硼酸对东部地下白蚁共生肠道群落的致命破坏

Aaron R Ashbrook, Melbert Schwarz, Coby Schal, Aram Mikaelyan
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摘要

东方地下白蚁(Reticulitermes flavipes (Kollar))是一种严重的害虫,会对建筑物造成大面积破坏,造成巨大的经济损失。传统的白蚁控制方法是使用硼酸,硼酸以其广谱杀虫特性而闻名,但它对白蚁肠道微生物组的影响以及这种影响的意义仍未得到充分研究。我们的研究评估了经硼酸处理的滤纸对黄翅白蚁死亡率的剂量依赖性,并调查了由此导致的白蚁肠道微生物组的菌群失调。与其他昆虫的报告一致,白蚁的死亡率呈剂量依赖性增加,最高硼酸浓度(203.7 微克/平方厘米滤纸)显著降低了白蚁的存活率。肠道微生物组的 16S rRNA 基因测序显示,白蚁肠道微生物组的组成发生了明显变化,这表明硼酸诱发了菌群失调。除了微生物多样性的整体下降之外,一些对白蚁营养至关重要的共生菌的相对丰度也随着硼酸浓度的升高而下降,而一些假定的病原体则有所增加。我们的研究结果拓展了人们对硼酸在白蚁体内作用模式的认识,强调了硼酸的作用不仅仅是直接毒性,还包括对微生物组的显著调节,这可能会对白蚁生物学产生可怕的影响。考虑到硼酸可能诱发生物群落失调,并有可能增强昆虫病原体的效力,我们的研究支持继续使用硼酸和相关化合物对木材进行抗白蚁处理。
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Lethal Disruption of the Symbiotic Gut Community in Eastern Subterranean Termite Caused by Boric Acid
The Eastern subterranean termite, Reticulitermes flavipes (Kollar), is a significant pest, causing extensive damage to structures that amount to substantial economic losses. Traditional termite control methods have utilized boric acid, known for its broad-spectrum insecticidal properties, yet its impact on termite gut microbiomes and the implications of such effects remain understudied. Our study evaluates the dose-dependent mortality of R. flavipes upon being provided boric acid treated filter papers and investigates the resulting dysbiosis within the termite gut microbiome. Consistent with reports from other insects, mortality increased in a dose-dependent manner, with the highest boric acid concentration (203.7 ug/cm2 of filter paper) significantly reducing termite survival. 16S rRNA gene sequencing of the gut microbiome revealed notable shifts in composition, indicating boric acid-induced dysbiosis. Aside from an overall decrease in microbial diversity, the relative abundance of some symbionts essential for termite nutrition decreased in response to higher boric acid concentrations, while several putative pathogens increased. Our findings extend the understanding of boric acid's mode of action in termites, emphasizing its effect beyond direct toxicity to include significant microbiome modulation that can have dire effects on termite biology. Considering its potential to induce dysbiosis and potentially augment the effectiveness of entomopathogens, our study supports the continued use of boric acid and related compounds for termite-resistant treatments for wood.
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