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Eco-engineered mangroves provide complex but functionally divergent niches for estuarine species compared to natural mangroves

Tachas, JN, Raoult, V, Morris, RL, Swearer, SE, Gaston, TF and Strain, EMA ORCID: 0000-0003-2165-9544 2021 , 'Eco-engineered mangroves provide complex but functionally divergent niches for estuarine species compared to natural mangroves' , Ecological Engineering, vol. 170 , pp. 1-11 , doi: 10.1016/j.ecoleng.2021.106355.

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There is growing demand for novel coastal protection approaches that also provide co-benefits such as enhanced biodiversity. Rock-fillets, which are used to stabilise eroding banks in estuaries, can be colonised by mangroves, and may provide habitat for estuarine fauna. However, it is unknown whether hybrid mangrove/rock-fillet habitats are functionally equivalent to natural mangroves, for estuarine fauna. To determine whether hybrid mangrove habitats are functionally equivalent to natural mangroves, we used δ13C and δ15N stable isotope analyses to describe the isotopic niche space and overlap of estuarine species in these two habitats across three estuaries in NSW, Australia. Using a Bayesian standard ellipse analysis of isotopic niche area, over half the 12 species observed had larger isotopic niche areas in natural mangroves compared to hybrid habitats, however there were no clear patterns for species between habitats. Natural mangroves and hybrid rock-fillet habitats were isotopically distinct for all species sampled (low proportional overlap, 0–19%) suggesting they are not, at present, wholistically functionally equivalent. Estuarine communities from the two habitat types, however, had similar isotopic niches. Hybrid communities displayed a broader range of δ13C values compared to natural mangroves, suggesting mangrove/rock-fillet habitats have a more diverse range of basal food sources. These findings demonstrate the potential for defence solutions to provide unique co-benefits by supporting food webs, but also that natural habitats provide unique ecosystem services that should be protected and rehabilitated where possible. Future modelling and monitoring of habitat utilisation and species performance could provide further insight into the co-benefits and trade-offs of hybrid habitats.

Item Type: Article
Authors/Creators:Tachas, JN and Raoult, V and Morris, RL and Swearer, SE and Gaston, TF and Strain, EMA
Keywords: ecological engineering, hybrid ecological engineering, living shorelines, restoration, rock-fillets, shoreline protection, stable isotope analysis
Journal or Publication Title: Ecological Engineering
Publisher: Elsevier Science Bv
ISSN: 0925-8574
DOI / ID Number: 10.1016/j.ecoleng.2021.106355
Copyright Information:

© 2021 Elsevier B.V.

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