Your search keyword '"Jana, Verdura"' showing total 37 results

1. Introducing the Seaweed Specialist Group of the IUCN Species Survival Commission

Author

Nur Arafeh-Dalmau, Erlania, Emma Cebrian, Loyiso V. Dunga, Paulo Horta, Cayne Layton, Erasmo C. Macaya, Luisa Mangialajo, Pippa J. Moore, Alejandra Mora-Soto, Maggie M. Reddy, Albertus J. Smit, Pike Spector, Van Tu Nguyen, Jana Verdura, and Jacqueline B. Pocklington

Subjects

General. Including nature conservation, geographical distribution, QH1-199.5

Published

2024

2. Distribution, health and threats to Mediterranean macroalgal forests: defining the baselines for their conservation and restoration

Author

Jana Verdura, Lluc Rehues, Luisa Mangialajo, Simonetta Fraschetti, Zahira Belattmania, Silvia Bianchelli, Aurélie Blanfuné, Brahim Sabour, Antonia Chiarore, Roberto Danovaro, Erika Fabbrizzi, Sylvaine Giakoumi, Ljiljana Iveša, Stelios Katsanevakis, Eleni Kytinou, Ina Nasto, Athanasios Nikolaou, Sotiris Orfanidis, Gil Rilov, Fabio Rindi, Marta Sales, Maria Sini, Laura Tamburello, Thierry Thibaut, Konstantinos Tsirintanis, and Emma Cebrian

Subjects

Cystoseira sensu lato, Mediterranean marine forests, marine threats, macroalgal restoration, macroalgal conservation, macroalgal distribution, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The worldwide decline of macroalgal forests is raising major concerns for the potentially negative consequences on biodiversity and ecosystem functions, pushing for the definition of specific conservation and restoration measures. Protecting and restoring these habitats requires detailed information on their distribution, ecological status, and drivers of decline. Here, we provide the most updated available information on the distribution of Mediterranean Cystoseira s.l. forests by conducting a comprehensive bibliographic survey of literature published from 2009 to 2021, complemented by unpublished data. We also provide insights into the ecological status of these forests and the stressors affecting them across the Mediterranean basin. Our results show that most Mediterranean coasts remain un(der)studied and that the available information is concentrated in spatially limited coastal areas, restricted to very few species. When the ecological status is reported, data is highly heterogeneous, making any comparisons problematic, what claims for the description and use of easy and standardized monitoring methods for comparative purposes. Drivers of decline of Cystoseira s.l. forest have been even less investigated and, therefore, still poorly characterized. Our results highlight that our current knowledge is still insufficient to implement effective conservation and restoration strategies at the basin scale but also regionally. We call for the urgent need for mapping and standardized monitoring of Cystoseira s.l. forests to obtain baseline information for future management strategies involving their conservation, the mitigation of the stressors threatening them and the restoration of the degraded forests.

Published

2023

3. Importance of life history traits for vulnerability to climate change: implications for macroalgal restoration

Author

Sònia de Caralt, Jana Verdura, Jorge Santamaría, Alba Vergés, and Emma Cebrian

Subjects

marine restoration, global impacts, warming, UV radiation, macroalgal forests, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Fucalean algae are dominant canopy-forming species that create extensive and highly productive ecosystems in the intertidal and subtidal rocky shores of temperate seas. Regrettably, these marine forests are in decline due to various human drivers, with the Mediterranean Sea one of the most threatened areas. To design appropriate restoration strategies adapted to cope with the unavoidable change in future climate conditions, the response to climate change of the candidate species must be considered. It is important to assess how the specific life history traits of the foundational species may determine environmental requirements, and thus responses to future climate change. This knowledge will allow us to predict the potential winners and losers among the species potentially inhabiting the same areas in a future context of global climate change, providing important information to fine-tune future restoration interventions. The aim of this study was to evaluate the response of two canopy-forming species inhabiting similar upper subtidal zones but with different life history traits to a combination of anomalous high temperatures and increased UV radiation. One of the species (Ericaria crinita) was perennial, slightly exposed rocky shores and dwelling in areas where extreme temperatures can be frequent; while the other (Ericaria mediterranea) a semi-perennial species that dwells in wave-exposed zones, with seawater temperatures buffered by the high hydrodynamism. Our results show that the effects of temperature and radiation are species- (mediated by the species life history traits) and life-stage specific. High temperatures strongly affected the adults of both species, especially E. mediterranea. The germlings in addition to being very susceptible to high temperatures, were also vulnerable to UV radiation, exacerbating the impacts of temperature, especially on E. crinita recruits. Interestingly, vulnerability to climate-driven impacts was determined by the specific life history traits, with i) the species dwelling in open areas the most sensitive to warming and, ii) the perennial species the most vulnerable to UV radiation. Last, we discuss how these species-specific responses to climate-driven impacts may be key in terms of species that could foster the resistance and resilience of marine ecosystems to future climate impacts.

Published

2023

4. Standardized protocol for reproductive phenology monitoring of fucalean algae of the genus Cystoseira s.l. with potential for restoration

Author

Fabio Rindi, Alba Vergés, Irene Zuchegna, Silvia Bianchelli, Sònia de Caralt, Cristina Galobart, Jorge Santamaría, Francesco Martini, Margalida Monserrat, Sotiris Orfanidis, Cèlia Sitjà, Soultana Tsioli, Jana Verdura, Luisa Mangialajo, Simonetta Fraschetti, Roberto Danovaro, and Emma Cebrian

Subjects

macroalgae, phenology, Cystoseira, Mediterranean, conservation, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Active marine restoration is strongly encouraged to prevent the loss of the valuable habitats formed by Cystoseira sensu lato species, since they enhance biodiversity and preserve ecosystem functions and services. Current restoration interventions are mainly based on recruitment enhancement methods by deploying bags with fertile receptacles in situ or by outplanting juveniles grown ex situ under laboratory conditions. These methods allow the recovery of endangered species avoiding the depletion of the donor populations. In all cases, a priori knowledge of the reproductive phenology and recruitment periods of the species to be restored is essential, since the success of restoration techniques relies on collecting fertile branches and the obtention and survival of recruits. For their collection, identified donor populations characterized by dense Cystoseira s.l. cover should be studied. Specifically, monitoring the reproductive phenology of populations is crucial to detect the period of the year in which they develop mature reproductive structures and to understand how it might be linked to environmental conditions. Then, these general patterns on the reproductive phenology of Cystoseira s.l. species are essential to determine the most suitable time and conditions to plan for the most effective restoration action. Here, we provide a cost-effective and friendly protocol that can be easily and widely implemented for all Cystoseira s.l. species. We pose that this protocol provides a standardized and useful methodology to understand the environmental factors driving the optimal periods for sampling fertile branches across the Mediterranean Sea, and thus it can be an essential tool to plan future restoration actions.

Published

2023

5. Grazing in the dark: A behavioural adjustment in a population of the black sea urchin Arbacia lixula

Author

Simone Mariani, Susana Pinedo, Esther Jordana, Maria Elena Cefalì, Xavier Torras, Marina Bagur Bendito, Jana Verdura, and Enric Ballesteros

Subjects

antipredator response, Mediterranean Sea, overgrazing, sea urchin barrens, Ecology, QH540-549.5

Abstract

Abstract In Mediterranean rocky shores, the black sea urchin Arbacia lixula is often associated with communities dominated by encrusting corallines, devoid of fleshy algae. While it is commonly known as a diurnal herbivore, this species also migrates at night from hidden to more exposed habitats. Here, we provide the first experimental evidence of an adjustment to a predominant nocturnal behaviour in a population of A. lixula. Sea urchin densities changed from nearly zero during daytime to more than 16 urchins m−2 at night in treatment plots where the sea urchins were removed. We suggest that the observed behaviour was triggered by our experimental manipulations and was a response to the presence of dead conspecifics and small predatory fishes attracted by the urchin culling. Further research is needed to assess whether our findings can be generalised to the behaviour of A. lixula in areas where sea urchins are under strong pressure from diurnal predators. In these cases, it is important to perform sea urchin density counts at night to avoid misleading assessments about the herbivore pressure in a littoral area.

Published

2023

6. Climate change and species facilitation affect the recruitment of macroalgal marine forests

Author

Margalida Monserrat, Steeve Comeau, Jana Verdura, Samir Alliouane, Guillaume Spennato, Fabrice Priouzeau, Gilbers Romero, and Luisa Mangialajo

Subjects

Medicine, Science

Abstract

Abstract Marine forests are shrinking globally due to several anthropogenic impacts including climate change. Forest-forming macroalgae, such as Cystoseira s.l. species, can be particularly sensitive to environmental conditions (e.g. temperature increase, pollution or sedimentation), especially during early life stages. However, not much is known about their response to the interactive effects of ocean warming (OW) and acidification (OA). These drivers can also affect the performance and survival of crustose coralline algae, which are associated understory species likely playing a role in the recruitment of later successional species such as forest-forming macroalgae. We tested the interactive effects of elevated temperature, low pH and species facilitation on the recruitment of Cystoseira compressa. We demonstrate that the interactive effects of OW and OA negatively affect the recruitment of C. compressa and its associated coralline algae Neogoniolithon brassica-florida. The density of recruits was lower under the combinations OW and OA, while the size was negatively affected by the temperature increase but positively affected by the low pH. The results from this study show that the interactive effects of climate change and the presence of crustose coralline algae can have a negative impact on the recruitment of Cystoseira s.l. species. While new restoration techniques recently opened the door to marine forest restoration, our results show that the interactions of multiple drivers and species interactions have to be considered to achieve long-term population sustainability.

Published

2022

7. A decision-support framework for the restoration of Cystoseira sensu lato forests

Author

Christopher J. Smith, Jana Verdura, Nadia Papadopoulou, Simonetta Fraschetti, Emma Cebrian, Erika Fabbrizzi, Margalida Monserrat, Matilde Drake, Silvia Bianchelli, Roberto Danovaro, Dania Abdul Malak, Enric Ballesteros, Tatí Benjumea Tesouro, Pierre Boissery, Paolo D’Ambrosio, Cristina Galobart, Fabrice Javel, Didier Laurent, Sotiris Orfanidis, and Luisa Mangialajo

Subjects

algal forest, Mediterranean Sea, decision tree, stressors, management, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Macroalgal forests characterised by species of the genus Cystoseira sensu lato form important shallow coastal rocky habitats in the Mediterranean Sea. These forests support a high biodiversity and provide important ecosystem services and societal benefits. Currently these habitats are often in a poor condition in many areas, due to loss and degradation from both anthropogenic and climate stressors. Restoration has recently moved to the forefront of the United Nations and European Union agendas to reverse this trend, particularly in the last decade with the implementation of various international policies. However, this has been in the form of generic targets (e.g., restoration of 30% of degraded habitats by 2030) and has not been linked to specifically what habitat or species to restore, where and how. Initial targets have been missed, new targets are expected through the proposed EU Nature Restoration Law, but overall guidance is still lacking. There are few specific guides to marine habitat restoration limited to mostly seagrass, corals and shellfish. As a priority action for the recovery of coastal marine ecosystems a decision-support framework has been developed for the restoration of Mediterranean macroalgal forests, comprising a stepwise decision tree with additional descriptions of key elements to be considered for a restoration action. The decision tree includes steps concerning current and historical forest presence, site local condition assessment and choice of actions. Key considerations include restoration implementation (competence, society and support, finance and governance), success evaluation (at the target species and the ecosystem level) and long-term management. The framework builds on existing work on Cystoseira s.l. restoration, the work carried out in the EU AFRIMED project, but also on principles and guidelines in place for both generic and specific marine habitats. The work reported here has involved the expertise of scientists and information from stakeholders. Gaps were identified and recommendations were made, dealing with stressors, coordinating and networking stakeholders, integrating top down policy and bottom up initiatives, funding of restoration actions, establishing synergies between restoration, conservation and marine spatial planning and finally communication and publicity.

Published

2023

8. The role of grazers in early-life stages of Cystoseira sensu lato can be crucial in the restoration of marine forests

Author

Margalida Monserrat, Jana Verdura, Steeve Comeau, Jean-Michel Cottalorda, Fabrice Priouzeau, Gilbers Romero, and Luisa Mangialajo

Subjects

marine forests, Cystoseira s.l., Cystoseira compressa, herbivory, plant-herbivore interactions, grazing, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Grazing is one of the most important biological factors controlling the abundance of early-life stages of fucoids and one of the major issues when restoring marine forests. Benthic macroinvertebrates (e.g., sea urchins) and fish shape and regulate benthic macroalgal communities from polar to tropical regions and can be responsible for regime shifts leading to the predominance of turfs and/or barren grounds. However, other herbivores (i.e., mesograzers) could also significantly participate in the grazing, especially on early-life stages, hampering the persistence and capacity of Cystoseira sensu lato populations to recover after major disturbances and being a cause of failure of restoration actions. We performed experiments in the field and in mesocosm in order to investigate the herbivory pressure and the effects of different grazers on recruits of Cystoseira compressa. The results highlight that non-strict herbivorous invertebrates, such as Clibanarius erythropus, Cerithium vulgatum, and Idotea balthica, graze on recruits of Cystoseira s.l. spp., with I. balthica showing the highest consumption rate. We concluded that biotic factors such as herbivory, which affect key life stages, can be crucial for the conservation of Cystoseira s.l. forests and need to be better understood and considered on a case-by-case basis when planning restoration actions.

