Your search keyword '"Pol Capdevila"' showing total 12 results

1. Scaling the extinction vortex: Body size as a predictor of population dynamics close to extinction events

Author

Christopher F. Clements, Pol Capdevila, Louise McRae, Robin Freeman, and Nathan F. Williams

Subjects

0106 biological sciences, Population, Biology, 010603 evolutionary biology, 01 natural sciences, extinction vortex, 03 medical and health sciences, population dynamics, Population growth, education, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Original Research, population extinction, 030304 developmental biology, Nature and Landscape Conservation, Extinction vortex, Extinction event, 0303 health sciences, education.field_of_study, Biotic component, Extinction, Ecology, Small population size, social sciences, humanities, Population decline, pace of life, body size

Abstract

Mutual reinforcement between abiotic and biotic factors can drive small populations into a catastrophic downward spiral to extinction—a process known as the “extinction vortex.” However, empirical studies investigating extinction dynamics in relation to species' traits have been lacking.We assembled a database of 35 vertebrate populations monitored to extirpation over a period of at least ten years, represented by 32 different species, including 25 birds, five mammals, and two reptiles. We supplemented these population time series with species‐specific mean adult body size to investigate whether this key intrinsic trait affects the dynamics of populations declining toward extinction.We performed three analyses to quantify the effects of adult body size on three characteristics of population dynamics: time to extinction, population growth rate, and residual variability in population growth rate.Our results provide support for the existence of extinction vortex dynamics in extirpated populations. We show that populations typically decline nonlinearly to extinction, while both the rate of population decline and variability in population growth rate increase as extinction is approached. Our results also suggest that smaller‐bodied species are particularly prone to the extinction vortex, with larger increases in rates of population decline and population growth rate variability when compared to larger‐bodied species.Our results reaffirm and extend our understanding of extinction dynamics in real‐life extirpated populations. In particular, we suggest that smaller‐bodied species may be at greater risk of rapid collapse to extinction than larger‐bodied species, and thus, management of smaller‐bodied species should focus on maintaining higher population abundances as a priority., Our results reaffirm and extend our understanding of extinction dynamics in real‐life extirpated populations. In particular, we suggest that smaller‐bodied species may be at greater risk of rapid collapse to extinction than larger‐bodied species, and thus management of smaller‐bodied species should focus on maintaining higher population abundances as a priority.

Published

2021

2. Functional Traits 2.0: The power of the metabolome for ecology

Author

Tom W. N. Walker, Jake M. Alexander, Pierre‐Marie Allard, Oliver Baines, Virginie Baldy, Richard D. Bardgett, Pol Capdevila, Phyllis D. Coley, Bruno David, Emmanuel Defossez, María‐José Endara, Madeleine Ernst, Catherine Fernandez, Dale Forrister, Albert Gargallo‐Garriga, Vincent E. J. Jassey, Sue Marr, Steffen Neumann, Loïc Pellissier, Josep Peñuelas, Kristian Peters, Sergio Rasmann, Ute Roessner, Jordi Sardans, Franziska Schrodt, Meredith C. Schuman, Abrianna Soule, Henriette Uthe, Wolfram Weckwerth, Jean‐Luc Wolfender, Nicole M. Dam, Roberto Salguero‐Gómez, 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), Leibniz Institute of Plant Biochemistry (IPB), German Centre for Integrative Biodiversity Research (iDiv), and ANR-17-CE01-0007,MIXOPEAT,Repenser le cycle du carbone des tourbières : identifier le rôle des protistes mixotrophes dans la pompe à carbone biologique(2017)

Subjects

0106 biological sciences, 2. Zero hunger, 0303 health sciences, Ecology, ecophysiology, fitness, functional traits, life history, metabolite, metabolomics, plasticity, trade-offs, Plant Science, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 13. Climate action, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

