Abstract

BackgroundThe timing, magnitude, and duration of extreme hydrological disasters have the potential to threaten the species diversity and river habitats. On August 8, 2014, and August 19, 2017, disastrous floods struck mountainous regions of Iran’s Zarin Gol River basin. Macroinvertebrate communities were studied at seven upstreams prior to the floods in June 2014 and 2017 and after the floods in September 2014 and 2017 and 9 months after the second flood in June 2018. The effects of floods on macroinvertebrate communities, recovery rate of macroinvertebrate community resilience and influencing factors were investigated.ResultsDespite the fact that extreme floods were the only reason of the disruption, the effects of biological water quality assessment metrics after the disaster were comparable to those of heavily polluted waters. Biological indicators revealed that the communities were unaffected prior to the floods, and the water quality remained within acceptable limits. Following the disasters, the density of macroinvertebrates declined, and biological indicators demonstrated the severe depletion of water quality. Community indicators (species richness, percent model affinity (PMA), and Ephemeroptera, Plecoptera, and Trichoptera (EPT) richness) rebounded after 9 months (June 2018), demonstrating that Zarin Gol River’s macroinvertebrate communities could recover even after the severe impact of the floods. As a result, macroinvertebrate samples taken from flood-affected areas revealed that extreme flooding, rather than a decrease in water quality, causes a loss of diversity and abundance.ConclusionBecause of shifts in hydrological regimes in streams around the world, understanding the short-term impacts of strong flooding and the comparatively quick recovery of macroinvertebrate ecosystems has important consequences for bio-assessment programs after severe floods.

Highlights

  • Because of the increased heat capacity of the atmosphere, climate change has raised concerns about rising river floods (Bonada et al 2007)

  • Four criteria available in the Biological Assessment Profile (BAP) index demonstrated that the flood caused by heavy precipitation in a short time had adverse effects on water quality in the Zarin Gol River basin

  • The mean BAP scores of seven sampling stations demonstrated water quality was not affected before the flood (Fig. 4)

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Summary

Introduction

Because of the increased heat capacity of the atmosphere, climate change has raised concerns about rising river floods (Bonada et al 2007). These fears are bolstered by evidence of widespread economic damage caused by floods in various parts of the world, Asia and Iran (Mohammadi et al 2006). The hydrological regime appears to be a major variable that influences river morphology and existing environmental factors, community composition and diversity (Lake 2007), life cycle and ecological adaptations of organisms (Poff et al 2006), and habitat processing rate (Power et al 1995). The effects of floods on macroinvertebrate communities, recovery rate of macroinvertebrate community resilience and influencing factors were investigated

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