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Percorrer por autor "Schubert, Nadine"

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  • Calcification in free-living coralline algae is strongly influenced by morphology: implications for susceptibility to ocean acidification
    Publication . Schubert, Nadine; Hofmann, Laurie C.; Almeida Saá, Antonella C.; Moreira, Anderson Camargo; Arenhart, Rafael Güntzel; Fernandes, Celso Peres; de Beer, Dirk; Horta, Paulo A.; Silva, João
    Rhodolith beds built by free-living coralline algae are important ecosystems for marine biodiversity and carbonate production. Yet, our mechanistic understanding regarding rhodolith physiology and its drivers is still limited. Using three rhodolith species with different branching morphologies, we investigated the role of morphology in species' physiology and the implications for their susceptibility to ocean acidification (OA). For this, we determined the effects of thallus topography on diffusive boundary layer (DBL) thickness, the associated microscale oxygen and pH dynamics and their relationship with species' metabolic and light and dark calcification rates, as well as species' responses to short-term OA exposure. Our results show that rhodolith branching creates low-flow microenvironments that exhibit increasing DBL thickness with increasing branch length. This, together with species' metabolic rates, determined the light-dependent pH dynamics at the algal surface, which in turn dictated species' calcification rates. While these differences did not translate in species-specific responses to short-term OA exposure, the differences in the magnitude of diurnal pH fluctuations (~ 0.1-1.2 pH units) between species suggest potential differences in phenotypic plasticity to OA that may result in different susceptibilities to long-term OA exposure, supporting the general view that species' ecomechanical characteristics must be considered for predicting OA responses.
    2021-05Artigo científico Acesso aberto Ver mais
  • Changes of energy fluxes in marine animal forests of the Anthropocene: factors shaping the future seascape
    Publication . Rossi, Sergio; Isla, Enrique; Bosch-Belmar, Mar; Galli, Giovanni; Gori, Andrea; Gristina, Michele; Ingrosso, Gianmarco; Milisenda, Giacomo; Piraino, Stefano; Rizzo, Lucia; Schubert, Nadine; Soares, Marcelo; Solidoro, Cosimo; Thurstan, Ruth H; Viladrich, Núria; Willis, Trevor J; Ziveri, Patrizia
    Climate change is already transforming the seascapes of our oceans by changing the energy availability and the metabolic rates of the organisms. Among the ecosystem-engineering species that structure the seascape, marine animal forests (MAFs) are the most widespread. These habitats, mainly composed of suspension feeding organisms, provide structural complexity to the sea floor, analogous to terrestrial forests. Because primary and secondary productivity is responding to different impacts, in particular to the rapid ongoing environmental changes driven by climate change, this paper presents some directions about what could happen to different MAFs depending on these fast changes. Climate change could modify the resistance or resilience of MAFs, potentially making them more sensitive to impacts from anthropic activities (i.e. fisheries and coastal management), and vice versa, direct impacts may amplify climate change constraints in MAFs. Such changes will have knock-on effects on the energy budgets of active and passive suspension feeding organisms, as well as on their phenology, larval nutritional condition, and population viability. How the future seascape will be shaped by the new energy fluxes is a crucial question that has to be urgently addressed to mitigate and adapt to the diverse impacts on natural systems.
    2019Artigo científico Acesso aberto Ver mais
  • A common terminology to unify research and conservation of coralline algae and the habitats they create
    Publication . Jardim, Victor L.; Grall, Jacques; Barros‐Barreto, M. Beatriz; Bizien, Anaëlle; Benoit, Thomas; Braga, Juan C.; Brodie, Juliet; Burel, Thomas; Cabrito, Andrea; Diaz‐Pulido, Guillermo; Gagnon, Patrick; Hall‐Spencer, Jason M.; Helias, Mathieu; Horta, Paulo Antunes; Joshi, Siddhi; Kamenos, Nick A.; Kolzenburg, Regina; Krieger, Erik C.; Legrand, Erwann; Page, Tessa M.; Peña, Viviana; Ragazzola, Federica; Rasmusson, Lina M.; Rendina, Francesco; Schubert, Nadine; Silva, João; Tâmega, Frederico T. S.; Tauran, Adeline; Burdett, Heidi L.