1. A major aim of ecology is to upscale attributes of individuals to understand processes at population, community and ecosystem scales. Such attributes are typically described using functional traits, that is, standardised characteristics that impact fitness via effects on survival, growth and/or reproduction. However, commonly used functional traits (e.g. wood density, SLA) are becoming increasingly criticized for not being truly mechanistic and for being questionable predictors of ecological processes. 2. This Special Feature reviews and studies how the metabolome (i.e. the thousands of unique metabolites that underpin physiology) can enhance trait-based ecology and our understanding of plant and ecosystem functioning. 3. In this Editorial, we explore how the metabolome relates to plant functional traits, with reference to life-history trade-offs governing fitness between generations and plasticity shaping fitness within generations. We also identify solutions to challenges of acquiring, interpreting and contextualising metabolome data, and propose a roadmap for integrating the metabolome into ecology. 4. We next summarise the seven studies composing the Special Feature, which use the metabolome to examine mechanisms behind plant community assembly, plant-organismal interactions and effects of plants and soil micro-organisms on ecosystem processes. 5. Synthesis. We demonstrate the potential of the metabolome to improve mechanistic and predictive power in ecology by providing a high-resolution coupling between physiology and fitness. However, applying metabolomics to ecological questions is currently limited by a lack of conceptual, technical and data frameworks, which needs to be overcome to realise the full potential of the metabolome for ecology. ISSN:0022-0477

Published

2022

3. Reconciling resilience across ecological systems, species and subdisciplines

Author

Imma Oliveras Menor, Rafael L. G. Raimundo, Pol Capdevila, Iain Stott, Roberto Salguero-Gómez, Hannah White, Matthew A. Barbour, Daniel B. Stouffer, University of Zurich, and Capdevila, Pol

Subjects

0106 biological sciences, UFSP13-8 Global Change and Biodiversity, Evolution, Population, C170 Population Biology, Plant Science, Ecological systems theory, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Behavior and Systematics, 1110 Plant Science, education, Resilience (network), Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, C181 Biodiversity, 0303 health sciences, education.field_of_study, Ecology, Resistance (ecology), business.industry, Environmental resource management, 1105 Ecology, Evolution, Behavior and Systematics, Geography, Disturbance (ecology), 570 Life sciences, biology, C100 Biology, Conservation biology, C180 Ecology, business, 2303 Ecology

Abstract

Resilience has emerged as a key concept in ecology and conservation biology to understand and predict ecosystem responses to global change. In its broadest sense, resilience describes the ability of an ecosystem to resist, and recover from, a disturbance. However, the application of such a concept in different subdisciplines of ecology and in different study systems has resulted in a wide disparity of definitions and ways of quantifying resilience.\ud This Special Feature, which spans the Journal of Ecology, Journal of Animal Ecology and Functional Ecology, provides an overview of how ecologists define, quantify, compare and predict resilience across different study systems.\ud The 29 contributions to this Special Feature show the broad range of approaches used by ecologists to study resilience. Almost half of the contributions (48%) study resilience at the community level, with a 30% of them studying resilience at multiple levels of biological organisation. A large proportion of these articles are observational (42%), experimental (14%) or a combination of both (17%) while a 17% utilise theoretical or computational approaches. Although 38%, 21% and 14% of the studies were based solely on plants, animals or micro-organisms, respectively, 17% of them incorporated these multiple trophic levels.\ud Synthesis. A unified ecological understanding of resilience across systems and taxa requires a trans-disciplinary consensus on what resilience actually is and how to best measure it. Here, we provide an overview of how ecologists define, quantify, compare and predict resilience across different ecological systems and subdisciplines, with reference to the diverse approaches used by contributions to this Special Feature. We identify four key recommendations to harmonise future efforts in resilience research: (a) define resilience using existing theoretical frameworks; (b) use common and comparable metrics to measure resilience; (c) clearly contextualise and define the pre- and post-disturbance state of the ecological system and (d) consider explicitly the disturbance type and regime impacting the system.

Published

2021

4. Senescence: why and where selection gradients might not decline with age

Author

Mark Roper, Pol Capdevila, and Roberto Salguero-Gómez

Subjects

0106 biological sciences, Senescence, life history, demography, senescence, Population structure, Tree of life, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Review Articles, Selection (genetic algorithm), 030304 developmental biology, General Environmental Science, trade-off, 0303 health sciences, General Immunology and Microbiology, General Medicine, Variation (linguistics), Ageing, Evolutionary biology, ageing, Reproductive value, General Agricultural and Biological Sciences

Abstract

Patterns of ageing across the tree of life are much more diverse than previously thought. Yet, we still do not adequately understand how, why and where across the tree of life a particular pattern of ageing will evolve. An ability to predict ageing patterns requires a firmer understanding of how and why different ecological and evolutionary factors alter the sensitivity of fitness to age-related changes in mortality and reproduction. From this understanding, we can ask why and where selection gradients might not decline with age. Here, we begin by summarizing the recent breadth of literature that is unearthing, empirically and theoretically, the mechanisms that drive variation in patters of senescence. We focus on the relevance of two key parameters, population structure and reproductive value, as key to understanding selection gradients, and therefore senescence. We discuss how growth form, individual trade-offs, stage structure and social interactions may all facilitate differing distributions of these two key parameters than those predicted by classical theory. We argue that these four key aspects can help us understand why patterns of negligible and negative senescence can actually be explained under the same evolutionary framework as classical senescence.