Published

2023

9. Nutrient conditions determine the strength of herbivore‐mediated stabilizing feedbacks in barrens

Author

Laia Illa‐López, Àlex Aubach‐Masip, Teresa Alcoverro, Giulia Ceccherelli, Luigi Piazzi, Periklis Kleitou, Jorge Santamaría, Jana Verdura, Neus Sanmartí, Elvira Mayol, Xavi Buñuel, Mario Minguito‐Frutos, Fabio Bulleri, and Jordi Boada

Subjects

alternative stable states, environmental conditions, feedbacks, herbivory, limpets, marine forests, Ecology, QH540-549.5

Abstract

Abstract Abiotic environmental conditions can significantly influence the way species interact. In particular, plant–herbivore interactions can be substantially dependent on temperature and nutrients. The overall product of these relationships is critical for the fate and stability of vegetated ecosystems like marine forests. The last few decades have seen a rapid spread of barrens on temperate rocky reefs mainly as a result of overgrazing. The ecological feedbacks that characterize the barren state involve a different set of interactions than those occurring in vegetated habitats. Reversing these trends requires a proper understanding of the novel feedbacks and the conditions under which they operate. Here, we explored the role of a secondary herbivore in reinforcing the stability of barrens formed by sea urchin overgrazing under different nutrient conditions. Combining comparative and experimental studies in two Mediterranean regions characterized by contrasting nutrient conditions, we assessed: (i) if the creation of barren areas enhances limpet abundance, (ii) the size‐specific grazing impact by limpets, and (iii) the ability of limpets alone to maintain barrens. Our results show that urchin overgrazing enhanced limpet abundance. The effects of limpet grazing varied with nutrient conditions, being up to five times more intense under oligotrophic conditions. Limpets were able to maintain barrens in the absence of sea urchins only under low‐nutrient conditions, enhancing the stability of the depauperate state. Overall, our study suggests a greater vulnerability of subtidal forests in oligotrophic regions of the Mediterranean and demonstrates the importance of environment conditions in regulating feedbacks mediated by plant–herbivore interactions.

Published

2023

10. Differential effects of pollution on adult and recruits of a canopy-forming alga: implications for population viability under low pollutant levels

Author

Sònia de Caralt, Jana Verdura, Alba Vergés, Enric Ballesteros, and Emma Cebrian

Subjects

Medicine, Science

Abstract

Abstract Marine macroalgal forests are highly productive and iconic ecosystems, which are seriously threatened by number of factors such as habitat destruction, overgrazing, ocean warming, and pollution. The effect of chronic, but low levels of pollutants on the long-term survival of the canopy-forming algae is not well understood. Here we test the effects of low concentrations (found in good quality water-bodies) of nitrates, heavy metals copper (Cu) and lead (Pb), and herbicides (glyphosate) on both adults and recruits of Carpodesmia crinita, a Mediterranean canopy forming macroalga. We show that although adult biomass, height and photosynthetic yield remain almost unaffected in all the assays, low Cu levels of 30 µg/L completely suppress adult fertility. In addition, all the assays have a strong and negative impact on the survival and growth of recruits; in particular, glyphosate concentrations above 1 µg/L almost totally inhibit their survival. These results suggest that the long-term viability of C. crinita may be severely compromised by low pollutant levels that are not affecting adult specimens. Our results provide important data for a better understanding of the present-day threats to marine canopy-forming macroalgae and for the design of future management actions aimed at preserving macroalgal forests.

Published

2020

11. Coexistence of the reef-building coral Cladocora caespitosa and the canopy-forming alga Treptacantha ballesterosii: Description of a new Mediterranean habitat

Author

Alèssia Pons-Fita, Jana Verdura, Jorge Santamaría, Diego K. Kersting, and Enric Ballesteros

Subjects

cladocora caespitosa, treptacantha, cystoseira, habitat, coral-algal interactions, mediterranean sea, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Shallow Mediterranean rocky environments are usually dominated by macroalgae, but the stony colonial zooxan­thellate coral Cladocora caespitosa is able to build extensive banks in some particular areas. Although zooxanthellate corals and benthic macroalgae are expected to compete for light and space when overlapping in the same habitat, there is previous evidence that C. Caespitosa and Mediterranean macroalgae do not suffer from competitive exclusion when living together. Here we characterize a new and unique Mediterranean habitat where the reef-building coral C. Caespitosa and erect seaweeds of the order Fucales (Cystoseira s.l.) coexist. In this new habitat C. Caespitosa reaches 34% cover and densities of Cystoseira s.l. (mainly Treptacantha ballesterosii) are much higher than values reported from other sites. Interestingly, abundances of T. Ballesterosii and C. Caespitosa show a positive relationship, suggesting that some kind of facilitation mechanism is taking place. These findings challenge the theory of competitive exclusion between corals and macroalgae and launch a wide array of possible open discussions on coral-macroalgae interactions.

Published

2020

12. Where Is More Important Than How in Coastal and Marine Ecosystems Restoration

Author

Simonetta Fraschetti, Chris McOwen, Loredana Papa, Nadia Papadopoulou, Meri Bilan, Christoffer Boström, Pol Capdevila, Marina Carreiro-Silva, Laura Carugati, Emma Cebrian, Marta Coll, Thanos Dailianis, Roberto Danovaro, Francesco De Leo, Dario Fiorentino, Karine Gagnon, Cristina Gambi, Joaquim Garrabou, Vasilis Gerovasileiou, Bernat Hereu, Silvija Kipson, Jonne Kotta, Jean-Baptiste Ledoux, Cristina Linares, Juliette Martin, Alba Medrano, I. Montero-Serra, Telmo Morato, Antonio Pusceddu, Katerina Sevastou, Christopher J. Smith, Jana Verdura, and Giuseppe Guarnieri

Subjects

active restoration, marine habitats, restoration effectiveness, restoration success and failure, restoration site prioritization, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Restoration is considered an effective strategy to accelerate the recovery of biological communities at local scale. However, the effects of restoration actions in the marine ecosystems are still unpredictable. We performed a global analysis of published literature to identify the factors increasing the probability of restoration success in coastal and marine systems. Our results confirm that the majority of active restoration initiatives are still concentrated in the northern hemisphere and that most of information gathered from restoration efforts derives from a relatively small subset of species. The analysis also indicates that many studies are still experimental in nature, covering small spatial and temporal scales. Despite the limits of assessing restoration effectiveness in absence of a standardized definition of success, the context (degree of human impact, ecosystem type, habitat) of where the restoration activity is undertaken is of greater relevance to a successful outcome than how (method) the restoration is carried out. Contrary to expectations, we found that restoration is not necessarily more successful closer to protected areas (PA) and in areas of moderate human impact. This result can be motivated by the limits in assessing the success of interventions and by the tendency of selecting areas in more obvious need of restoration, where the potential of actively restoring a degraded site is more evident. Restoration sites prioritization considering human uses and conservation status present in the region is of vital importance to obtain the intended outcomes and galvanize further actions.

Published

2021

13. A Roadmap for the Restoration of Mediterranean Macroalgal Forests

Author

Emma Cebrian, Laura Tamburello, Jana Verdura, Giuseppe Guarnieri, Alba Medrano, Cristina Linares, Bernat Hereu, Joaquim Garrabou, Carlo Cerrano, Cristina Galobart, and Simonetta Fraschetti

Subjects

marine restoration, macroalgae, canopy forming seaweed, macroalgae culture, marine conservation, Cystoseira, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Canopy-forming macroalgae play a crucial role in coastal primary production and nutrient cycling, providing food, shelter, nurseries, and habitat for many vertebrate and invertebrate species. However, macroalgal forests are in decline in various places and natural recovery is almost impossible when populations become locally extinct. Hence, active restoration emerges as the most promising strategy to rebuild disappeared forests. In this regard, significant efforts have been made by several EU institutions to research new restoration tools for shallow and mesophotic reef habitats (e.g., MERCES EU project, AFRIMED, and ROCPOP-life) and effective techniques have subsequently been proposed to promote self-sustaining populations. Recent research indicates that macroalgal forest recovery requires a broad spectrum of measures, ranging from mitigating human impacts to restoring the most degraded populations and habitats, and that the viability of large restoration actions is compromised by ongoing human pressures (e.g., pollution, overgrazing, and climate change). We propose a roadmap for Mediterranean macroalgal restoration to assist researchers and stakeholders in decision-making, considering the most effective methods in terms of cost and cost-effectiveness, and taking background environmental conditions and potential threats into account. Last, the challenges currently faced by the restoration of rocky coastal ecosystems under changing climate conditions are also discussed.

Published

2021

14. Effects of Natural and Anthropogenic Stressors on Fucalean Brown Seaweeds Across Different Spatial Scales in the Mediterranean Sea

Author

Sotiris Orfanidis, Fabio Rindi, Emma Cebrian, Simonetta Fraschetti, Ina Nasto, Ergun Taskin, Silvia Bianchelli, Vasileios Papathanasiou, Maria Kosmidou, Annalisa Caragnano, Soultana Tsioli, Stefano Ratti, Erika Fabbrizzi, Jana Verdura, Laura Tamburello, Sajmir Beqiraj, Lefter Kashta, Denada Sota, Apostolos Papadimitriou, Ezzeddine Mahmoudi, Hajdar Kiçaj, Konstantinos Georgiadis, Amel Hannachi, and Roberto Danovaro

Subjects

Macroalgal forests, Life history, PERMANOVA, RDA, percentage cover, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Algal habitat-forming forests composed of fucalean brown seaweeds (Cystoseira, Ericaria, and Gongolaria) have severely declined along the Mediterranean coasts, endangering the maintenance of essential ecosystem services. Numerous factors determine the loss of these assemblages and operate at different spatial scales, which must be identified to plan conservation and restoration actions. To explore the critical stressors (natural and anthropogenic) that may cause habitat degradation, we investigated (a) the patterns of variability of fucalean forests in percentage cover (abundance) at three spatial scales (location, forest, transect) by visual estimates and or photographic sampling to identify relevant spatial scales of variation, (b) the correlation between semi-quantitative anthropogenic stressors, individually or cumulatively (MA-LUSI index), including natural stressors (confinement, sea urchin grazing), and percentage cover of functional groups (perennial, semi-perennial) at forest spatial scale. The results showed that impacts from mariculture and urbanization seem to be the main stressors affecting habitat-forming species. In particular, while mariculture, urbanization, and cumulative anthropogenic stress negatively correlated with the percentage cover of perennial fucalean species, the same stressors were positively correlated with the percentage cover of the semi-perennial Cystoseira compressa and C. compressa subsp. pustulata. Our results indicate that human impacts can determine spatial patterns in these fragmented and heterogeneous marine habitats, thus stressing the need of carefully considering scale-dependent ecological processes to support conservation and restoration.

Published

2021

15. Restoration of a Canopy-Forming Alga Based on Recruitment Enhancement: Methods and Long-Term Success Assessment

Author

Jana Verdura, Marta Sales, Enric Ballesteros, Maria Elena Cefalì, and Emma Cebrian

Subjects

conservation, cost-effective restoration, Cystoseira, Fucales, human impacts, marine forests, Plant culture, SB1-1110

Abstract

Marine forests dominated by macroalgae have experienced noticeable regression along some temperate and subpolar rocky shores. Along continuously disturbed shores, where natural recovery is extremely difficult, these forests are often permanently replaced by less structured assemblages. Thus, implementation of an active restoration plan emerges as an option to ensure their conservation. To date, active transplantation of individuals from natural and healthy populations has been proposed as a prime vehicle for restoring habitat-forming species. However, given the threatened and critical conservation status of many populations, less invasive techniques are required. Some authors have experimentally explored the applicability of several non-destructive techniques based on recruitment enhancement for macroalgae restoration; however, these techniques have not been effectively applied to restore forest-forming fucoids. Here, for the first time, we successfully restored four populations of Cystoseira barbata (i.e., they established self-maintaining populations of roughly 25 m2) in areas from which they had completely disappeared at least 50 years ago using recruitment-enhancement techniques. We compared the feasibility and costs of active macroalgal restoration by means of in situ (wild-collected zygotes and recruits) and ex situ (provisioning of lab-cultured recruits) techniques. Mid/long-term monitoring of the restored and reference populations allowed us to define the best indicators of success for the different restoration phases. After 6 years, the densities and size structure distributions of the restored populations were similar and comparable to those of the natural reference populations. However, the costs of the in situ recruitment technique were considerably lower than those of the ex situ technique. The restoration method, monitoring and success indicators proposed here may have applicability for other macroalgal species, especially those that produce rapidly sinking zygotes. Recruitment enhancement should become an essential tool for preserving Cystoseira forests and their associated biodiversity.

