%0 Journal Article %J Frontiers in Plant Science %D 2018 %T Latitudinal Patterns in European Seagrass Carbon Reserves: Influence of Seasonal Fluctuations versus Short-Term Stress and Disturbance Events %A L.M. Soissons %A E.P. Haanstra %A M.M. van Katwijk %A R. Asmus %A I. Auby %A L. Barillé %A F.G. Brun %A P.G. Cardoso %A Nicolas Desroy %A Jérôme Fournier %A F. Ganthy %A J.M. Garmendia %A Laurent Godet %A T.F. Grilo %A P. Kadel %A B. Ondiviela %A G. Peralta %A A. Puente %A M. Recio %A L. Rigouin %A M. Valle %A P.M.J. Herman %A T.J. Bouma %X

Seagrass meadows form highly productive and valuable ecosystems in the marine environment. Throughout the year, seagrass meadows are exposed to abiotic and biotic variations linked to (i) seasonal fluctuations, (ii) short-term stress events such as, e.g., local nutrient enrichment, and (iii) small-scale disturbances such as, e.g., biomass removal by grazing. We hypothesized that short-term stress events and smallscale disturbances may affect seagrass chance for survival in temperate latitudes. To test this hypothesis we focused on seagrass carbon reserves in the form of starch stored seasonally in rhizomes, as these have been defined as a good indicator for winter survival. Twelve Zostera noltei meadows were monitored along a latitudinal
gradient in Western Europe to firstly assess the seasonal change of their rhizomal starch content. Secondly, we tested the effects of nutrient enrichment and/or biomass removal on the corresponding starch content by using a short-term manipulative field experiment at a single latitude in the Netherlands. At the end of the growing season, we observed a weak but significant linear increase of starch content along the latitudinal gradient from south to north. This agrees with the contention that such reserves are essential for regrowth after winter, which is more severe in the north. In addition, we also observed a weak but significant positive relationship between starch content at the beginning of the growing season and past winter temperatures. This implies a lower regrowth potential after severe winters, due to diminished starch content at the beginning of the growing season. Short-term stress and disturbances
may intensify these patterns, because our manipulative experiments show that when nutrient enrichment and biomass loss co-occurred at the end of the growing season, Z. noltei starch content declined. In temperate zones, the capacity of seagrasses to accumulate carbon reserves is expected to determine carbon-based regrowth after winter. Therefore, processes affecting those reserves might affect seagrass resilience. With increasing human pressure on coastal systems, short- and small-scale stress events are expected to become more frequent, threatening the resilience of seagrass ecosystems, particularly at higher latitudes, where populations tend to have an annual cycle highly dependent on their storage capacity.

%B Frontiers in Plant Science %V 9 %G eng %N 88 %R doi: 10.3389/fpls.2018.00088 %0 Journal Article %J Limnology and Oceanography %D 2017 %T Seasonal and latitudinal variation in seagrass mechanical traits across Europe: The influence of local nutrient status and morphometric plasticity %A L.M. Soissons %A M.M. van Katwijk %A G. Peralta %A F.G. Brun %A P.G. Cardoso %A T.F. Grilo %A B. Ondiviela %A M. Recio %A M. Valle %A J.M. Garmendia %A F. Ganthy %A I. Auby %A L. Rigouin %A Laurent Godet %A Jérôme Fournier %A Nicolas Desroy %A L. Barillé %A P. Kadel %A R. Asmus %A P.M.J. Herman %A T.J. Bouma %X

Seagrasses are marine flowering plants distributed worldwide. They are however threatened, mostly due to the increase of human activities. Seagrasses have the capacity to adapt their morphological, physiological, and mechanical traits to their local conditions. Mechanical traits have been identified as a good tool to investigate a plant-species capacity to withstand physical forces or disturbances but are still sparsely studied in seagrasses. With this study, we aimed to assess how the mechanical traits of a broadly spread seagrass species vary along a latitudinal gradient in relation to its morphometric plasticity and nutrient status. We found that seagrasses acclimate their mechanical traits in relation to their physiological or morphological traits, both over the growing season and across a latitudinal range: leaves were weaker and thinner in northern areas, particularly at the end of the growing season. Besides the influence of the latitudinal gradient, leaf mechanical strength and stiffness were both strongly affected by their morphometric plasticity. Moreover, we showed that leaves mechanical traits change depending on their nutrient status: leaves were stronger and stiffer in oligotrophic conditions as compared to more eutrophic conditions. Thus, our results imply that, under eutrophication, leaves become weaker and thus more vulnerable to physical forces. This vulnerability is higher in the north at the end of the growing season. The latter is consistent with the more ephemeral character of northern seagrass meadows, in contrast to the more evergreen southern meadows.

%B Limnology and Oceanography %G eng %U http://onlinelibrary.wiley.com/doi/10.1002/lno.10611/full %R 10.1002/lno.10611 %0 Journal Article %J Oecologia %D 2016 %T Pollen limitation may be a common Allee effect in marine hydrophilous plants: implications for decline and recovery in seagrasses %A B.I. Van Tussenbroek %A L.M. Soissons %A T.J. Bouma %A R. Asmus %A I. Auby %A F.G. Brun %A P.G. Cardoso %A Nicolas Desroy %A Jérôme Fournier %A F. Ganthy %A J.M. Garmendia %A Laurent Godet %A T.F. Grilo %A P. Kadel %A B. Ondiviela %A G. Peralta %A M. Recio %A M. Valle %A T. Van der Heide %A van Katwijk, M M %B Oecologia %P 1-15 %G eng %R 10.1007/s00442-016-3665-7