2018
DOI: 10.1007/s00442-018-4075-9
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Seagrass collapse due to synergistic stressors is not anticipated by phenological changes

Abstract: Seagrasses are globally declining and often their loss is due to synergies among stressors. We investigated the interactive effects of eutrophication and burial on the Mediterranean seagrass, Posidonia oceanica. A field experiment was conducted to estimate whether shoot survival depends on the interactive effects of three levels of intensity of both stressors and to identify early changes in plants (i.e., morphological, physiological and biochemical, and expression of stress-related genes) that may serve to de… Show more

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Cited by 52 publications
(35 citation statements)
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References 84 publications
(71 reference statements)
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“…These studies should include the changes of private (neutral) allelic in order to control the population demography vs genetic relationship stability necessary to reinforce their resilience as we have observed in other protected areas in the Mediterranean (Micheli et al 2015;. Finally, since seagrasses are globally declining, and their loss is often due to synergies among stressors (Ceccherelli et al 2018), the ecological implication of the results obtained here, such as the genetic features and the environmental conditions, could be further aspects to be considered in the monitoring surveys.…”
Section: Resultsmentioning
confidence: 92%
“…These studies should include the changes of private (neutral) allelic in order to control the population demography vs genetic relationship stability necessary to reinforce their resilience as we have observed in other protected areas in the Mediterranean (Micheli et al 2015;. Finally, since seagrasses are globally declining, and their loss is often due to synergies among stressors (Ceccherelli et al 2018), the ecological implication of the results obtained here, such as the genetic features and the environmental conditions, could be further aspects to be considered in the monitoring surveys.…”
Section: Resultsmentioning
confidence: 92%
“…Even if additional researches are necessary to define thresholds for classifying the different level of perturbation, the obtained results open interesting perspectives on the application of the phenol content in Cystoseira sensu latu and P. oceanica as possible biomarkers of environmental quality. In monitoring surveys, the assessment of health marine ecosystems should make provision for multidisciplinary investigations [161,162] and multiparametric approaches, including physiological biomarkers, biomarkers of general stress and more specific biomarkers [131], but also molecular ones [16,27,140,163].…”
Section: Discussionmentioning
confidence: 99%
“…Recently, the MFSD (2008/56/EC) [58] selected P. oceanica as representative species of the angiosperm quality elements for the Mediterranean marine environment. Despite all that, P. oceanica habitats are experiencing decline or loss throughout the Mediterranean, often due to synergies among multiple stressors, mainly of anthropogenic origin, which are particularly threatening slow-growing species, such as seagrasses [27,116,117].…”
Section: Posidonia Oceanicamentioning
confidence: 99%
“…For example, in light-limited environments, shoot density varies positively with light intensity (Short et al, 1995;Ruiz and Romero, 2001;Krause-Jensen et al, 2003). Furthermore, increasing sediment organic content or nutrient availability can lead to increases in shoot density (e.g., Koch, 2001;Holmer et al, 2008;Howard et al, 2016;Ceccherelli et al, 2018). These factors are in turn affected by the deformation of shoots by hydrodynamic drag, the formation or closure of gaps in the canopy in flowing water, and the transport of dissolved nutrients and sediment by water moving around and through a grass canopy.…”
Section: Does Ambient Current Speed Affect Shoot Density In Seagrass mentioning
confidence: 99%