Published

2018

16. The challenge of setting restoration targets for macroalgal forests under climate changes

Author

Erika Fabbrizzi, Sylvaine Giakoumi, Francesco De Leo, Laura Tamburello, Antonia Chiarore, Alberto Colletti, Marianna Coppola, Marco Munari, Luigi Musco, Fabio Rindi, Lucia Rizzo, Beatrice Savinelli, Giulio Franzitta, Daniele Grech, Emma Cebrian, Jana Verdura, Silvia Bianchelli, Luisa Mangialajo, Ina Nasto, Denada Sota, Sotiris Orfanidis, Nadia K. Papadopoulou, Roberto Danovaro, Simonetta Fraschetti, Fabbrizzi, Erika, Giakoumi, Sylvaine, De Leo, Francesco, Tamburello, Laura, Chiarore, Antonia, Colletti, Alberto, Coppola, Marianna, Munari, Marco, Musco, Luigi, Rindi, Fabio, Rizzo, Lucia, Savinelli, Beatrice, Franzitta, Giulio, Grech, Daniele, Cebrian, Emma, Verdura, Jana, Bianchelli, Silvia, Mangialajo, Luisa, Nasto, Ina, Sota, Denada, Orfanidis, Sotiri, Papadopoulou, Nadia K, Danovaro, Roberto, and Fraschetti, Simonetta

Subjects

Environmental Engineering, Site selection, Climate Change, General Medicine, Macroalgal forests, Biodiversity, Management, Monitoring, Policy and Law, Forests, Marine spatial planning, Cystoseira sensu latu, Marxan, Restoration, Macroalgal forest, Waste Management and Disposal

Abstract

Este artículo contiene 10 páginas, 5 figuras, 1 tabla., The process of site selection and spatial planning has received scarce attention in the scientific literature dealing with marine restoration, suggesting the need to better address how spatial planning tools could guide restoration interventions. In this study, for the first time, the consequences of adopting different restoration targets and criteria on spatial restoration prioritization have been assessed at a regional scale, including the consideration of climate changes. We applied the decision-support tool Marxan, widely used in systematic conservation planning on Mediterranean macroalgal forests. The loss of this habitat has been largely documented, with limited evidences of natural recovery. Spatial priorities were identified under six planning scenarios, considering three main restoration targets to reflect the objectives of the EU Biodiversity Strategy for 2030. Results show that the number of suitable sites for restoration is very limited at basin scale, and targets are only achieved when the recovery of 10% of regressing and extinct macroalgal forests is planned. Increasing targets translates into including unsuitable areas for restoration in Marxan solutions, amplifying the risk of ineffective interventions. Our analysis supports macroalgal forests restoration and provides guiding principles and criteria to strengthen the effectiveness of restoration actions across habitats. The constraints in finding suitable areas for restoration are discussed, and recommendations to guide planning to support future restoration interventions are also included., This study was funded by the EASME–EMFF (Sustainable Blue Economy) Project AFRIMED (http://afrimed-project.eu/, grant agreement N. 789059), supported by the European Community.

Published

2023

17. Unpublished Mediterranean and Black Sea records of marine alien, cryptogenic, and neonative species

Author

Michail, Ragkousis, Argyro, Zenetos, Jamila Ben Souissi, Razy, Hoffman, Raouia, Ghanem, Ergün, Taşkın, Mihaela, Muresan, Evgeniia, Karpova, Elena, Slynko, Ertan, Dağlı, Ana, Fortič, Victor, Surugiu, Vesna, Mačić, Domen, Trkov, Wafa Rjiba Bahri, Konstantinos, Tsiamis, Ramos-Espla, Alfonso A., Slavica, Petović, Jasmine, Ferrario, Agnese, Marchini, Renato, Sconfietti, Izdihar, Ammar, Alaa, Alo, Dori, Edelist, Tatiana, Begun, Adrian, Teaca, Gokhan, Tari, Mehmet Fatih Huseyinoglu, Karachle, Paraskevi K., Aikaterini, Dogrammatzi, Apostolopoulos, Giorgos A., Fabio, Crocetta, Eleni, Kytinou, Markos, Digenis, Grigorios, Skouradakis, Fiona, Tomas, Michel, Bariche, Alexandros, Kaminas, Kassiani, Konida, Alan, Deidun, Alessio, Marrone, Simonetta, Fraschetti, Vesselina, Mihneva, Carlo Nike Bianchi, Carla, Morri, Vasilis, Gerovasileiou, Lovrenc, Lipej, Maria, Sini, Luisa, Mangialajo, Maria, Zotou, Marius, Skolka, Ernesto, Azzurro, Adriana, Vella, Thanos, Dailianis, Panos, Grigoriou, Carlos, Jimenez, Konstantinos, Tsirintanis, Georgios, Oikonomidis, Emanuele, Mancini, Orestis, Papadakis, Vincenzo Di Martino, Giorgos, Chatzigeorgiou, Mohamed Mourad Ben Amor, Emmanouela, Vernadou, Yaprak, Arda, Vasileios, Minasidis, Annalisa, Azzola, Louis, Hadjioannou, Monica, Montefalcone, Yacopo, Baldacchino, Bessy, Stancanelli, Andrea, Bonifazi, Anna, Occhipinti-Ambrogi, Sonia, Smeraldo, Julian, Evans, Gerasimos, Kondylatos, Manuela, Falautano, Luca, Castriota, Aggelos, Lamprou, Jamila, Rizgalla, Borut, Mavrič, Evangelos, Papadimitriou, Kersting, Diego K., Schembri, Patrick J., Faten, Khamassi, Athanasios, Nikolaou, Enric, Ballesteros, Charalampos, Dimitriadis, María, García, Athanasios, Anastasiadis, Stefanos, Kalogirou, Melina, Nalmpanti, María, Altamirano, Daniele, Grech, Dimitrios, Mavrouleas, Noel, Vella, Sandra Agius Darmanin, Branko, Dragičević, Dimitris, Poursanidis, Alexandros, Tsatiris, Maria, Corsini-Foka, Martina, Orlando-Bonaca, Gianni, Insacco, Alexandros, Tsalapatis, Danilo, Scannella, Tiralongo, Francesco, Jana, Verdura, Sergio, Vitale, Michail-Aggelos, Valsamidis, Hocein, Bazairi, Anna Maria Mannino, Riccardo, Virgili, Fabio Collepardo Coccia, Radhouan El Zrelli, Savvas, Nikolidakis, Lotfi Jilani Rabaoui, Sercan, Yapıcı, Jeanne, Zaoual, Bruno, Zava, Neophytos, Agrotis, Murat, Bilecenoglu, Melih Ertan Çinar, Moraitis, Manos L., Albano, Paolo G., Nassir, Kaddouri, Ioanna, Kosma, Fabio, Falsone, Valentina, Fossati, Michele Luca Geraci, Leon Lojze Zamuda, Francesco Paolo Mancuso, Antonis, Petrou, Vasilis, Resaikos, İlker, Aydın, Batjakas, Ioannis E., Bos, Arthur R., Najib El Ouamari, Giovanni, Giallongo, Kampouris, Thodoros E., Khadija Ounifi-Ben Amor, Alper, Doğan, Jakov, Dulčić, Emine Şükran Okudan, Gil, Rilov, Rosso, Maria Antonietta, Laura, Royo, Mohamed, Selfati, Martina, Gaglioti, Sylvaine, Giakoumi, Vasiliki, Kousteni, Dragoș, Micu, Mircea, Nicoară, Sotiris, Orfanidis, Magdalene, Papatheodoulou, Jonathan, Tempesti, Maria, Triantaphyllou, Theodora, Tsourou, Ferhat, Yalgın, Emanuel, Baltag, Hasan, Cerim, Halit, Filiz, Georgiadis, Constantinos G., Paschalis, Papadamakis, Dimitra Lida Rammou, Manuela Diana Samargiu, Sciuto, Francesco, Mauro, Sinopoli, Ali, Türker, Antonia, Chiarore, Laura, Tamburello, Sahar, Karray, and Bilel Hassen and Stelios Katsanevakis

Subjects

invasive alien species, Ecology, geo-referenced records, Black Sea, distribution, Mediterranean Sea, non-indigenous, non-native species, non-indigenous, distribution, invasive alien species, geo-referenced records, Mediterranean Sea, Black Sea, non-native species, Ecology, Evolution, Behavior and Systematics

Abstract

To enrich spatio-temporal information on the distribution of alien, cryptogenic, and neonative species in the Mediterranean and the Black Sea, a collective effort by 173 marine scientists was made to provide unpublished records and make them open access to the scientific community. Through this effort, we collected and harmonized a dataset of 12, 649 records. It includes 247 taxa, of which 217 are Animalia, 25 Plantae and 5 Chromista, from 23 countries surrounding the Mediterranean and the Black Sea. Chordata was the most abundant taxonomic group, followed by Arthropoda, Mollusca, and Annelida. In terms of species records, Siganus luridus, Siganus rivulatus, Saurida lessepsianus, Pterois miles, Upeneus moluccensis, Charybdis (Archias) longicollis, and Caulerpa cylindracea were the most numerous. The temporal distribution of the records ranges from 1973 to 2022, with 44% of the records in 2020–2021. Lethrinus borbonicus is reported for the first time in the Mediterranean Sea, while Pomatoschistus quagga, Caulerpa cylindracea, Grateloupia turuturu, and Misophria pallida are first records for the Black Sea ; Kapraunia schneideri is recorded for the second time in the Mediterranean and for the first time in Israel ; Prionospio depauperata and Pseudonereis anomala are reported for the first time from the Sea of Marmara. Many first country records are also included, namely: Amathia verticillata (Montenegro), Ampithoe valida (Italy), Antithamnion amphigeneum (Greece), Clavelina oblonga (Tunisia and Slovenia), Dendostrea cf. folium (Syria), Epinephelus fasciatus (Tunisia), Ganonema farinosum (Montenegro), Macrorhynchia philippina (Tunisia), Marenzelleria neglecta (Romania), Paratapes textilis (Tunisia), and Botrylloides diegensis (Tunisia).

Published

2023

18. Marine heatwaves drive recurrent mass mortalities in the Mediterranean Sea

Author

Joaquim Garrabou, Daniel Gómez‐Gras, Alba Medrano, Carlo Cerrano, Massimo Ponti, Robert Schlegel, Nathaniel Bensoussan, Eva Turicchia, Maria Sini, Vasilis Gerovasileiou, Nuria Teixido, Alice Mirasole, Laura Tamburello, Emma Cebrian, Gil Rilov, Jean‐Baptiste Ledoux, Jamila Ben Souissi, Faten Khamassi, Raouia Ghanem, Mouloud Benabdi, Samir Grimes, Oscar Ocaña, Hocein Bazairi, Bernat Hereu, Cristina Linares, Diego Kurt Kersting, Graciel la Rovira, Júlia Ortega, David Casals, Marta Pagès‐Escolà, Núria Margarit, Pol Capdevila, Jana Verdura, Alfonso Ramos, Andres Izquierdo, Carmen Barbera, Esther Rubio‐Portillo, Irene Anton, Paula López‐Sendino, David Díaz, Maite Vázquez‐Luis, Carlos Duarte, Nuria Marbà, Eneko Aspillaga, Free Espinosa, Daniele Grech, Ivan Guala, Ernesto Azzurro, Simone Farina, Maria Cristina Gambi, Giovanni Chimienti, Monica Montefalcone, Annalisa Azzola, Torcuato Pulido Mantas, Simonetta Fraschetti, Giulia Ceccherelli, Silvija Kipson, Tatjana Bakran‐Petricioli, Donat Petricioli, Carlos Jimenez, Stelios Katsanevakis, Inci Tuney Kizilkaya, Zafer Kizilkaya, Stephane Sartoretto, Rouanet Elodie, Sandrine Ruitton, Steeve Comeau, Jean‐Pierre Gattuso, Jean‐Georges Harmelin, Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Universidad de Alicante. Departamento de Fisiología, Genética y Microbiología, Biología Marina, Ecología Microbiana Molecular, Institut méditerranéen d'océanologie (MIO), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'océanographie de Villefranche (LOV), Observatoire océanologique de Villefranche-sur-mer (OOVM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), ANR-17-MPGA-0001,4Oceans,Predicting future oceans under(2017), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Ministerio de Economía y Competitividad (España), Garrabou, Joaquim, Gómez-Gras, Daniel, Medrano, Alba, Cerrano, Carlo, Ponti, Massimo, Schlegel, Robert, Bensoussan, Nathaniel, Turicchia, Eva, Sini, Maria, Gerovasileiou, Vasili, Teixido, Nuria, Mirasole, Alice, Tamburello, Laura, Cebrian, Emma, Rilov, Gil, Ledoux, Jean-Baptiste, Souissi, Jamila Ben, Khamassi, Faten, Ghanem, Raouia, Benabdi, Mouloud, Grimes, Samir, Ocaña, Oscar, Bazairi, Hocein, Hereu, Bernat, Linares, Cristina, Kersting, Diego Kurt, la Rovira, Graciel, Ortega, Júlia, Casals, David, Pagès-Escolà, Marta, Margarit, Núria, Capdevila, Pol, Verdura, Jana, Ramos, Alfonso, Izquierdo, Andre, Barbera, Carmen, Rubio-Portillo, Esther, Anton, Irene, López-Sendino, Paula, Díaz, David, Vázquez-Luis, Maite, Duarte, Carlo, Marbà, Nuria, Aspillaga, Eneko, Espinosa, Free, Grech, Daniele, Guala, Ivan, Azzurro, Ernesto, Farina, Simone, Cristina Gambi, Maria, Chimienti, Giovanni, Montefalcone, Monica, Azzola, Annalisa, Mantas, Torcuato Pulido, Fraschetti, Simonetta, Ceccherelli, Giulia, Kipson, Silvija, Bakran-Petricioli, Tatjana, Petricioli, Donat, Jimenez, Carlo, Katsanevakis, Stelio, Kizilkaya, Inci Tuney, Kizilkaya, Zafer, Sartoretto, Stephane, Elodie, Rouanet, Ruitton, Sandrine, Comeau, Steeve, Gattuso, Jean-Pierre, Harmelin, Jean-Georges, Joaquim Garrabou, Daniel Gómez-Gra, Alba Medrano, Carlo Cerrano, Massimo Ponti, Robert Schlegel, Nathaniel Bensoussan, Eva Turicchia, Maria Sini, Vasilis Gerovasileiou, Nuria Teixido, Alice Mirasole, Laura Tamburello, Emma Cebrian, Gil Rilov, Jean-Baptiste Ledoux, Jamila Ben Souissi, Faten Khamassi, Raouia Ghanem, Mouloud Benabdi, Samir Grime, Oscar Ocaña, Hocein Bazairi, Bernat Hereu, Cristina Linare, Diego Kurt Kersting, Graciel la Rovira, Júlia Ortega, David Casal, Marta Pagès-Escolà, Núria Margarit, Pol Capdevila, Jana Verdura, Alfonso Ramo, Andres Izquierdo, Carmen Barbera, Esther Rubio-Portillo, Irene Anton, Paula López-Sendino, David Díaz, Maite Vázquez-Lui, Carlos Duarte, Nuria Marbà, Eneko Aspillaga, Free Espinosa, Daniele Grech, Ivan Guala, Ernesto Azzurro, Simone Farina, Maria Cristina Gambi, Giovanni Chimienti, Monica Montefalcone, Annalisa Azzola, Torcuato Pulido Manta, Simonetta Fraschetti, Giulia Ceccherelli, Silvija Kipson, Tatjana Bakran-Petricioli, Donat Petricioli, Carlos Jimenez, Stelios Katsanevaki, Inci Tuney Kizilkaya, Zafer Kizilkaya, Stephane Sartoretto, Rouanet Elodie, Sandrine Ruitton, Steeve Comeau, Jean-Pierre Gattuso, and Jean-Georges Harmelin

