规定火灾对阿肯色州波士顿山脉和奥扎克高地蛾群的影响

Erin E Guerra, C. Blanco, J. Garrie
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引用次数: 2

摘要

除了规定的火灾对森林植被的影响外,这一生态系统过程还对相关昆虫群落产生了巨大影响。对于草食性陆生昆虫来说,火灾可预见地导致最初昆虫种群减少,然后恢复和生长的循环,在这个循环中,这些昆虫种群超过了火灾前的丰度。我们试图研究火灾引发的干扰周期是否使规定的烧伤区域或多或少适合蛾类(鳞翅目),而蛾类是多种蝙蝠物种的主要食物来源。我们调查了阿肯色州波士顿山和奥扎克高地生态区20个燃烧和20个未燃烧地点的蛾类群落,以确定过去10年中燃烧过的地区和从未燃烧过的区域之间蛾类的生物量或丰度是否不同。样本采集于2017年生长季节的早期(4月至7月)和晚期(8月至11月)(以下分别为早季和晚季)。我们比较了所有蛾类以及五种有代表性的蛾类在燃烧和未燃烧地点的生物量和丰度。之所以选择这五种蛾类,是因为它们的相对丰度高,易于识别,因此被认为具有代表性。选择的五种蛾类包括带状柞蚕蛾(Halysidota tessellaris)、白色斑点突出蛾(Nadata gibbosa)、臭椿蛾(Atteva aurea)、葡萄折叶蛾(Desmia funeralis)和彩绘地衣蛾(Hyprepia fucosa)。配对t检验的结果显示,燃烧和未燃烧地点之间的总生物量或代表物种丰度没有显著差异。然而,广义线性回归模型显示,在之前被烧毁的高基底面积区域,蛾类的丰度显著较高(β=0.038±0.004 SE,p<0.0001)。较低的障碍物数量(β=0.081±0.0044;p<0.00001)和更开放的树冠(β=0.001±0.0001 SE;p<.0001)也增加了一个区域的蛾类丰度。我们的研究结果表明,火灾是一种中间干扰,驱动了阿肯色州奥扎克山脉的蛾类种群。
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The Impact of Prescribed Fire on Moth Assemblages in the Boston Mountains and Ozark Highlands, in Arkansas
In addition to the impacts of prescribed fires on forest vegetation, this ecosystem process also has dramatic impacts on associated insect assemblages. For herbivorous, terrestrial insects, fire predictably results in a cycle of initial insect population reduction followed by recovery and growth, in which these insect populations exceed pre-fire abundances. We sought to examine if fire-induced disturbance cycles make prescribed burned areas more or less suitable specifically for moths (order Lepidoptera), which is a major food source for, among others, multiple bat species. We surveyed moth assemblages at 20 burned and 20 unburned sites in the Boston Mountain and Ozark Highland ecoregions of Arkansas, to determine if biomass or abundance of moths differed between areas that had been burned in the past 10 years, and those areas that had never been burned. Samples were collected early (April to July) and late (August to November) in the growing season of 2017 (hereafter early season and late season, respectively). We compared biomass and abundance of all moths, and of five representative moth species, between burned and unburned sites. The five moth species were chosen and considered to be representative due to their high relative abundance, and ease of identification. The five chosen moth species included the banded tussock moth ( Halysidota tessellaris ), white-dotted prominent moth ( Nadata gibbosa ), ailanthus moth ( Atteva aurea ), grape leaffolder ( Desmia funeralis ), and painted lichen moth ( Hypoprepia fucosa ). Results from paired t-tests showed no significant difference in total biomass, or abundance of representative species between burned and unburned sites. However, generalized linear regression models showed significantly higher abundance of moths in areas with high basal area that had been previously burned (β = -0.038 ± 0.004 SE, p <0.0001). Lower number of snags (β = -0.081± 0.0044; p < 0.0001) and more open canopy (β = 0.001 ± 0.0001 SE; p < 0.0001), also increased abundance of moths in an area. Our results show that fire acts as an intermediate disturbance, driving moth populations in the Ozark Mountains of Arkansas.
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