Inter-specific and inter-individual trait variability matter in surface sediment reworking rates of intertidal benthic foraminifera

Although benthic foraminifera are an important component of meiofauna and contribute to carbonate production and carbon/nitrogen cycles, their role in bioturbation processes remains poorly known. Five dominant intertidal benthic foraminiferal species were recently classified into functional bioturba...

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Bibliographic Details
Published in:Marine biology 2021-07, Vol.168 (7), Article 101
Main Authors: Deldicq, Noémie, Seuront, Laurent, Bouchet, Vincent M. P.
Format: Article
Language:English
Subjects:
Acidification
Ammonia
Ammonia tepida
Benthos
Benthos (Aquatic organisms)
Biomedical and Life Sciences
Bioturbation
Carbon cycle
Carbonates
Distance
Environmental aspects
Environmental Sciences
Foraminifera
Freshwater & Marine Ecology
Haynesina germanica
Heat waves
Heatwaves
Image analysis
Image processing
Life Sciences
Marine & Freshwater Sciences
Marine biology
Marine ecosystems
Marine pollution
Meiobenthos
Meiofauna
Microbiology
Miliammina fusca
Natural environment
Ocean acidification
Oceanography
Phenotypic plasticity
Quinqueloculina seminulum
Sediment
Sediments
Short Notes
Species
Species classification
Threatened species
Variability
Zoology
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Summary:Although benthic foraminifera are an important component of meiofauna and contribute to carbonate production and carbon/nitrogen cycles, their role in bioturbation processes remains poorly known. Five dominant intertidal benthic foraminiferal species were recently classified into functional bioturbator groups according to their sediment reworking mode and intensity. Our study aimed at identifying potential drivers (i.e. size and/or travelled distance) of species-specific surface sediment reworking rate. The travelled distance and surface sediment reworking rate of Haynesina germanica, Cribroelphidium williamsoni, Ammonia tepida, Quinqueloculina seminulum and Miliammina fusca were assessed through image analysis. Our results show that the surface sediment reworking performed by these species is not size-dependent, but dependent on their motility traits through interspecific differences in the travelled distance. Smaller species (i.e. Quinqueloculina seminulum and Haynesina germanica ) contributed more to surface sediment reworking than larger ones (i.e. Ammonia tepida, Cribroelphidium williamsoni and Miliammina fusca ). These observations stress the critical role of motion behaviour in surface sediment reworking processes by intertidal foraminifera. Finally, we stress that the high inter-individual variability observed in conspecific motion behaviour may be important to decipher the role of foraminifera in sediment bioturbation. Noticeably, the species characterized by a strong inter-individual variability are also the species that have the highest surface sediment reworking rates. This last observation may inform on the species-specific phenotypic plasticity and, therefore, the potential for the functional role of these species to be maintained in their natural environment. This is particularly relevant in an era of global change where ecosystem balance is increasingly threatened by various stressors such as heat-waves, ocean acidification and pollution.
ISSN:0025-3162
1432-1793
DOI:10.1007/s00227-021-03908-w