Thermal Biology and Seasonal Population Abundance of Bactrocera dorsalis Hendel (Diptera: Tephritidae): Implications on Pest Management

International journal of insect science Pub Date : 2019-08-01 DOI:10.1177/1179543319863417

Rebaone Motswagole, Nonofo Gotcha, C. Nyamukondiwa

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引用次数: 16

Abstract

Since the first detection of Bactrocera dorsalis in Botswana in 2010, the establishment, spread, and response to prevailing Botswana microclimates under rapidly changing environments remain unknown. This study investigated the presence, seasonal population abundance, and thermal biology of B. dorsalis in Botswana. We measured B. dorsalis thermal tolerance vis critical thermal limits (CTLs) and lethal temperature assays (LTAs) to understand how temperature largely impacts on fitness and hence invasive potential. Seasonal monitoring results indicated B. dorsalis establishment in the Chobe district (its first area of detection). Trap catches showed continuous adult flies’ presence all year round and high average monthly trap catches as compared with other districts. Furthermore, B. dorsalis was detected south of Botswana, including Kgatleng, Kweneng, South-east, and Southern districts. Critical thermal maxima (CTmax) to activity for adults and larvae were 46.16°C and 45.23°C, whereas critical thermal minima (CTmin) to activity for adults and larvae were 9.1°C and 7.3°C, respectively. Moreover, we found an improved CTmin for larvae at a slower ramping rate, indicating potential rapid cold hardening. The lower lethal temperature (LLT) and upper lethal temperature (ULT) assays revealed a reduction in survival at all the developmental stages as severity and duration of both temperature extremes increased. Microclimatic temperatures recorded in Botswana showed that environmental temperatures fall within the thermal breath of B. dorsalis activity measured here, indicating a potential conducive climate niche for the insect pest across the country, albeit other factors, e.g., host availability, play a significant role. These results therefore suggest that Botswana microclimatic temperatures aided B. dorsalis activity and invasion pathway are thus significant in mapping invasions and pest risk analysis, and may also aid in designing pest management strategies.

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桔小实蝇的热生物学和季节种群丰度对害虫管理的启示

自2010年在博茨瓦纳首次检测到桔小实蝇以来，在快速变化的环境下，其建立、传播和对博茨瓦纳主要小气候的反应仍然未知。本研究调查了博茨瓦纳桔梗的存在、季节性种群丰度和热生物学。我们测量了B.dorsalis对临界热极限（CTL）和致死温度测定（LTAs）的热耐受性，以了解温度如何在很大程度上影响适应度，从而影响入侵潜力。季节性监测结果表明，B.dorsalis在Chobe区（其第一个检测区）建立。陷阱捕获量显示，成年苍蝇全年持续存在，与其他地区相比，每月平均陷阱捕获量较高。此外，在博茨瓦纳南部，包括Kgatleng、Kweneng、东南部和南部地区，也发现了B.dorsalis。成虫和幼虫对活性的临界热最大值（CTmax）分别为46.16°C和45.23°C，而成虫和幼虫的临界热最小值（CTmin）分别为9.1°C和7.3°C。此外，我们发现幼虫的CTmin在较慢的上升速率下得到改善，这表明潜在的快速冷硬化。低致死温度（LLT）和高致死温度（ULT）测定显示，随着两种极端温度的严重程度和持续时间的增加，所有发育阶段的存活率都有所下降。博茨瓦纳记录的小气候温度表明，环境温度在这里测量的B.dorsalis活动的热呼吸范围内，这表明该害虫在全国范围内具有潜在的有利气候生态位，尽管宿主的可用性等其他因素也发挥了重要作用。因此，这些结果表明，博茨瓦纳的小气候温度有助于B.dorsalis的活动和入侵途径，因此在绘制入侵地图和害虫风险分析方面具有重要意义，也可能有助于设计害虫管理策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of insect science

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