Subjects

Aquatic Organisms, Foundation species, Coralligenous habitats, Marine conservation, Climate Change, [SDE.MCG]Environmental Sciences/Global Changes, Impact assessment, climate change, coralligenous habitats, foundation species, habitat-forming species, impact assessment, marine conservation, marine heatwaves, temperate reefs, Marine heatwaves, Centro Oceanográfico de Baleares, Coralligenous Assemblages, climate change, coralligenous habitats, foundation species, habitat-forming species, impact assessment, marine conservation, marine heatwaves, temperate reefs, Mediterranean Sea, Responses, Environmental Chemistry, Climate change, Temperate reefs, Medio Marino, [SDU.ENVI]Sciences of the Universe [physics]/Continental interfaces, environment, Ecosystem, [SDU.STU.OC]Sciences of the Universe [physics]/Earth Sciences/Oceanography, General Environmental Science, [SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, Global and Planetary Change, Climate-Change, Ecology, Surface Temperature, [SDE.ES]Environmental Sciences/Environmental and Society, Coastal, Habitat-forming species

Abstract

Este artículo contiene 18 páginas, 4 figuras., Climate change is causing an increase in the frequency and intensity of marine heatwaves (MHWs) and mass mortality events (MMEs) of marine organisms are one of their main ecological impacts. Here, we show that during the 2015–2019 period, the Mediterranean Sea has experienced exceptional thermal conditions resulting in the onset of five consecutive years of widespread MMEs across the basin. These MMEs affected thousands of kilometers of coastline from the surface to 45 m, across a range of marine habitats and taxa (50 taxa across 8 phyla). Significant relationships were found between the incidence of MMEs and the heat exposure associated with MHWs observed both at the surface and across depths. Our findings reveal that the Mediterranean Sea is experiencing an acceleration of the ecological impacts of MHWs which poses an unprecedented threat to its ecosystems' health and functioning. Overall, we show that increasing the resolution of empirical observation is critical to enhancing our ability to more effectively understand and manage the consequences of climate change., This paper was supported by Euromarine. Joaquim Garrabou acknowledges the funding by the “Severo Ochoa Centre of Excellence” (CEX2019-000928-S), the MCIU/AEI/FEDER [HEATMED; RTI2018-095346-B-I00], Interreg-Med Programme MPA-Engage (1MED15_3.2_M2_337), the European Union Horizon 2020 research and innovation programme (Futuremares SEP-210597628). Nuria Teixido acknowledges the French National Research Agency (4Oceans-MOPGA grant, ANR-17-MPGA-0001) and internal funds from the Stazione Zoologica Anton Dohrn. Gil Rilov was supported by the Israel Ministry of Environmental Protection. Hocein Bazairi, Free Spinosa, and Vasilis Gerovasileiou acknowledge the funding by the MAVA Fondation (MedKeyHabitats I Project) and the European Commission (Ecap-MED II Project; projects implemented by UNEP/MAP-RAC/SPA). Alfonso Ramos was supported the CIESM “Tropical Signals,” Stelios Katsanevakis and Maria Sini were supported by the Project “Coastal Environment Observatory and Risk Management in Island Regions AEGIS+” (MIS 5047038), implemented within the Operational Programme “Competitiveness, Entrepreneurship and Innovation” (NSRF 2014–2020), co-financed by the Hellenic Government (Ministry of Development and Investments) and the European Union (European Regional Development Fund, Cohesion Fund), Stelios Katsanevakis, Maria Sini and Vasilis Gerovasileiou acknowledge the support of the MARISCA Project, co-funded by 85% by the EEA GRANTS, 2009–2014, and 15% by the Public Investments Programme (PIP) of the Hellenic Republic. Ivan Guala and Daniele Grech thanks thank the support of the project “Pinna nobilis—ricerca per la sopravvivenza: un'iniziativa di Citizen Science per tracciare la mortalità di massa di Pinna nobilis in Sardegna” project and the L/7 grant (CUP 87G17000070002) funded by the Regione Autonoma Sardegna. Jean-Baptiste Ledoux was funded by an assistant researcher contract framework of the RD Unit—UID/Multi/04423/2019—Interdisciplinary Centre of Marine and Environmental Research—financed by the European Regional Development Fund (ERDF) through COMPETE2020—Operational Program for Competitiveness and Internationalization (POCI) and national funds through FCT/MCTES (PIDDAC). This research was supported by the Strategic Funding UIDB/04423/2020 and UIDP/04423/2020 through national funds provided by the FCT—Foundation for Science and Technology and European Regional Development Fund (ERDF), in the framework of the program PT2020. Bernat Hereu and Cristina Linares acknowledge the support of the long-term monitoring programme of the catalan Natural Parks, funded by the Departament de Territori i Sostenibilitat of the Generalitat de Catalunya. Cristina Linares acknowledges the support of the ICREA Academia programme. David Díaz acknowledges the support the research grant CTM2016-77027-R of the Programa Estatal de Investigación, Desarrollo e Innovación Orientada a los Retos de la Sociedad and Program of Marines Strategies of Spain funded by MITERD. Jamila Ben Soussi was partially funded by the Fondation Albert 2 Monaco (MIMOSA Project) and the Tropical Signals Program of CIESM. Giovanni Chimienti was supported by the Italian Ministry of Education, University and Research (PON 2014–2020, AIM 1807508–1, Linea 1), by the Ente Parco Nazionale del Gargano (Research agreement with CoNISMa N. 21/2018), and by the National Geographic Society (Grant EC-176R-18). Nathaniel Bensoussan acknowledges financial support from the European Commission through the programme “Caroline Herschell” in the context of the action “Developing Downstream applications and services on BIO-PHYsical characterization of the seascape for COASTal management” (BIOPHYCOAST). Monica Montefalcone and Annalissa Azzola collected some of their data on MMEs in the frame of the project “Mare Caldo” funded by Greenpeace Italy. Núria Marbà acknowledges financial support from the Spanish Ministries of Economy and Competitiveness (CTM2012-32603, CGL2015-71809-P) and Ministerio de Ciencia, Innovación y Universidades (RTI2018-095441-B-C21). Diego K. Kersting acknowledges support by the postdoctoral fellowship programme Beatriu de Pinós funded by the Secretary of Universities and Research (Government of Catalonia) and the Horizon 2020 programme of research and innovation of the European Union under the Marie Sklodowska-Curie grant agreement No 801370.

Published

2022

19. Author response for 'Learning takes time: Biotic resistance by native herbivores increases through the invasion process'

Author

null Jorge Santamaría, null Raül Golo, null Jana Verdura, null Fiona Tomas, null Enric Ballesteros, null Teresa Alcoverro, null Rohan Arthur, and null Emma Cebrian

Published

2022

20. Learning takes time: Biotic resistance by native herbivores increases through the invasion process

Author

Jorge Santamaría, Raül Golo, Jana Verdura, Fiona Tomas, Enric Ballesteros, Teresa Alcoverro, Rohan Arthur, and Emma Cebrián

Subjects

biotic resistance increase, herbivory, biological invasions, Animals, temperate system, Plants, Caulerpa cylindracea, Introduced Species, preference shift, Ecology, Evolution, Behavior and Systematics, Ecosystem, alga–herbivore interactions

Abstract

Este artículo contiene 15 páginas, 5 figuras., As invasive species spread, the ability of local communities to resist invasion depends on the strength of biotic interactions. Evolutionarily unused to the invader, native predators or herbivores may be initially wary of consuming newcomers, allowing them to proliferate. However, these relationships may be highly dynamic, and novel consumer–resource interactions could form as familiarity grows. Here, we explore the development of effective biotic resistance towards a highly invasive alga using multiple space-for- time approaches. We show that the principal native Mediterranean herbivore learns to consume the invader within less than a decade. At recently invaded sites, the herbivore actively avoided the alga, shifting to distinct preference and high consumptions at older sites. This rapid strengthening of the interaction contributed to the eventual collapse of the alga after an initial dominance. Therefore, our results stress the importance of conserving key native populations to allow communities to develop effective resistance mechanisms against invaders., “la Caixa” Foundation, Grant/Award Number: ID 100010434 under agreement LCF/BQ/DE17/11600001; Executive Agency for Small and Medium Enterprise (EASME) and European Maritime and Fisheries fund (EMFF), Grant/Award Number: AFRIMED project (EASME/ EMFF/2017/1.2.1.12/S4/01/SI; Organismo Autónomo de Parques Nacionales, Grant/ Award Number: BIGPARK project (2017-2462); Secretaría de Estado de Investigación, Desarrollo e Innovación, Grant/Award Number: ANIMA Project (CGL2016-76341- R) and BES-2017- 079907; ‘La Caixa’ Foundation, Grant/Award Number: DE17; European Union, Grant/ Award Number: CGL2016-76341- R; Instituto Español de Oceanografía

Published

2022

21. Local-scale climatic refugia offer sanctuary for a habitat-forming species during a marine heatwave

Author

Enric Ballesteros, Sònia de Caralt, Maria Elena Cefalì, Alba Vergés, Emma Cebrian, Raül Golo, Jorge Santamaría, Jana Verdura, Dan A. Smale, and Santamaría, J.(Jorge)

Subjects

0106 biological sciences, Cystoseira, habitat, Climate change, Plant Science, Coastal ecosystems, 010603 evolutionary biology, 01 natural sciences, Ericaria, Marine heatwaves, Centro Oceanográfico de Baleares, Climatic refugia, 14. Life underwater, Medio Marino, Ecology, Evolution, Behavior and Systematics, Carpodesmia, Ecology, biology, Canopy-forming seaweeds, 010604 marine biology & hydrobiology, Local scale, 15. Life on land, refuges, biology.organism_classification, financing, Habitat, 13. Climate action, fisheries, Environmental science

Abstract

Este artículo contiene 16 páginas, 7 figuras., 1. Gradual climate change and discrete extreme climatic events have driven shifts in the structure of populations and the distribution of species in many marine ecosystems. The most profound impacts of recent warming trends have been generally observed at species' warm edges and on large conspicuous species. However, given that different species and populations exhibit different responses to warming, and that responses are highly variable at regional scales, there is a need to broaden the evidence to include less conspicuous species and to focus on both local-and regional-scale processes. 2. We examined the population dynamics of canopy-forming seaweed populations situated at the core range of their distribution during a regional marine heatwave (MHW) event that occurred in the Mediterranean Sea in 2015, to determine between-site variability in relation to the intensity of the MHW. We combined field observations with a thermo-tolerance experiment to elucidate mechanisms underlying observed responses. 3. Despite our study populations are located in the species core range, the MHW was concomitant with a high mortality and structural shifts in only one of the two surveyed populations, most likely due to differences in habitat characteristics between sites (e.g. degree of shelter and seawater transfer). The experiment showed high mortalities at temperatures of 28°C, having the most severe implications for early life stages and fertility, which is consistent with warming being the cause of population changes in the field. Crucially, the regional-scale quantification of the MHW (as described by satellite-derived SSTs) did not capture local-scale variation in MHW conditions at the study sites, which likely explained variation in population-level responses to warming. 4. Synthesis. Enclosed and semi-enclosed seas, such as the Mediterranean Sea, often highly impacted by human perturbations, are also global hotspots for ocean warming and are highly susceptible to future MHWs. Our findings highlight that local-scale variability in the magnitude of extreme climatic events can lead to local extinctions of already fragmented populations of habitat-forming seaweeds, even towards the species' core range. However, our results highlight the potential for local-scale climatic refugia, which could be identified and managed to safeguard the persistence of canopy-forming seaweeds., Ministerio de Economía, Industria y Competitividad, Gobierno de España, Grant/ Award Number: CGL2016-76341- R and FPI (BES-2017- 079907); European Maritime and Fisheries Fund EMFF, Grant/Award Number: EASME/EMFF/2017/1.2.1.12/ S4/01/SI2.789059; UK Research and Innovation, Grant/Award Number: MR/ S032827/1; Horizon 2020 Framework Programme, Grant/Award Number: 689518; Generalitat de Catalunya, Grant/Award Number: 2017 SGR 1521; Universitat de Girona, Grant/Award Number: IFUdG-2016 and MPCUdG2016/097; European Regional Development Fund, Grant/Award Number: CGL2016-76341- R; “la Caixa” Foundation, Grant/Award Number: LCF/BQ/ ES17/11600001

Published

2021

22. Author response for 'Local‐scale climatic refugia offer sanctuary for a habitat‐forming species during a marine heatwave'

Author

Raül Golo, Sònia de Caralt, Jana Verdura, Enric Ballesteros, Alba Vergés, Emma Cebrian, Maria Elena Cefalì, Dan A. Smale, and Jorge Santamaría

Subjects

Geography, Habitat, Ecology, Local scale

Published

2020

23. The Aichi Biodiversity Targets: achievements for marine conservation and priorities beyond 2020

Author

Hannah Carr, Sarah N. de Mendonça, Marina Abas, Abbie S. A. Chapman, Wing Yan Chan, Abigail Engleman, Filippo Ferrario, Kayelyn R. Simmons, Loubna Boutahar, Anna Zivian, Jana Verdura, and Olivia N. Caretti

Subjects

0106 biological sciences, Marine conservation, Aichi, Target, Conservation Biology, Science Policy, Biodiversity, Marine Biology, Conservation, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Ecosystem services, Conference of the parties, Political science, Citizen science, Environmental planning, Strategic planning, Convention on Biological Diversity, Marine, 010604 marine biology & hydrobiology, General Neuroscience, General Medicine, Work (electrical), Priorities, General Agricultural and Biological Sciences

Abstract

In 2010 the Conference of the Parties (COP) for the Convention on Biological Diversity revised and updated a Strategic Plan for Biodiversity 2011–2020, which included the Aichi Biodiversity Targets. Here a group of early career researchers mentored by senior scientists, convened as part of the 4th World Conference on Marine Biodiversity, reflects on the accomplishments and shortfalls under four of the Aichi Targets considered highly relevant to marine conservation: target 6 (sustainable fisheries), 11 (protection measures), 15 (ecosystem restoration and resilience) and 19 (knowledge, science and technology). We conclude that although progress has been made towards the targets, these have not been fully achieved for the marine environment by the 2020 deadline. The progress made, however, lays the foundations for further work beyond 2020 to work towards the 2050 Vision for Biodiversity. We identify key priorities that must be addressed to better enable marine biodiversity conservation efforts moving forward.

