Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.

Water temperature is a critical factor affecting the abundance and richness of freshwater stream aquatic macroinvertebrate communities. Variable seasonal river temperature patterns are a critical factor in maintaining temporal segregation in aquatic invertebrate communities, allowing for resource pa...

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Main Author: Eady, Bruce Robert.
Other Authors: Hill, Trevor R.
Language:en_ZA
Published: 2012
Subjects:
Online Access:http://hdl.handle.net/10413/7900
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spelling ndltd-netd.ac.za-oai-union.ndltd.org-ukzn-oai-http---researchspace.ukzn.ac.za-10413-79002014-02-08T03:49:11ZRole of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.Eady, Bruce Robert.Water temperature--Eastern Cape--Kowie River.Water temperature--Southern Cape--Keurbooms River.Stream ecology--Eastern Cape--Kowie River.Stream ecology--Southern Cape--Keurbooms River.Theses--Geography.Water temperature is a critical factor affecting the abundance and richness of freshwater stream aquatic macroinvertebrate communities. Variable seasonal river temperature patterns are a critical factor in maintaining temporal segregation in aquatic invertebrate communities, allowing for resource partitioning and preventing competitive exclusions, while spatial differences in water temperatures permit zonation of species. This research investigated whether the degree of predictability in a stream’s water temperature profile may provide some indication of the degree of structure and functional predictability of macroinvertebrate communities. Quarterly aquatic macroinvertebrate sampling over a single year along the longitudinal axes of two river systems, Keurbooms River in the southern Cape, and the Kowie River in the Eastern Cape, were undertaken as the core component of this research. The two river systems shared similar ecoregions and profile zones, however were expected to differ in their thermal variability, based on the hydrological index and flow regimes for their respective quaternary catchments. Hourly water temperature data were collected at each sampling site from data loggers installed at five paired sites on each stream system. The aquatic biotopes sampled were in close proximity to the loggers. Multivariate analysis techniques were performed on the macroinvertebrate and water temperature data. Macroinvertebrate taxon richness was greater on the perennial Keurbooms than the non-perennial Kowie River where, on a seasonal basis, taxon richness increased from winter to autumn on both systems. Macroinvertebrate species turnover throughout the seasons was higher for sites having lower water temperature predictability values than sites with higher predictability values. This trend was more apparent on the Keurbooms with a less variable flow regime. Temporal species turnover differed between sites and streams, where reduced seasonal flows transformed the more dominant aquatic biotopes from stones-in-current into standing pools. Findings included aquatic macroinvertebrates responding typically in a predictable manner to changing conditions in their environment, where water temperature and flow varied. The findings of this research demonstrate that macroinvertebrate taxa do respond in a predictable manner to changes in their environment. This was particularly evident in relation to variability in water temperature and flow.Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.Hill, Trevor R.Rivers-Moore, Nicholas Andrew.2012-11-20T06:25:58Z2012-11-20T06:25:58Z20112011Thesishttp://hdl.handle.net/10413/7900en_ZA
collection NDLTD
language en_ZA
sources NDLTD
topic Water temperature--Eastern Cape--Kowie River.
Water temperature--Southern Cape--Keurbooms River.
Stream ecology--Eastern Cape--Kowie River.
Stream ecology--Southern Cape--Keurbooms River.
Theses--Geography.
spellingShingle Water temperature--Eastern Cape--Kowie River.
Water temperature--Southern Cape--Keurbooms River.
Stream ecology--Eastern Cape--Kowie River.
Stream ecology--Southern Cape--Keurbooms River.
Theses--Geography.
Eady, Bruce Robert.
Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.
description Water temperature is a critical factor affecting the abundance and richness of freshwater stream aquatic macroinvertebrate communities. Variable seasonal river temperature patterns are a critical factor in maintaining temporal segregation in aquatic invertebrate communities, allowing for resource partitioning and preventing competitive exclusions, while spatial differences in water temperatures permit zonation of species. This research investigated whether the degree of predictability in a stream’s water temperature profile may provide some indication of the degree of structure and functional predictability of macroinvertebrate communities. Quarterly aquatic macroinvertebrate sampling over a single year along the longitudinal axes of two river systems, Keurbooms River in the southern Cape, and the Kowie River in the Eastern Cape, were undertaken as the core component of this research. The two river systems shared similar ecoregions and profile zones, however were expected to differ in their thermal variability, based on the hydrological index and flow regimes for their respective quaternary catchments. Hourly water temperature data were collected at each sampling site from data loggers installed at five paired sites on each stream system. The aquatic biotopes sampled were in close proximity to the loggers. Multivariate analysis techniques were performed on the macroinvertebrate and water temperature data. Macroinvertebrate taxon richness was greater on the perennial Keurbooms than the non-perennial Kowie River where, on a seasonal basis, taxon richness increased from winter to autumn on both systems. Macroinvertebrate species turnover throughout the seasons was higher for sites having lower water temperature predictability values than sites with higher predictability values. This trend was more apparent on the Keurbooms with a less variable flow regime. Temporal species turnover differed between sites and streams, where reduced seasonal flows transformed the more dominant aquatic biotopes from stones-in-current into standing pools. Findings included aquatic macroinvertebrates responding typically in a predictable manner to changing conditions in their environment, where water temperature and flow varied. The findings of this research demonstrate that macroinvertebrate taxa do respond in a predictable manner to changes in their environment. This was particularly evident in relation to variability in water temperature and flow. === Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.
author2 Hill, Trevor R.
author_facet Hill, Trevor R.
Eady, Bruce Robert.
author Eady, Bruce Robert.
author_sort Eady, Bruce Robert.
title Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.
title_short Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.
title_full Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.
title_fullStr Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.
title_full_unstemmed Role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the Keurbooms and Kowie Rivers, South Africa.
title_sort role of water temperature variability in structuring aquatic macroinvertebrate communities : case study on the keurbooms and kowie rivers, south africa.
publishDate 2012
url http://hdl.handle.net/10413/7900
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