Yadira Vargas, Jimmy Pico, Neiver Manobanda, Angel Garcia, Jessica Sanmiguel
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引用次数: 0
摘要
厄瓜多尔亚马逊地区的黄皮塔亚树已成为该地区最重要的经济作物之一。然而,土壤中害虫(线虫)的存在导致该作物生长阶段受影响的比例高达 100%。面对这一问题,种植者使用各种化学杀线虫剂,虽然能将影响降到最低,但也造成了污染问题。因此,这项研究的目的是评估能在温室中控制或减少番木瓜中褐飞虱数量的微生物。研究设计为 DBCA,统计分析采用 Infostat 2017 统计软件包,使用线性混合模型和 5%费雪检验。结果表明,在注射线虫后施用 P. lilacinum + T. asperellum 时,根瘤会减少(261)。此外,在线虫接种后施用微生物(251 个结核),获得的结核数量最少(251 个)。不过,在使用微生物之前,即使根系中存在线虫,也能刺激气生生物量的增长(384.17 克)。关键词:微生物;线虫;番荔枝。
Biological nematicides as an alternative for control of Meloidogyne incognita populations in yellow pitahaya (Sselenicereus megalanthus).
Yellow pitahaya in the Ecuadorian Amazon has become one of the most important economic crops in the region. However, the presence of pests (nematodes) in the soil has caused up to 100% of the crop's growth stages to be affected. Faced with this problem, growers use various chemical nematicides that minimize this impact but cause contamination problems. For this reason, the objective of the research was to evaluate microorganisms that control or reduce the population of Meloidogyne incognita in the pitahaya crop at the greenhouse level. The design was DBCA, and the statistical analysis was performed with the statistical package Infostat 2017, using linear mixed models and Fisher's tests at 5%. The results show that root nodules decrease when P. lilacinum + T. asperellum is applied after nematode injection (261). In addition, the lowest number of nodulations (251) was obtained when microorganisms were applied after nematode inoculation (251 nodulations). Still, when microorganisms were used before, aerial biomass growth was stimulated (384.17 g) even when nematodes were present in the root system.
Keywords: microorganisms; nematodes; pitahaya.
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