Development of a new apparatus to partition ant body size reveals their respective functional role within ant communities

IF 3 2区 环境科学与生态学 Q2 ECOLOGY
Taylor A. Bogar , Sabine S. Nooten , Benoit Guénard
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引用次数: 0

Abstract

The rapid decline of biodiversity is directly threatening the maintenance of important ecosystem processes. Yet, biodiversity loss is not homogeneous, with species presenting specific traits being more prone to extinction. Ultimately this can lead to potential disruption of key ecosystem functions. Ants are ubiquitous and abundant in all terrestrial ecosystems. They provide a plethora of ecosystem functions and thus are well suited for studies assessing ecological processes. Within ant communities, body size of different species can vary by several orders of magnitude reflecting different ecologies. To this point, however, our understanding of the efficiency of ecological processes by different classes in function of their body size remains largely unexplored under field conditions. This is in part due to a lack of adequate methodology for an easy and accurate assessment of their respective contributions. Here, we describe a novel approach that separates ants into three size classes based on two parameters: height of the access point and size of the entrance; and evaluated the success of this method by assessing morphometric parameters of the size classes post-filtering and quantifying the scavenging efficiency as a key ecological process. This method successfully segregated individuals based on their body size, with the large-size treatment allowing access to ants 3 times larger than ants on the medium-size treatment and 5 times larger than those on the small-size treatment. The large-size treatment was the most efficient, removing 7 times more bait per hour than the medium-size treatment and 40 times more than the small-size treatment. This approach provides a new, adjustable method for differential exclusion in the field, highlighting the role that different size classes play within a community. This opens new opportunities to study the relative role of specific functional traits, and the importance of ecological interactions in shaping ecosystem functions.

开发新的蚂蚁体型分割装置,揭示它们在蚂蚁群落中各自的功能作用
生物多样性的迅速减少直接威胁到重要生态系统过程的维持。然而,生物多样性的丧失并非千篇一律,具有特定特征的物种更容易灭绝。最终,这会导致关键生态系统功能的潜在破坏。蚂蚁在所有陆地生态系统中无处不在,数量丰富。它们提供了大量的生态系统功能,因此非常适合用于评估生态过程的研究。在蚂蚁群落中,不同物种的体型可以相差几个数量级,反映出不同的生态环境。然而,到目前为止,我们对不同种类的生态过程效率与其体型大小的函数关系的了解,在野外条件下基本上还是空白。这部分是由于缺乏适当的方法来简单、准确地评估它们各自的贡献。在此,我们介绍了一种新方法,该方法根据两个参数将蚂蚁分为三个大小等级:进入点的高度和入口的大小;并通过评估筛选后大小等级的形态参数和量化作为关键生态过程的清扫效率来评估该方法的成功。这种方法成功地根据个体的体型进行了隔离,大体型处理允许进入的蚂蚁是中体型处理蚂蚁的3倍,是小体型处理蚂蚁的5倍。大型处理的效率最高,每小时清除的饵料是中型处理的 7 倍,是小型处理的 40 倍。这种方法提供了一种新的、可调整的野外差异排除方法,突出了不同大小等级在群落中的作用。这为研究特定功能特征的相对作用以及生态相互作用在塑造生态系统功能方面的重要性提供了新的机会。
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来源期刊
Basic and Applied Ecology
Basic and Applied Ecology 环境科学-生态学
CiteScore
6.90
自引率
5.30%
发文量
103
审稿时长
10.6 weeks
期刊介绍: Basic and Applied Ecology provides a forum in which significant advances and ideas can be rapidly communicated to a wide audience. Basic and Applied Ecology publishes original contributions, perspectives and reviews from all areas of basic and applied ecology. Ecologists from all countries are invited to publish ecological research of international interest in its pages. There is no bias with regard to taxon or geographical area.
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