Taxonomic and functional organization of macroinvertebrate communities in subarctic streams

Abstract Ecological research based on both species and their traits help us to understand the main mechanisms and environmental factors structuring biological communities. In general, variation in community composition is thought to be a consequence of both stochastic and deterministic factors. In s...

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Bibliographic Details
Main Author: Tolonen, K. (Katri)
Other Authors: Heino, J. (Jani), Erkinaro, J. (Jaakko)
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Oulun yliopisto 2018
Subjects:
benthic macroinvertebrates
biodiversity
community composition
environmental filters
environmental variation
linear modelling
spatial variation
species traits
subarctic streams
lajiominaisuudet
lineaarinen mallinnus
luonnon monimuotoisuus
pohjaeläinyhteisöt
spatiaalinen vaihtelu
subarktiset purot
yhteisörakenne
ympäristönvaihtelu
ympäristösuodatin
Subarctic
Online Access:http://urn.fi/urn:isbn:9789526217673
Description
Summary:Abstract Ecological research based on both species and their traits help us to understand the main mechanisms and environmental factors structuring biological communities. In general, variation in community composition is thought to be a consequence of both stochastic and deterministic factors. In stream ecology, the traditional view has been that the local habitat conditions pose a strong environmental filter that selects only species with the right functional traits into the local communities. However, recent studies on streams have also suggested that the responses of species to environmental gradients may be independent of those of other species due to stochastic factors, such as species dispersal, which then result in more continuous communities along environmental gradients. The aim of this thesis was to explore the relative importance of the deterministic and stochastic factors in the structuring of taxonomic and functional trait-based macroinvertebrate communities in streams in a high-latitude catchment by comparing the variation in these community facets along environmental and spatial gradients. Also, the relationship between environment and the functionally-defined communities was explored closely. The results indicated how the taxonomic composition of the communities may be more closely related to the stochastic and dispersal-related factors, whereas the functional composition of the communities may be more closely related to the deterministic environmental filtering processes. However, the overall structure of the communities seems to be strongly controlled by the variation in environment, although the heterogeneous and harsh conditions of the streams may preclude the formation of predictable community types. Nonetheless, some noticeable responses of different traits to different environmental factors were found, suggesting that definable functional trait-environment relationships may be discovered if key traits of the species can be identified. Overall, these findings underline the benefits of ...

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