Your search keyword '"Bertocci, I"' showing total 6 results

1. Marine reserves: fish life history and ecological traits matter

Author

Claudet, J., Osenberg, C. W., Domenici, P., Badalamenti, F., Milazzo, M., Falcon, J. M., Bertocci, I., Benedetti-Cecchi, L., Garcia-Charton, J-A., Goni, R., Borg, J. A., Forcada, A., de Lucia, G. A., Perez-Ruzafa, A., Afonso, P., Brito, A., Guala, I., Le Direach, L., Sanchez-Jerez, P., Somerfield, P. J., and Planes, S.

Subjects

Fishes -- Physiological aspects, Fishes -- Protection and preservation, Marine parks and reserves -- Environmental aspects, Biological sciences, Environmental issues

Published

2010

2. Marine reserves : fish life history and ecological traits matter

Author

Pedro Afonso, Lisandro Benedetti-Cecchi, Raquel Goñi, Serge Planes, Marco Milazzo, José Antonio García-Charton, Ivan Guala, J.M. Falcón, L. Le Diréach, Paolo Domenici, Paul J. Somerfield, Pablo Sanchez-Jerez, Aitor Forcada, Joachim Claudet, Angel Pérez-Ruzafa, Joseph A. Borg, G.A. De Lucia, Iacopo Bertocci, Fabio Badalamenti, Alberto Brito, Craig W. Osenberg, CLAUDET, J, OSENBERG, CW, DOMENICI, P, BADALAMENTI, F, MILAZZO, M, FALCON, JM, BERTOCCI, I, BENEDETTI CECCHI, L, GARCIA CHARTON, JA, GONI, R, BORG, JA, FORCADA, A, DE LUCIA, GA, PEREZ RUZAFA, A, AFONSO, P, BRITO, A, GUALA, I, LE DIREACH, L, SANCHEZ JEREZ, P, SOMERFIELD, PJ, and PLANES, S

Subjects

marine reserve age, Range (biology), marine protected area, Marine protected area, home range, habitat, life history trait, bycatch, species mobility, territoriality, Pesquerías, Marine reserve design, marine reserve design, Marine reserve age, Behavior, Animal, Ecology, Marine reserve, Fisheries -- Monitoring -- Europe, Fishes, Marine parks and reserves -- Europe, Body size, weighted meta-analysis, Species mobility, Europe, Habitat, Home range, Fishes -- Ecology -- Europe, Weighted metaanalysis, Marine conservation, Conservation of Natural Resources, Fisheries, Biology, Models, Biological, Diversity of fish, Centro Oceanográfico de Baleares, Bycatch, Life history traits, Schooling behavior, Territoriality, Fishes -- Habitat -- Europe, Animals, schooling behavior, Ecosystem, life history traits, Population Density, Ecological release, Fishery, body size

Abstract

Copyright by the Ecological Society of America, Marine reserves are assumed to protect a wide range of species from deleterious effects stemming from exploitation. However, some species, due to their ecological characteristics, may not respond positively to protection. Very little is known about the effects of life history and ecological traits (e.g., mobility, growth, and habitat) on responses of fish species to marine reserves. Using 40 data sets from 12 European marine reserves, we show that there is significant variation in the response of different species of fish to protection and that this heterogeneity can be explained, in part, by differences in their traits. Densities of targeted size-classes of commercial species were greater in protected than unprotected areas. This effect of protection increased as the maximum body size of the targeted species increased, and it was greater for species that were not obligate schoolers. However, contrary to previous theoretical findings, even mobile species with wide home ranges benefited from protection: the effect of protection was at least as strong for mobile species as it was for sedentary ones. Noncommercial bycatch and unexploited species rarely responded to protection, and when they did (in the case of unexploited bentho-pelagic species), they exhibited the opposite response: their densities were lower inside reserves. The use of marine reserves for marine conservation and fisheries management implies that they should ensure protection for a wide range of species with different life-history and ecological traits. Our results suggest this is not the case, and instead that effects vary with economic value, body size, habitat, depth range, and schooling behavior., Sí

Published

2010

3. Reddened seascapes: experimentally induced shifts in 1/f spectra of spatial variability in rocky intertidal assemblages.

Author

Tamburello L, Bulleri F, Bertocci I, Maggi E, and Benedetti-Cecchi L

Subjects

Demography, Phaeophyceae classification, Ecosystem, Oceans and Seas, Phaeophyceae physiology

Abstract

Ecological tests of 1/f-noise models have advanced our understanding of how environmental fluctuations affect population abundance and species distributions. Most empirical studies have been conducted under controlled laboratory conditions and have focused on individual drivers. We present the results of a four-year field experiment in which canopy presence/absence and the availability of primary space were manipulated as red-noise and white-noise spatial processes, respectively, to evaluate their separate and compounded effects on algal turf distribution in a rocky intertidal community. Algal turfs closely tracked spatial variation in canopy distribution, displaying a reddened spectrum of spatial variation. Surprisingly, white-noise clearings also induced a red-shift in turf distribution, a pattern that was related to a nonlinear relation between gap size and turf colonization. The two disturbances interacted antagonistically, dampening the red-shift of turf distribution. Our results provide evidence of experimentally induced shifts in the spectrum of a spatial variable under natural environmental conditions.

