Latitudinal distribution of mesozooplankton in the off-equatorial northeastern Pacific before and after the 1998/99 La Niña event

Factors affecting mesozooplankton distributions in the northeastern tropical Pacific Ocean were investigated using data obtained along a meridian line (5°–12°N, 131.5°W) in the summers of 1998, 1999, and 2003. The survey periods corresponded to a sharp transition between the 1997–1998 El Niño and 19...

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Published in:Marine environmental research 2008-04, Vol.65 (3), p.218-234
Main Authors: Kang, Jung-Hoon, Kim, Woong-Seo, Chang, Kyung-Il
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Biological and medical sciences
Biomass
Chlorophyll
Chlorophyll - analysis
Clausocalanus
Eastern tropical pacific
ENSO
Environmental Monitoring
Fundamental and applied biological sciences. Psychology
Marine
Mesozooplankton
Nitrate
Nitrates - analysis
Oncaea
Oxygen - analysis
Pacific Ocean
Population Density
Population Dynamics
Sea water ecosystems
Seasons
Synecology
Temperature
Thermocline
Upwelling
Weather
Zooplankton - growth & development
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description Factors affecting mesozooplankton distributions in the northeastern tropical Pacific Ocean were investigated using data obtained along a meridian line (5°–12°N, 131.5°W) in the summers of 1998, 1999, and 2003. The survey periods corresponded to a sharp transition between the 1997–1998 El Niño and 1998–1999 La Niña events, the 1999 La Niña event, and near-normal conditions after the moderate 2002–2003 El Niño in the equatorial Pacific. A strong upwelling in the divergence zone from 10.5° to 11°N caused a shoaling of the thermocline depth (∼30 m), resulting in increases in nitrate and phytoplankton chlorophyll a (chl- a) concentrations, and, in turn, mesozooplankton abundance during the La Niña in 1999. In contrast, in 1998, remnants of El Niño characteristics, deeper thermocline depth (60–150 m) and warm surface water (>28 °C), led to low concentrations of nitrate, chl- a and low mesozooplankton abundance, except in the convergence zone around 7°N. The thermocline depth and nitrate concentration obtained during the near-normal period in 2003 corresponded to intermediate values as compared to those obtained during El Niño and La Niña conditions. Interannual changes in the position and strength of ecotones, such as divergence and convergence zones, affected mesozooplankton community structure and cyclopoid-to-calanoid ratios along the 131.5°W meridian line. The clustering pattern of the mesozooplankton community was mostly characterized by calanoid (mainly Clausocalanus sp.) and cyclopoid (mainly Oncaea sp.) copepods, accounting for most of the observed differences among groups during the study period. Cyclopoids and calanoids were more abundant in 1999 than in 1998 or 2003, with a sharp increase to the north, while they were less abundant to the north in 1998 and 2003. The cyclopoid-to-calanoid ratio peaked in the convergence zone in 1998 and the divergence zones in 1999 and 2003, apparently due to the strength and location of the ecotones. Principal component analysis (PCA) with environmental factors and dominant mesozooplankton groups showed that dominant groups were affected by nitrate and chl- a concentrations in 1998, by sigma- t (water density), nitrate and chl- a concentrations in 1999, and by sigma- t, salinity and chl- a concentration (except siphonophores) in 2003. Latitudinal distribution of thermocline depth before and after the 1998/99 La Niña event showed a distinct interannual difference. The abundance of mesozooplankton in the divergence zone
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Interannual changes in the position and strength of ecotones, such as divergence and convergence zones, affected mesozooplankton community structure and cyclopoid-to-calanoid ratios along the 131.5°W meridian line. The clustering pattern of the mesozooplankton community was mostly characterized by calanoid (mainly Clausocalanus sp.) and cyclopoid (mainly Oncaea sp.) copepods, accounting for most of the observed differences among groups during the study period. Cyclopoids and calanoids were more abundant in 1999 than in 1998 or 2003, with a sharp increase to the north, while they were less abundant to the north in 1998 and 2003. The cyclopoid-to-calanoid ratio peaked in the convergence zone in 1998 and the divergence zones in 1999 and 2003, apparently due to the strength and location of the ecotones. 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The survey periods corresponded to a sharp transition between the 1997–1998 El Niño and 1998–1999 La Niña events, the 1999 La Niña event, and near-normal conditions after the moderate 2002–2003 El Niño in the equatorial Pacific. A strong upwelling in the divergence zone from 10.5° to 11°N caused a shoaling of the thermocline depth (∼30 m), resulting in increases in nitrate and phytoplankton chlorophyll a (chl- a) concentrations, and, in turn, mesozooplankton abundance during the La Niña in 1999. In contrast, in 1998, remnants of El Niño characteristics, deeper thermocline depth (60–150 m) and warm surface water (&gt;28 °C), led to low concentrations of nitrate, chl- a and low mesozooplankton abundance, except in the convergence zone around 7°N. The thermocline depth and nitrate concentration obtained during the near-normal period in 2003 corresponded to intermediate values as compared to those obtained during El Niño and La Niña conditions. Interannual changes in the position and strength of ecotones, such as divergence and convergence zones, affected mesozooplankton community structure and cyclopoid-to-calanoid ratios along the 131.5°W meridian line. The clustering pattern of the mesozooplankton community was mostly characterized by calanoid (mainly Clausocalanus sp.) and cyclopoid (mainly Oncaea sp.) copepods, accounting for most of the observed differences among groups during the study period. Cyclopoids and calanoids were more abundant in 1999 than in 1998 or 2003, with a sharp increase to the north, while they were less abundant to the north in 1998 and 2003. The cyclopoid-to-calanoid ratio peaked in the convergence zone in 1998 and the divergence zones in 1999 and 2003, apparently due to the strength and location of the ecotones. Principal component analysis (PCA) with environmental factors and dominant mesozooplankton groups showed that dominant groups were affected by nitrate and chl- a concentrations in 1998, by sigma- t (water density), nitrate and chl- a concentrations in 1999, and by sigma- t, salinity and chl- a concentration (except siphonophores) in 2003. Latitudinal distribution of thermocline depth before and after the 1998/99 La Niña event showed a distinct interannual difference. The abundance of mesozooplankton in the divergence zone in 1999 was distinctively higher than abundances found in the convergence and divergence zones in 1998 and 2003, which resulted from the shallow thermocline depth due to an intensified upwelling during the strong 1998–1999 La Niña event.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><pmid>18093643</pmid><doi>10.1016/j.marenvres.2007.10.003</doi><tpages>17</tpages></addata></record>
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ispartof Marine environmental research, 2008-04, Vol.65 (3), p.218-234
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source ScienceDirect Journals
subjects Animal and plant ecology
Animal, plant and microbial ecology
Animals
Biological and medical sciences
Biomass
Chlorophyll
Chlorophyll - analysis
Clausocalanus
Eastern tropical pacific
ENSO
Environmental Monitoring
Fundamental and applied biological sciences. Psychology
Marine
Mesozooplankton
Nitrate
Nitrates - analysis
Oncaea
Oxygen - analysis
Pacific Ocean
Population Density
Population Dynamics
Sea water ecosystems
Seasons
Synecology
Temperature
Thermocline
Upwelling
Weather
Zooplankton - growth & development
title Latitudinal distribution of mesozooplankton in the off-equatorial northeastern Pacific before and after the 1998/99 La Niña event
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