Salvador E. Lluch-Cota scite author profile

In the Pacific Ocean, air and ocean temperatures, atmospheric carbon dioxide, landings of anchovies and sardines, and the productivity of coastal and open ocean ecosystems have varied over periods of about 50 years. In the mid-1970s, the Pacific changed from a cool "anchovy regime" to a warm "sardine regime." A shift back to an anchovy regime occurred in the middle to late 1990s. These large-scale, naturally occurring variations must be taken into account when considering human-induced climate change and the management of ocean living resources.

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Demonstration of a fully-coupled end-to-end model for small pelagic fish using sardine and anchovy in the California Current

Rose

Fiechter

Curchitser

et al. 2015

Progress in Oceanography

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Contrasting spawning temperature optima: Why are anchovy and sardine regime shifts synchronous across the North Pacific?

Takasuka

Oozeki

Kubota

et al. 2008

Progress in Oceanography

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Ocean-color variability in the Gulf of California: scales from days to ENSO

Kahru

Marinone

Lluch-Cota

et al. 2004

Deep Sea Research Part II: Topical Studies in Oceanography

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Coastal upwelling in the eastern Gulf of California

Lluch-Cota

2000

Oceanologica Acta

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Understanding and quantifying upwelling is of great importance for marine resource management. Direct measurement of this process is extremely difficult and observed time-series do not exist. However, proxies are commonly derived from different data; most commonly wind-derived. A local wind-derived coastal upwelling index (CUI) is reported for the period 1970-1996 and is considered representative for the eastern central Gulf of California, an important fishing area where no proxies exist. The index is well related to pigment concentration distribution, surface water temperature, and population dynamics of important fish resources over the seasonal timescale. There is a biological response to ENSO activity not reflected by this index, indicating that improvement of biological enrichment forecasting also requires water column structure input. A clearly increasing seasonal amplitude signal is detected in the coastal upwelling index and sea surface temperature since the mid 1970s. Understanding the nature of these long-term trends, the incorporation of remote tropical ocean signals into the enrichment proxy, the dynamics of atmosphere and ocean, and the biological responses are major challenges to the proper management of fish resources in the Gulf of California. upwelling / Gulf of California / seasonality / climate change Résumé-Upwelling côtier dans l'est du golfe de Californie. Comprendre et évaluer le phénomène d'upwelling est très important pour la gestion des ressources marines. Les mesures directes sont extrêmement difficiles et aucune série temporelle d'observations n'est disponible, mais des estimations sont possibles à partir de données telles que la vitesse du vent. Un indice d'upwelling cô tier (CUI), déterminé dans le présent travail à partir du vent local pour la période 1970-1996, est représentatif de l'upwelling dans l'est du golfe de Californie où se trouve une importante zone de pêche. L'indice est en bon accord, à l'échelle de la saison, avec la répartition des concentrations en pigments, avec la température superficielle de l'eau et la dynamique des populations des ressources halieutiques. La réponse biologique au phénomène ENSO n'apparaît pas dans cet indice, ce qui montre que les apports dans la colonne d'eau doivent être pris en compte pour améliorer la prévision de la fertilité biologique. Un signal saisonnier d'amplitude nettement croissante est observé dans l'indice d'upwelling cô tier et dans la température superficielle de l'eau depuis le milieu des années 70. Comprendre la nature des ces tendances à long terme, incorporer les signaux en provenance de l'océan tropical dans l'évaluation de la fertilité, dans la dynamique de l'atmosphère et de l'océan, et dans les réponses biologiques sont les défis majeurs à relever pour gérer correctement les ressources halieutiques du golfe de Californie.

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