Unfortunately this page does not have a mobile or narrow screen view. Please switch to a desktop computer or increase the size of your browser. For tablets try flipping the screen.
Data Publication
Model files for the benthic species model
Brückner, Muriel Z.M.
YoDa Data Repository, Utrecht University, Netherlands
(2021)
This repository includes the model files used in the publication of Brückner et al. 2021 - "Benthic species as mud patrol‐modelled effects of bioturbators and biofilms on large‐scale estuarine mud and morphology" doi: https://doi.org/10.1002/esp.5080. The files contain the initial model domain used in the Delft3D model and the associated Delft3D files. More information about the data and its content can be found in readme.txt. Contact person is Muriel Brückner - Researcher - M.Bruckner@exeter.ac.uk. Abstract study: Sediment-stabilizing and -destabilizing organisms, i.e. microphytobenthos (biofilms) and macrozoobenthos (bioturbators), affect the erodibility of muddy sediments, potentially altering large-scale estuarine morphology. Using a novel eco-morphodynamic model of an idealized estuary, we investigate eco-engineering effects of microphytobenthos and two macrozoobenthic bioturbators. Local mud erodibility is based on species pattern predicted through hydrodynamics, soil mud content, competition and grazing. Mud resuspension and export is enhanced under bioturbation and prevented under biostabilization through respective exposure and protection of the supra- and intertidal. Bioturbation decreases mud thickness and bed elevations, which increases net mud fluxes. Microphytobenthos reduces erosion, leading to a local mud increase of intertidal sediments. In multi-species scenarios, an effective mud-prone bioturbator strongly alters morphology, exceeding that of a more abundant sand-prone moderate species, showing that morphological change depends on species traits as opposed to abundance. Altering their habitat, the effective mud-prone bioturbator facilitates expansion of the sand-prone moderate bioturbator. Grazing and species competition favor species distributions of dominant bioturbators. Consequently, eco-engineering affects habitat conditions while species interactions determine species dominance. Our results show that eco-engineering species determine the mud content of the estuary, which suggests large effects on the morphology of estuaries with aggravating habitat degradation.
Keywords
Originally assigned keywords
MSL enriched keywords
MSL enriched sub domains i
Source publisher
YoDa Data Repository, Utrecht University, Netherlands
DOI
10.24416/uu01-gwlkt8
Authors
Brückner, Muriel Z.M.
0000-0002-7954-9586
Utrecht University; University of Exeter;
Contributers
Brückner, Muriel Z.M.
DataCollector
0000-0002-7954-9586
Utrecht University; University of Exeter;
Schwarz, Christian
Researcher
0000-0003-3417-2575
Utrecht University; University of Delaware;
Coco, Giovanni
Researcher
0000-0001-7435-1602
University of Auckland;
Baar, Anne W.
Researcher
0000-0002-1108-8795
University of Hull;
Boechat Albernaz, Márcio
Researcher
0000-0003-4695-4822
Utrecht University;
Kleinhans, Maarten G.
ProjectLeader
0000-0002-9484-1673
Utrecht University;
References
Brückner, M. Z. M., Schwarz, C., Coco, G., Baar, A., Boechat Albernaz, M., & Kleinhans, M. G. (2021). Benthic species as mud patrol ‐ modelled effects of bioturbators and biofilms on large‐scale estuarine mud and morphology. Earth Surface Processes and Landforms, 46(6), 1128–1144. Portico. https://doi.org/10.1002/esp.5080
10.1002/esp.5080
IsSupplementTo
Citiation
Brückner, M. Z. M. (2021). Model files for the benthic species model (Version 1.0) [Data set]. Utrecht University. https://doi.org/10.24416/UU01-GWLKT8