Natural rock roughness as a key parameter for optimizing seedling adhesion and restoration of the seagrass Posidonia oceanica in its native environment

Seagrasses provide various ecosystem functions in coastal areas of the world. In the Mediterranean Sea, Posidonia oceanica is an endemic species threatened by several activities despite being protected by national and international laws. Currently, several transplanting initiatives have been carried...

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Bibliographic Details
Published inRestoration ecology Vol. 32; no. 3
Main Authors Zenone, Arturo, Kovalev, Alexander, Badalamenti, Fabio, Gorb, Stanislav N.
Format Journal Article
LanguageEnglish
Published Malden, USA Wiley Periodicals, Inc 01.03.2024
Blackwell Publishing Ltd
Subjects
Adhesion
Calcarenite
Coastal zone
Ecological function
Endemic species
Marine ecosystems
Mathematical analysis
Optical microscopes
Parameters
Posidonia oceanica
Power spectral density
Restoration
Rock
Rocks
root hair
Roughness
Sea grasses
Seagrasses
Sediment samples
seed adhesion
Seedlings
Seeds
Substrates
Threatened species
Transplantation
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Summary:Seagrasses provide various ecosystem functions in coastal areas of the world. In the Mediterranean Sea, Posidonia oceanica is an endemic species threatened by several activities despite being protected by national and international laws. Currently, several transplanting initiatives have been carried out using different methods, among which those including seeds and seedlings are considered the most ecological and low‐cost ones. Beach‐cast fruits and seeds can be found in spring and their appearance can easily be reported, through a citizen science approach, by the community. One of the obstacles in using these methods is identifying the best substrate in which to place P. oceanica seeds to facilitate root adhesion of the seedlings prior to their transplantation into the sea. In the present study, we analyzed, using a 3D surface optical microscope, the roughness of natural rocks to identify the availability of specific roughness ranges suitable for adhesion and root anchoring of P. oceanica seedlings. Conventional roughness parameters and roughness power spectral density were calculated for the inner and outer surfaces of 9 different rock samples. Among the rock samples examined, the calcarenitic ones and in particular marsala calcarenite, due to the presence of the “ideal roughness for seedlings” can be considered one of the best consolidated substrates to be used for the construction of ad hoc devices on which plantlet of P. oceanica can grow for the purpose of restoration.
Bibliography:Author contributions: AZ, FB, SG conceived the research; AZ collected, prepared, and measured the samples; SG contributed facilities and equipment; AK prepared the scripts for the analyses; AZ, AK analyzed the data; AZ wrote the first draft; FB, SG, AK revised the manuscript; all authors read and approved the final manuscript.
ISSN:1061-2971
1526-100X
DOI:10.1111/rec.14084