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The coupled physical‐new production system in the equatorial Pacific during the 1992–1995 El Niño

Stoens, Anne ; Menkès, Christophe ; Radenac, Marie‐Hélène ; [et al.]

American Geophysical Union (AGU) ; 1999

In: Journal of Geophysical Research: Oceans Vol. 104, No. C2 ( 1999-02-15), p. 3323-3339

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In: Journal of Geophysical Research: Oceans, American Geophysical Union (AGU), Vol. 104, No. C2 ( 1999-02-15), p. 3323-3339

Abstract: We investigate the coupling between the physics and new production variability during the period April 1992 to June 1995 in the equatorial Pacific via two cruises and simulations. The simulations are provided by a high‐resolution Ocean General Circulation Model forced with satellite‐derived weekly winds and coupled to a nitrate transport model in which biology acts as a nitrate sink. The cruises took place in September‐October 1994 and sampled the western Pacific warm pool and the upwelling region further east. The coupled model reproduces these contrasted regimes. In the oligotrophic warm pool the upper layer is fresh, and nitrate‐depleted, and the new production is low. In contrast, the upwelling waters are colder, and saltier with higher nitrate concentrations, and the new production is higher. Along the equator the eastern edge of the warm pool marked by a sharp salinity front, also coincides with a “new production front”. Consistent with the persistent eastward surface currents during the second half of 1994, these fronts undergo huge eastward displacement at the time of the cruises. The warm/fresh pool and oligotrophic region has an average new production of 0.9 mmol NO 3 m −2 d −1 , which is almost balanced by horizontal advection from the central Pacific and by vertical advection of richer water from the nitrate reservoir below. In contrast, the upwelling mesotrophic region shows average new production of 2.1 mmol NO 3 m −2 d −1 and the strong vertical nitrate input by the equatorial upwelling is balanced by the losses, through westward advection and meridional divergence of nitrate rich waters, and by the biological sink.

Type of Medium: Online Resource

ISSN: 0148-0227

URL: Article

DOI: 10.1029/98JC02713

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1999

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SSG: 16,13

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Predicting skipjack tuna forage distributions in the equatorial Pacific using a coupled dynamical bio‐geochemical model

LEHODEY, PATRICK ; ANDRE, JEAN‐MICHEL ; BERTIGNAC, MICHEL ; [et al.]

Wiley ; 1998

In: Fisheries Oceanography Vol. 7, No. 3-4 ( 1998-12), p. 317-325

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In: Fisheries Oceanography, Wiley, Vol. 7, No. 3-4 ( 1998-12), p. 317-325

Abstract: Skipjack tuna ( Katsuwonus pelamis ) contributes ≈70% of the total tuna catch in the Pacific Ocean. This species occurs in the upper mixed‐layer throughout the equatorial region, but the largest catches are taken from the warmpool in the western equatorial Pacific. Analysis of catch and effort data for US purse seine fisheries in the western Pacific has demonstrated that one of the most successful fishing grounds is located in the vicinity of a convergence zone between the warm ( 〉 28–29°C) low‐salinity water of the warmpool and the cold saline water of equatorial upwelling in the central Pacific (Lehodey et al ., 1997). This zone of convergence, identified by a well‐marked salinity front and approximated by the 28.5°C isotherm, oscillates zonally over several thousands of km in correlation with the El Niño–Southern Oscillation. The present study focuses on the prediction of skipjack tuna forage that is expected to be a major factor in explaining the basin‐scale distribution of the stock. It could also explain the close relation between displacements of skipjack tuna and the convergence zone on the eastern edge of the warmpool. A simple bio‐geochemical model was coupled with a general circulation model, allowing reasonable predictions of new primary production in the equatorial Pacific from mid‐1992 to mid‐1995. The biological transfer of this production toward tuna forage was simply parameterized according to the food chain length and redistributed by the currents using the circulation model. Tuna forage accumulated in the convergence zone of the horizontal currents, which corresponds to the warmpool/equatorial upwelling boundary. Predicted forage maxima corresponded well with high catch rates.

