gracilariidae species
羽枝藻科物种
gracilariidae algae
羽枝藻科藻类
gracilariidae study
羽枝藻科研究
gracilariidae found
发现羽枝藻科
gracilariidae growth
羽枝藻科生长
gracilariidae analysis
羽枝藻科分析
gracilariidae research
羽枝藻科鉴定
gracilariidae identification
羽枝藻科栖息地
gracilariidae habitat
羽枝藻科分类
gracilariidae classification
gracilariidae leafminers are often found on citrus trees, causing characteristic serpentine mines.
细蛾科叶潜虫常出现在柑橘树上,形成典型的蛇形潜道。
the gracilariidae larvae feed on mesophyll tissue, creating mines that reduce photosynthetic capacity.
细蛾科幼虫以叶肉组织为食,形成的潜道会削弱光合作用。
farmers apply integrated pest management to control gracilariidae infestations in tea plantations.
茶农在茶园中采用综合害虫治理,以控制细蛾科的危害。
recent studies have identified new gracilariidae species in the tropical rainforests of southeast asia.
最近的研究在东南亚热带雨林中发现了细蛾科新种。
the gracilariidae moth is small, with a wingspan of about 10 mm, and is active at night.
细蛾科蛾体形微小,翅展约10毫米,夜间活动。
monitoring traps baited with sex pheromones help track gracilariidae population dynamics.
利用性信息素诱捕的监测陷阱有助于追踪细蛾科的种群动态。
chemical sprays can cause secondary outbreaks of gracilariidae by eliminating natural enemies.
化学喷洒可能通过消灭天敌导致细蛾科二次暴发。
gracilariidae damage on coffee leaves often leads to economic losses for smallholder farmers.
细蛾科对咖啡叶的危害常给小农户带来经济损失。
host plant resistance is a promising strategy for managing gracilariidae without pesticides.
利用寄主植物抗性是无农药治理细蛾科的有前景的策略。
the taxonomy of gracilariidae has been revised based on molecular phylogenetic analyses.
基于分子系统发育分析,细蛾科的分类学已得到修订。
climate change may expand the geographic range of certain gracilariidae species.
气候变化可能扩大某些细蛾科物种的分布范围。
gracilariidae parasitoid wasps are being evaluated as biological control agents.
细蛾科寄生蜂正被评估作为生物防治剂。
gracilariidae species
羽枝藻科物种
gracilariidae algae
羽枝藻科藻类
gracilariidae study
羽枝藻科研究
gracilariidae found
发现羽枝藻科
gracilariidae growth
羽枝藻科生长
gracilariidae analysis
羽枝藻科分析
gracilariidae research
羽枝藻科鉴定
gracilariidae identification
羽枝藻科栖息地
gracilariidae habitat
羽枝藻科分类
gracilariidae classification
gracilariidae leafminers are often found on citrus trees, causing characteristic serpentine mines.
细蛾科叶潜虫常出现在柑橘树上,形成典型的蛇形潜道。
the gracilariidae larvae feed on mesophyll tissue, creating mines that reduce photosynthetic capacity.
细蛾科幼虫以叶肉组织为食,形成的潜道会削弱光合作用。
farmers apply integrated pest management to control gracilariidae infestations in tea plantations.
茶农在茶园中采用综合害虫治理,以控制细蛾科的危害。
recent studies have identified new gracilariidae species in the tropical rainforests of southeast asia.
最近的研究在东南亚热带雨林中发现了细蛾科新种。
the gracilariidae moth is small, with a wingspan of about 10 mm, and is active at night.
细蛾科蛾体形微小,翅展约10毫米,夜间活动。
monitoring traps baited with sex pheromones help track gracilariidae population dynamics.
利用性信息素诱捕的监测陷阱有助于追踪细蛾科的种群动态。
chemical sprays can cause secondary outbreaks of gracilariidae by eliminating natural enemies.
化学喷洒可能通过消灭天敌导致细蛾科二次暴发。
gracilariidae damage on coffee leaves often leads to economic losses for smallholder farmers.
细蛾科对咖啡叶的危害常给小农户带来经济损失。
host plant resistance is a promising strategy for managing gracilariidae without pesticides.
利用寄主植物抗性是无农药治理细蛾科的有前景的策略。
the taxonomy of gracilariidae has been revised based on molecular phylogenetic analyses.
基于分子系统发育分析,细蛾科的分类学已得到修订。
climate change may expand the geographic range of certain gracilariidae species.
气候变化可能扩大某些细蛾科物种的分布范围。
gracilariidae parasitoid wasps are being evaluated as biological control agents.
细蛾科寄生蜂正被评估作为生物防治剂。
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