Published

2021

5. No-take marine reserves control the recovery of sea urchin populations after mass mortality events

Author

Alba Medrano, Eneko Aspillaga, Marta Pagès-Escolà, Pol Capdevila, Ignasi Montero-Serra, Bernat Hereu, and Cristina Linares

Subjects

0106 biological sciences, Population Dynamics, Population, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Paracentrotus lividus, Mediterranean sea, biology.animal, parasitic diseases, Mediterranean Sea, Animals, 14. Life underwater, education, Sea urchin, Arbacia lixula, Arbacia, education.field_of_study, Biomass (ecology), biology, Ecology, 010604 marine biology & hydrobiology, Marine reserve, General Medicine, biology.organism_classification, Pollution, Benthic zone, Predatory Behavior, Sea Urchins, Paracentrotus

Abstract

Understanding how no-take zones (NTZs) shape the population dynamics of key herbivores is crucial for the conservation and management of temperate benthic communities. Here, we examine the recovery patterns of sea urchin populations following a high-intensity storm under contrasting protection regimes in the NW Mediterranean Sea. We found significant differences in the recovery trends of Paracentrotus lividus abundance and biomass in the five years following the storm. The P. lividus populations outside the NTZ recovered faster than the populations inside the NTZ, revealing that predation was the main factor controlling the sea urchin populations inside the NTZ during the study period. Arbacia lixula reached the highest abundance and biomass values ever observed outside the NTZ in 2016. Our findings reveal that predation can control the establishment of new sea urchin populations and emphasize top-down control in NTZs, confirming the important role of fully protected areas in the structure of benthic communities.

Published

2019

6. Warming impacts on early life stages increase the vulnerability and delay the population recovery of a long‐lived habitat‐forming macroalga

Author

Pol Capdevila, Alba Medrano, Roberto Salguero-Gómez, Bernat Hereu, Graciel·la Rovira, Cristina Linares, Emma Cebrian, Diego K. Kersting, and Joaquim Garrabou

Subjects

0106 biological sciences, Effects of global warming on oceans, Population, Context (language use), Plant Science, 010603 evolutionary biology, 01 natural sciences, Population ecology, Recovery, Climate change, Population growth, 14. Life underwater, education, Ecology, Evolution, Behavior and Systematics, Demography, Abiotic component, Human impacts, education.field_of_study, Ecology, Global warming, Seaweeds, 15. Life on land, Stress interactions, Disturbance (ecology), 13. Climate action, Environmental science, Quasi‐extinction, 010606 plant biology & botany

Abstract

Este artículo contiene 12 páginas, 5 figuras., 1. Understanding the combined effects of global and local stressors is crucial for conservation and management, yet challenging due to the different scales at which these stressors operate. Here, we examine the effects of one of the most pervasive threats to marine biodiversity, ocean warming, on the early life stages of the habitat‐forming macroalga Cystoseira zosteroides, its long‐term consequences for population resilience, and its combined effect with physical stressors. 2. First, we performed a controlled laboratory experiment exploring the impacts of warming on early life stages. Settlement and survival of germlings were measured at 16°C (control), 20°C, and 24°C, and both processes were affected by increased temperatures. Then, we integrated this information into stochastic, density‐dependent integral projection models. 3. Recovery time after a major disturbance significantly increased in warmer scenarios. The stochastic population growth rate (λs) was not strongly affected by warming alone, as high adult survival compensated for thermal‐induced recruitment failure. Nevertheless, warming coupled with recurrent physical disturbances had a strong impact on λs and population viability. 4. Synthesis. The impact of warming effects on early stages may significantly decrease the natural ability of habitat‐forming algae to rebound after major disturbances. These findings highlight that, in a global warming context, populations of deep‐water macroalgae will become more vulnerable to further disturbances, and stress the need to incorporate abiotic interactions into demographic models., This work was supported by an FI‐DRG grant from the Secretaria d’Universitats i Recerca from the Economy and Knowledge Department of the Generalitat de Catalunya to P. Capdevila and by a Ramon y Cajal Research Contract (RyC‐2011‐08134) to C. Linares, and by the Ministerio de Economía y Competitividad Smart project (CGL2012‐32194). Funding was also provided by the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 689518 (MERCES). This output reflects only the author’s view and the European Union cannot be held responsible for any use that may be made of the information contained therein. Most authors are part of the Marine Biodiversity Conservation Research Group (2014SGR1297, www. medrecover.org) from Generalitat de Catalunya. R. Salguero‐Gómez was supported by an NERC IRF (NE/M018458/1).

