Hypoxia in mangroves: occurrence and impact on valuable tropical fish habitat

Intertidal mangrove forests are harsh environments that can naturally experience hypoxia in association with low tide. However, we know relatively little about dissolved oxygen (DO) fluctuations and DO-induced responses by fish, although DO is a fundamental water quality parameter. This study examin...

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Bibliographic Details
Published in:Biogeosciences 2019-10, Vol.16 (20), p.3959-3976
Main Authors: Dubuc, Alexia, Baker, Ronald, Marchand, Cyril, Waltham, Nathan J, Sheaves, Marcus
Format: Article
Language:English
Subjects:
Avoidance
Avoidance behaviour
Cameras
Coastal ecosystems
Displays (Marketing)
Dissolved oxygen
Environmental aspects
Environmental factors
Environmental impact
Environmental parameters
Fish
Fishes
Fluctuations
Food and nutrition
Forests
Habitats
Harsh environments
Hypoxia
Hypoxia (Aquatic ecology)
Identification
Intertidal environment
Intertidal fish
Low tide
Mangrove swamps
Mangroves
Mangroves (Plants)
Marine fishes
Migrations
Nursery grounds
Observations
Oxygen
Parameters
Saturation
Species richness
Taxa
Tides
Tolerances
Tolerances (dimensional)
Tropical climate
Tropical fish
Tropical fishes
Tropical forests
Underwater
Video cameras
Water depth
Water quality
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Summary:Intertidal mangrove forests are harsh environments that can naturally experience hypoxia in association with low tide. However, we know relatively little about dissolved oxygen (DO) fluctuations and DO-induced responses by fish, although DO is a fundamental water quality parameter. This study examines DO as a potential factor regulating the utilisation of intertidal mangrove forests by fish and consequently their widely recognised feeding, refuge and nursery values. We deployed underwater video cameras, coupled with DO and depth loggers, in a mangrove forest to record changes in fish assemblages in response to tidal variations in DO and other associated environmental parameters. Our results indicate that DO underwent extreme tidal fluctuations, reaching levels as low as 14 % saturation. As DO was identified as a significant factor for explaining variability in fish assemblage composition, we further investigated fish responses to DO fluctuations. Higher taxonomic richness and frequencies of occurrence were observed once DO reached 70 %–80 % saturation. More detailed examination revealed species-specific responses. Three distinct patterns of mangrove utilisation in response to DO were identified, driven by apparent taxa's behavioural DO avoidance thresholds. Most taxa did not display any behavioural avoidance, including presence at the lowest DO levels, while other taxa were not observed either below 50 %–60 % saturation or below 70 %–80 % saturation. This implies that tidal migrations, often observed in intertidal environments, could be the result of differential DO tolerances and are not simply initiated by changes in water depth. Taxa remaining in the mangrove forest even at low DO were on average more frequently observed than the other taxa and were mostly species commonly associated with mangrove habitats. This suggests that being adapted to withstand low DO might be an important condition for using mangrove habitats extensively. The need of being tolerant to low DO could constrain fish utilisation and explain the relatively low species richness often observed in other intertidal mangrove forests.
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-16-3959-2019