Published

2020

24. Restoration of a Canopy-Forming Alga Based on Recruitment Enhancement: Methods and Long-Term Success Assessment

Author

Emma Cebrian, Jana Verdura, Marta Sales, Enric Ballesteros, and Maria Elena Cefalì

Subjects

0106 biological sciences, Cystoseira, Algues marines -- Conservació, Biodiversity, seaweed restoration, Plant Science, Fucales, lcsh:Plant culture, Biodiversity conservation, 010603 evolutionary biology, 01 natural sciences, Ecologia marina, Marine ecology, Marine algae -- Conservation, Rocky shore, Temperate climate, Methods, lcsh:SB1-1110, human impacts, biology, Ecology, 010604 marine biology & hydrobiology, recruitment enhancement, conservation, 15. Life on land, biology.organism_classification, Transplantation, cost-effective restoration, Threatened species, Conservation status, Conservació de la diversitat biològica, marine forests

Abstract

Este artículo contiene 12 páginas, 3 tablas, 7 figuras., Marine forests dominated by macroalgae have experienced noticeable regression along some temperate and subpolar rocky shores. Along continuously disturbed shores, where natural recovery is extremely difficult, these forests are often permanently replaced by less structured assemblages. Thus, implementation of an active restoration plan emerges as an option to ensure their conservation. To date, active transplantation of individuals from natural and healthy populations has been proposed as a prime vehicle for restoring habitat-forming species. However, given the threatened and critical conservation status of many populations, less invasive techniques are required. Some authors have experimentally explored the applicability of several non-destructive techniques based on recruitment enhancement for macroalgae restoration; however, these techniques have not been effectively applied to restore forest-forming fucoids. Here, for the first time, we successfully restored four populations of Cystoseira barbata (i.e., they established self-maintaining populations of roughly 25 m2) in areas from which they had completely disappeared at least 50 years ago using recruitment-enhancement techniques. We compared the feasibility and costs of active macroalgal restoration by means of in situ (wild-collected zygotes and recruits) and ex situ (provisioning of lab-cultured recruits) techniques. Mid/long-term monitoring of the restored and reference populations allowed us to define the best indicators of success for the different restoration phases. After 6 years, the densities and size structure distributions of the restored populations were similar and comparable to those of the natural reference populations. However, the costs of the in situ recruitment technique were considerably lower than those of the ex situ technique. The restoration method, monitoring and success indicators proposed here may have applicability for other macroalgal species, especially those that produce rapidly sinking zygotes. Recruitment enhancement should become an essential tool for preserving Cystoseira forests and their associated biodiversity., This project has received funding from the Horizon 2020 EU Research and Innovation Program under grant agreement No. 689518 (MERCES), the Fundación Biodiversidad under the framework of the project: “Conservación y restauración de poblaciones de especies amenazadas del género Cystoseira” and the Spanish Ministry Project ANIMA (CGL2016-76341-R, MINECO/FEDER, UE). This project has also been funded by Dirección General de Innovación e Investigación (Govern Illes Balears) and European Regional Development Fund (FEDER). JV has been funded by a IFUdG-2016 grant.

Published

2020

25. Unpublished Mediterranean records of marine alien and cryptogenic species

Author

Maria Zotou, Hasan Cerim, Rossana Sanfilippo, Luca Castriota, Monica Montefalcone, Pierre Noel, Joxe Mikel Garmendia, Alice Lodola, Mohamed Mourad Ben Amor, Jorge Terrados, Mohamed Hédi Ktari, Giorgos Chatzigeorgiou, Konstantinos Tsirintanis, Vincenzo Di Martino, Julian Evans, Ernesto Azzurro, Françoise Monniot, Gérard Pergent, Emna Soufi-Kechaou, Sercan Yapıcı, Domen Trkov, Anna Maria Mannino, Ante Žunec, Alan Deidun, Jamila Rizgalla, Joseph A. Borg, Joaquim Garrabou, Antonietta Rosso, Ana Fortič, Maïa Fourt, Ali Türker, Martina Orlando-Bonaca, Nikos Doumpas, Stelios Katsanevakis, Charalampos Dimitriadis, Murat Bilecenoglu, Soultana Tsioli, Dimitrios Damalas, Paraskevi K. Karachle, Markos Digenis, Fiona Tomas, Gianni Insacco, Free Espinosa, Periklis Kleitou, Shevy B.S. Rothman, Manuela Falautano, Arthur R. Bos, Ergün Taşkın, Hocein Bazairi, Maria Sini, Ioanna Kosma, Patrick J. Schembri, Jorge Santamaría, Dimitris Poursanidis, Miraine Rizzo, Grigorios Skouradakis, Demetris Kletou, Melih Ertan Çinar, Razy Hoffman, Luigi Piazzi, Carla Morri, Konstantinos Tsiamis, Borut Mavrič, Agnese Marchini, Michail Ragkousis, Ioannis Giovos, Halit Filiz, Francesco Tiralongo, Jonathan Tempesti, Andrés Izquierdo Muñoz, Najib El Ouamari, Bruno Zava, Rym Zakhama-Sraieb, Paolo G. Albano, Omar Inglese, A. Siapatis, Mehmet Fatih Huseyinoglu, Sotiris Orfanidis, Raül Golo, Angela Bartolo, C. Stamouli, Alfonso A. Ramos-Esplá, Paolo Balistreri, Yassine-Ramzi Sghaier, Mohamed Selfati, Faten Khamassi, Said Benhissoune, Fabio Crocetta, Emma Cebrian, Cristina Linares, Vasilis Gerovasileiou, Anna Occhipinti-Ambrogi, Carlo Nike Bianchi, Khadija Ounifi Ben Amor, Jana Verdura, Christine Pergent, Marc Verlaque, Emmanouil Andriotis, Mouna Rifi, Laura Royo, Jamila Ben Souissi, Thanos Dailianis, Michel Bariche, Maria Cristina Gambi, Louis Hadjioannou, Enric Ballesteros, Raouia Ghanem, Fabio Badalamenti, Stefanos Kalogirou, Emilio Mancuso, Martina Gaglioti, Carlo Pipitone, Lovrenc Lipej, Wafa Rjiba-Bahri, Nikolas Michailidis, Carlos Jiménez, Orestis Papadakis, Jasmine Ferrario, Eleni Kytinou, Jeanne Zaouali, Joachim Langeneck, María Josefa Mosteiro García, Sami Karaa, Argyro Zenetos, Ya’arit Levitt-Barmats, Ivan Cvitković, Ege Üniversitesi, European Commission, Agencia Estatal de Investigación (España), Hellenic Centre for Marine Research (HCMR), AZTI - Tecnalia, American University of Beirut [Beyrouth] (AUB), Faculty of Science, Department of Biology (UNIVERSITY OF MALTA), University of Malta [Malta], Sciences pour l'environnement (SPE), Centre National de la Recherche Scientifique (CNRS)-Université Pascal Paoli (UPP), Dept. of 'Ecologia del Territorio', Institute of Marine Biology and Genetics, Hellenic Center for Marine Research (HCMR), Aristotle University of Thessaloniki, Department of Physics, Cyprus University of Technology, Faculté des sciences [Rabat], Université Mohammed V de Rabat [Agdal], Observatoire océanologique de Banyuls (OOB), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Laboratorio di Ecologia (CNR-IAMC), CNRS-IAMC, Laboratoire de Modélisation en Hydraulique et Environnement [Tunis] (LR-LMHE ENIT), Ecole Nationale d'Ingénieurs de Tunis (ENIT), Université de Tunis El Manar (UTM)-Université de Tunis El Manar (UTM), Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), Institute of Oceanography and Fisheries, Fondazione IRCCS Instituto Nazionale dei Tumori [Milan, Italy], Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Biología Marina, Katsanevakis, S, Poursanidis, D, Hoffman, R, Rizgalla, J, Bat-Sheva Rothman, S, Levitt-Barmats, Y, Hadjioannou, L, Trkov, D, Mikel Garmendia, J, Rizzo, M, Bartolo, AG, Bariche, M, Tomas, F, Kleitou, P, Schembri, PJ, Kletou, D, Tiralongo, F, Pergent, C, Pergent, G, Azzurro, E, Bilecenoglu, M, Lodola, A, Ballesteros, E, Gerovasileiou, V, Verlaque, M, Occhipinti-Ambrogi, A, Kytinou, E, Dailianis, T, Ferrario, J, Crocetta, F, Jimenez, C, Evans, J, Ragkousis, M, Lipej, L, Borg, JA, Dimitriadis, D, Chatzigeorgiou, G, Albano, PG, Kalogirou, S, Bazairi, H, Espinosa, F, Ben Souissi, J, Tsiamis, K, Badalamenti, F, Langeneck, J, Noel, P, Deidun, A, Marchini, A, Skouradakis, G, Royo, L, Sini, M, Nike Bianchi, C, Sghaier, YR, Ghanem, R, Doumpas, N, Zaouali, J, Tsirintanis, K, Papadakis, O, Morri, C, Çinar, ME, Terrados, J, Insacco, G, Zava, B, Soufi-Kechaou, E, Piazzi, L, Ounifi Ben Amor, K, Andriotis, E, Gambi, MC, Ben Amor, MM, Garrabou, J, Linares, C, Fortič, A, Digenis, M, Cebrian, E, Fourt, M, Zotou, M, Castriota, L, Di Martino, V, Rosso, A, Pipitone, C, Falautano, M, García, M, Zakhama-Sraieb, R, Khamassi, F, Mannino, AM, Ktari, MH, Kosma, I, Rifi, M, Karachle, PK, Yapıcı, S, Bos, AR, Balistreri, P, Ramos Esplá, AA, Tempesti, J, Inglese, O, Giovos, I, Damalas, D, Benhissoune, S, Huseyinoglu, MF, Rjiba-Bahri, W, Santamaría, J, Orlando-Bonaca, M, Izquierdo, A, Stamouli, C, Montefalcone, M, Cerim, H, Golo, R, Tsioli, S, Orfanidis, S, Michailidis, N, Gaglioti, M, Taşkın, E, Mancuso, E, Žunec, A, Cvitković, I, Filiz, H, Sanfilippo, R, Siapatis, A, Mavrič, B, Karaa, S, Türker, A, Monniot, F, Verdura, J, El Ouamari, N, Selfati, M, Zenetos, A, Department of Marine Sciences, University of the Aegean, Lofos Panepistimiou, Mytilene, 81100, Greece, Foundation for Research and Technology—Hellas (FORTH), Institute of Applied and Computational Mathematics, Remote Sensing lab, N. Plastira 100, Vassilika Vouton, Heraklion, 70013, Greece, The Steinhardt Museum of Natural History, Israel National Center for Biodiversity Studies, Tel Aviv University, Tel Aviv, 69978, Israel, Department of Aquaculture, Faculty of Agriculture, University of Tripoli, Tripoli, Libyan Arab Jamahiriya, School of Zoology, The George S. Wise Faculty of Life Science, Tel-Aviv University, Tel Aviv, 69978, Israel, Department of Fisheries and Marine Research, 101 Vithleem Str., Strovolos, Nicosia, 1416, Cyprus, Enalia Physis Environmental Research Centre, Acropoleos 2, Aglantzia, Nicosia, 2101, Cyprus, Marine Biology Station Piran, National Institute of Biology, Fornace 41, Piran, 6330, Slovenia, Mediterranean Institute of Advanced Studies, IMEDEA (CSIC-UIB), C/ Miquel Marquès, 21, Esporles, 07190, Spain, AZTI, Marine Research Division, Herrera kaia, Portualdea z/g, Pasaia, 20110, Spain, ERA, Hexagon House, Spencer Hill, Marsa, MRS 1441, Malta, Department of Biology, American University of Beirut, Beirut, 11-0236, Lebanon, Marine & Environmental Research (MER) Lab, 202 Amathountos Av, Marina Gardens, Block B, Off. 13-14, Limassol, Cyprus, Department of Biology, University of Malta, Msida, MSD2080, Malta, Department of Biological, Geological and Environmental Sciences, University of Catania, Corso Italia, 57, Catania, 95129, Italy, EqEL, FRES 3041 – UMR 6134, University of Corsica, BP 52, Corte, 20250, France, Italian National Research Council (CNR-IRBIM), Largo Fiera della Pesca, 2, Ancona, AN 60125, Italy, Department of Biology, Faculty of Arts and Sciences, Aydin Adnan Menderes University, Aydin, 09010, Turkey, Department of Earth and Environmental Sciences, University of Pavia, Pavia, 27100, Italy, Centre d´Estudis Avançats de Blanes, Consejo Superior de Investigaciones Científicas (CEAB-CSIC), Blanes, Catalonia, Spain, Institute of Marine Biology, Biotechnology and Aquaculture, Hellenic Centre for Marine Research, P.O. Box 2214, Heraklion, 71003, Greece, Mediterranean Institute of Oceanography (UMR_D 235 MIO) & GIS Posidonie, Aix-Marseille University, Marseille, 13288, France, Department of Integrative Marine Ecology, Stazione Zoologica Anton Dohrn, Napoli, 80121, Italy, National Marine Park of Zakynthos, El Venizelou1, Zakynthos Island, 29100, Greece, Department of Palaeontology, University of Vienna, Althanstrasse 14, Vienna, A-1090, Austria, Hellenic Centre for Marine Research, Hydrobiological Station of Rhodes, Rhodes, 85100, Greece, BioBio Research Center, BioEcoGen Laboratory, Faculty of Sciences, Mohammed V University in Rabat, 4 Avenue Ibn Battouta, B.P. 1014 RP, Rabat, 10106, Morocco, Laboratorio de Biología Marina, Departamento de Zoologia, Universidad de Sevilla, Avda. Reina Mercedes 6, Sevilla, 41012, Spain, University Tunis El Manar, Biodiversity, Biotechnology and Climate Change Laboratory (LR 11ES09), Tunis, 1002, Tunisia, University of Carthage, National Institute of Agronomy of Tunis (INAT), Tunis, 1082, Tunisia, European Commission, Joint Research Centre (JRC), Ispra, Italy, CNR-IAS, Lungomare C. Colombo 4521, Palermo, 90149, Italy, University of Pisa, Department of Biology, via Derna 1, Pisa, 56126, Italy, UMS 2006 AFB-CNRS-MNHN, 'Patrimoine Naturel', Centre d'expertise et de données sur la nature, Muséum national d'Histoire naturelle, 43 rue Buffon-Bat. 48, Paris cedex 05, 75231, France, Department of Geosciences, University of Malta, Msida, MSD 2080, Malta, DiSTAV (Department of Earth, Environment and Life Sciences), University of Genoa, Corso Europa 26, Genova, 16132, Italy, University of Tunis El Manar, Faculty of Sciences of Tunis, Research Laboratory of Diversity, Management and Conservation of Biological Systems, LR18ES06, Tunis, Tunisia, Regional Activity Centre for Specially Protected Areas, Boulevard du Leader Yasser Arafet-B.P. 337, Tunis Cedex, 1080, Tunisia, Environmental Organization for the Preservation of Aquatic Ecosystems, iSea, Agios Pavlos, Thessaloniki, 55438, Greece, Ege University, Faculty of Fisheries, Dept. of Hydrobiology, Bornova, Izmir 35100, Turkey, Museo Civico di Storia Naturale di Comiso, Via degli Studi n° 9, Comiso, RG 97013, Italy, Department of Chemistry and Pharmacy, University of Sassari, Via Piandanna 4, Sassari, 70100, Italy, Université de Tunis El Manar, Faculté des Sciences de Tunis, Laboratoire de Biodiversité, Biotechnologie et Changement Climatique, LR11ES09, Tunis, 1002, Tunisia, Institut National des Sciences et Technologies de la Mer, port de pêche, La Goulette, 2025, Tunisia, Institute of Marine Sciences, CSIC, Passeig Marítim de la Barceloneta, 37-49, Barcelona, 08003, Spain, Department of Evolutionary Biology, Ecology and Environmental Sciences, Institut de Recerca de la Biodiversitat (IRBIO), University of Barcelona, Av. Diagonal 643, Barcelona, 08028, Spain, GRMAR, Institute of Aquatic Ecology, University of Girona, Catalonia, Girona, E-17071, Spain, Institut Méditerranéen de Biodiversité et d'Ecologie marine et continentale, Aix-Marseille Université, CNRS, IRD, Avignon Université, Station Marine d'Endoume, Rue de la Batterie des Lions, Marseille, 13007, France, Italian Institute for Environmental Protection and Research, Lungomare Cristoforo Colombo n. 4521 (ex complesso Roosevelt), Località Addaura, Palermo, 90149, Italy, CNR/ISAFoM (National Research Counsil of Italy/Institute for Agricultural and Forestry System in the Mediterranean), via Empedocle 58, Catania, 95128, Italy, Department of Biological, Chemical and Pharmaceutical Sciences and Technologies, University of Palermo, Palermo, 90123, Italy, Tunis El Manar University, Faculty of Science of Tunis, Tunisia, Institute of Marine Biological Resources and Inland Waters, Hellenic Centre for Marine Research, 576 Vouliagmenis Ave., Argyroupoli, Attika, 164 52, Greece, Muğla Sıtkı Koçman University, Faculty of Fisheries, Muğla, 48000, Turkey, The American University in Cairo, Department of Biology, Cairo, Egypt, Vicolo Giotto N 6, Favignana, TP 91023, Italy, Marine Research Center of Santa Pola (CIMAR), University of Alicante, Alicante, 03080, Spain, Faculty of Maritime Studies, University of Kyrenia, Girne, 99350, Cyprus, Mediterraneo Servicios Marinos, Nueva Dársena Pesquera s/n Buzones 50 y 51, Alicante, 03008, Spain, Association ‘Action Bleue Maroc’, Rabat, Morocco, Fisheries Research Institute, Hellenic Agricultural Organization-Demeter, Kavala, Nea Peramos, 64007, Greece, Department of Biology, Faculty of Arts and Sciences, Manisa Celal Bayar University, Muradiye, Manisa, 45140, Turkey, Istituto per gli Studi sul Mare, Viale Gadio 2, Milano, 20121, Italy, Institute for Oceanography and Fisheries, Šetalište Ivana Meštrovića 63, Split, 21 000, Croatia, Institut National des Sciences et Technologies de la Mer (Centre Sfax), BP. 1035, Sfax, 3018, Tunisia, CNRS, Museum national d'histoire naturelle, 55 rue Buffon, Paris, 75005, France, National Institute of fisheries research, 13, Bd Zerktouni, BP 493, Nador, Morocco, Universidad de Sevilla. Departamento de Zoología, Université Pascal Paoli (UPP)-Centre National de la Recherche Scientifique (CNRS), and Université Mohammed V de Rabat [Agdal] (UM5)

