observe pycnidia
观察担子层
identify pycnidia
识别担子层
containing pycnidia
含有担子层的
pycnidia formation
担子层形成
find pycnidia
发现担子层
study pycnidia
研究担子层
pycnidia structures
担子层结构
presence of pycnidia
担子层存在
detect pycnidia
检测担子层
analyzing pycnidia
分析担子层
the fungal infection was identified by the presence of pycnidia on the leaf surface.
真菌感染的特征是叶子表面存在有团孢子。
microscopic examination revealed numerous pycnidia within the lesion.
显微镜检查显示病灶内有许多团孢子。
pycnidia are asexual spores produced by certain fungi.
团孢子是由某些真菌产生的无性繁殖孢子。
we used microscopy to observe the characteristic pycnidia morphology.
我们使用显微镜观察团孢子的特征形态。
the presence of pycnidia confirmed the identification of the fungal pathogen.
团孢子的存在证实了真菌病原体的鉴定。
researchers studied the development and dispersal of pycnidia in the field.
研究人员研究了野外环境中团孢子的发育和传播。
pycnidia formation is a common reproductive strategy for some ascomycetes.
团孢子形成是某些担子菌的常见繁殖策略。
the pathologist noted the abundance of pycnidia in the infected tissue.
病理学家注意到受感染组织中团孢子数量众多。
genetic analysis helped determine the species based on pycnidia characteristics.
遗传分析有助于根据团孢子特征确定物种。
we collected samples to analyze pycnidia morphology and genetic makeup.
我们收集样本以分析团孢子的形态和遗传构成。
the disease symptoms were linked to the production of pycnidia on the plant.
疾病症状与植物上团孢子的产生有关。
observe pycnidia
观察担子层
identify pycnidia
识别担子层
containing pycnidia
含有担子层的
pycnidia formation
担子层形成
find pycnidia
发现担子层
study pycnidia
研究担子层
pycnidia structures
担子层结构
presence of pycnidia
担子层存在
detect pycnidia
检测担子层
analyzing pycnidia
分析担子层
the fungal infection was identified by the presence of pycnidia on the leaf surface.
真菌感染的特征是叶子表面存在有团孢子。
microscopic examination revealed numerous pycnidia within the lesion.
显微镜检查显示病灶内有许多团孢子。
pycnidia are asexual spores produced by certain fungi.
团孢子是由某些真菌产生的无性繁殖孢子。
we used microscopy to observe the characteristic pycnidia morphology.
我们使用显微镜观察团孢子的特征形态。
the presence of pycnidia confirmed the identification of the fungal pathogen.
团孢子的存在证实了真菌病原体的鉴定。
researchers studied the development and dispersal of pycnidia in the field.
研究人员研究了野外环境中团孢子的发育和传播。
pycnidia formation is a common reproductive strategy for some ascomycetes.
团孢子形成是某些担子菌的常见繁殖策略。
the pathologist noted the abundance of pycnidia in the infected tissue.
病理学家注意到受感染组织中团孢子数量众多。
genetic analysis helped determine the species based on pycnidia characteristics.
遗传分析有助于根据团孢子特征确定物种。
we collected samples to analyze pycnidia morphology and genetic makeup.
我们收集样本以分析团孢子的形态和遗传构成。
the disease symptoms were linked to the production of pycnidia on the plant.
疾病症状与植物上团孢子的产生有关。
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