Habitat complexity drives food web structure along a dynamic mangrove coast

Janne Nauta; Carlijn Lammers; Robin Lexmond; Marjolijn J. A. Christianen; Annieke Borst; Leon P.M. Lamers; Hanneke van Lavieren; Sieuwnath Naipal; Laura L. Govers

doi:10.1016/j.marpolbul.2023.115597

Habitat complexity drives food web structure along a dynamic mangrove coast

Janne Nauta^*, Carlijn Lammers, Robin Lexmond, Marjolijn J. A. Christianen, Annieke Borst, Leon P.M. Lamers, Hanneke van Lavieren, Sieuwnath Naipal, Laura L. Govers

^*Corresponding author voor dit werk

Onderzoeksoutput › Academic › peer review

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Structurally complex habitats, such as mangrove forests, allow for rich assemblages of species that benefit from the provided space, volume and substrate. Changes in habitat complexity can affect species abundance, diversity and resilience. In this study, we explored the effects of habitat complexity on food web networks in four developmental stages of mangrove forests with differing structural complexities: climax > degrading > colonizing > bare, by analyzing food web structure, stable isotopes and habitat complexity. We found that food webs became gradually more biodiverse (species richness: +119 %), complex (link density: +39 %), and robust (connectance: −35 %) in climax versus bare stages with increasing complexity of the mangrove forest (i.e., number of trees, leaf cover, and pneumatophore densities). This study shows that habitat complexity drives food web network structure in dynamic mangrove forests. We recommend restoration practitioners to use this food web network approach to quantify habitat restoration successes complementary to traditional biodiversity metrics.

Originele taal-2	English
Artikelnummer	115597
Aantal pagina's	8
Tijdschrift	Marine Pollution Bulletin
Volume	196
DOI's	https://doi.org/10.1016/j.marpolbul.2023.115597
Status	Published - nov.-2023

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AL: Adaptive Life
Etienne, R. (Coordinator), Kas, M. (Coordinator), Olff, H. (Coordinator), Weissing, F. (Coordinator) & Groothuis, T. (Coordinator)
01/01/2016 → 01/01/2026
Project: Research
Small steps, giant leaps - Building coastal landscapes with spatially organizing plants
van der Heide, T. (Hoofdonderzoeker), Lammers, C. (PhD student) & van de Ven, C. (PhD student)
01/12/2018 → 01/12/2023
Project: Research
AL-Xtra: Effects of cascading effect on biogeomorphology on tidal flat resilience to sea level rise
Govers, L. (Hoofdonderzoeker), Olff, H. (Hoofdonderzoeker), Bouma, T. (Hoofdonderzoeker), van der Wal, D. (Hoofdonderzoeker) & Nauta, J. (PhD student)
01/09/2018 → 01/05/2023
Project: Research

Citeer dit

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title = "Habitat complexity drives food web structure along a dynamic mangrove coast",

abstract = "Structurally complex habitats, such as mangrove forests, allow for rich assemblages of species that benefit from the provided space, volume and substrate. Changes in habitat complexity can affect species abundance, diversity and resilience. In this study, we explored the effects of habitat complexity on food web networks in four developmental stages of mangrove forests with differing structural complexities: climax > degrading > colonizing > bare, by analyzing food web structure, stable isotopes and habitat complexity. We found that food webs became gradually more biodiverse (species richness: +119 %), complex (link density: +39 %), and robust (connectance: −35 %) in climax versus bare stages with increasing complexity of the mangrove forest (i.e., number of trees, leaf cover, and pneumatophore densities). This study shows that habitat complexity drives food web network structure in dynamic mangrove forests. We recommend restoration practitioners to use this food web network approach to quantify habitat restoration successes complementary to traditional biodiversity metrics.",

keywords = "Biodiversity, Facilitation, Food web networks, Foundation species, Habitat complexity, Mangroves",

author = "Janne Nauta and Carlijn Lammers and Robin Lexmond and Christianen, {Marjolijn J. A.} and Annieke Borst and Lamers, {Leon P.M.} and {van Lavieren}, Hanneke and Sieuwnath Naipal and Govers, {Laura L.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = nov,

doi = "10.1016/j.marpolbul.2023.115597",

language = "English",

volume = "196",

journal = "Marine Pollution Bulletin",

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AU - Nauta, Janne

AU - Lammers, Carlijn

AU - Lexmond, Robin

AU - Christianen, Marjolijn J. A.

AU - Borst, Annieke

AU - Lamers, Leon P.M.

AU - van Lavieren, Hanneke

AU - Naipal, Sieuwnath

AU - Govers, Laura L.

PY - 2023/11

Y1 - 2023/11

N2 - Structurally complex habitats, such as mangrove forests, allow for rich assemblages of species that benefit from the provided space, volume and substrate. Changes in habitat complexity can affect species abundance, diversity and resilience. In this study, we explored the effects of habitat complexity on food web networks in four developmental stages of mangrove forests with differing structural complexities: climax > degrading > colonizing > bare, by analyzing food web structure, stable isotopes and habitat complexity. We found that food webs became gradually more biodiverse (species richness: +119 %), complex (link density: +39 %), and robust (connectance: −35 %) in climax versus bare stages with increasing complexity of the mangrove forest (i.e., number of trees, leaf cover, and pneumatophore densities). This study shows that habitat complexity drives food web network structure in dynamic mangrove forests. We recommend restoration practitioners to use this food web network approach to quantify habitat restoration successes complementary to traditional biodiversity metrics.

AB - Structurally complex habitats, such as mangrove forests, allow for rich assemblages of species that benefit from the provided space, volume and substrate. Changes in habitat complexity can affect species abundance, diversity and resilience. In this study, we explored the effects of habitat complexity on food web networks in four developmental stages of mangrove forests with differing structural complexities: climax > degrading > colonizing > bare, by analyzing food web structure, stable isotopes and habitat complexity. We found that food webs became gradually more biodiverse (species richness: +119 %), complex (link density: +39 %), and robust (connectance: −35 %) in climax versus bare stages with increasing complexity of the mangrove forest (i.e., number of trees, leaf cover, and pneumatophore densities). This study shows that habitat complexity drives food web network structure in dynamic mangrove forests. We recommend restoration practitioners to use this food web network approach to quantify habitat restoration successes complementary to traditional biodiversity metrics.

KW - Biodiversity

KW - Facilitation

KW - Food web networks

KW - Foundation species

KW - Habitat complexity

KW - Mangroves

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U2 - 10.1016/j.marpolbul.2023.115597

DO - 10.1016/j.marpolbul.2023.115597

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AN - SCOPUS:85173246450

SN - 0025-326X

VL - 196

JO - Marine Pollution Bulletin

JF - Marine Pollution Bulletin

M1 - 115597

ER -

Habitat complexity drives food web structure along a dynamic mangrove coast

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AL: Adaptive Life

Small steps, giant leaps - Building coastal landscapes with spatially organizing plants

AL-Xtra: Effects of cascading effect on biogeomorphology on tidal flat resilience to sea level rise

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