Published

2018

7. Erosion of global functional diversity across the tree of life

Author

Roy González-M., Aurèle Toussaint, Pol Capdevila, Carlos P. Carmona, Riin Tamme, Francesco de Bello, Roberto Salguero-Gómez, Manuela González-Suárez, Maribel Vásquez-Valderrama, Sébastien Brosse, Meelis Pärtel, Ministry of Education and Research (Estonia), European Commission, University of Tartu, Natural Environment Research Council (UK), Ministerio de Ciencia, Innovación y Universidades (España), and Agencia Estatal de Investigación (España)

Subjects

0106 biological sciences, Tree of life, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, biology.animal, Research Articles, 030304 developmental biology, 0303 health sciences, Multidisciplinary, Extinction, Ecology, biology, Phylogenetic tree, food and beverages, SciAdv r-articles, Vertebrate, social sciences, biology.organism_classification, humanities, Threatened species, Freshwater fish, Trait, Erosion, Research Article

Abstract

Although one-quarter of plant and vertebrate species are threatened with extinction, little is known about the potential effect of extinctions on the global diversity of ecological strategies. Using trait and phylogenetic information for more than 75,000 species of vascular plants, mammals, birds, reptiles, amphibians, and freshwater fish, we characterized the global functional spectra of each of these groups. Mapping extinction risk within these spectra showed that larger species with slower pace of life are universally threatened. Simulated extinction scenarios exposed extensive internal reorganizations in the global functional spectra, which were larger than expected by chance for all groups, and particularly severe for mammals and amphibians. Considering the disproportionate importance of the largest species for ecological processes, our results emphasize the importance of actions to prevent the extinction of the megabiota., C.P.C., A.T., M.P., and R.T. were supported by the Estonian Ministry of Education and Research (PSG293, IUT20-29, PRG609, and PSG505) and the European Regional Development Fund (Centre of Excellence EcolChange). M.V.-V. and R.G.-M. were supported by the Dora Plus Fellowship Programme (University of Tartu). S.B. was supported by “Investissement d’Avenir” grants (CEBA, ANR-10-LABX-0025 and TULIP, ANR-10-LABX-41). R.S.-G. was supported by NERC IRF NE/M018458/1. F.d.B. was supported by the Plan Nacional de I+D+i (project PGC2018-099027-B-I00).

Published

2021

8. 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, Giuseppe Guarnieri, Agencia Estatal de Investigación (España), European Commission, Fraschetti, S., Mcowen, C., Papa, L., Papadopoulou, N., Bilan, M., Bostrom, C., Capdevila, P., Carreiro-Silva, M., Carugati, L., Cebrian, E., Coll, M., Dailianis, T., Danovaro, R., De Leo, F., Fiorentino, D., Gagnon, K., Gambi, C., Garrabou, J., Gerovasileiou, V., Hereu, B., Kipson, S., Kotta, J., Ledoux, J. -B., Linares, C., Martin, J., Medrano, A., Montero-Serra, I., Morato, T., Pusceddu, A., Sevastou, K., Smith, C. J., Verdura, J., and Guarnieri, G.

Subjects

0106 biological sciences, Prioritization, Restoration success and failure, Ecologia de la restauració, Restoration ecology, Active restoration, Science, restoration effectiveness, Ocean Engineering, Context (language use), restoration success and failure, QH1-199.5, Aquatic Science, active restoration, marine habitats, restoration effectiveness, restoration success and failure, restoration site prioritization, Oceanography, 010603 evolutionary biology, 01 natural sciences, Ecologia marina, Marine ecology, Ecosystem, Marine ecosystem, 14. Life underwater, Restoration site prioritization, Temporal scales, Environmental planning, Water Science and Technology, restoration effectivene, Marine biology, Global and Planetary Change, restoration site prioritization, Restoration effectiveness, 010604 marine biology & hydrobiology, active restoration, Marine habitats, General. Including nature conservation, geographical distribution, Biologia marina, 15. Life on land, Geography, Habitat, marine habitat, marine habitats, Conservation status

