实验证明一种新热带害虫对完全冷冻具有适度耐受性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Trinidad León-Quinto , Noelia Antón-Ruiz , Roque Madrigal , Arturo Serna
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引用次数: 0

摘要

由于气候变化,许多地区的冬季逐渐变得温和。因此,来自温暖地区的害虫,特别是那些对低温有一定耐受力的害虫,可能会将其地理范围扩大到这些传统上较寒冷的地区。棕榈螟蛾(Paysandisia archon)是一种新热带昆虫,近几十年来已传入欧洲和亚洲,成为棕榈树最严重的害虫之一。人们对其耐受中等寒冷冬季并因此在新地区定居的能力知之甚少。在这项研究中,我们通过测量 Paysandisia archon 的热极限:中位数致死温度(LT50)、寒瘤开始温度(CTmin)、过冷却点(SCP)、冻结时间和冻结存活率,确定了它的耐寒能力。我们发现,该物种能够在短时间的完全冷冻中存活,冷冻 30 分钟后的存活率为 87%,冷冻 1 小时后的存活率为 33%。因此,它属于中度耐冻物种,而原产于温暖地区的所有其他鳞翅目昆虫都不耐冻。此外,我们还研究了这种昆虫在短时间或长时间的亚致死低温预暴露后是否提高了耐寒性。为此,我们研究了主要耐寒参数的潜在变化,并使用 X 射线计算机断层扫描技术研究了预处理动物的形态成分。我们发现,短时间的预暴露并不意味着 SCP 和 CTmin 值会发生显著变化。相比之下,经过长期预处理的幼虫在冷冻和低温条件下的存活率都有所提高,完全冷冻所需的时间也比其他组长。这些长期预处理的幼虫还出现了一些形态变化,包括含水量的降低,这可能是它们冷冻时间更长、冷冻存活率更高的部分原因。我们的研究结果首次描述了这种害虫的耐寒性,这可能与更好地设计防治策略有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental evidence of a Neotropical pest insect moderately tolerant to complete freezing

Due to climate change, many regions are experiencing progressively milder winters. Consequently, pest insects from warm regions, particularly those with some tolerance to low temperatures, could expand their geographic range into these traditionally colder regions. The palm borer moth (Paysandisia archon) is a Neotropical insect that in recent decades has reached Europe and Asia as one of the worst pests of palm trees. Little is known about its ability to tolerate moderately cold winters and, therefore, to colonize new areas. In this work, we characterized the cold tolerance of Paysandisia archon by measuring its thermal limits: median lethal-temperature, LT50, chill-coma onset temperature, CTmin, supercooling point, SCP, freezing time and freezing survival. We found that this species was able to survive short periods of complete freezing, with survival rates of 87% after a 30-min freezing exposure, and 33% for a 1 h-exposure. It is then a moderately freeze-tolerant species, in contrast to all other lepidopterans native to warm areas, which are freeze-intolerant. Additionally, we investigated whether this insect improved its cold tolerance after either short or long pre-exposure to sub-lethal low temperatures. To that end, we studied potential changes in the main thermo-tolerance parameters and, using X-ray Computed Tomography, also in the morphological components of pretreated animals. We found that short pre-exposures did not imply significant changes in the SCP and CTmin values. In contrast, larvae with long pretreatments improved their survival to both freezing and low temperatures, and required longer times for complete freezing than the other groups. These long-term pre-exposed larvae also presented several morphological changes, including a reduction in water content that probably explained, at least in part, their longer freezing time and higher freezing survival. Our results represent the first cold tolerance characterization of this pest insect, which could be relevant to better design strategies to combat it.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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