Crustacean zooplankton in lakes and reservoirs of temperate and tropical regions: variation with trophic status

Pinto‐Coelho, Ricardo Motta; Pinel‐Alloul, Bernadette; Méthot, Ginette; Havens, Karl E.

doi:10.1139/f04-178

Cited by 170 publications

(132 citation statements)

References 33 publications

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“…As for the metazoan zooplankton community structure, most of the studies attempted to elucidate the distribution pattern with gradients of geographic region and trophic status (Hwang and Heath, 1997;Pinto-Coelho et al, 2005). Small omnivorous cladocerans and copepods are widely accepted to be usually dominated in subtropical eutrophic lakes (Wang et al, 2007).…”

Section: Discussionmentioning

confidence: 99%

Modelling ecosystem structure and trophic interactions in a typical cyanobacterial bloom-dominated shallow Lake Dianchi, China

Shan

Wang

et al. 2014

Ecological Modelling

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Section: Discussionmentioning

confidence: 99%

Modelling ecosystem structure and trophic interactions in a typical cyanobacterial bloom-dominated shallow Lake Dianchi, China

Shan

Wang

et al. 2014

Ecological Modelling

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“…While calanoids occupied a distinct position, in association with more oligotrophic reservoirs (Mornaguia and Ghdir El Goulla). Calanoid copepods were the dominant species under oligomesotrophic conditions (Pinto-Coelho et al, 2005). …”

Section: Discussionmentioning

confidence: 99%

Distribution of zooplankton related to environmental factors in three interconnected reservoirs: Kasseb, Mornaguia and Ghdir El Goulla (North of Tunisia)

Sellami

Ayadi²,

Bouaïn³

et al. 2009

Ann. Limnol. - Int. J. Lim.

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-The spatial and temporal distribution of zooplankton and environmental parameters in Kasseb, Mornaguia and Ghdir El Goulla reservoirs (North of Tunisia) were studied monthly from July to December 2002 in order to establish seasonal patterns, biotic and abiotic relationships for these reservoirs. In Kasseb reservoir, the zooplankton community was dominated by Acanthocyclops sp. (37.3% of total zooplankton density) and Bosmina longirostris (32.6% of total zooplankton density). In Mornaguia and Ghdir El Goulla, Copidodiaptomus numidicus was the most abundant species with 62.1% and 97.5% of total zooplankton density respectively. Our study indicated that the zooplankton community of Ghdir El Goulla reservoir was influenced by the impact of internal environmental factors and artificially introduced water from the two Kasseb and Mornaguia reservoirs. Highest density of zooplankton species was recorded in Kasseb reservoir, which indicated an increased tendency for eutrophication. Mornaguia and Ghdir El Goulla are oligo-mesotrophic reservoirs. Understanding the relationship between the zooplankton community and temporal distribution is important for the understanding of trophic interactions within these reservoirs.

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“…B. Bunnell, unpublished data). The biomass of these preferred zooplankton taxa does not always increase with chlorophyll concentrations (Bremigan and Stein 2001;Bunnell et al 2003;Pinto-Coelho et al 2005). In fact, rotifers can dominate the zooplankton biomass of the most productive Ohio reservoirs, such as Acton Lake (Bunnell et al 2003).…”

Section: Discussionmentioning

confidence: 99%

Predicting Crappie Recruitment in Ohio Reservoirs with Spawning Stock Size, Larval Density, and Chlorophyll Concentrations

Bunnell

Hale

Vanni

et al. 2006

N American J Fish Manag

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Abstract.-Stock-recruit models typically use only spawning stock size as a predictor of recruitment to a fishery. In this paper, however, we used spawning stock size as well as larval density and key environmental variables to predict recruitment of white crappies Pomoxis annularis and black crappies P. nigromaculatus, a genus notorious for variable recruitment. We sampled adults and recruits from 11 Ohio reservoirs and larvae from 9 reservoirs during 1998-2001. We sampled chlorophyll as an index of reservoir productivity and obtained daily estimates of water elevation to determine the impact of hydrology on recruitment. Akaike's information criterion (AIC) revealed that Ricker and Beverton-Holt stock-recruit models that included chlorophyll best explained the variation in larval density and age-2 recruits. Specifically, spawning stock catch per effort (CPE) and chlorophyll explained 63-64% of the variation in larval density. In turn, larval density and chlorophyll explained 43-49% of the variation in age-2 recruit CPE. Finally, spawning stock CPE and chlorophyll were the best predictors of recruit CPE (i.e., 74-86%). Although larval density and recruitment increased with chlorophyll, neither was related to seasonal water elevation. Also, the AIC generally did not distinguish between Ricker and Beverton-Holt models. From these relationships, we concluded that crappie recruitment can be limited by spawning stock CPE and larval production when spawning stock sizes are low (i.e., CPE , 5 crappies/net-night). At higher levels of spawning stock sizes, spawning stock CPE and recruitment were less clearly related. To predict recruitment in Ohio reservoirs, managers should assess spawning stock CPE with trap nets and estimate chlorophyll concentrations. To increase crappie recruitment in reservoirs where recruitment is consistently poor, managers should use regulations to increase spawning stock size, which, in turn, should increase larval production and recruits to the fishery.

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Crustacean zooplankton in lakes and reservoirs of temperate and tropical regions: variation with trophic status

Cited by 170 publications

References 33 publications

Modelling ecosystem structure and trophic interactions in a typical cyanobacterial bloom-dominated shallow Lake Dianchi, China

Modelling ecosystem structure and trophic interactions in a typical cyanobacterial bloom-dominated shallow Lake Dianchi, China

Distribution of zooplankton related to environmental factors in three interconnected reservoirs: Kasseb, Mornaguia and Ghdir El Goulla (North of Tunisia)

Predicting Crappie Recruitment in Ohio Reservoirs with Spawning Stock Size, Larval Density, and Chlorophyll Concentrations

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