膜基施氮对稻瘟病菌（Sitophilus oryzae（L.））和迷惑Tribolium confusium J.du V。

Q3 Agricultural and Biological Sciences

Journal of Entomological and Acarological Research Pub Date : 2020-11-30 DOI:10.4081/JEAR.2020.9278

D. Locatelli, P. Girgenti, L. Moncini, L. Limonta

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引用次数: 1

摘要

本文评价了膜式氮分离器原位产生的高纯度N2（98.5%）控制气氛对米稻瘟病菌（Sitophilus oryzae）和混淆Tribolium confusium混合龄卵的影响。试验在一个装满小麦的密封不锈钢筒仓中进行，在该筒仓中，氮气氛持续一到几天。治疗期间记录的平均温度在22-24°C之间。处理后，将鸡蛋转移到一个装有培养基的罐子中，并在27±1°C和70±5%R.H.下保存。每两天检查一次罐子，记录成虫的羽化情况。在两天和四天的治疗中，观察到混淆木霉和米曲霉分别有80%的死亡率。在对T.confusium和S.oryzae分别进行5天和6天的治疗后，获得100%的死亡率。引言在控制储粮害虫方面，受控大气越来越被认为是杀虫剂的替代品（Carvalho等人，20122019；Navarro等人，2012；Aulicky等人，2017；Njoroge等人，2019；Vassilakos等人，2019）。氮气和二氧化碳控制的环境需要气密储存系统，以防止气体泄漏并保证浓度恒定，从而达到有效的效果。氮比二氧化碳更易挥发，对空气的要求更高，它主要用于包装（Riudavets等人，2009），因为它可以防止害虫的发展，而坚固的包装可以防止害虫进入。还证明，使用N2控制气氛（CA）可以预防霉菌（Moncini等人，2020a）并保持储存小麦的营养价值（Monciny等人，20220b）。不完全气密的场所很难将氧气浓度保持在1%以下，并增加杀死害虫所需的时间。使用2%的氧气20天后达到100%的死亡率（Navarro等人，2012），使用1%或更低浓度的氧气10天后达到100%（Aulicky等人，2017）。温度会影响治疗的时间：高温会缩短所需的CA治疗（Donahaye等人，1996）。在这项研究中，通过密闭筒仓中的膜式氮分离器原位产生的纯化N2气氛（98.5±0.5%）对两种最广泛的谷物害虫——米稻瘟病菌（Sitophilus oryzae）和混淆Tribolium confusium的混合龄鸡蛋的影响进行了测试。材料和方法在食品、环境和营养科学部（DeFENS）的气候室（27±1°C，70±5%UR）中大规模饲养和采卵米粒菌和混淆Tribolium confusium。小麦种子被用作米曲霉的培养基，而小麦粉（70%）、麸皮（20%）和小麦胚芽（10%）的混合物被用作混淆木霉。将总共300 g的饲养培养基和200只成虫放置在玻璃罐（高19 cm；直径10 cm；体积1.5 L）中，并用金属网（18目）封闭带孔的盖子。每个月将成虫转移到另一个罐子中，并更新饲养培养基。通信：Lidia Limonta，米兰研究大学食品、环境和营养科学系（DeFENS），通过G.Celoria，2013年2月3日，意大利米兰。电子邮件：lidia.limonta@unimi.it

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Semifield study on the effect of membrane-based nitrogen production for the control of the eggs of Sitophilus oryzae (L.) and Tribolium confusum J. du V.

