characiformes fish
鲤形目鱼类
study characiformes
研究鲤形目
characiformes order
鲤形目科
discover characiformes
发现鲤形目
characiformes species
鲤形目物种
classifying characiformes
分类鲤形目
characiformes diversity
鲤形目多样性
observing characiformes
观察鲤形目
characiformes evolution
鲤形目进化
characiformes research
鲤形目研究
the order characiformes includes over a thousand species of freshwater fish known for their diverse morphologies.
脂鲤目包含超过一千种淡水鱼,以其多样的形态而闻名。
researchers studying characiform phylogeny have used mitochondrial dna to resolve longstanding taxonomic disputes.
研究脂鲤系统发育的研究人员利用线粒体dna来解决长期存在的分类争议。
characiform habitats range from andean streams to lowland amazonian floodplains, providing critical ecosystem services.
脂鲤栖息地范围从安第斯溪流到低地亚马逊洪泛平原,提供关键的生态系统服务。
conservation efforts for characiform biodiversity often focus on protecting riverine corridors and riparian vegetation.
保护脂鲤生物多样性的努力通常侧重于保护河流廊道和河岸植被。
museum collections contain numerous characiform specimens that are essential for morphological and genetic studies.
博物馆收藏了大量脂鲤标本,这些标本对形态学和遗传学研究至关重要。
the characiform family characidae comprises many popular aquarium species, including tetras and pencilfish.
脂鲤科包括许多受欢迎的观赏鱼,如灯鱼和铅笔鱼。
field surveys in the brazilian cerrado have revealed previously unknown characiform species in isolated ponds.
在巴西塞拉多的野外调查揭示了孤立池塘中先前未知的脂鲤物种。
characiform diet studies indicate a high prevalence of insect larvae and detritus in most species.
脂鲤饮食研究表明,大多数物种的昆虫幼虫和碎屑占很高比例。
new molecular data have reshaped the classification of characiform lineages, prompting revisions of traditional genera.
新的分子数据重塑了脂鲤谱系的分类,促使传统属的修订。
characiform evolutionary history is closely tied to the geological uplift of the south american continent.
脂鲤的进化历史与南美大陆的地质抬升密切相关。
in the laboratory, characiform embryos are used as model organisms for developmental biology research.
在实验室中,脂鲤胚胎被用作发育生物学研究的模式生物。
environmental changes such as dam construction threaten characiform populations by altering habitat connectivity.
环境变化(如大坝建设)通过改变栖息地连通性威胁脂鲤种群。
paleontologists have identified fossil characiform remains dating back to the miocene epoch.
古生物学家已识别出可追溯到中新世的化石脂鲤遗骸。
citizen science projects engage volunteers in monitoring characiform populations in local streams.
公民科学项目让志愿者参与监测当地溪流中的脂鲤种群。
characiformes fish
鲤形目鱼类
study characiformes
研究鲤形目
characiformes order
鲤形目科
discover characiformes
发现鲤形目
characiformes species
鲤形目物种
classifying characiformes
分类鲤形目
characiformes diversity
鲤形目多样性
observing characiformes
观察鲤形目
characiformes evolution
鲤形目进化
characiformes research
鲤形目研究
the order characiformes includes over a thousand species of freshwater fish known for their diverse morphologies.
脂鲤目包含超过一千种淡水鱼,以其多样的形态而闻名。
researchers studying characiform phylogeny have used mitochondrial dna to resolve longstanding taxonomic disputes.
研究脂鲤系统发育的研究人员利用线粒体dna来解决长期存在的分类争议。
characiform habitats range from andean streams to lowland amazonian floodplains, providing critical ecosystem services.
脂鲤栖息地范围从安第斯溪流到低地亚马逊洪泛平原,提供关键的生态系统服务。
conservation efforts for characiform biodiversity often focus on protecting riverine corridors and riparian vegetation.
保护脂鲤生物多样性的努力通常侧重于保护河流廊道和河岸植被。
museum collections contain numerous characiform specimens that are essential for morphological and genetic studies.
博物馆收藏了大量脂鲤标本,这些标本对形态学和遗传学研究至关重要。
the characiform family characidae comprises many popular aquarium species, including tetras and pencilfish.
脂鲤科包括许多受欢迎的观赏鱼,如灯鱼和铅笔鱼。
field surveys in the brazilian cerrado have revealed previously unknown characiform species in isolated ponds.
在巴西塞拉多的野外调查揭示了孤立池塘中先前未知的脂鲤物种。
characiform diet studies indicate a high prevalence of insect larvae and detritus in most species.
脂鲤饮食研究表明,大多数物种的昆虫幼虫和碎屑占很高比例。
new molecular data have reshaped the classification of characiform lineages, prompting revisions of traditional genera.
新的分子数据重塑了脂鲤谱系的分类,促使传统属的修订。
characiform evolutionary history is closely tied to the geological uplift of the south american continent.
脂鲤的进化历史与南美大陆的地质抬升密切相关。
in the laboratory, characiform embryos are used as model organisms for developmental biology research.
在实验室中,脂鲤胚胎被用作发育生物学研究的模式生物。
environmental changes such as dam construction threaten characiform populations by altering habitat connectivity.
环境变化(如大坝建设)通过改变栖息地连通性威胁脂鲤种群。
paleontologists have identified fossil characiform remains dating back to the miocene epoch.
古生物学家已识别出可追溯到中新世的化石脂鲤遗骸。
citizen science projects engage volunteers in monitoring characiform populations in local streams.
公民科学项目让志愿者参与监测当地溪流中的脂鲤种群。
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