Subjects

Invasions biològiques -- Mediterrània (Mar), geo-referenced records, 0206 medical engineering, Non-native species, Invasive alien species, Library science, non-native species, non-indigenous, distribution, citizen science, invasive alien species, geo-referenced records, Mediterranean Sea, 02 engineering and technology, Alien, Distribution, Citizen science, 01 natural sciences, Records -- Management, Science -- Mediterranean Region, 0103 physical sciences, Agency (sociology), citizen science, distribution, Mediterranean Sea, media_common.cataloged_instance, non-indigenous, Zoología, 14. Life underwater, European union, non-indigenous species, ComputingMilieux_MISCELLANEOUS, Ecology, Evolution, Behavior and Systematics, Global environmental analysis, media_common, Biological invasions -- Mediterranean Sea, invasive alien species, 010304 chemical physics, Ecology, Settore BIO/02 - Botanica Sistematica, Marine reserve, non-native species, Geo-referenced records, 020601 biomedical engineering, Espècies introduïdes -- Mediterrània (Mar), Introduced organisms -- Mediterranean Sea, 13. Climate action, General partnership, [SDE]Environmental Sciences, Marine protected area, Non-indigenous, Science -- Methodology -- Case studies

Abstract

Este artículo contiene 18 páginas, 4 figuras., Good datasets of geo-referenced records of alien species are a prerequisite for assessing the spatio-temporal dynamics of biological invasions, their invasive potential, and the magnitude of their impacts. However, with the exception of first records on a country level or wider regions, observations of species presence tend to remain unpublished, buried in scattered repositories or in the personal databases of experts. Through an initiative to collect, harmonize and make such unpublished data for marine alien and cryptogenic species in the Mediterranean Sea available, a large dataset comprising 5376 records was created. It includes records of 239 alien or cryptogenic taxa (192 Animalia, 24 Plantae, 23 Chromista) from 19 countries surrounding the Mediterranean Sea. In terms of records, the most reported Phyla in descending order were Chordata, Mollusca, Chlorophyta, Arthropoda, and Rhodophyta. The most recorded species was Caulerpa cylindracea, followed by Siganus luridus, Magallana sp. (cf. gigas or angulata) and Pterois miles. The dataset includes records from 1972 to 2020, with the highest number of records observed in 2018. Among the records of the dataset, Dictyota acutiloba is a first record for the Mediterranean Sea. Nine first country records are also included: the alga Caulerpa taxifolia var. distichophylla, the cube boxfish Ostracion cubicus, and the cleaner shrimp Urocaridella pulchella from Israel; the sponge Paraleucilla magna from Libya and Slovenia; the lumpfish Cyclopterus lumpus from Cyprus; the bryozoan Celleporaria vermiformis and the polychaetes Prionospio depauperata and Notomastus aberans from Malta., The publication of this article is supported by the Open Access Publishing Fund of the International Association for Open Knowledge on Invasive Alien Species (INVASIVESNET; www.invasivesnet.org). Stelios Katsanevakis, Maria Sini and Konstantinos Tsirintanis were supported by the Hellenic Foundation for Research and Innovation (H.F.R.I.) under the “First Call for H.F.R.I. Research Projects to support Faculty members and Researchers and the procurement of high-cost research equipment grant” (Project Number: HFRI-FM17-1597). Enalia Physis acknowledges Pantelis Patsalou for his support with field-logistics and links with fishers. Fiona Tomas would like to acknowledge funding from FECYT FCT- 14-9319 (¡OJO A LAS INVASORAS! BIODIVERSIDAD Y ESPECIES INVASORAS DEL MEDITERRÁNEO BALEAR). Vasilis Gerovasileiou, Thanos Dailianis and Maria Sini acknowledge the support by the MARISCA project (www.marisca.eu), co-funded (85%) by EEA GRANTS, 2009–2014, and the Public Investments Program (PIP) of the Hellenic Republic (15%). Razy Hoffman acknowledges funding by Yad-Hanadiv foundation, through the Israel Society of Ecology and Environmental Sciences and Israel Nature and Parks Authority (An integrated program for establishing biological baselines and monitoring protocols for marine reserves in the Israeli Mediterranean Sea). Argyro Zenetos and Paraskevi K. Karachle would like to thank the citizenscientists collaborating with the Ellenic Network on Aquatic Invasive Species (ELNAIS – elnais.hcmr.gr). Nikolaos Doumpas, Ioannis Giovos, Periklis Kleirou and Francesco Tiralongo would like to thank all the citizen-scientists that contributed with their shared records and data in the citizen-science project “Is it alien to you? Share it!!!” (https://www.facebook.com/ groups/104915386661854/). Data from Gyaros Island marine reserve were collected under the “GyarosMPA” project, funded by “MAVA Fondation pour la Nature”. Data from Corsica coastline were mainly collected in the framework of the “Corsica Alien Network” initiated by “Office de l’Environnement de la Corse”. Carla Morri and Carlo Nike Bianchi received financial support from FFARB (funds for basic research activities) by the Italian Ministry of Education, University and Research. Ergün Taşkın has been supported by TÜBİTAK, Ankara, Turkey (Project Number: 114Y238). The Slovenian authors would like to acknowledge their financial support from the Slovenian Research Agency (research core funding No. P1-0237) and the Ministry of Agriculture, Forestry and Food of the Republic of Slovenia. Mehmet Fatih Huseyinoglu thanks University of Kyrenia’s Scientific Research Project numbered GRN-20191-004. Fabio Crocetta was funded by the COST (European Cooperation in Science and Technology) Action TD1209 Alien Challenge project. The FRI (HAO DEMETER) team is very grateful to the Marine Strategy Project for financial support. Records of NIS in Jbel Moussa, the National Park of Al Hoceima and Cap des Trois Fourches sites from Morocco were obtained during surveys conducted within the framework of the MedKeyHabitats and the MedMPAnet Projects implemented by UNEP/MAP-RAC/SPA in close collaboration with the Haut Commissariat aux Eaux et Forêts et à la Lutte Contre la Désertification (HCEFLCD) and financially supported by RAC/SPA, Tunisia and the MAVA Foundation, Switzerland (MedKeyHabitats Project) and the European Commission (EC), the Spanish Agency for International Cooperation to Development (AECID), and the French Global Environment Facility (MedMPAnet Project). Jamila Ben Souissi was partially funded by BiodivMex /Chantier MISTRALS. Konstantinos Tsiamis sampling records were retrieved during his post in the Hellenic Centre for Marine Research, which he would like to thank for. Periklis Kleitou and Demetris Kletou were supported by the LIFE financial instrument of the European Union – RELIONMED project [Grant Agreement LIFE16 NAT/ CY/000832]. Some of the data included in the dataset were obtained through the marine citizen science platform Observadores del Mar www.observadoresdelmar.es with the support of FECYT FCT-17-12469, LIFE IP Intemares and Fundació Marilles, and through the citizen science site of the Italian Marine Protected Area of “Regno di Nettuno” (islands of Ischia, Procida and Vivara): www.citizensciencerdn.org. Most data from Lebanon were retrieved from social media dedicated to citizen science (Facebook group: Sea Lebanon https://www.facebook.com/ groups/109615625861815/) or fishers and scuba divers WhatsApp groups). Jamila Rizgalla wishes to thank the administration of Regatta for granting a free pass to conduct field surveys and the security personnel for providing a safe environment. Anna Occhipinti-Ambrogi was supported by European Community’s Seventh Framework Program VECTORS (Vectors of Change in Oceans and Seas Marine Life, Impact on Economic Sectors). The long lasting collaboration with the ICES Working Group on Introductions and Transfer of Marine Organisms (WGITMO) has been a good forum where many information and ideas could be exchanged within some of the authors (Anna Occhipinti-Ambrogi, Argyro Zenetos, Agnese Marchini, and a wider community of scientists working on biological invasions). A. Rosso and R. Sanfilippo received grants from the Catania University Research Plan 2016/2018. Data from Kuriat island were collected under the “Kuriat project”, funded by “MAVA Fondation pour la Nature” executed by SPA/RAC in partnership with the Coastal Protection and Management Agency (APAL) and Notre Grand Bleu (NGB) NGO. The AIS/ERA (Environment and Resources Authority) Maltese data were obtained from the EU funded project EMFF 8.3.1 under the European Maritime and Fisheries Fund 2014–2020 with a total cost of €1.6 million in public eligible EMFF funds (75% EU 25% MT), managed by AIS/ERA (Environment and Resources Authority). The ultimate goals of this European Maritime and Fisheries Fund (EMFF 2014–2020) project are to devise a holistic approach towards marine monitoring and develop a comprehensive database of data collected about the Maltese waters., With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2020

