Loss of intermediate‐flow states only evident when considering sub‐daily flow metrics in a major tributary of the Limpopo basin

As the impacts of the anthropocene intensifies, there is an increasing need to understand how these changes affect both daily and sub‐daily stream flow variability, timing and flow quantities, as these are some of the most influential drivers of spatial and temporal dynamics of stream biota. In this...

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Bibliographic Details
Published inEcohydrology Vol. 15; no. 2
Main Authors Ramulifho, Pfananani A., Rivers‐Moore, Nick A., Foord, Stefan H.
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.03.2022
Subjects
Anthropocene
Arid regions
Arid zones
Biota
Catchment area
Catchments
Cluster analysis
Daily
daily flow metrics
Fish
fish assemblage
Flow distribution
Guilds
hydrological change
long‐term
Oscillating flow
Rain
Rainfall
Rainy season
Rivers
seasonality
Spreadsheets
Stream biota
Stream discharge
Stream flow
Tributaries
Wet season
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Summary:As the impacts of the anthropocene intensifies, there is an increasing need to understand how these changes affect both daily and sub‐daily stream flow variability, timing and flow quantities, as these are some of the most influential drivers of spatial and temporal dynamics of stream biota. In this paper, long‐term changes in flow patterns of a strategic water source area (Luvuvhu catchment) in an arid region of southern Africa were quantified, focusing on the relation between daily and sub‐daily flow and its potential impact on fish biota of the catchment. Long‐term temporal trends in stream flow were modelled using generalized least squares (GLS), while sub‐daily and daily mean flow of the same stations were compared using a suite of metrics. Periods of similar stream flow patterns were identified using K‐means cluster analysis. A spreadsheet rule‐based model was developed linking fish communities to streamflow patterns, providing a predictive framework for fish assemblage responses to stream flow classes. Long‐term reduction in flow in the Luvuvhu catchment has a strong seasonal component, with significant decreases during the wet season, not linked to long‐term rainfall patterns. The flow regime of the Luvuvhu river system has become more variable over time. Several sub‐daily flow metrics were positively related to daily flow metrics. Oscillating flow conditions and the loss of intermediate‐flow states may permanently exclude certain fish flow guilds. However, temporal partitioning is only evident when sub‐daily metrics are considered, highlighting their importance for assessing ecological resilience.
Bibliography:Funding information
Department of Science and Innovation (South Africa); National Research Foundation (South Africa)
ISSN:1936-0584
1936-0592
DOI:10.1002/eco.2381