Published

2013

4. Connell and Slatyer's models of succession in the biodiversity era.

Author

Maggi E, Bertocci I, Vaselli S, and Benedetti-Cecchi L

Subjects

Animals, Chlorophyta physiology, Cyanobacteria physiology, Italy, Oceans and Seas, Population Dynamics, Rhodophyta physiology, Time Factors, Biodiversity, Models, Biological

Abstract

Understanding how species interactions drive succession is a key issue in ecology. In this study we show the utility of combining the concepts and methodologies developed within the biodiversity-ecosystem functioning research program with J. H. Connell and R. O. Slatyer's classic framework to understand succession in assemblages where multiple interactions between early and late colonists may include both inhibitory and facilitative effects. We assessed the net effect of multiple species interactions on successional changes by manipulating the richness, composition, and abundance of early colonists in a low-shore assemblage of algae and invertebrates of the northwestern Mediterranean. Results revealed how concomitant changes in species richness and abundance can strongly alter the net effect of inhibitory vs. facilitative interactions on succession. Increasing richness of early colonists inhibited succession, but only under high levels of initial abundance, probably reflecting the formation of a highly intricate matrix that prevented further colonization. In contrast, increasing initial abundance of early colonists tended to facilitate succession under low richness. Thus, changes in abundance of early colonists mediated the effects of richness on succession.

Published

2011

5. The seaweed Caulerpa racemosa on Mediterranean rocky reefs: from passenger to driver of ecological change.

Author

Bulleri F, Balata D, Bertocci I, Tamburello L, and Benedetti-Cecchi L

Subjects

Conservation of Energy Resources, Mediterranean Sea, Caulerpa physiology, Ecosystem

Abstract

Disentangling the ecological effects of biological invasions from those of other human disturbances is crucial to understanding the mechanisms underlying ongoing biotic homogenization. We evaluated whether the exotic seaweed, Caulerpa racemosa, is the primary cause of degradation (i.e., responsible for the loss of canopy-formers and dominance by algal turfs) on Mediterranean rocky reefs, by experimentally removing the invader alone or the entire invaded assemblage. In addition, we assessed the effects of enhanced sedimentation on the survival and recovery of canopy-forming macroalgae at a relatively pristine location and how their loss affects the ability of C. racemosa to conquer space. C. racemosa did not invade dense canopy stands or influence their recovery in cleared plots. Competition with C. racemosa could not explain the rarity of canopy-forming species at degraded sites. Removing the assemblages invaded by C. racemosa and preventing reinvasion did not trigger the transition from algal turfs to canopies, but it enhanced the cover of morphologically complex erect macroalgae under some circumstances. Once established, C. racemosa, enhancing sediment accumulation, favors algal turfs over erect algal forms and enables them to monopolize space. Our results show that introduced species that rely on disturbance to establish can subsequently become the main drivers of ecological change.

Published

2010

6. Temporal variance reverses the impact of high mean intensity of stress in climate change experiments.

Author

Benedetti-Cecchi L, Bertocci I, Vaselli S, and Maggi E

Subjects

Air, Animals, Biodiversity, Biomass, Oceans and Seas, Time Factors, Climate, Eukaryota, Thoracica

Abstract

Extreme climate events produce simultaneous changes to the mean and to the variance of climatic variables over ecological time scales. While several studies have investigated how ecological systems respond to changes in mean values of climate variables, the combined effects of mean and variance are poorly understood. We examined the response of low-shore assemblages of algae and invertebrates of rocky seashores in the northwest Mediterranean to factorial manipulations of mean intensity and temporal variance of aerial exposure, a type of disturbance whose intensity and temporal patterning of occurrence are predicted to change with changing climate conditions. Effects of variance were often in the opposite direction of those elicited by changes in the mean. Increasing aerial exposure at regular intervals had negative effects both on diversity of assemblages and on percent cover of filamentous and coarsely branched algae, but greater temporal variance drastically reduced these effects. The opposite was observed for the abundance of barnacles and encrusting coralline algae, where high temporal variance of aerial exposure either reversed a positive effect of mean intensity (barnacles) or caused a negative effect that did not occur under low temporal variance (encrusting algae). These results provide the first experimental evidence that changes in mean intensity and temporal variance of climatic variables affect natural assemblages of species interactively, suggesting that high temporal variance may mitigate the ecological impacts of ongoing and predicted climate changes.

Published

2006