26. Differential effects of pollution on adult and recruits of a canopy-forming alga: implications for population viability under low pollutant levels

Author

Emma Cebrian, Jana Verdura, Alba Vergés, Sònia de Caralt, Enric Ballesteros, and Ministerio de Economía y Competitividad (Espanya)

Subjects

0106 biological sciences, Canopy, Pollution, Conservation of Natural Resources, media_common.quotation_subject, Science, Population, Algues marines, Mar -- Contaminació, Marine pollution, 010603 evolutionary biology, 01 natural sciences, Article, Environmental impact, Algae, Ecosystem, Biomass, Photosynthesis, education, media_common, Pollutant, Marine biology, Biomass (ecology), education.field_of_study, Marine algae, Multidisciplinary, biology, Ecology, Conservation biology, 010604 marine biology & hydrobiology, biology.organism_classification, Seaweed, Habitat destruction, Medicine, Mar -- Contaminació per metalls, Environmental Pollutants

Abstract

Este artículo contiene 11 páginas, 8 figuras., Marine macroalgal forests are highly productive and iconic ecosystems, which are seriously threatened by number of factors such as habitat destruction, overgrazing, ocean warming, and pollution. The effect of chronic, but low levels of pollutants on the long-term survival of the canopy-forming algae is not well understood. Here we test the effects of low concentrations (found in good quality water-bodies) of nitrates, heavy metals copper (Cu) and lead (Pb), and herbicides (glyphosate) on both adults and recruits of Carpodesmia crinita, a Mediterranean canopy forming macroalga. We show that although adult biomass, height and photosynthetic yield remain almost unaffected in all the assays, low Cu levels of 30 µg/L completely suppress adult fertility. In addition, all the assays have a strong and negative impact on the survival and growth of recruits; in particular, glyphosate concentrations above 1 µg/L almost totally inhibit their survival. These results suggest that the long-term viability of C. crinita may be severely compromised by low pollutant levels that are not affecting adult specimens. Our results provide important data for a better understanding of the present-day threats to marine canopy-forming macroalgae and for the design of future management actions aimed at preserving macroalgal forests., This project has received funding from the Horizon 2020 EU Research and Innovation Program (MERCES; No. 689518) the European Union’s EMFF program, AFRIMED (EASME/EMFF/2017/1.2.1.12/S4/01/SI2.789059) and the Spanish Ministry Project ANIMA (CGL2016-76341-R, MINECO/FEDER, UE). SC, JV, AV and EC are members of the Catalan Government’s consolidated research group 2017 SGR 1521 MedRecover.

Published

2020

27. Coexistencia del coral formador de arrecifes Cladocora caespitosa y la macroalga formadora de dosel Treptacantha ballesterosii: descripción de un nuevo hábitat mediterráneo

Author

Alèssia Pons-Fita, Jana Verdura, Jorge Santamaría, Diego K. Kersting, and Enric Ballesteros

Subjects

lcsh:SH1-691, Treptacantha, Interacciones corales-algas, Cystoseira, Hábitat, Cladocora caespitosa, habitat, SH1-691, Coralls -- Mediterrània, Mar, Mar Mediterráneo, lcsh:Aquaculture. Fisheries. Angling, treptacantha, Habitat, Coral-algal interactions, Corals -- Mediterranean Sea, cladocora caespitosa, cystoseira, Mediterranean Sea, Aquaculture. Fisheries. Angling, mediterranean sea, coral-algal interactions

Abstract

Este artículo contiene 9 páginas, 7 figuras., [EN]Shallow Mediterranean rocky environments are usually dominated by macroalgae, but the stony colonial zooxanthellate coral Cladocora caespitosa is able to build extensive banks in some particular areas. Although zooxanthellate corals and benthic macroalgae are expected to compete for light and space when overlapping in the same habitat, there is previous evidence that C. caespitosa and Mediterranean macroalgae do not suffer from competitive exclusion when living together. Here we characterize a new and unique Mediterranean habitat where the reef-building coral C. caespitosa and erect seaweeds of the order Fucales (Cystoseira s.l.) coexist. In this new habitat C. caespitosa reaches 34% cover and densities of Cystoseira s.l. (mainly Treptacantha ballesterosii) are much higher than values reported from other sites. Interestingly, abundances of T. ballesterosii and C. caespitosa show a positive relationship, suggesting that some kind of facilitation mechanism is taking place. These findings challenge the theory of competitive exclusion between corals and macroalgae and launch a wide array of possible open discussions on coral-macroalgae interactions.[ES]Los ambientes rocosos someros del Mediterráneo están habitualmente dominados por macroalgas, no obstante, el coral colonial zooxantelado Cladocora caespitosa es capaz de formar bancos extensos en algunos lugares. Aunque es predecible que los corales con zooxantelas y las algas bentónicas compitan por la luz y el espacio cuando coinciden en el mismo hábitat, hay evidencias previas de que C. caespitosa y las algas mediterráneas no se excluyen competitivamente cuando viven juntas. En este trabajo se caracteriza un nuevo y único hábitat mediterráneo donde el coral formador de arrecifes C. caespitosa y algas erectas del orden Fucales (Cystoseira s.l.) coexisten. En este hábitat nuevo C. caespitosa alcanza coberturas del 34% y las densidades de Cystoseira s.l. (principalmente de Treptacantha ballesterosii) son mucho mayores que los valores encontrados en otros lugares. Remarcablemente, las abundancias de T. ballesterosii y C. caespitosa muestran una relación positiva, sugiriendo que existe algún tipo de mecanismo de facilitación. Este hallazgo pone en jaque la teoría de exclusión competitiva entre corales y macroalgas, a la vez que puede iniciar un amplio abanico de discusiones en las interacciones entre corales y macroalgas.

Published

2020

28. Coexistence of the reef-building coral Cladocora caespitosa and the canopy-forming alga Treptacantha ballesterosii: Description of a new Mediterranean habitat

Author

Enric Ballesteros, Jorge Santamaría, Alèssia Pons-Fita, Diego K. Kersting, and Jana Verdura

Subjects

Mediterranean climate, Canopy, geography, geography.geographical_feature_category, biology, Ecology, Coral, 0211 other engineering and technologies, 02 engineering and technology, Aquatic Science, Cystoseira, 021001 nanoscience & nanotechnology, Oceanography, biology.organism_classification, Habitat, Benthic zone, 0210 nano-technology, Fucales, Reef, 021101 geological & geomatics engineering

Abstract

Shallow Mediterranean rocky environments are usually dominated by macroalgae, but the stony colonial zooxan­thellate coral Cladocora caespitosa is able to build extensive banks in some particular areas. Although zooxanthellate corals and benthic macroalgae are expected to compete for light and space when overlapping in the same habitat, there is previous evidence that C. Caespitosa and Mediterranean macroalgae do not suffer from competitive exclusion when living together. Here we characterize a new and unique Mediterranean habitat where the reef-building coral C. Caespitosa and erect seaweeds of the order Fucales (Cystoseira s.l.) coexist. In this new habitat C. Caespitosa reaches 34% cover and densities of Cystoseira s.l. (mainly Treptacantha ballesterosii) are much higher than values reported from other sites. Interestingly, abundances of T. Ballesterosii and C. Caespitosa show a positive relationship, suggesting that some kind of facilitation mechanism is taking place. These findings challenge the theory of competitive exclusion between corals and macroalgae and launch a wide array of possible open discussions on coral-macroalgae interactions.

Published

2020

29. Active restoration across marine coastal habitats: a focus on the Mediterranean Sea

Author

Giuseppe Guarnieri, Chris, Mcowen, Lorena, Papa, Nadia, Papadopoulou, Meri, Bilan, Christopher, Boström, Pol, Capdevila, Laura, Carugati, Emma, Cebrian, Thanos, Dailianis, Roberto, Danovaro, Francesco De Leo, Dario, Fiorentino, Karine, Gagnon, Cristina, Gambi, Joaquim, Garrabou, Vasilis, Gerovasileiou, Bernat, Hereu, Silvija, Kipson, Jonne, Kotta, Jean-Baptiste, Ledoux, Cristina, Linares, Juliette, Martin, Alba, Medrano, Ignasi, Montero-Serra, Telmo, Morato, Antonio, Pusceddu, Katerina, Sevastou, Chris, Smith, Jana, Verdura, Simonetta Fraschetti, Langar H, Ouerghi A, Guarnieri, Giuseppe, Mcowen, Chri, Papa, Lorena, Papadopoulou, Nadia, Bilan, Meri, Boström, Christopher, Capdevila, Pol, Carugati, Laura, Cebrian, Emma, Dailianis, Thano, Danovaro, Roberto, De Leo, Francesco, Fiorentino, Dario, Gagnon, Karine, Gambi, Cristina, Garrabou, Joaquim, Gerovasileiou, Vasili, Hereu, Bernat, Kipson, Silvija, Kotta, Jonne, Ledoux, Jean-Baptiste, Linares, Cristina, Martin, Juliette, Medrano, Alba, Montero-Serra, Ignasi, Morato, Telmo, Pusceddu, Antonio, Sevastou, Katerina, Smith, Chri, Verdura, Jana, and Fraschetti, Simonetta

Subjects

Restoration ecology, marine coastal habitats, review, conservation policies, Restoration ecology, marine coastal habitats, review, conservation policies

Abstract

Active restoration is considered a profitable strategy to return ecosystems to their predisturbance state, in a reasonable time frame. However, ecological restoration of marine ecosystems is still in its infancy if compared to the terrestrial context. A review of 498 studies published in the last 25 years was carried out within the MERCES H2020 EU project to understand the effects of marine restoration actions across coastal habitats at global scale. Here, an overview focused on the Mediterranean Sea was carried out to identify both contextual and methodological determinants of restoration success in the basin. Results show that restoration efforts across habitats are increasing, especially in seagrasses and saltmarshes, but never approached at ecosystem level. Targets, methods, response variables and standards are still very heterogeneous. Short project duration (one-two years), small restoration areas (< 1 ha), lack of controls and knowledge of baselines are still a limit for deriving generalities. Finally, restorations rarely consider future challenges linked to global change, thus impairing long- term success stories. Marine restoration is a promising approach to counteract habitat loss in coastal areas. However, restoration science needs more robust approaches leading to the development of best practices (e.g. protocols, monitoring of the effects, reasons for failure) to be applied at spatial and temporal scales so as to answer to present and future disturbance regimes.

Published

2019

30. Biodiversity loss in a Mediterranean ecosystem due to an extreme warming event unveils the role of an engineering gorgonian species

Author

Nathaniel Bensoussan, Enric Ballesteros, Cristina Linares, María Jesús Uriz, Rafael Coma, Emma Cebrian, Jana Verdura, and Ministerio de Economía y Competitividad (Espanya)

Subjects

0301 basic medicine, Hot Temperature, Longevity, Population Dynamics, ved/biology.organism_classification_rank.species, Biodiversity, lcsh:Medicine, Bioengineering, Biology, Ecologia marina, Thermoregulation, Article, Marine ecology, 03 medical and health sciences, 0302 clinical medicine, Mediterranean Sea, Mortalitat, Animals, Caulerpa, Ecosystem, 14. Life underwater, Mortality, lcsh:Science, Extinció (Biologia), Biologia de la conservació, Invertebrate, Marine biology, Multidisciplinary, Conservation biology, ved/biology, Ecology, lcsh:R, Species diversity, Biologia marina, Climatic changes, 15. Life on land, Termoregulació, Anthozoa, 030104 developmental biology, Extintion (Biology), Habitat, 13. Climate action, lcsh:Q, Species richness, Paramuricea clavata, 030217 neurology & neurosurgery, Canvis climàtics

Abstract

Este artículo contiene 11 páginas, 7 figuras, 2 tablas., Stochastic perturbations can trigger major ecosystem shifts. Marine systems have been severely affected in recent years by mass mortality events related to positive thermal anomalies. Although the immediate effects in the species demography affected by mortality events are well known, information on the mid- to long-term effects at the community level is much less documented. Here, we show how an extreme warming event replaces a structurally complex habitat, dominated by long-lived species, by a simplified habitat (lower species diversity and richness) dominated by turf-forming species. On the basis of a study involving the experimental manipulation of the presence of the gorgonian Paramuricea clavata, we observed that its presence mitigated the effects of warming by maintaining the original assemblage dominated by macroinvertebrates and delaying the proliferation and spread of the invasive alga Caulerpa cylindracea. However, due to the increase of sediment and turf-forming species after the mortality event we hypothesize a further degradation of the whole assemblage as both factors decrease the recruitment of P.clavata, decrease the survival of encrusting coralligenous-dwelling macroinvertebrates and facilitate the spreading of C. cylindracea., Financial support has been provided by a Spanish Ministry Project ANIMA (CGL2016-76341-R), OAPN project (CORCLIM 759S/2012 and 766S/2012) and European Union’s Horizon 2020 (grant agreement No. 689518) MERCES Project. This output reflects only the authors’ view and the European Union cannot be held responsible for any use that may be made of the information contained therein. J.V. has been funded by a IFUdG2016 grant. Managers of ACNP are acknowledged for sampling permissions. We also thank to David Díaz, Eneko Aspillaga, Pol Capdevila, Bernat Hereu and Fiona Tomas for their collaboration in fieldwork. J.V., C.L. and E.C. are members of the Marine Conservation Research Group (www.medrecover.org; 2017 SGR 1521) and R.C. is part of the Marine Biogeochemistry and Global Change Research Group (2017SGR1011) from the Generalitat de Catalunya.