Abstract

14 pages, 6 figures, 1 table, supplementary material https://www.frontiersin.org/articles/10.3389/fmars.2021.626843/full#supplementary-material, 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., Research funded by the EU project MERCES of the European Union's Horizon 2020 research (Grant agreement No. 689518, http://www.merces-project.eu)., Research funded by the EU project MERCES of the European Union's Horizon 2020 research (Grant agreement No. 689518, http://www.merces-project.eu)

Published

2021

9. Longevity, body dimension and reproductive mode drive differences in aquatic versus terrestrial life‐history strategies

Author

Simone P. Blomberg, Pol Capdevila, Maria Beger, Roberto Salguero-Gómez, Bernat Hereu, and Cristina Linares

Subjects

0106 biological sciences, Biologia, media_common.quotation_subject, ved/biology.organism_classification_rank.species, Espècies (Biologia), Biology, 010603 evolutionary biology, 01 natural sciences, Biologia aquàtica, Life history theory, Filogènia, Terrestrial plant, Phylogeny, Ecology, Evolution, Behavior and Systematics, Pace of life, Aquatic biology, media_common, Species, Phylogenetic tree, Ecology, ved/biology, Aquatic ecosystem, Longevity, Mode (statistics), Aquatic animal, 15. Life on land, 010606 plant biology & botany

Abstract

1 Aquatic and terrestrial environments display stark differences in key environmental factors and phylogenetic composition but their consequences for the evolution of species' life‐history strategies remain poorly understood. 2 Here, we examine whether and how life‐history strategies vary between terrestrial and aquatic species. We use demographic information for 685 terrestrial and 122 aquatic animal and plant species to estimate key life‐history traits. We then use phylogenetically corrected least squares regression to explore potential differences in trade‐offs between life‐history traits between both environments. We contrast life‐history strategies of aquatic versus terrestrial species in a principal component analysis while accounting for body dimensions and phylogenetic relationships. 3 Our results show that the same trade‐offs structure terrestrial and aquatic life histories, resulting in two dominant axes of variation that describe species' pace of life and reproductive strategies. Terrestrial plants display a large diversity of strategies, including the longest‐lived species in this study. Aquatic animals exhibit higher reproductive frequency than terrestrial animals. When correcting for body size, mobile and sessile terrestrial organisms show slower paces of life than aquatic ones. 4 Aquatic and terrestrial species are ruled by the same life‐history trade‐offs, but have evolved different strategies, likely due to distinct environmental selective pressures. Such contrasting life‐history strategies have important consequences for the conservation and management of aquatic and terrestrial species.

Published

2020

10. Unravelling the population dynamics of the Mediterranean bryozoan Pentapora fascialis to assess its role as an indicator of recreational diving for adaptive management of marine protected areas

Author

Eneko Aspillaga, Bernat Hereu, Cristina Linares, Graciel·la Rovira, Alba Medrano, Pol Capdevila, Marta Pagès-Escolà, Generalitat de Catalunya, and Universidad de Barcelona

Subjects

0106 biological sciences, Diving, Population, General Decision Sciences, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Abundance (ecology), Marine protected areas, Indicators, Marine ecosystem, Ecosystem, education, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, education.field_of_study, Human impacts, Ecology, Bryozoans, Scuba diving, Management, Geography, Benthic zone, Indicator species, Marine protected area, human activities