    Linguistic uncertainty is a prime source of uncertainty pervading ecology and conservation. Coralline algae are a widespread and diverse group of calcifying red macroalgae that underpin coastal ecosystem function and service provision. Recent increasing interest in coralline algae in the scientific literature has revealed a diverse but confusing terminology at organism to habitat scales. Coralline algal research and conservation are international and multidisciplinary, so there are geographic and disciplinary imbalances in research and conservation efforts. To reach consensus and reduce uncertainty, we propose a unified terminology. We review trends in cultural and scientific use of coralline algal terms and propose a system based on six morphologies: (1) attached, (2) free-living geniculate, (3) encrusting and free-living nongeniculate coralline algae, the latter either being (4) nucleated or (5) non-nucleated thalli or (6) fragments. We take inspiration from other coastal systems that have achieved consensus through umbrella terms, such as 'coral' and 'kelp', to accelerate global progress in coralline algal research and conservation. We characterise 14 coralline algae-dominated habitat global types, falling within seven functional groups, four biomes and four realms: (1) freshwater coralline streams; (2) coralline tide pools; (3) intertidal coralline rims and (4) turf; (5) coralline sea caves; (6) coral-algal reefs; (7) algal ridges; (8) coralligenous reefs; subtidal (9) carbonate crusts, (10) coralline barrens and (11) turf; and (12) articulith, (13) maerl and (14) rhodolith beds, which fall into the coralline algal bed functional group. We hope this unified terminology promotes data comparison, enables cross-boundary and cross-sector sharing of best practices, develops capacity for meta-analyses and improves conservation strategies.
    2025-03Artigo científico Acesso aberto Ver mais
  • Editorial: coralline algae: globally distributed ecosystem engineers
    Publication . Schubert, Nadine; Schoenrock, Kathryn M.; Aguirre, Julio; Kamenos, Nicholas A.; Silva, João; Horta, Paulo A.; Hofmann, Laurie C.
    From the early days of phycology, coralline algae (CA) have been considered the most formidable and widely distributed algae (Woelkerling, 1988). They compose an abundant and highly diverse group, divided into geniculate (articulated) and non-geniculate species (crusts and rhodolith/maërl forms). CA are present in almost every coastal ecosystem around the world, from the intertidal to mesophotic zones (Johansen et al., 1981; Steneck, 1986; Foster, 2001). They are important ecosystem engineers that provide hard, three-dimensional substrates for a highly diverse fauna and flora (Nelson, 2009), building habitats like the globally distributed rhodolith (or maërl) beds (Foster, 2001), and the large algal bioconstructions that abound in the Mediterranean (coralligenous assemblages, intertidal rims; Ingrosso et al., 2018). In addition, the CaCO3 precipitation within cell walls leads to a high fossilization potential of CA, which are considered the best fossil record among macrobenthic autotrophs since they first appeared in the Lower Cretaceous (Aguirre et al., 2000). It also makes CA major carbonate producers (van der Heijden and Kamenos, 2015), which, considering their abundance and wide distribution, gives them an important role in oceanic carbon cycling and reef building (Adey, 1998; Chisholm, 2003; Martin et al., 2006; Perry et al., 2008) and makes them a group of significant economic interest (Coletti and Frixa, 2017). Like many other marine ecosystems, CA habitats will be negatively affected by future climate change, e.g., due to reduced CA calcification/growth (Martin andHall-Spencer, 2017; Cornwall et al., 2019) that may eventually lead to ecosystem degradation and reduction of habitat complexity and biodiversity.
    2020Artigo científico Acesso aberto Ver mais
  • Editorial: Coralline algae: Past, present, and future perspectives
    Publication . Hofmann, Laurie C.; Schoenrock, Kathryn M.; Kamenos, Nicholas A.; Aguirre, Julio; Silva, João; Schubert, Nadine
    Following the success of the Frontiers in Marine Science Research Topic on “Coralline Algae: Globally Distributed Ecosystem Engineers,” the Research Topic on “Coralline Algae: Past, Present and Future Perspectives” was launched to extend the opportunity for publishing further knowledge about these diverse ecosystem engineers across a broader time scale. In this Research Topic, an additional nine original research articles have been published, strengthening our understanding of coralline algae past, present, and future, including their biology, physiology and ecology. From reconstructing coralline algal assemblages during the Paleocene/Eocene thermal maximum, to understanding current trophodynamics and benthic-pelagic coupling in rhodolith beds, to assessing the adaptability of coralline algae to future warming, the original research articles in this Research Topic cover a time frame of 55.6 million years and span across an Atlantic biogeographical range from Brazil to the high Arctic.