Published

2019

31. Past and present of Fucales from shallow and sheltered shores in Catalonia

Author

Xavier Torras, Maria Elena Cefalì, Enric Ballesteros, Susana Pinedo, Esther Jordana, Alba Medrano, Marc Terradas, Jana Verdura, Simone Mariani, Eglantine Chappuis, Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, and Fitopatología

Subjects

0106 biological sciences, Treptacantha, 010504 meteorology & atmospheric sciences, Medio Marino y Protección Ambiental, Cystoseira, Endangered species, Brown algae, Sede Central IEO, Conservation, Fucales, Aquatic Science, Distribution, 01 natural sciences, Mediterranean sea, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Carpodesmia, Ecology, biology, 010604 marine biology & hydrobiology, Botánica, Cystoseira foeniculacea, 15. Life on land, biology.organism_classification, Taxon, Geography, NW Mediterranean sea, Threatened species, Animal Science and Zoology

Abstract

Este artículo contiene 18 páginas, 8 figuras, 1 tabla., Historical information on marine organisms needs to be incorporated to develop effective management plans and conservation targets. In the Mediterranean Sea most species of brown seaweeds of the order Fucales are threatened or endangered and need protection. Here we merge data on historical and current records to create the first reference dataset on past and present distributions of Fucales from shallow and sheltered shores of Catalonia (NW Mediterranean Sea). Most Cystoseira sensu lato populations were found in the northern shores, where the most suitable environments exist. Carpodesmia mediterranea and Cystoseira compressa are far more abundant in exposed than in shallow, sheltered shores. Populations of most of the taxa (i.e. Carpodesmia crinita, Treptacantha elegans, T. sauvageauana, T. barbata f. aurantia) have suffered an important regression and two taxa have apparently become locally extinct (Cystoseira foeniculacea, Treptacantha barbata f. barbata). Carpodesmia caespitosa is still widespread in sheltered environments from the northern shores and a previously unreported taxon has been found (T. ballesterosii var. tenuior). Our regional-scale study makes available a solid, comprehensive baseline for future monitoring and application of conservation measures for the several threatened species of Fucales., Financial support to this research came from the projects ‘‘Cartografia dels Hàbitats Litorals a Catalunya’’ (Departament de Territori i Sosteniblitatand Institut Cartogàfic, Generalitat de Catalunya, Spain), CTN1500528 of the Agència Catalana de l’Aigua, Spain, and the INTRAMURAL CSIC PIE201730E033. Jana Verdura and Alba Medrano benefitted of funding from the Horizon 2020 EU Research and Innovation Program under grant agreement No. 689518 (MERCES). Partial funding came from the Sustainable Blue Economy program, European Union under the grant agreement AFRIMED EASME/EMFF/2017/1.2.1.12/S4/01/SI2.789059 to Jana Verdura.

Published

2019

32. Drastic effects of Climate Change on Mediterranean marine forests

Author

Enric Ballesteros, Sònia de Caralt, Emma Cebrian, Jorge Santamaría, Jana Verdura, and Alba Vergés

Subjects

0106 biological sciences, Mediterranean climate, 0303 health sciences, 010504 meteorology & atmospheric sciences, biology, 010604 marine biology & hydrobiology, education, Climate change, 15. Life on land, Cystoseira, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, Oceanography, Geography, Mediterranean sea, 13. Climate action, Effects of global warming, 14. Life underwater, 030304 developmental biology, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Macroalgal forests have gone missing from most temperate rocky shores during the last decades, triggering an important biodiversity loss. Cystoseira species are some of the main marine habitat-forming species on shallow water Mediterranean rocky bottoms and follow the same tendency, mainly related to habitat destruction and pollution. However, here we suggest that anormal positive thermal events may contribute to this widespread Cystoseira decline. Monitoring thorough natural populations showed a drastic decline on a natural and relict C. crinita population in terms of density and structure coinciding with anormal high temperatures experienced during a summer period. Additionally, we experimentally test in the laboratory the cause-effect of those temperatures and UV radiation conditions experienced in the field on C. crinita populations. Although, C. crinita is able to resist high temperature picks, usually reached in Mediterranean summers, exceptional and maintained periods as those experienced during extreme events (28ºC) lead to the death of all individuals, compromising the viability and conservation of these forest-forming populations. We show how climate change may seriously compromise algal populations and synergically act with historical drivers of macroalgal decline (pollution, habitat destruction and herbivorism). Financial support from EU2020 (R+I) under grant agreement No 689518 (MERCES), MINECO (CGL2016-76341-R) and from University of Girona under congress assistance fellowship program for PhD and master students.

Published

2018

33. Regional environmental conditions determine tolerance to future warming of a marine macroalgae forests

Author

Enric Ballesteros, Jorge Santamaría, Ljiliana Ivesa, Emma Cebrian, Alba Vergés, Simonetta Fraschetti, S. De Caralt, Luisa Mangialajo, S. Farina, Maria Elena Cefalì, and Jana Verdura

Subjects

biology, Ecology, education, Climate change, Environmental science, Cystoseira, biology.organism_classification

Abstract

In the Mediterranean Sea, many species of Cystoseira, which are important habitat-forming species on shallow rocky bottoms, have gone missing from many coastal areas, impairing essential ecosystem services. Cystoseira crinita forests thrive in very shallow waters from sheltered environments and are currently regressing in several European shores. In the actual scenario of ocean warming it is essential to determine the vulnerability of these populations to thermal stress in order to design future conservation actions. Since the response of this macroalgae to thermal stress may be site-specific, here we compared the thermal tolerance of populations dwelling in the coldest and warmest areas of the Mediterranean Sea. We show that C. crinita populations from warmer areas (Eastern Mediterranean) had a temperature tolerance threshold 2ºC higher than Northwestern Mediterranean populations. There is a strong correlation between the observed differential phenotypic responses and the local temperature regimes experienced by each population. This is the first evidence for the role of thermal history in shaping the thermotolerance responses marine habitat-forming macroalgae under contrasting temperature environments. Financial support from EU2020 (R+I) under grant agreement No 689518 (MERCES) and MINECO (CGL2016-76341-R).

Published

2018

34. Vulnerability of marine forests to temperature and UV radiation: Effects on the recruits

Author

Alba Vergés, Enric Ballesteros, S. De Caralt, Jorge Santamaría, Jana Verdura, and Emma Cebrian

Subjects

biology, Ecology, education, Vulnerability, Environmental science, Climate change, Cystoseira, biology.organism_classification

Abstract

Macroalgal forests provide essential ecosystem services and are home for a wide variety of organisms. The genus Cystoseira includes several species, each being dominant in a determined range of environmental variables. Most Cystoseira species are Mediterranean endemisms, and show clear signs of regression across all their distribution range. Even if these regressions are well known, the ultimate drivers are still not clearly understood. Here we explore experimentally how climate change affects two Cystoseira species adapted to contrasting hydrodynamic regimes: exposed (C. mediterranea) and sheltered (C. crinita). Viability of Cystoseira populations strongly rely on their recruitment. We focus in the recruitment survival of both species, at normal (21ºC to 25ºC) and high temperatures (28ºC), and at increased rates of UV radiation (PAR and PAR+UVA+UVB). Results show that normal temperatures did not affect Cystoseira recruitment, whereas unusual high temperatures (28ºC) lead to the death of settlers of both species. In contrast, UVA-UVB radiation showed a cumulative impact on the recruitment survival, strongly impairing the development of recruits growing at all temperature conditions. Our results are the first experimental evidences of climate strongly compromising the viability of Cystoseira forests.

Published

2018

35. Restoration actions in marine ecosystems: a global analysis

Author

Laura Carugati, Thanos Dailianis, Telmo Morato, Giuseppe Guarnieri, Loredana Papa, Pol Capdevila, Francesco De Leo, Jana Verdura, Jonne Kotta, Chris McOwen, Christoffer Boström, Caleb Smith, Dario Fiorentino, Emma Cebrian, Bernat Hereu, Cristina Linares, Nadia Papadopoulou, Katerina Sevastou, Alba Medrano, Joaquim Garrabou, Simonetta Fraschetti, Roberto Danovaro, Karine Gagnon, Juliette Martin, Jean-Baptiste Ledoux, Cristina Gambi, Meri Bilan, Antonio Pusceddu, Silvija Kipson, Ignasi Montero-Serra, Vasilis Gerovasileiou, Fraschetti, Simonetta, Guarnieri, Giuseppe, Papa, Loredana, Mcowen, Chri, Papadopoulou, Nadia, Bilan, Meri, Boström, Christoffer, Capdevila, Pol, Carugati, Laura, Cebrian, Emma, Dailianis, Thano, De Leo, Francesco, Fiorentino, Dario, Gagnon, Karine, Gambi, Cristina, Garrabou, Joaquim, Gerovasileiou, Vasili, Hereu, Bernat, Kipson, Silvija, Kotta, Jonne, Ledoux, Jean-Baptiste, Linares, Cristina, Martin, Juliette, Medrano, Alba, Montero-Serra, Ignasi, Morato, Telmo, Pusceddu, Antonio, Sevastou, Katerina, Smith, Chri, Verdura, Jana, and Danovaro, Roberto

Subjects

geography, geography.geographical_feature_category, marine restoration, marine ecosystems, global review, business.industry, Environmental resource management, Marine habitats, Global change, Coral reef, Ecological restoration, marine habitats, review, 15. Life on land, Habitat destruction, Habitat, Disturbance (ecology), 13. Climate action, Marine ecosystem, 14. Life underwater, Temporal scales, business, Restoratio ecology, review, marine habitats

Abstract

4th World Conference on Marine Biodiversity (WCMB 2018), 13-16 May 2018, Montreal, A review of 573 studies on active restoration actions in the marine environment, published in the last 25 years, was carried out at global scale. We assessed how, where, at which spatial and temporal scales and under which socio-ecological settings restoration studies have been carried out, from very shallow to deep sea habitats. Results show that restoration efforts across habitats are increasing, especially in seagrasses and coral reefs, but never approached at ecosystem level. Targets, methods, response variables and standards are still very heterogeneous. Of the factors considered in the review, habitat, human impact intensity, realm and methods of restoration were found to be good determinant of restoration success. Short project duration (one-two years), small restoration areas (< 1 ha), lack of controls and knowledge of baselines are still a limit for deriving generalities. Finally, restorations rarely consider future challenges linked to global change this impairing long-term success stories. Restoration science needs more robust approaches leading to the development of best practices (e.g. protocols, monitoring of the effects, reasons for failure) to be applied at spatial and temporal scales so as to answer to present and future disturbance regimes. Marine restoration is a promising approach to limit habitat loss. More science is needed to increase the number of success stories

Published

2018

36. Restoring subtidal marine macrophytes in the Anthropocene: trajectories and future-proofing

Author

Nadia S. Santini, Melinda A. Coleman, Adriana Vergés, Lana Kajlich, Jana Verdura, Josh Wodak, Georgina Wood, Peter D. Steinberg, Ezequiel M. Marzinelli, and Alexandra H. Campbell

Subjects

0106 biological sciences, Ecology, biology, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, Biodiversity, Climate change, Aquatic Science, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Scientific technique, Seagrass, Geography, Habitat, Anthropocene, Ecosystem, business, Environmental degradation, Ecology, Evolution, Behavior and Systematics

Abstract

Anthropogenic activities have caused profound changes globally in biodiversity, species interactions and ecosystem functions and services. In terrestrial systems, restoration has emerged as a useful approach to mitigate these changes, and is increasingly recognised as a tool to fortify ecosystems against future disturbances. In marine systems, restoration is also gaining traction as a management tool, but it is still comparatively scant and underdeveloped relative to terrestrial environments. Key coastal habitats, such as seaweed forests and seagrass meadows are showing widespread patterns of decline around the world. As these important ecosystems increasingly become the target of emerging marine restoration campaigns, it is important not only to address current environmental degradation issues, but also to focus on the future. Given the rate at which marine and other environments are changing, and given predicted increases in the frequency and magnitude of multiple stressors, we argue for an urgent need for subtidal marine macrophyte restoration efforts that explicitly incorporate future-proofing in their goals. Here we highlight emerging scientific techniques that can help achieve this, and discuss changes to managerial, political and public frameworks that are needed to support scientific innovation and restoration applications at scale.

Published

2019

37. Rolling corals in the Mediterranean Sea

Author

Enric Ballesteros, Jana Verdura, Diego K. Kersting, and Emma Cebrian

Subjects

0106 biological sciences, Oceanography, Mediterranean sea, Geography, 010604 marine biology & hydrobiology, Aquatic Science, 010603 evolutionary biology, 01 natural sciences

Abstract

1 página, 1 figura.

Published

2016