TY - JOUR
T1 - Halophila stipulacea descriptors in the native area (Red Sea)
T2 - A baseline for future comparisons with native and non-native populations
AU - Beca-Carretero, Pedro
AU - Rotini, Alice
AU - Mejia, Astrid
AU - Migliore, Luciana
AU - Vizzini, Salvatrice
AU - Winters, Gidon
N1 - Funding Information:
We are highly thankful to the Associate Editor and the anonymous reviewer for their valuable suggestions and constructive criticisms during the review process. This work was supported by the Israeli Ministry of Environmental Protection (grant number 121-4-1 ), the Israeli Nature Park Authority (INPA) and the Dead Sea-Arava Science Center (ADSSC) . AYM and AR were recipients of a Short-term Scientific Mission grant from the COST Action scientific program ( ES0906 ) on “Seagrass productivity: from genes to ecosystem management” to travel to Israel and conduct sampling activities ( COST-STSM-ES0906-06445 and ES0906-15001 ). AYM was funded by a PhD grant (International PhD program) from the University of Tor Vergata (XXVII Cycle). AR was funded by a Postdoctoral grant from the University of Tor Vergata /RegioneLazio Research Program “Certificazione di prodotti agroalimentaridi qualità: dal DNA barcoding al naso elettronico – Area tematicaDTB: Bioscienze & Biotec Verdi”. Appendix A
Funding Information:
We are highly thankful to the Associate Editor and the anonymous reviewer for their valuable suggestions and constructive criticisms during the review process. This work was supported by the Israeli Ministry of Environmental Protection (grant number121-4-1), the Israeli Nature Park Authority (INPA) and the Dead Sea-Arava Science Center (ADSSC). AYM and AR were recipients of a Short-term Scientific Mission grant from the COST Action scientific program (ES0906) on ?Seagrass productivity: from genes to ecosystem management? to travel to Israel and conduct sampling activities (COST-STSM-ES0906-06445 and ES0906-15001). AYM was funded by a PhD grant (International PhD program) from the University of Tor Vergata (XXVII Cycle). AR was funded by a Postdoctoral grant from the University of Tor Vergata/RegioneLazio Research Program ?Certificazione di prodotti agroalimentaridi qualit?: dal DNA barcoding al naso elettronico ? Area tematicaDTB: Bioscienze & Biotec Verdi?.
Publisher Copyright:
© 2019 Elsevier Ltd
PY - 2020/1/1
Y1 - 2020/1/1
N2 - Halophila stipulacea is a small tropical seagrass species native to the Red Sea. Due to its invasive character, there is growing interest in understanding its ability to thrive in a broad range of ecological niches. We studied temporal (February 2014 and July 2014), depth (5, 9, 18 m) and spatial (NB and SB) related dynamics of H. stipulacea meadows in the northern Gulf of Aqaba. We evaluated changes in density, morphometry, biomass, and biochemical parameters alongside the reproductive effort. In both sites, maximal growth and vegetative performance occurred in the summer with a marked increase of 35% in shoot density and 18% in biomass; PAR reduction with season and depth induced a significant increase of 28% in leaf area. Sexual reproduction efforts were only observed in July, and the density of plants carrying male or female flowers decreased significantly with depth. The favorable growth responses of H. stipulacea plants observed in the N-enriched NB site suggests their capacity to acclimate to human-disturbed nearshore environments.
AB - Halophila stipulacea is a small tropical seagrass species native to the Red Sea. Due to its invasive character, there is growing interest in understanding its ability to thrive in a broad range of ecological niches. We studied temporal (February 2014 and July 2014), depth (5, 9, 18 m) and spatial (NB and SB) related dynamics of H. stipulacea meadows in the northern Gulf of Aqaba. We evaluated changes in density, morphometry, biomass, and biochemical parameters alongside the reproductive effort. In both sites, maximal growth and vegetative performance occurred in the summer with a marked increase of 35% in shoot density and 18% in biomass; PAR reduction with season and depth induced a significant increase of 28% in leaf area. Sexual reproduction efforts were only observed in July, and the density of plants carrying male or female flowers decreased significantly with depth. The favorable growth responses of H. stipulacea plants observed in the N-enriched NB site suggests their capacity to acclimate to human-disturbed nearshore environments.
KW - Anthropogenic pressures
KW - Depth-adaptation
KW - Morphometric and population parameters
KW - Nitrogen storage
KW - Phenol content
KW - Seagrass
KW - Stable isotopes
KW - Temporal changes
UR - http://www.scopus.com/inward/record.url?scp=85075432004&partnerID=8YFLogxK
U2 - 10.1016/j.marenvres.2019.104828
DO - 10.1016/j.marenvres.2019.104828
M3 - Article
C2 - 31733911
AN - SCOPUS:85075432004
SN - 0141-1136
VL - 153
JO - Marine Environmental Research
JF - Marine Environmental Research
M1 - 104828
ER -