Environmental factors influencing fine-scale distribution of Antarctica\u2019s only endemic insect

Leslie J Potts,Nicholas M Teets,David L Denlinger,Audrey D Law,Richard E Lee,Rebecca L Mcculley,J D Gantz,Jason M Unrine,Luke Moe,Yuta Kawarasaki,Benjamin N Philip,David J Gonthier

doi:10.1007/s00442-020-04714-9

Abstract

Species distributions are dependent on interactions with abiotic and biotic factors in the environment. Abiotic factors like temperature, moisture, and soil nutrients, along with biotic interactions within and between species, can all have strong influences on spatial distributions of plants and animals. Terrestrial Antarctic habitats are relatively simple and thus good systems to study ecological factors that drive species distributions and abundance. However, these environments are also sensitive to perturbation, and thus understanding the ecological drivers of species distribution is critical for predicting responses to environmental change. The Antarctic midge, Belgica antarctica, is the only endemic insect on the continent and has a patchy distribution along the Antarctic Peninsula. While its life history and physiology are well studied, factors that underlie variation in population density within its range are unknown. Previous work on Antarctic microfauna indicates that distribution over broad scales is primarily regulated by soil moisture, nitrogen content, and the presence of suitable plant life, but whether these patterns are true over smaller spatial scales has not been investigated. Here we sampled midges across five islands on the Antarctic Peninsula and tested a series of hypotheses to determine the relative influences of abiotic and biotic factors on midge abundance. While historical literature suggests that Antarctic organisms are limited by the abiotic environment, our best-supported hypothesis indicated that abundance is predicted by a combination of abiotic and biotic conditions. Our results are consistent with a growing body of literature that biotic interactions are more important in Antarctic ecosystems than historically appreciated.

Highlights

Species distributions and population sizes are dependent on interactions among physical, chemical, and biological factors (Hughes et al 1997; Westgate et al 2014)
With biodiversity being threatened by climate change and other human impacts, understanding the influence of abiotic and biotic factors on species distribution is critical for predicting responses to environmental change (Bokhorst et al 2019)
The simplicity of Antarctic ecosystems facilitates in-depth studies of community composition, and understanding these ecological relationships is critical for predicting how these sensitive habitats will respond to environmental change

Summary

Introduction

Species distributions and population sizes are dependent on interactions among physical, chemical, and biological factors (Hughes et al 1997; Westgate et al 2014). Abiotic factors that regulate species distribution include climatic features. This paper identifies the abiotic and biotic microhabitat features that regulate spatial distribution of an Antarctic midge in its extreme environments. Extended author information available on the last page of the article such as temperature, moisture and availability of macro- and micronutrients (Guisan and Thuiller 2005), whereas biotic influences include intra- and interspecific interactions, life history traits, and demography (Chong et al 2015). With biodiversity being threatened by climate change and other human impacts, understanding the influence of abiotic and biotic factors on species distribution is critical for predicting responses to environmental change (Bokhorst et al 2019)

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