lymantriids are
毒蛾科是
female lymantriids
雌性毒蛾科
larval lymantriids
幼虫毒蛾科
male lymantriids
雄性毒蛾科
lymantriids feed
毒蛾科取食
lymantriids have
毒蛾科有
lymantriids include
毒蛾科包括
lymantriids can
毒蛾科可以
lymantriids were
毒蛾科曾是
lymantriids cause
毒蛾科引起
lymantriid moths are known for their distinctive hairy caterpillars.
毒蛾科的蛾以其独特的毛毛虫而闻名。
lymantriid larvae can cause significant defoliation in forests.
毒蛾科的幼虫可能导致森林中的严重落叶。
many lymantriid species exhibit sexual dimorphism in wing coloration.
许多毒蛾科物种在翅膀颜色上表现出性别二型性。
lymantriid populations often fluctuate dramatically in response to environmental conditions.
毒蛾科的种群数量通常会随着环境条件的改变而剧烈波动。
integrated pest management strategies are essential for controlling lymantriid outbreaks.
综合虫害管理策略对于控制毒蛾科的爆发至关重要。
lymantriid moths are distributed across temperate and tropical regions worldwide.
毒蛾科的蛾类分布于世界各地的温带和热带地区。
female lymantriids typically have reduced wings and lay eggs in protective masses.
雌性毒蛾通常翅膀退化,并在保护性块状结构中产卵。
lymantriid larvae possess urticating hairs that can irritate predators' skin.
毒蛾科的幼虫拥有能够刺激捕食者皮肤的刺毛。
climate change may significantly impact lymantriid distribution patterns.
气候变化可能会显著影响毒蛾科的分布模式。
researchers study lymantriid biology to develop more effective pest control methods.
研究人员研究毒蛾科的生物学特性,以开发更有效的害虫防治方法。
lymantriid infestations can devastate agricultural crops and ornamental plants.
毒蛾科的虫害可能严重破坏农作物和观赏植物。
the gypsy moth is one of the most well-known invasive lymantriid species.
舞毒蛾是最著名的入侵性毒蛾科物种之一。
lymantriid pheromone traps are used for monitoring and managing populations.
毒蛾科的信息素诱捕器用于监测和管理种群数量。
biological control agents have been successfully deployed against destructive lymantriids.
生物防治剂已成功部署用于对付破坏性的毒蛾科昆虫。
entomologists continue to discover new lymantriid species in remote forests.
昆虫学家在偏远森林中持续发现新的毒蛾科物种。
lymantriids are
毒蛾科是
female lymantriids
雌性毒蛾科
larval lymantriids
幼虫毒蛾科
male lymantriids
雄性毒蛾科
lymantriids feed
毒蛾科取食
lymantriids have
毒蛾科有
lymantriids include
毒蛾科包括
lymantriids can
毒蛾科可以
lymantriids were
毒蛾科曾是
lymantriids cause
毒蛾科引起
lymantriid moths are known for their distinctive hairy caterpillars.
毒蛾科的蛾以其独特的毛毛虫而闻名。
lymantriid larvae can cause significant defoliation in forests.
毒蛾科的幼虫可能导致森林中的严重落叶。
many lymantriid species exhibit sexual dimorphism in wing coloration.
许多毒蛾科物种在翅膀颜色上表现出性别二型性。
lymantriid populations often fluctuate dramatically in response to environmental conditions.
毒蛾科的种群数量通常会随着环境条件的改变而剧烈波动。
integrated pest management strategies are essential for controlling lymantriid outbreaks.
综合虫害管理策略对于控制毒蛾科的爆发至关重要。
lymantriid moths are distributed across temperate and tropical regions worldwide.
毒蛾科的蛾类分布于世界各地的温带和热带地区。
female lymantriids typically have reduced wings and lay eggs in protective masses.
雌性毒蛾通常翅膀退化,并在保护性块状结构中产卵。
lymantriid larvae possess urticating hairs that can irritate predators' skin.
毒蛾科的幼虫拥有能够刺激捕食者皮肤的刺毛。
climate change may significantly impact lymantriid distribution patterns.
气候变化可能会显著影响毒蛾科的分布模式。
researchers study lymantriid biology to develop more effective pest control methods.
研究人员研究毒蛾科的生物学特性,以开发更有效的害虫防治方法。
lymantriid infestations can devastate agricultural crops and ornamental plants.
毒蛾科的虫害可能严重破坏农作物和观赏植物。
the gypsy moth is one of the most well-known invasive lymantriid species.
舞毒蛾是最著名的入侵性毒蛾科物种之一。
lymantriid pheromone traps are used for monitoring and managing populations.
毒蛾科的信息素诱捕器用于监测和管理种群数量。
biological control agents have been successfully deployed against destructive lymantriids.
生物防治剂已成功部署用于对付破坏性的毒蛾科昆虫。
entomologists continue to discover new lymantriid species in remote forests.
昆虫学家在偏远森林中持续发现新的毒蛾科物种。
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