    2022Artigo científico Acesso aberto Ver mais
  • Heterotrophy in marine animal forests in an era of climate change
    Publication . Denis, Vianney; Ferrier‐Pagès, Christine; Schubert, Nadine; Coppari, Martina; Baker, David M.; Camp, Emma F.; Gori, Andrea; Grottoli, Andréa G.; Houlbrèque, Fanny; Maier, Sandra R.; Mancinelli, Giorgio; Martinez, Stephane; Yalçın Özdilek, Şükran; Radice, Veronica Z.; Ribes, Marta; Richter, Claudio; Viladrich, Nuria; Rossi, Sergio
    Marine animal forests (MAFs) are benthic ecosystems characterised by biogenic three-dimensional structures formed by suspension feeders such as corals, gorgonians, sponges and bivalves. They comprise highly diversified communities among the most productive in the world's oceans. However, MAFs are in decline due to global and local stressors that threaten the survival and growth of their foundational species and associated biodiversity. Innovative and scalable interventions are needed to address the degradation of MAFs and increase their resilience under global change. Surprisingly, few studies have considered trophic interactions and heterotrophic feeding of MAF suspension feeders as an integral component of MAF conservation. Yet, trophic interactions are important for nutrient cycling, energy flow within the food web, biodiversity, carbon sequestration, and MAF stability. This comprehensive review describes trophic interactions at all levels of ecological organisation in tropical, temperate, and cold-water MAFs. It examines the strengths and weaknesses of available tools for estimating the heterotrophic capacities of the foundational species in MAFs. It then discusses the threats that climate change poses to heterotrophic processes. Finally, it presents strategies for improving trophic interactions and heterotrophy, which can help to maintain the health and resilience of MAFs.
    2024Artigo científico Acesso aberto Ver mais
  • Levelling-up rhodolith-bed science to address global-scale conservation challenges
    Publication . Tuya, Fernando; Schubert, Nadine; Aguirre, Julio; Basso, Daniela; Bastos, Eduardo O.; Berchez, Flávio; Bernardino, Angelo F.; Bosch, Néstor E.; Burdett, Heidi L.; Espino, Fernando; Fernández-Gárcia, Cindy; Francini-Filho, Ronaldo B.; Gagnon, Patrick; Hall-Spencer, Jason M.; Haroun, Ricardo; Hofmann, Laurie C.; Horta, Paulo A.; Kamenos, Nicholas A.; Le Gall, Line; Magris, Rafael A.; Martin, Sophie; Nelson, Wendy A.; Neves, Pedro; Olivé, Irene; Otero-Ferrer, Francisco; Peña, Viviana; Pereira-Filho, Guilherme H.; Ragazzola, Federica; Rebelo, Ana Cristina; Ribeiro, Cláudia; Rinde, Eli; Schoenrock, Kathryn; Silva, João; Sissini, Marina N.; Tâmega, Frederico T. S.
    Global marine conservation remains fractured by an imbalance in research efforts and policy actions, limiting progression towards sustainability. Rhodolith beds represent a prime example, as they have ecological importance on a global scale, provide a wealth of ecosystem functions and services, including biodiversity provision and potential climate change mit-igation, but remain disproportionately understudied, compared to other coastal ecosystems (tropical coral reefs, kelp for-ests, mangroves, seagrasses). Although rhodolith beds have gained some recognition, as important and sensitive habitats at national/regional levels during the last decade, there is still a notable lack of information and, consequently, specific conservation efforts. We argue that the lack of information about these habitats, and the significant ecosystem services they provide, is hindering the development of effective conservation measures and limiting wider marine conservation success. This is becoming a pressing issue, considering the multiple severe pressures and threats these habitats are exposed to (e.g., pollution, fishing activities, climate change), which may lead to an erosion of their ecological function and eco-system services. By synthesizing the current knowledge, we provide arguments to highlight the importance and urgency of levelling-up research efforts focused on rhodolith beds, combating rhodolith bed degradation and avoiding the loss of associated biodiversity, thus ensuring the sustainability of future conservation programs.
