Onion thrips, Thrips tabaci (Thysanoptera: Thripidae), overwintering in South Auckland, New Zealand: the importance of the local bionomic data/temperature model and biosecurity implications

IF 0.6 4区农林科学 Q4 ENTOMOLOGY

New Zealand Entomologist Pub Date : 2015-01-02 DOI:10.1080/00779962.2014.947669

N. Martin

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引用次数: 3

Abstract

Onion thrips flights in winter and early spring 1999 were monitored in South Auckland using sticky traps and trap plants. A pair of yellow sticky traps and 10 ‘thrips-free’ onion pot plants per site were changed every 2 weeks. Thrips were detected on traps and plants in June, September and October. Sticky traps were the most reliable method for detecting thrips flights. Wild plants were inspected four times and revealed that thrips bred all winter. There was no diapause. Seedlings that had sprouted in mid July had second instar larvae by 4 October 1999. The nearest source was self-set plants in an adjacent field. Three published temperature models for onion thrips development were compared. Generation times were similar in summer, but very different in winter. The Texas model with minimum developmental threshold of 11.5 °C had the longest winter generation time and required a thrips flight by early August for second instar larvae to develop in the crop by 4 October, whereas the South Auckland model (threshold 8.7 °C) required flights by early September. Thrips flights were detected by traps in September but not August 1999. For cosmopolitan pests that are very variable genetically, it is important to generate local biological data. The biosecurity implications of this variability are discussed.

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洋葱蓟马，烟蓟马(蓟翅目:蓟科)，在新西兰南奥克兰越冬:当地生物数据/温度模型的重要性和生物安全意义

1999年冬季和早春，在奥克兰南部用粘捕器和诱捕装置监测洋葱蓟马的飞行情况。每两周更换一对黄色粘性陷阱和10个“无蓟马”洋葱盆栽。6月、9月和10月分别在诱捕器和植物上发现蓟马。粘捕是检测蓟马飞行最可靠的方法。对野生植物进行了四次检查，发现蓟马整个冬天都在繁殖。没有滞育。7月中旬发芽的幼苗在1999年10月4日有二龄幼虫。最近的来源是邻近田地里的自植植物。比较了三种已发表的洋葱蓟马发育温度模型。代际时间在夏季相似，但在冬季却大不相同。德克萨斯州模型(发育阈值最低为11.5°C)的冬季繁殖时间最长，需要在8月初飞行，以便在10月4日之前在作物中发育二龄幼虫，而南奥克兰模型(阈值为8.7°C)需要在9月初飞行。诱捕器在1999年9月探测到蓟马飞行，但在8月未探测到。对于遗传变异很大的世界性害虫，重要的是生成当地的生物数据。讨论了这种变异对生物安全的影响。

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来源期刊

New Zealand Entomologist ENTOMOLOGY-

CiteScore

0.70

自引率

33.30%

发文量

审稿时长

>12 weeks

期刊介绍： The invertebrate diversity of New Zealand is of great interest worldwide because of its geographic isolation and geological history. The New Zealand Entomologist plays an important role in disseminating information on field-based, experimental, and theoretical research. The New Zealand Entomologist publishes original research papers, review papers and short communications. We welcome submissions in all aspects of science regarding insects and arthropods in a New Zealand or Australasian setting. The journal’s subject matter encompasses taxonomy, phylogenetics, biogeography, biological control and pest management, conservation, ecology and natural history. The journal is the official publication of the Entomological Society of New Zealand. Papers published or submitted elsewhere for publication will not be considered, but publication of an abstract or summary elsewhere (e.g. conference proceedings) does not preclude full publication in the New Zealand Entomologist. Accepted papers become copyright of the Entomological Society of New Zealand. The journal is published in English, but we also welcome publication of abstracts in Maori.