Temperature effects on vital rates of different life stages and implications for population growth of Baltic sprat

Authored by Myron A Peck, Christoph Petereit, Catriona Clemmesen, Holger Haslob, Helena Hauss, Gerd Kraus

Date Published: 2012

DOI: 10.1007/s00227-012-1933-6

Sponsors: German Research Foundation (Deutsche Forschungsgemeinschaft, DFG)

Platforms: No platforms listed

Model Documentation: Other Narrative Flow charts Mathematical description

Model Code URLs: Model code not found

Abstract

Baltic sprat (Sprattus sprattus balticus S.) is a key species in the pelagic ecosystem of the Baltic Sea. Most stocks of small pelagic species are characterized by natural, fishery-independent fluctuations, which make it difficult to predict stock development. Baltic sprat recruitment is highly variable, which can partly be related to climate-driven variability in hydrographic conditions. Results from experimental studies and field observations demonstrate that a number of important life history traits of sprat are affected by temperature, especially the survival and growth of early life stages. Projected climate-driven warming may impact important processes affecting various life stages of sprat, from survival and development during the egg and larval phases to the reproductive output of adults. This study presents a stage-based matrix model approach to simulate sprat population dynamics in relation to different climate change scenarios. Data obtained from experimental studies and field observations were used to estimate and incorporate stage-specific growth and survival rates into the model. Model-based estimates of population growth rate were affected most by changes in the transition probability of the feeding larval stage at all temperatures (+0, +2, +4, +6 A degrees C). The maximum increase in population growth rate was expected when ambient temperature was elevated by 4 A degrees C. Coupling our stage-based model and more complex, biophysical individual-based models may reveal the processes driving these expected climate-driven changes in Baltic Sea sprat population dynamics.

Tags

Climate-change Vertical-distribution Environmental variability Herring clupea-harengus Coastal waters Feeding ecology Of-the-year Stock-recruitment relationships Zooplankton dynamics Larval survival