    2023-09Artigo científico Acesso restrito Ver mais
  • Marine animal forests: bridging science, policy, and local knowledge
    Publication . Rossi, Sergio; Bramanti, Lorenzo; Costantini, Federica; Dailianis, Thanos; Schubert, Nadine; Gerovasileiou, Vasilis
    Marine Animal Forests (MAFs) are complex, three-dimensional structures formed by benthic animals (e.g., corals, gorgonians, sponges, bivalves, bryozoans) that act as autogenic ecosystem engineers. These organisms create new ecological niches and colonization surfaces, thereby enhancing ecosystem functions and services (Orejas et al., 2022). When the populations of these tree-shaped animals are dense enough, they form true underwater forests that share several analogies with terrestrial forests.
    2025-09-11Artigo científico Acesso aberto Ver mais
  • Marine forests forever—A necessary multilateral program for a fair future
    Publication . Horta, Paulo; Sissini, Marina N.; Fonseca, Alessandra; Turra, Alexander; Rodrigues, Ana Claudia; Rorig, Leonardo; Bonomi‐Barufi, José; Pagliosa, Paulo; Bastos, Eduardo; Grimaldi, Guido; Dias, Carlos Eduardo Peixoto; Fialho, Fabio; Oliveira, Carlos Yure B.; Frade, Pedro R.; Schubert, Nadine; Silva, João; Assis, Jorge; Rossi, Sergio; Mansilla, Andres; Soares, Marcelo; Gouvêa, Lidiane; Alves-Lima, Cicero; Coelho, Márcio A. G.; Serrao, Ester A.; Anderson, Antonio Batista; Joyeux, Jean‐Christophe; Berchez, Flávio; Otero‐Ferrer, Francisco; Filho, Jorge Luiz Rodrigues; Mies, Miguel; Araujo, Moacyr; Hall‐Spencer, Jason M.
    Not only advances but also old addictions, setbacks, obstructions and delays are observed during COP16 (on biodiversity), COP29 (on climate change) and G20 in a year full of tragedies resulting from climate change; we need to look in the rearview mirror and plan new paths to be presented and discussed at COP30, in 2025, in the Brazilian Amazon. Worldwide temperature records show that 2023 and 2024 were the warmest in at least the last 2000 years (Esper, Torbenson, and Büntgen 2024). About 90% of the excess heat trapped by greenhouse gases and 30% of human emissions of carbon dioxide are stored in the ocean, shielding the planet from even more rapid changes in the biosphere. The recent acceleration in climate change is a threat not only to terrestrial systems but also to largely neglected marine ecosystems and their socio-biodiversity. Considering the relationship between global warming and biological extinctions (Malanoski et al. 2024), as well as the high vulnerability of marine biodiversity to these global threats (Pinsky et al. 2019), we call for the urgent need to create global and multilateral policies that are based on climate-smart ocean planning and carbon neutrality, focused on climate adaptation and mitigation strategies to protect, restore and foster sustainable management of marine socio-ecological systems (Frazão Santos et al. 2024).
    2025-01Artigo científico Acesso restrito Ver mais
  • Marine heatwaves recurrence aggravates thermal stress in the surfgrass Phyllospadix scouleri
    Publication . Vivanco-Bercovich, Manuel; Sandoval-Gil, Jose Miguel; Bonet-Meliá, Paula; Cabello-Pasini, Alejandro; Muñiz-Salazar, Raquel; Montoya, Leonardo Ruiz; Schubert, Nadine; Marín-Guirao, Lázaro; Procaccini, Gabriele; Ferreira-Arrieta, Alejandra
    The surfgrass Phyllospadix scouleri constitutes highly productive meadows along the Pacific coast of North America – a region that has been increasingly affected by severe marine heatwaves (MHWs) in recent years. Our study assessed the effects of consecutive MHWs simulated in mesocosms on critical ecophysiological descriptors of P. scouleri. Generally, our results revealed a progressive deterioration of the plant overall physiological status. Surprisingly, photosynthetic parameters only indicated physiological stress once the first heat exposure ceased (i.e., recovery period). Warming induced elevated oxidative damage and a decline in nitrate uptake rates. By contrast, non-structural carbohydrates and growth rates remained unaffected. Our results highlight the importance of including recovery periods in this sort of experiments, as they reveal delayed stress responses. Further, the accumulative detrimental effects due to the exposure to consecutive intense MHWs indicate that these events can compromise the vitality of surfgrasses and the ecosystem services provided by their meadows.
    2024-02Artigo científico Acesso aberto Ver mais