Percorrer por autor "Bosch-Belmar, Mar"
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- Changes of energy fluxes in marine animal forests of the Anthropocene: factors shaping the future seascapePublication . 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, PatriziaClimate 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.
- “Pink power”—the importance of coralline algal beds in the oceanic carbon cyclePublication . Schubert, Nadine; Tuya, Fernando; Peña, Viviana; Horta, Paulo A.; Salazar, Vinícius W.; Neves, Pedro; Ribeiro, Cláudia; Otero-Ferrer, Francisco; Espino, Fernando; Schoenrock, Kathryn; Ragazzola, Federica; Olivé, Irene; Giaccone, Thalassia; Nannini, Matteo; Mangano, M. Cristina; Sará, Gianluca; Mancuso, Francesco Paolo; Tantillo, Mario Francesco; Bosch-Belmar, Mar; Martin, Sophie; Gall, Line Le; Santos, Rui; Silva, joãoCurrent evidence suggests that macroalgal-dominated habitats are important contributors to the oceanic carbon cycle, though the role of those formed by calcifiers remains controversial. Globally distributed coralline algal beds, built by pink coloured rhodoliths and maerl, cover extensive coastal shelf areas of the planet, but scarce information on their productivity, net carbon flux dynamics and carbonate deposits hampers assessing their contribution to the overall oceanic carbon cycle. Here, our data, covering large bathymetrical (2–51 m) and geographical ranges (53°N–27°S), show that coralline algal beds are highly productive habitats that can express substantial carbon uptake rates (28–1347 g C m−2 ), which vary in function of light availability and species composition and exceed reported estimates for other major macroalgal habitats. This high productivity, together with their substantial carbonate deposits (0.4–38 kilotons), renders coralline algal beds as highly relevant contributors to the present and future oceanic carbon cycle.