Larval fish body growth responses to simultaneous browning and warming.

Magnus Huss,Anna Gårdmark,Renee M Van Dorst

doi:10.1002/ece3.8194

Abstract

Organisms are facing global climate change and other anthropogenic pressures, but most research on responses to such changes only considers effects of single drivers. Observational studies and physiological experiments suggest temperature increases will lead to faster growth of small fish. Whether this effect of warming holds in more natural food web settings with concurrent changes in other drivers, such as darkening water color (“browning”) is, however, unknown. Here, we set up a pelagic mesocosm experiment with large bags in the Baltic Sea archipelago, inoculated with larval Eurasian perch (Perca fluviatilis) and zooplankton prey and varying in temperature and color, to answer the question how simultaneous warming and browning of coastal food webs impact body growth and survival of larval perch. We found that browning decreased body growth and survival of larval perch, whereas warming increased body growth but had no effect on survival. Based on daily fish body growth estimates based on otolith microstructure analysis, and size composition and abundance of available prey, we explain how these results may come about through a combination of physiological responses to warming and lower foraging efficiency in brown waters. We conclude that larval fish responses to climate change thus may depend on the relative rate and extent of both warming and browning, as they may even cancel each other out.

Highlights

With global climate change, many natural populations are forced to face novel combinations of environmental conditions
We ask (1) how warmer and browner waters affect larval fish body growth and survival using the Eurasian perch (Perca fluviatilis), which is a common omnivorous fish species in freshwaters and coastal areas in the Baltic Sea region (Olsson, 2019), as our study species and (2) the extent to which those responses are mediated by shifts in the biomass of their zooplankton prey
Treatment differences in zooplankton biomass and chl a concentrations over time were analyzed with mixed-design analyses of variance models with temperature and color as between-mesocosm variables and date as a random within-mesocosm variable using the package afex in R (Singmann et al, 2018)

Summary

| INTRODUCTION

Many natural populations are forced to face novel combinations of environmental conditions. We ask (1) how warmer and browner waters affect larval fish body growth and survival using the Eurasian perch (Perca fluviatilis), which is a common omnivorous fish species in freshwaters and coastal areas in the Baltic Sea region (Olsson, 2019), as our study species and (2) the extent to which those responses are mediated by shifts in the biomass of their zooplankton prey To this end, we performed a fully factorial experiment of warming and browning in pelagic mesocosms in two adjacent areas in the Baltic Sea archipelago: an artificially heated coastal bay and a natural area with ambient temperatures. We find strong but contrasting effects of warming and browning on larval perch body growth and survival

| MATERIALS AND METHODS

Findings

| DISCUSSION