obligate frugivory
专性食果
facultative frugivory
兼性食果
frugivory network
食果网络
frugivory syndrome
食果综合征
tropical frugivory
热带食果
bird frugivory
鸟类食果
plant frugivory
植物食果
frugivory plays a crucial role in tropical forest regeneration through seed dispersal.
食果作用在热带森林再生中通过种子传播发挥关键作用。
researchers study frugivory patterns to understand how animals contribute to plant reproduction.
研究人员研究食果模式以了解动物如何促进植物繁殖。
the interaction between frugivory and seed dispersal is essential for maintaining biodiversity.
食果作用与种子传播之间的相互作用对于维持生物多样性至关重要。
frugivory networks reveal complex relationships between fruit-eating animals and plants.
食果网络揭示了食果动物与植物之间的复杂关系。
tropical ecosystems depend heavily on frugivory for forest structure and diversity.
热带生态系统严重依赖食果作用来维持森林结构和多样性。
climate change may alter frugivory patterns and affect seed dispersal processes.
气候变化可能会改变食果模式并影响种子传播过程。
frugivory studies show that birds are primary agents of seed dispersal in many habitats.
食果研究表明鸟类是许多栖息地中种子传播的主要媒介。
the evolution of fruit characteristics is closely linked to frugivory by different animals.
果实特征的进化与不同动物的食果作用密切相关。
understanding frugivory behavior helps conservation efforts for endangered plant species.
了解食果行为有助于保护濒危植物物种的保护工作。
frugivory rates vary significantly between seasons and across different habitats.
食果率在不同季节和不同栖息地之间存在显著差异。
the mutualistic nature of frugivory benefits both plants and animal dispersers.
食果作用的互惠性使植物和动物传播者都受益。
frugivory interactions can be disrupted in fragmented habitats due to isolation.
在碎片化栖息地中,食果相互作用可能因隔离而受到干扰。
obligate frugivory
专性食果
facultative frugivory
兼性食果
frugivory network
食果网络
frugivory syndrome
食果综合征
tropical frugivory
热带食果
bird frugivory
鸟类食果
plant frugivory
植物食果
frugivory plays a crucial role in tropical forest regeneration through seed dispersal.
食果作用在热带森林再生中通过种子传播发挥关键作用。
researchers study frugivory patterns to understand how animals contribute to plant reproduction.
研究人员研究食果模式以了解动物如何促进植物繁殖。
the interaction between frugivory and seed dispersal is essential for maintaining biodiversity.
食果作用与种子传播之间的相互作用对于维持生物多样性至关重要。
frugivory networks reveal complex relationships between fruit-eating animals and plants.
食果网络揭示了食果动物与植物之间的复杂关系。
tropical ecosystems depend heavily on frugivory for forest structure and diversity.
热带生态系统严重依赖食果作用来维持森林结构和多样性。
climate change may alter frugivory patterns and affect seed dispersal processes.
气候变化可能会改变食果模式并影响种子传播过程。
frugivory studies show that birds are primary agents of seed dispersal in many habitats.
食果研究表明鸟类是许多栖息地中种子传播的主要媒介。
the evolution of fruit characteristics is closely linked to frugivory by different animals.
果实特征的进化与不同动物的食果作用密切相关。
understanding frugivory behavior helps conservation efforts for endangered plant species.
了解食果行为有助于保护濒危植物物种的保护工作。
frugivory rates vary significantly between seasons and across different habitats.
食果率在不同季节和不同栖息地之间存在显著差异。
the mutualistic nature of frugivory benefits both plants and animal dispersers.
食果作用的互惠性使植物和动物传播者都受益。
frugivory interactions can be disrupted in fragmented habitats due to isolation.
在碎片化栖息地中,食果相互作用可能因隔离而受到干扰。
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