The influence of flow permanence and drying pattern on macroinvertebrate biomonitoring tools used in the assessment of riverine ecosystems
The influence of flow permanence and drying pattern on macroinvertebrate biomonitoring tools used in the assessment of riverine ecosystems
Temporary rivers comprise a significant proportion of river networks globally and their prevalence is expected to increase as a result of future climate change and anthropogenic water resource pressures. Despite this, the influence of drying events on freshwater biomonitoring tools within temporary rivers has received limited research attention within temperate environments. This study examines the effects of flow permanence and longitudinal drying patterns on selected biomonitoring indices used within the United Kingdom to assess the ecological status of waterbodies within the context of the Water Framework Directive. These indices are based on faunal tolerances and preferences to nutrient enrichment (BMWP, ASPT and Ntaxa) and flow velocity (Family LIFE). Long-term biomonitoring data from four rivers within southern England were examined, two of which dry longitudinally from the headwaters and two that dry within the mid-reaches. The results demonstrate that all of the biomonitoring indices examined differed significantly between each ‘hydrological class’ (i.e. temporary versus perennial reaches), with those based on absolute scores (BMWP and Ntaxa) displaying greater differences compared to those derived using scores standardized by the number of taxa recorded (ASPT and Family LIFE). The individual influence of drying pattern did not have a significant effect on any biomonitoring index. However, the interaction between the hydrological class and drying pattern significantly influenced all biomonitoring indices, indicating that the effect of flow intermittency on the metrics examined differed between drying patterns. Flow permanence explained a greater amount of statistical variation compared to the hydrological class and highlights the importance of the duration of flowing conditions on biomonitoring indices. The results indicate that flow intermittency has a significant effect on freshwater biomonitoring tools and highlights the need to incorporate this knowledge into existing management and environmental policy frameworks to prevent the misclassification of the ecological status of temporary streams.
Aquatic invertebrates, Biological indices, Ecological assessment, Intermittent, Stream drying, Temporary streams
548-555
Wilding, N. A.
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White, J. C.
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Chadd, R. P.
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House, A.
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Wood, P. J.
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1 February 2018
Wilding, N. A.
0b51bbbc-51b3-4ec4-8970-42c047888224
White, J. C.
df4040e7-b35e-4df6-9dd1-0ad0cf7ff9a7
Chadd, R. P.
ce0fa7f9-27cd-455d-bf9f-f5ac535af683
House, A.
969e200c-850b-44f2-93f5-365a8c84ba62
Wood, P. J.
8eddc9b8-fd51-461d-adc6-583011c4fd7b
Wilding, N. A., White, J. C., Chadd, R. P., House, A. and Wood, P. J.
(2018)
The influence of flow permanence and drying pattern on macroinvertebrate biomonitoring tools used in the assessment of riverine ecosystems.
Ecological Indicators, 85, .
(doi:10.1016/j.ecolind.2017.10.059).
Abstract
Temporary rivers comprise a significant proportion of river networks globally and their prevalence is expected to increase as a result of future climate change and anthropogenic water resource pressures. Despite this, the influence of drying events on freshwater biomonitoring tools within temporary rivers has received limited research attention within temperate environments. This study examines the effects of flow permanence and longitudinal drying patterns on selected biomonitoring indices used within the United Kingdom to assess the ecological status of waterbodies within the context of the Water Framework Directive. These indices are based on faunal tolerances and preferences to nutrient enrichment (BMWP, ASPT and Ntaxa) and flow velocity (Family LIFE). Long-term biomonitoring data from four rivers within southern England were examined, two of which dry longitudinally from the headwaters and two that dry within the mid-reaches. The results demonstrate that all of the biomonitoring indices examined differed significantly between each ‘hydrological class’ (i.e. temporary versus perennial reaches), with those based on absolute scores (BMWP and Ntaxa) displaying greater differences compared to those derived using scores standardized by the number of taxa recorded (ASPT and Family LIFE). The individual influence of drying pattern did not have a significant effect on any biomonitoring index. However, the interaction between the hydrological class and drying pattern significantly influenced all biomonitoring indices, indicating that the effect of flow intermittency on the metrics examined differed between drying patterns. Flow permanence explained a greater amount of statistical variation compared to the hydrological class and highlights the importance of the duration of flowing conditions on biomonitoring indices. The results indicate that flow intermittency has a significant effect on freshwater biomonitoring tools and highlights the need to incorporate this knowledge into existing management and environmental policy frameworks to prevent the misclassification of the ecological status of temporary streams.
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More information
Accepted/In Press date: 25 October 2017
e-pub ahead of print date: 9 November 2017
Published date: 1 February 2018
Keywords:
Aquatic invertebrates, Biological indices, Ecological assessment, Intermittent, Stream drying, Temporary streams
Identifiers
Local EPrints ID: 417449
URI: http://eprints.soton.ac.uk/id/eprint/417449
ISSN: 1470-160X
PURE UUID: b2062692-c272-4e07-959c-8c864ec0a169
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Date deposited: 31 Jan 2018 17:30
Last modified: 15 Mar 2024 18:10
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Author:
N. A. Wilding
Author:
J. C. White
Author:
R. P. Chadd
Author:
A. House
Author:
P. J. Wood
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