Abstract

Marine Protected Areas (MPAs) have been recognized as effective management and conservation tools to protect marine coastal ecosystems. However, due to an increasing interest in marine ecosystems, recreational activities such as scuba diving are rapidly growing in these areas, highlighting the need to implement adaptive management strategies based on continuous monitoring and evaluation of protected areas. To date, several studies have quantified the impact of diving using benthic species as indicators, such as bryozoans, but usually ignoring their population dynamics. Here, we studied the population dynamics of the abundant and common bryozoan Pentapora fascialis on a Mediterranean MPA with high levels of diving activity. Specifically, we monitored eight different localities with two different levels of diving frequentation (non-frequented versus frequented) from October 2015 to October 2018, accounting for the demographic parameters before and after the summer. Our results showed the impact of diving on the density, recruitment, survival, and size of colonies, reaching higher values on non-frequented localities. In addition, we detected two peaks of recruitment during July 2016 and July 2018, suggesting that bryozoan recruitment events are stochastic, with a high inter-annual variation. Contrastingly, regardless of the diver frequentation level, we found higher growth rates during the colder months and higher necrosis rates after the summer in all the studied localities. Besides the aforementioned differences, the densities observed in this study were much higher compared to previous studies performed in the same area during the 1990s. Taken together, these results suggested rapid population dynamics of P. fascialis, with fast growth rates and a high capacity to recover from perturbations. Despite the quantified effects of diving on our studied species, their abundance in frequented sites remained very low over the whole study period, compromising the use of P. fascialis as an optimal indicator of diving impact for adaptive management of temperate benthic populations. Overall, our results highlight the importance of continuous monitoring programs to unravel the population dynamics of indicator species to effectively manage marine populations and evaluate the impact of human activities on marine protected areas., This work was supported by Generalitat de Catalunya (Spain) and the University of Barcelona (Spain). The authors are part of the Marine Conservation research group (2017 SGR 1521) funded by Generalitat de Catalunya.

Published

2020

11. Long-term monitoring of temperate macroalgal assemblages inside and outside a No take marine reserve

Author

Bernat Hereu, Cristina Linares, Mikel Zabala, Pol Capdevila, Marta Pagès-Escolà, Ignasi Montero-Serra, Alba Medrano, Eneko Aspillaga, Generalitat de Catalunya, and European Commission

Subjects

0106 biological sciences, Mediterranean climate, Monitoring, Aquatic Science, Temporal dynamic, Algues marines, Oceanography, 010603 evolutionary biology, 01 natural sciences, Algae, Temperate climate, Ecosystem, 14. Life underwater, Community ecology, Effect of human beings on nature, Marine algae, Community, biology, Ecology, Influència de l'home en la natura, 010604 marine biology & hydrobiology, Marine reserve, General Medicine, Seaweeds, 15. Life on land, biology.organism_classification, Pollution, Long term monitoring, Environmental science, Marine protected area

Abstract

Macroalgal communities have an essential role in the shallow benthic habitats of temperate seas, where changes in their composition can resonate through entire coastal ecosystems. As all major ecosystems on Earth, algal beds have already been affected by multiple disturbances. Passive conservation tools, such as marine protected areas or No-take zones, have the potential to reduce some of the anthropogenic impacts by limiting human activity. However, without a good knowledge of the natural community dynamics, it is not easy to discern between changes fruit of the intrinsic variability of biological communities and the ones caused by human-related stressors. In this study, we evaluated the natural variability of macroalgal communities' composition inside and outside a Mediterranean No-Take marine reserve during 15 years. We described their temporal dynamics considering their main drivers and we tested the effect of protection in seaweed beds. We did not find differences either in the composition of the macroalgal assemblages or the total algal cover between protected and non-protected locations over the fifteen years of study. Nevertheless, we observed a positive effect of the protection increasing the cover of some specific species, such as the canopy-forming Treptacantha elegans. Our results highlight the importance of obtaining long-term data in ecological studies to better understand the natural variability of marine communities. Accordingly, a robust understanding of the community dynamics would help us to avoid misinterpretations between ‘impacted’ or ‘in-recovery’ communities when recovery times are longer than the study periods., This work was supported by the long-term monitoring programme of the Natural Park of Cap de Creus and the Natural Park of Montgrí, Illes Medes and Baix Ter, the Medes Islands and the Baix Ter protected areas (public agreement PTOP- 2017-130, Departament de Territori i Sostenibilitat of the Generalitat de Catalunya) and by the European Union's Horizon 2020 research and innovation programme under grant agreement No 689518 (MERCES). This output reflects only the authors' view, and the European Union cannot be held responsible for any use of the information contained herein that may be made. All the authors are part of the MedRecover research group 2017SGR-1521 (www.medrecover.org).

Published

2019

12. Unravelling the natural dynamics and resilience patterns of underwater Mediterranean forests: insights from the demography of the brown alga Cystoseira zosteroides

Author

Pol Capdevila, Bernat Hereu, Cristina Linares, and Juan Riera

Subjects

0106 biological sciences, Mediterranean climate, Ecology, 010604 marine biology & hydrobiology, media_common.quotation_subject, Plant Science, Population ecology, Biology, 010603 evolutionary biology, 01 natural sciences, Natural dynamics, Life history theory, Cystoseira zosteroides, Psychological resilience, Matrix population models, Ecology, Evolution, Behavior and Systematics, media_common

Published

2016