Type of Medium: Online Resource

ISSN: 1054-6006 , 1365-2419

URL: Article

DOI: 10.1046/j.1365-2419.1998.00063.x

Language: English

Publisher: Wiley

Publication Date: 1998

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Propagation and reflection of long equatorial waves in the Pacific Ocean during the 1992–1993 El Niño

Boulanger, Jean‐Philippe ; Menkes, Christophe

American Geophysical Union (AGU) ; 1995

In: Journal of Geophysical Research: Oceans Vol. 100, No. C12 ( 1995-12-15), p. 25041-25059

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In: Journal of Geophysical Research: Oceans, American Geophysical Union (AGU), Vol. 100, No. C12 ( 1995-12-15), p. 25041-25059

Abstract: The TOPEX/POSEIDON satellite, together with the Tropical Ocean and Global Atmosphere‐Tropical Atmosphere Ocean (TOGA‐TAO) array, provides oceanographic and atmospheric observations which allow a detailed study of the equatorial Pacific variability. During the November 1992 to December 1993 El Niño period, sea level, dynamic height, wind stress, sea surface temperature, and surface zonal current data derived from TOPEX/POSEIDON and TOGA‐TAO measurements were used to describe the Pacific ocean‐atmosphere system and to understand the role played by long equatorial waves. A potentially important mechanism of the El Niño‐Southern Oscillation (ENSO), commonly referred to as the delayed action oscillator, involves Kelvin and long Rossby waves and their reflections at the Pacific western boundary. In order to investigate if this process was at work during the period under study, a method for projecting TOPEX sea level, TOGA‐TAO dynamic height, and zonal wind stress onto meridional wave structures was designed both in unbounded and bounded regions. The Kelvin and first three Rossby waves of the first baroclinic mode are propagating at theoretical wave speeds in all data sets. Zonal wind stress projections show that oceanic propagating wave features are strongly linked to wind variability. Reflections are then examined at both boundaries. At the eastern boundary most of the signal reflected from incoming Kelvin waves is either counteracted by unfavorable wind forcing or strongly reinforced and therefore does not seem to play a significant role for generating the major Rossby wave signals during the period under study. In the western Pacific, wind forcing, rather than western boundary reflections, appears to be the main trigger for returning Kelvin waves from the western Pacific to the eastern Pacific. Simultaneously with the weakening of the extended 1991–1993 ENSO event, an upwelling Kelvin wave is observed propagating from the western Pacific in September 1993 to the eastern Pacific in November 1993. This scenario is consistent with some features of the delayed action oscillator mechanism, where an upwelling Kelvin wave is systematically seen returning from the western boundary to the east at the end of warm events. However, here, contrary to the delayed action oscillator, most of this returning Kelvin wave seems to be forced by a strong easterly anomaly located in the western Pacific, rather than by reflection of an upwelling first Rossby wave at the western boundary.

Type of Medium: Online Resource

ISSN: 0148-0227

URL: Article

DOI: 10.1029/95JC02956

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1995

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SSG: 16,13

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Evaluation of TOPEX and basin‐wide Tropical Ocean and Global Atmosphere‐Tropical Atmosphere Ocean sea surface topographies and derived geostrophic currents

Menkes, Christophe ; Boulanger, Jean‐Philippe ; Busalacchi, Antonio J.

American Geophysical Union (AGU) ; 1995

In: Journal of Geophysical Research: Oceans Vol. 100, No. C12 ( 1995-12-15), p. 25087-25099

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In: Journal of Geophysical Research: Oceans, American Geophysical Union (AGU), Vol. 100, No. C12 ( 1995-12-15), p. 25087-25099

Abstract: Fields of TOPEX‐derived sea level anomalies are validated against and compared with fields of Tropical Ocean and Global Atmosphere‐Tropical Atmosphere Ocean (TOGA‐TAO) dynamic height anomalies for the first 470 days of the TOPEX/POSEIDON mission. At periods longer than 35 days, TOPEX sea level anomalies compare extremely well with TOGA‐TAO dynamic height anomalies throughout the whole basin, with a mean correlation of 0.79 and mean rms differences of 2.6 cm. Zonal geostrophic current anomalies are then derived from both data sets and validated against in situ current meter measurements at the equator. TOPEX‐derived geostrophic current anomalies at the equator are in good agreement with in situ currents at 0°–165°E, 0°–170°W, 0°–140°W, and 0°–110°W. TOGA‐TAO‐derived current anomalies compare well with in situ currents at 0°–110°W, 0°–140°W, and 0°–170°W, but poor comparisons at 0°–165°E are thought to be linked to the absence of instantaneous salinity measurements in the dynamic height calculation. Despite localized discrepancies, basin‐wide TOGA‐TAO geostrophic currents compare reasonably well with TOPEX‐derived geostrophic currents. The discrepancies in the comparison between TOPEX and TAO are shown to be mostly associated with gaps in TOGA‐TAO space‐time sampling and subsequent gridding procedures.

Type of Medium: Online Resource

ISSN: 0148-0227

URL: Article

DOI: 10.1029/95JC03026

Language: English

Publisher: American Geophysical Union (AGU)

Publication Date: 1995

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