribution of species in an environment.
异养可以影响物种在环境中的分布。
some organisms exhibit both heterotrophy and parasitism.
一些生物表现出异养和寄生的特性。
heterotrophy is a key concept in nutritional ecology.
异养是营养生态学中的一个关键概念。
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