利用昆虫病原线虫控制玻璃棚多肉植物上黑翅真菌蚊蚋的潜力。

T Stefanovska, P Chumak, V Pidlisnyuk, V Condratenko
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摘要

黑翅真菌蚋(双翅目:轻翅螨科)是世界范围内主要危害商业绿化和苗圃玻璃温室观赏植物的害虫。在乌克兰的五个植物园,包括弗明院士的植物园(基辅),在过去的三年里,有报道称,多肉植物受到了严重的虫病损害。在盆栽试验中,以500000 IJs/m²的速率,在塑料盆栽中单独种植的哺乳动物、机会动物和棘球蚴上试验了防粪芽孢杆菌的商业菌株。在处理过的和未处理过的带盆长凳上,根据堆肥中苍蝇的出苗率和黄色粘捕器捕获的苍蝇的百分比来评价EPN的效果。结果表明,与对照相比,施用麻草可显著减少黄色诱捕器捕获的蝇类(90%)。采用20、50、75、100 IJs分别对4龄幼虫进行毒力测定。粪盲蝽对所有商业和野生菌株均敏感,幼虫死亡率在49% ~ 95%之间。野生和商业分离菌株对该害虫具有很强的毒力。使用野生菌株获得的死亡率最高,为95%。线虫浓度≥50ij时,所有线虫种类均显著影响粪盲蝽的死亡率。将施药量从75 ij增加到100 ij,对虫的死亡率无显著影响。
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THE POTENTIAL FOR USING ENTOMOPATHOGENIC NEMATODES TO CONTROL DARKWINGED FUNGUS GNATS BRADYSIA COPROPHILA (LINTNER) ON SUCCULENTS IN GLASS HOUSES.

Darkwinged fungus gnat Bradysia coprophila Lintner (Diptera: Sciaridae) is known as a pest of ornamental plants in commercial green and glass houses in nurseries worldwide. There have been reports about significant Bradysia coprophila damage of succulent plants in five Botanical gardens in Ukraine, including Academician Fomin's Botanical garden (Kiev) for the last three years. In pot experiments the commercial strain of S.feltiae to control B. coprophila was tested on Mammilaria, Opuntia, Echinocerus plants grown individually in plastic pots at rate 500,000 IJs/m². Efficacy of EPN was evaluated based on the percentage of fly emergence from compost and captured in yellow sticky traps in treated and untreated benches with pots. It was shown that Steinernema feltiae application causes significant reduction (90%) of flies captured in yellow traps in comparison with the control. To evaluate virulence of EPNs to B. coprophila in laboratory bioassays, fourth instar larvae were exposed to 20, 50, 75, 100 IJs. B. coprophila was susceptible to all commercial and wild isolates of Steinernema and Heterorhabditis spp. Percentage mortality of B. coprophila larva ranged between 49 and 95%. Wild and commercial isolates of S. feltiae were highly virulent to the pest. The highest mortality--95% was obtained by using a wild strain of S. feltice. The nematode concentration tills to 50 IJ and all nematode species significantly affected the mortality rate of B. coprophila. Increasing the dosage of Steinernema spp. from 75 to 100 IJs did not affect significantly the mortality rate of the insect.

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