Your search keyword '"Giráldez, Ana"' showing total 4 results

1. Identification of subpopulations in pelagic marine fish species using amino acid composition

Author

Riveiro, Isabel, Guisande, Cástor, Iglesias, Paula, Basilone, Gualtiero, Cuttitta, Angela, Giráldez, Ana, Patti, Bernardo, Mazzola, Salvatore, Bonanno, Angelo, Vergara, Alba-Ruth, and Maneiro, Isabel

Published

2011

2. Spatio-temporal patterns and environmental controls of small pelagic fish body condition from contrasted Mediterranean areas.

Author

Brosset, Pablo, Fromentin, Jean-Marc, Van Beveren, Elisabeth, Lloret, Josep, Marques, Virginie, Basilone, Gualtiero, Bonanno, Angelo, Carpi, Piera, Donato, Fortunata, Čikeš Keč, Vanja, De Felice, Andrea, Ferreri, Rosalia, Gašparević, Denis, Giráldez, Ana, Gücü, Ali, Iglesias, Magdalena, Leonori, Iole, Palomera, Isabel, Somarakis, Stylianos, and Tičina, Vjekoslav

Subjects

*PELAGIC fishes, *MARINE fishes, *MARINE ecology, *ANCHOVY fisheries, *POPULATION health

Abstract

Small pelagic fish are among the most ecologically and economically important marine fish species and are characterized by large fluctuations all over the world. In the Mediterranean Sea, low catches and biomass of anchovies and sardines have been described in some areas during the last decade, resulting in important fisheries crises. Therefore, we studied anchovy and sardine body condition variability, a key index of population health and its response to environmental and anthropogenic changes. Wide temporal and spatial patterns were investigated by analyzing separately data from scientific surveys and fisheries in eight Mediterranean areas between 1975 and 2015. Results showed that anchovy and sardine body condition as well as maximum size in some areas sharply decreased in most Mediterranean areas along years (except in the Northern Alboran Sea). Despite this general pattern, well-marked environmental differences between sub-regions were highlighted by several analyses and variations in body condition were not found to be homogeneous over all the Mediterranean Sea. Further, other analyses revealed that except for the Adriatic where major changes towards a lower body condition were concomitant with a decrease in river runoffs and chl- a concentration, no concomitant environmental regime shift was detected in other areas. Together, these analyses highlighted the current poor body condition of almost all small pelagic fish populations in the Mediterranean. Yet, global environmental indices could not explain the observed changes and the general decrease in condition might more likely come from regional environmental and/or anthropogenic (fishing) effects. A prolonged state of poor fish body condition, together with an observed reduced size and early age-at-maturity may have strong ecological, economic and social consequences all around the Mediterranean Sea. [ABSTRACT FROM AUTHOR]

Published

2017

3. Reprint of “Atlantic Multidecadal Oscillation (AMO) modulates dynamics of small pelagic fishes and ecosystem regime shifts in the eastern North and Central Atlantic”.

Author

Alheit, Jürgen, Licandro, Priscilla, Coombs, Steve, Garcia, Alberto, Giráldez, Ana, Santamaría, Maria Teresa Garcia, Slotte, Aril, and Tsikliras, Athanassios C.

Subjects

*ATLANTIC multidecadal oscillation, *PELAGIC fishes, *FISH migration, *FISH populations, *FISH diversity

Abstract

Abstract: Dynamics of abundance and migrations of populations of small pelagic clupeoid fish such as anchovy (Engraulis encrasicolus), sardine (Sardina pilchardus), sardinella (Sardinella aurita), sprat (Sprattus sprattus) and herring (Clupea harengus) in the eastern North and Central Atlantic between Senegal and Norway vary in synchrony with the warm and cool phases of the Atlantic Multidecadal Oscillation (AMO). This is shown by compiling retrospective data on fish catches and anecdotal observations, which in some cases date back to the mid-19th century. The AMO is defined as the de-trended mean of North Atlantic (0–60°N) sea surface temperature anomalies. However, it is not primarily the temperature which drives the dynamics of the small pelagic fish populations. Instead, the AMO seems to be a proxy for complex processes in the coupled atmosphere–ocean system of the North Atlantic. This is manifested in large-scale changes in strength and direction of the current system that move water masses around the North Atlantic and likely involves the North Atlantic Oscillation (NAO), the Atlantic Meridional Overturning Circulation (AMOC), the Mediterranean Overflow Water (MOW) and the subpolar gyre (SPG). The contractions and expansions of the SPG apparently play a key role. This was particularly obvious in the mid-1990s, when the SPG abruptly contracted with the result that warm subtropical water masses moved to the north and east. Small pelagic fish populations in the eastern North and Central Atlantic, including those in the Mediterranean responded quickly by changing abundances and migrating northwards. It seems that the complex ocean–atmosphere changes in the mid-1990s, which are described in the text in detail, caused a regime shift in the ecosystems of the eastern North and Central Atlantic and the small pelagic clupeoid fish populations are the sentinels of this shift. [Copyright &y& Elsevier]

Published

2014

4. Atlantic Multidecadal Oscillation (AMO) modulates dynamics of small pelagic fishes and ecosystem regime shifts in the eastern North and Central Atlantic.

Author

Alheit, Jürgen, Licandro, Priscilla, Coombs, Steve, Garcia, Alberto, Giráldez, Ana, Santamaría, Maria Teresa Garcia, Slotte, Aril, and Tsikliras, Athanassios C.

Subjects

*ATLANTIC multidecadal oscillation, *PELAGIC fishes, *MARINE ecology, *ECOLOGICAL regime shifts, *POPULATION biology, *ANCHOVY fisheries

Abstract

Abstract: Dynamics of abundance and migrations of populations of small pelagic clupeoid fish such as anchovy (Engraulis encrasicolus), sardine (Sardina pilchardus), sardinella (Sardinella aurita), sprat (Sprattus sprattus) and herring (Clupea harengus) in the eastern North and Central Atlantic between Senegal and Norway vary in synchrony with the warm and cool phases of the Atlantic Multidecadal Oscillation (AMO). This is shown by compiling retrospective data on fish catches and anecdotal observations, which in some cases date back to the mid-19th century. The AMO is defined as the de-trended mean of North Atlantic (0–60°N) sea surface temperature anomalies. However, it is not primarily the temperature which drives the dynamics of the small pelagic fish populations. Instead, the AMO seems to be a proxy for complex processes in the coupled atmosphere–ocean system of the North Atlantic. This is manifested in large-scale changes in strength and direction of the current system that move water masses around the North Atlantic and likely involves the North Atlantic Oscillation (NAO), the Atlantic Meridional Overturning Circulation (AMOC), the Mediterranean Overflow Water (MOW) and the subpolar gyre (SPG). The contractions and expansions of the SPG apparently play a key role. This was particularly obvious in the mid-1990s, when the SPG abruptly contracted with the result that warm subtropical water masses moved to the north and east. Small pelagic fish populations in the eastern North and Central Atlantic, including those in the Mediterranean responded quickly by changing abundances and migrating northwards. It seems that the complex ocean–atmosphere changes in the mid-1990s, which are described in the text in detail, caused a regime shift in the ecosystems of the eastern North and Central Atlantic and the small pelagic clupeoid fish populations are the sentinels of this shift. [Copyright &y& Elsevier]

Published

2014