Evaluation of Philippine-sourced clay particles as coating agents of cacao pods and carrier of entomopathogen against cacao pest, Helopeltis bakeri Poppius

IF 3.5 Q1 AGRONOMY

Frontiers in Agronomy Pub Date : 2023-08-04 DOI:10.3389/fagro.2023.1213131

Sharin C. Albacete, D. Amalin, Thaddeus M. Carvajal, J. Wise

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Abstract

Evaluation of the efficacy of clay particles as a coating agent of cacao pods and carrier of entomopathogen, Metarhizium anisopliae Sorokin, was conducted for the control of cacao mirid bug (CMB), Helopeltis bakeri Poppius. Choice and no-choice tests were performed to evaluate Philippine-sourced clay particles as a coating agent of cacao pods to deter CMB feeding, in comparison with the commercially available particle film (US kaolin Surround®). To determine the most efficient local clay particles in protecting the pods from CMB feeding, six (6) treatments were evaluated namely, Philippine-sourced kaolin (PH kaolin), zeolite (PH zeolite), bentonite (PH bentonite), US kaolin, water (negative control), and a commercial synthetic insecticide thiamethoxam (Actara®) (positive control). All treatments were subjected to choice and no-choice tests. Among the Philippine clay particles tested in both tests, PH zeolite showed significant coating and deterred CMB from feeding. Since the US Kaolin and zeolite showed significant feeding deterrent effects on CMB, these treatments were tested as carriers of entomopathogenic fungi, M. anisopliae, including water (negative control) and thiamethoxam. Results showed that zeolite is a good carrier of the spores of M. anisopliae as its effects to deter CMB feeding started 24 hours after exposure. This was confirmed by positive M. anisopliae extraction from dead CMB through potato dextrose agar (PDA) plating.

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菲律宾来源的粘土颗粒作为可可荚包衣剂和昆虫病原体载体对抗可可害虫Helopeltis bakeri Poppius的评价

研究了粘土颗粒作为可可豆荚包衣剂和绿僵菌载体对可可干虫(Helopeltis bakeri Poppius)的防治效果。通过选择和非选择试验，对菲律宾粘土颗粒作为可可豆荚包衣剂，与市售颗粒膜(美国高岭土环绕®)进行了比较，以评估其对CMB摄食的影响。为了确定保护豆荚免受CMB取食的最有效的本地粘土颗粒，对六种处理进行了评估，即菲律宾高岭土(PH高岭土)、沸石(PH沸石)、膨润土(PH膨润土)、美国高岭土、水(负对照)和商业合成杀虫剂噻虫胺(Actara®)(阳性对照)。所有的治疗都进行了选择和非选择测试。在两项试验中检测的菲律宾粘土颗粒中，PH沸石表现出明显的涂层，阻止了CMB的摄食。由于美国高岭土和沸石对CMB具有显著的摄食威慑作用，因此这些处理作为昆虫病原真菌绿僵菌的载体进行了测试，包括水(阴性对照)和噻虫嗪。结果表明，沸石是绿僵菌孢子的良好载体，其对绿僵菌取食的抑制作用在暴露24 h后开始。通过马铃薯葡萄糖琼脂(PDA)电镀从死亡的CMB中提取出阳性的金龟子分枝杆菌，证实了这一点。

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