Anna Lemieszek scite author profile

Anna Lemieszek

5Publications

29Citation Statements Received

114Citation Statements Given

How they've been cited

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142

Affiliations

Maritime Institute in Gdansk, University of Gdańsk

Publications

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Population modelling of <i>Acartia</i> spp. in a water column ecosystem model for the South-Eastern Baltic Sea

et al. 2010

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Abstract. This paper describes numerical simulations of the seasonal dynamics of Acartia spp. in the South-Eastern Baltic Sea. The studies were carried out using a structured zooplankton population model adapted to Acartia spp. The population model with state variables for eggs, nauplii, five copepodites stages and adults was coupled with a marine ecosystem model. Four state variables for the carbon cycle represent the functional units of phytoplankton, pelagic detritus, benthic detritus, and bulk zooplankton, which represent all zooplankton other than the structured population. The annual cycle simulated for 2000 under realistic weather and hydrographic conditions was studied with the coupled ecosystem-zooplankton model applied to a water column in the Gdansk Gulf (South-Eastern Baltic Sea). The vertical profiles of selected state variables were compared to the physical forcing to study differences between bulk and structured zooplankton biomass. The simulated population dynamics of Acartia spp. and zooplankton as one biomass state variable were compared with observations in the Gdansk Gulf. Simulated generation times are more affected by temperature than food conditions except during the spring phytoplankton bloom. The numerical studies are a following step in understanding how the population dynamics of a dominant species in the South-Eastern Baltic Sea interact with the environment.

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Seasonal variability in the population dynamics of the main mesozooplankton species in the Gulf of Gdańsk (southern Baltic Sea): Production and mortality rates

et al. 2015

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Parameterisation of a population model for Acartia spp. in the southern Baltic Sea. Part 1. Development time

Dzierzbicka-Głowacka

Lemieszek²,

Żmijewska³

2009

OCEANOLOGIA

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According to the results of recent research, besides the atmospheric circulation, it is heat transport to the Arctic Ocean (AO) by ocean currents, the West Spitsbergen Current (WSC) in particular, that is playing a significant role in the process of Arctic warming. Data collected by the Institute of Oceanology, Polish Academy of Sciences (IO PAS), in the Norwegian and Greenland Seas, and Fram Strait during the last 20 years reveal considerable changes in the amount of heat transported by the WSC into the Arctic Ocean. An increase in Atlantic Water (AW) temperature and the intensification of heat transport were observed in *

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Population dynamics of the main copepod species in the Gulf of Gdańsk (the southern Baltic Sea): abundance, biomass and production rates

Musialik-Koszarowska

Dzierzbicka-Głowacka

Kalarus

et al. 2016

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The Interannual Changes in the Secondary Production and Mortality Rate of Main Copepod Species in the Gulf of Gdańsk (The Southern Baltic Sea)

Dzierzbicka-Głowacka¹,

Musialik-Koszarowska²,

Kalarus³

et al. 2019

Preprint

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The main objective of this paper was description of seasonal and interannual trends in secondary production and mortality rates of the three most important Copepoda taxa in the Gulf of Gdańsk (southern Baltic Sea). Samples were collected monthly from 6 stations located in the western part of the Gulf of Gdańsk during three research periods: 1998-2000, 2006-2007 and 2010-2012. Production was computed basing on copepod biomass and mortality rates estimated according to vertical life table approach. Redundancy analysis was used to investigate relationship between secondary production and environmental conditions. Considering the entire research period there was significant interannual and seasonal variability of secondary production, mortality rate as well as abundance and biomass anomalies. Conducted analysis revealed correlation between increasing temperature and production of Acartia spp. and T.longicornis developmental stages, while older copepodites of P.acuspes showed almost negative correlation with temperature. The mortality rate estimations obtained for Acartia spp. Were highest in summer, while for T.longicornis peak was usually noted in spring-summer period. Lowest mortality rate estimations were noted in autumn and winter for almost all stages of investigated taxa.

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Anna Lemieszek

Population modelling of <i>Acartia</i> spp. in a water column ecosystem model for the South-Eastern Baltic Sea

Seasonal variability in the population dynamics of the main mesozooplankton species in the Gulf of Gdańsk (southern Baltic Sea): Production and mortality rates

Parameterisation of a population model for Acartia spp. in the southern Baltic Sea. Part 1. Development time

Population dynamics of the main copepod species in the Gulf of Gdańsk (the southern Baltic Sea): abundance, biomass and production rates

The Interannual Changes in the Secondary Production and Mortality Rate of Main Copepod Species in the Gulf of Gdańsk (The Southern Baltic Sea)

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Anna Lemieszek

Population modelling of &lt;i&gt;Acartia&lt;/i&gt; spp. in a water column ecosystem model for the South-Eastern Baltic Sea

Seasonal variability in the population dynamics of the main mesozooplankton species in the Gulf of Gdańsk (southern Baltic Sea): Production and mortality rates

Parameterisation of a population model for Acartia spp. in the southern Baltic Sea. Part 1. Development time

Population dynamics of the main copepod species in the Gulf of Gdańsk (the southern Baltic Sea): abundance, biomass and production rates

The Interannual Changes in the Secondary Production and Mortality Rate of Main Copepod Species in the Gulf of Gdańsk (The Southern Baltic Sea)

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Population modelling of <i>Acartia</i> spp. in a water column ecosystem model for the South-Eastern Baltic Sea