Your search keyword '"Southeast Pacific Ocean"' showing total 4 results

1. Eddy impacts on abundance and habitat distribution of a large predatory squid off Peru.

Author

Jin, Pengchao, Zhang, Yang, Du, Yanlin, Chen, Xinjun, Kindong, Richard, Xue, Huijie, Chai, Fei, and Yu, Wei

Subjects

*MESOSCALE eddies, *OCEAN temperature, *HABITAT suitability index models, *HABITATS, *WATER temperature, *SQUIDS, *CRASSOSTREA

Abstract

The pelagic cephalopod species jumbo flying squid Dosidicus gigas is ecologically and economically important in the Humboldt ecosystem off Peru. This squid species is sensitive to oceanic environmental changes, and regional oceanographical variability is one of the important factors driving its redistribution. Off Peruvian waters, mesoscale eddies are ubiquitous and dominate the biogeochemical processes in this region. This study first explored the role of mesoscale eddies in regulating the environments and their effects on the abundance and habitat distribution of D. gigas off Peru by analyzing squid distribution in eddy-centric coordinates and building a habitat suitability index (HSI) model. Results indicated that the abundance and habitat distribution of D. gigas in mesoscale eddies varied across months, with significant differences observed between anticyclonic eddies (AE) and cyclonic eddies (CE). In AE, a higher abundance and proportion of suitable habitat occurred. While in CE, the abundance was relatively low and the suitable habitat was relatively less, concentrating at the periphery of CE. Based on the HSI model results, sea surface temperature (SST) and 50 m water temperature (T50m) in AE were more favorable for D. gigas , which was 0.3–0.5 °C lower than that in CE, yielding high-quality habitats and higher abundance of D. gigas. Our findings emphasized that mesoscale eddies have a significant impact on water temperature conditions and nutrient concentrations off Peruvian waters. • The eddy-induced changes in Dosidicus gigas distribution were first explored. • Mesoscale eddies have impacts on water temperature and nutrient condition. • A higher abundance of D. gigas and enlarged suitable habitat occurred in anticyclonic eddies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Seasonal habitat patterns of jumbo flying squid Dosidicus gigas off Peruvian waters.

Author

Yu, Wei, Chen, Xinjun, and Zhang, Yang

Subjects

*GEOGRAPHICAL distribution of fishes, *OCEAN temperature, *SQUIDS, *HABITATS, *FISHERY management, LA Nina

Abstract

Abstract Habitat modeling approach is a useful tool to detect potential habitat of pelagic fish species for better fishery exploitation and management. In this study, an integrated habitat modeling approach was applied to examine seasonal habitat patterns of an ecologically and economically important squid species Dosidicus gigas in the Southeast Pacific Ocean off Peruvian waters. Fisheries data of D. gigas and three crucial remotely-sensed environmental variables including sea surface temperature (SST), net primary production (NPP) and sea surface height anomaly (SSHA) during 2006–2015 were used to develop and validate the habitat model. Results revealed that the model output robust predictions of seasonal habitat suitability for D. gigas stock. Potential habitat exhibited strong seasonal variability, characterized by an expansion of suitable habitat during spring-autumn period and an extreme reduction in winter. These seasonal habitat patterns of D. gigas were largely driven by spatial distribution of favorable environmental conditions. Spatial correlation analysis indicated that the habitat quality of D. gigas was negatively correlated with SST in the areas between 8°–15°S and 87°–79°W and with SSHA on the whole fishing ground. However, a negative relationship was found between HSI values and NPP in the east of 84°W, but with a significantly positive correlation in the west of 84°W. In addition, seasonal variations of CPUEs and latitude distribution of fishing efforts were highly coincided with the variability trends in the area of suitable habitats and their latitudinal distributions. Interannual variability was shown in the averaged HSI of D. gigas. Furthermore, comparing to the strong El Niño year in 2015, the La Niña event in 2011 yielded more enlarged favorable regions of each environmental factor in each season, leading to form extremely high-quality habitats. Highlights • A habitat model was built to examine seasonal habitats of jumbo squid off Peru. • Potential habitats of jumbo squid showed significant seasonal spatial patterns. • Environmental conditions strongly affected seasonal habitats of jumbo squid. [ABSTRACT FROM AUTHOR]

Published

2019

3. Low prevalence of microplastic contamination in planktivorous fish species from the southeast Pacific Ocean.

Author

Ory, Nicolas, Chagnon, Catherine, Felix, Fernando, Fernández, César, Ferreira, Joana Lia, Gallardo, Camila, Garcés Ordóñez, Ostin, Henostroza, Aida, Laaz, Enrique, Mizraji, Ricardo, Mojica, Hermes, Murillo Haro, Vladimir, Ossa Medina, Luis, Preciado, Mercy, Sobral, Paula, Urbina, Mauricio A., and Thiel, Martin

Subjects

PLASTIC marine debris, MARINE pollution, FISHES, INGESTION

Abstract

The gut contents of 292 planktivorous fish, from four families (Atherinopsidae, Clupeidae, Engraulidae and Scombridae) and seven species, captured along the coast of the southeast Pacific, were examined for microplastic contamination. Only a small fraction of all studied fish (2.1%; 6 individuals) contained microplastic particles in their digestive tract. Microplastics found were degraded hard fragments and threads, ranging from 1.1 to 4.9 (3.8 ± SD 2.4) mm in length, and of various colours, which suggests that the planktivorous fish species examined herein did not capture microplastics on the basis of their colour. The low prevalence of microplastic contamination in planktivorous fishes found in this study suggests that the risk of accidental ingestion by these species might be limited in the coastal upwelled waters of the southeast Pacific, perhaps due to small human population and highly dynamic oceanographic processes. [ABSTRACT FROM AUTHOR]

Published

2018

4. The spatial structure of the oceanic spawning of jack mackerel (Trachurus murphyi) off central Chile (1998–2001)

Author

Cubillos, Luis A., Paramo, Jorge, Ruiz, Patricia, Núñez, Sergio, and Sepúlveda, Aquiles

Subjects

*PLANKTON, *FISHING nets, *MARINE biology

Abstract

Abstract: The jack mackerel population has a widespread oceanic spawning habitat off central Chile, extending more than one thousand nautical miles offshore. In this paper, the spatial structure of jack mackerel eggs density is analyzed on the basis of four surveys carried out in oceanic waters (32°S–39°S, 75°W–92°W), from 1998 to 2001. In each survey, a grid of plankton stations was sampled through vertical hauls with WP2 plankton nets by using several purse-seine fishing ships sampling simultaneously along the E–W transects. With the aim of finding the bulk of the egg distribution within the surveyed area, an exploratory analysis between jack mackerel egg densities, latitude, longitude, and sea surface temperature (SST) was carried out. The spatial structure of the egg distribution was studied using geostatistical techniques. The bulk of the jack mackerel spawning tends to occur offshore between 80°W and 92°W, is maximal at 35°S and associated to SST warmer than 15–16°C. All of the variograms showed clear spatial autocorrelations without anisotropy, with the range fluctuating between 125 and 252 nautical miles. The range of variograms suggests that the spawning of jack mackerel is a large scale process, probably reflected in the adult behavior of the spawning by favoring a high dispersion of eggs and/or associated with sea surface temperature characterizing the subtropical frontal zone (16–18°C) off central Chile. [Copyright &y& Elsevier]

Published

2008