Metazoan activity facilitates passive sediment trapping in modern supratidal microbialites: Revealed using µ‐CT‐scanning and microscopy

Dodd, C. Kenneth; Anderson, Callum R.; Rishworth, Gavin M.; Perissinotto, Renzo; Niekerk, X. van

doi:10.1111/gbi.12456

Cited by 3 publications

(8 citation statements)

References 71 publications

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“…10). Blister mats accrete on low gradient substrates subject to frequent subaerial exposure (Dodd et al, 2021;Edwards et al, 2017) and Edwards et al (2017) suggest that their formation is a result of subaerial exposure of microbial mats, splitting domal structures and releasing trapped gases produced by the mat decomposition, as described by Gerdesi and Krumbein (1994).…”

Section: Microbial Mat Featuresmentioning

confidence: 88%

“…This thrombolitic internal organisation has multiple geneses related to the trapping and binding of peloids (Castro-Contreras et al, 2014); the morphology of the microbialite builders (Kennard and James, 1986), and the disruption, destruction, and alteration of stromatolitic internal organisation by biota: bioturbation (Walter and Heys, 1985). The latter has been suggested as a mechanism for the formation of thrombolites in South African rock coast microbialites, predominantly by metazoans and potentially by foraminifera and coccoids (Dodd et al, 2021;Weston et al, 2018). This may also be involved in the genesis of leiolitic (sensu Braga et al, (1995)), or structureless, mesofabrics (Dodd et al, 2021).…”

Section: Mat Topographies: Microterrace Microridge and Pedestalmentioning

confidence: 99%

“…The latter has been suggested as a mechanism for the formation of thrombolites in South African rock coast microbialites, predominantly by metazoans and potentially by foraminifera and coccoids (Dodd et al, 2021;Weston et al, 2018). This may also be involved in the genesis of leiolitic (sensu Braga et al, (1995)), or structureless, mesofabrics (Dodd et al, 2021). While stromatolitic, thrombolitic and leiolitic internal organisation has been observed in the rock coast setting, future work is required to describe these structures, and further subsets (e.g., dendrolites), before they can be confidently attributed to process.…”

Section: Mat Topographies: Microterrace Microridge and Pedestalmentioning

confidence: 99%

“…These structures are similar to the gas domes described by Noffke (2010) which can blister or collapse, releasing the trapped gas and resulting in a crater-like morphology. These structures may be recolonised by microbial mats (Lakhdar et al, 2020) potentially resulting in laminoid and irregular fenestrae in section as suggested by Dodd et al (2021). Smith et al (2020) describe wave rip-up clasts of stromatolite within rock pools and areas stabilised by vegetation on a shore platform setting on the South African coast, that form due to increased wave energy and/or water level during storm conditions.…”

Section: Microbial Mat Featuresmentioning

confidence: 99%

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Reviews and syntheses: Tufa microbialites on rocky coasts towards an integrated terminology

Garner,

Cooper,

Smith

et al. 2024

Preprint

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Abstract. Microbialites are known from a range of terrestrial, freshwater, marine, and marginal settings with the applied descriptive terminology depending largely on the historical legacy derived from previous studies in similar environmental settings. This has led to a diversity of nomenclature and a lack of conformity in the terms used to describe and categorise microbialites. As the role of microbial mats and biofilms is increasingly recognised in the formation of tufa and terrestrial carbonates, deposits such as tufa microbialites bridge the spectrum of microbialites and terrestrial carbonate deposits. Groundwater spring-fed tufa microbialites in supratidal rock coast environments occur at the interface of terrestrial and marine domains and necessitatethe adoption of an integrative and systematic nomenclature approach. To date, their global distribution and complex relationships with pre-defined deposits have resulted in the application of a variety of descriptive terminologies, most frequently at the macro- and meso-scale. Here we review and consolidate the multi-scale library of terminologies for microbialites and present a new geomorphological scheme for their description and classification. This scheme has greater alignment with terrestrial carbonate nomenclature at the macroscale and with marine and lacustrine microbialites at the mesoscale. The proposed terminology can primarily be applied to tufa microbialites in spring-fed supratidal settings but may also be applied to other relevant environmental settings, terrestrial carbonates, microbial mats and other microbialites.

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Section: Microbial Mat Featuresmentioning

confidence: 88%

Section: Mat Topographies: Microterrace Microridge and Pedestalmentioning

confidence: 99%

Section: Mat Topographies: Microterrace Microridge and Pedestalmentioning

confidence: 99%

Section: Microbial Mat Featuresmentioning

confidence: 99%

See 2 more Smart Citations

Reviews and syntheses: Tufa microbialites on rocky coasts towards an integrated terminology

Garner,

Cooper,

Smith

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Section: Mat Topographies: Microterrace Microridge and Pedestalmentioning

confidence: 99%

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Garner

2024

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Microbialites of modern siliciclastic rock coasts

Cooper

Smith

Rishworth

et al. 2022

Journal of Sedimentary Research

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Contemporary microbialite formation has been documented on rock coasts in a variety of geomorphic, oceanographic, and climatic settings. Based on a synthesis of these diverse occurrences plus new observations, a generalized model is presented. At each locality microbialite development is associated with discharge of mineralized freshwater in the coastal zone. Microbialite formation in the high intertidal and supratidal zones of rock coasts occurs in a variety of sub-environments (cliff face, shore platform surface, platform surface pools, boulder beach, and sand beach) and forms a variety of laminated rock encrustations and oncoids. Allochthonous microbialites occur on the backshore as breccias of reworked microbialite clasts, oncoids transported from rock pools, and partly encrusted boulders. The microbialite-influenced rock coast is a distinct type of siliciclastic environment that offers potential comparison for ancient microbialite occurrences. It has preservation potential in both transgressive and regressive settings. Potential ancient examples are suggested.

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Metazoan activity facilitates passive sediment trapping in modern supratidal microbialites: Revealed using µ‐CT‐scanning and microscopy

Cited by 3 publications

References 71 publications

Reviews and syntheses: Tufa microbialites on rocky coasts towards an integrated terminology

Reviews and syntheses: Tufa microbialites on rocky coasts towards an integrated terminology

Reply on RC1

Microbialites of modern siliciclastic rock coasts

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