In this paper, the effect of a highly purified N2 (98.5%) controlled atmosphere-generated in situ by a membrane nitrogen separator on mixed age eggs of Sitophilus oryzae and Tribolium confusum was evaluated. Trials were carried out in an airtight stainless silo filled with wheat, in which a nitrogen atmosphere was maintained for durations lasting from one to several days. The mean temperature recorded during the treatment varied from 22 to 24 °C. After the treatment, the eggs were transferred to a jar with rearing medium and kept at 27±1°C and 70±5% R.H. The jars were checked every two days to record adult emergence. Eighty percent mortality was observed in T. confusum and S. oryzae with two and four days of treatment, respectively. One hundred percent mortality was obtained after five days of treatment in the case of T. confusum and six days for S. oryzae. Introduction Controlled atmospheres are increasingly considered an alternative to insecticides in the control of stored grain pests (Carvalho et al., 2012, 2019; Navarro et al., 2012; Aulicky et al., 2017; Njoroge et al., 2019; Vassilakos et al., 2019). Nitrogenand carbon-dioxide-controlled atmospheres require air-tight storage systems in order to prevent gas leakage and guarantee the constant concentrations to achieve an effective result. Nitrogen is more volatile and more air-tight demanding than carbon dioxide, and it is mainly employed in packaging (Riudavets et al., 2009) because it prevents the development of pests while the strong packaging prevents pest entrance. It was also demonstrated that the use of a N2 controlled atmosphere (CA) can prevent mold (Moncini et al., 2020a) and preserve the nutritional value of stored wheat (Moncini et al., 2020b). Premises that are not perfectly air-tight hardly keep oxygen concentration below 1% and increase the time required to kill pests. One hundred percent mortality was reached with 2% oxygen after 20 days (Navarro et al., 2012), and after ten days with oxygen at concentrations of 1% or less (Aulicky et al., 2017). Temperature influences the length of the treatment: high temperatures shorten the required CA treatment (Donahaye et al., 1996). In this study, the effect of a purified N2 atmosphere (98.5±0.5%) generated in situ by a membrane nitrogen separator in airtight silos was tested on mixed age eggs of two of the most widespread pests of cereal grains, Sitophilus oryzae and Tribolium confusum. Materials and Methods Mass rearing and egg collection Sitophilus oryzae and Tribolium confusum were reared in the Department of Food, Environmental, and Nutritional Sciences (DeFENS) in a climatic chamber (27±1°C, 70±5% UR). Wheat seeds were used as rearing media for S. oryzae, while a mixture of wheat flour (70%), bran (20%), and wheat germ (10%) was used for T. confusum. A total of 300 g of rearing medium and 200 adults were placed in glass jars (height, 19 cm; Ø, 10 cm; volume, 1.5 L) and the lid with a hole was closed with wired net (18 mesh). Adults were transferred monthly to another jar and the rearing medium was renewed. Correspondence: Lidia Limonta, Department of Food, Environmental, and Nutritional Sciences (DeFENS), Università degli Studi di Milano, via G. Celoria 2, 20133 Milano, Italy. E-mail: lidia.limonta@unimi.it

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来源期刊

Journal of Entomological and Acarological Research Agricultural and Biological Sciences-Insect Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Entomological and Acarological Research (JEAR), formerly the Bollettino di Zoologia Agraria e di Bachicoltura of the Institute of Entomology of the Università degli Studi, Milano, was founded in 1928 by Remo Grandori. Thereafter, Minos Martelli and Luciano Süss hold the direction of the Journal until December 2011. In January 2012 the Editor decided for the new open-access on-line version of JEAR. The Journal publishes original research papers concerning Arthopods, but reviews, editorials, technical reports, brief notes, conference proceeding, letters to the Editor, book reviews are also welcome. JEAR has four main areas of interest: -Entomology (systematics; morphology; biology; biotechnology; agriculture, ornamental and forest entomology; applied entomology; integrated pest management; biological control; apiculture and apidology; medical, urban and veterinary entomology; etc.) -Stored product pests (biology; integrated pest management; etc.) -Insect Ecology (behaviour; biodiversity; taxonomy; plant insect interaction and ecosystems; biological control; alien species; etc.) -Acarology (systematics; morphology; biology; parasitology; control; etc.) The publication of manuscripts is subject to the approval of the Section Editor who has knowledge of the field discussed in the manuscript in accordance with the principles of Peer Review; referees will be selected from the Editorial Board or among qualified scientists of the international scientific community. Articles must be written in English and must adhere to the guidelines and details contained in the Instructions to Authors.