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Exotic Halophila stipulacea is an introduced carbon sink for the Eastern Mediterranean Sea.


ABSTRACT: Carbon and nitrogen storage in exotic Halophila stipulacea were compared to that in native Posidonia oceanica and Cymodocea nodosa meadows and adjacent unvegetated sediments of the Eastern Mediterranean Sea and to that in native H. stipulacea of the Red Sea at sites with different biogeochemical conditions and level of human pressure. Exotic H. stipulacea possessed considerable storing capacity, with 2-fold higher Corg stock (0.71?±?0.05?kg?m-2 in the top 20?cm of sediment) and burial (14.78 gCorg m-2 y-1) than unvegetated areas and C. nodosa meadows and, surprisingly, comparable to P. oceanica. N (0.07?±?0.01?kg?m-2) and Cinorg (14.06?±?8.02?kg?m-2) stocks were similar between H. stipulacea and C. nodosa or unvegetated sediments, but different to P. oceanica. Corg and N stocks were higher in exotic than native H. stipulacea populations. Based on isotopic mixing model, organic material trapped in H. stipulacea sediments was mostly allochthonous (seagrass detritus 17% vs seston 67%). Corg stock was similar between monospecific and invaded C. nodosa meadows by H. stipulacea. Higher stocks were measured in the higher human pressure site. H. stipulacea introduction may contribute in the increase of carbon sequestration in the Eastern Mediterranean.

SUBMITTER: Apostolaki ET 

PROVIDER: S-EPMC6610076 | biostudies-literature | 2019 Jul

REPOSITORIES: biostudies-literature

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Exotic Halophila stipulacea is an introduced carbon sink for the Eastern Mediterranean Sea.

Apostolaki Eugenia T ET   Vizzini Salvatrice S   Santinelli Veronica V   Kaberi Helen H   Andolina Cristina C   Papathanassiou Evangelos E  

Scientific reports 20190703 1


Carbon and nitrogen storage in exotic Halophila stipulacea were compared to that in native Posidonia oceanica and Cymodocea nodosa meadows and adjacent unvegetated sediments of the Eastern Mediterranean Sea and to that in native H. stipulacea of the Red Sea at sites with different biogeochemical conditions and level of human pressure. Exotic H. stipulacea possessed considerable storing capacity, with 2-fold higher C<sub>org</sub> stock (0.71 ± 0.05 kg m<sup>-2</sup> in the top 20 cm of sediment)  ...[more]

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