Biodiversity in perennial and intermittent rivers a meta-analysis

Comprehensive knowledge of the effects of disturbances on biodiversity is crucial for conservation and management, not least because ecosystems with low biodiversity may be the most vulnerable. In rivers, the role of disturbance in shaping aquatic biodiversity has mainly focused on floods. Perennial...

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Published in:Oikos Vol. 126; no. 8; pp. 1078 - 1089
Main Authors: Soria, Maria, Leigh, Catherine, Datry, Thibault, Bini, Luis Mauricio, Bonada, Núria
Format: Journal Article
Language:English
Published: Oxford, UK Nordic Society Oikos 01.08.2017
Blackwell Publishing Ltd
Subjects:
anthropogenic activities
Anthropogenic factors
Arid regions
Biodiversity
Biodiversity loss
Climate
confidence interval
Confidence intervals
Conservation
Ecosystem disturbance
Ecosystems
Environmental conditions
environmental factors
Floods
Freshwater
global change
habitats
Headwaters
Infrared radiation
Inland water environment
Intermittent rivers
Macroinvertebrates
Meta-analyses
Meta-analysis
Perennial streams
Rivers
Seasons
Splitting
Strategic management
Taxonomy
temperate zones
Wildlife conservation
Zonation
Zoobenthos
ISSN:0030-1299, 1600-0706
Online Access:Get full text
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Summary:Comprehensive knowledge of the effects of disturbances on biodiversity is crucial for conservation and management, not least because ecosystems with low biodiversity may be the most vulnerable. In rivers, the role of disturbance in shaping aquatic biodiversity has mainly focused on floods. Perennial rivers (PRs) often flood, whereas intermittent rivers (IRs) flood, stop flowing and dry. Despite the recent and significant increase in research on IRs, controversy remains about whether they are more or less biodiverse than PRs. Our aim was to determine (Q1) if PRs and IRs differ in biodiversity and (Q2) if the direction and magnitude of the differences (effect sizes) are related to environmental (climate, season, habitat, longitudinal zonation and anthropogenic disturbance) and/or biological factors (taxonomic group). We conducted a meta-analysis on 44 published studies of PR and IR biodiversity that had replicated data. We applied random effects models to the data to obtain weighted mean effect sizes for differences between PRs and IRs, and their confidence intervals, by first considering all studies and then by splitting studies into groups on the basis of the above factors. We found that biodiversity was significantly higher in PRs than in IRs (Q1). We also detected significant differences (PRs> IRs) in studies of macroinvertebrates, in those conducted within arid and temperate climates, dry and wet sampling seasons, headwaters, and regions subject to different levels of anthropogenic disturbance (Q2). Our meta-analysis suggests that the expected increase in the prevalence of IRs in certain regions of the world due to global change could result in a decrease in freshwater biodiversity. To better manage and preserve aquatic biodiversity under future global change scenarios and to avoid potential ecosystem consequences of biodiversity loss, conservation efforts should be targeted towards those environmental conditions or taxonomic groups with significant differences (PRs> IRs). Synthesis We conducted a meta-analysis of studies comparing biodiversity between perennial and intermittent rivers. We show that, in general, biodiversity was significantly higher in perennial than in intermittent rivers. Moreover, our findings suggest that biodiversity losses may be relevant for certain taxonomic groups and under particular environmental conditions. Considering that many perennial rivers are expected to become intermittent due to global change and increased human demand for freshwater, our results offer a glimpse of how these impacts could threaten aquatic biodiversity and how conservation efforts may best be directed.
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ISSN:0030-1299
1600-0706
DOI:10.1111/oik.04118