TY - JOUR
T1 - Heat waves and their significance for a temperate benthic community
T2 - A near-natural experimental approach
AU - Pansch, Christian
AU - Scotti, Marco
AU - Barboza, Francisco R.
AU - Al-Janabi, Balsam
AU - Brakel, Janina
AU - Briski, Elizabeta
AU - Bucholz, Björn
AU - Franz, Markus
AU - Ito, Maysa
AU - Paiva, Filipa
AU - Saha, Mahasweta
AU - Sawall, Yvonne
AU - Weinberger, Florian
AU - Wahl, Martin
N1 - Funding Information:
This project was partly funded by Helmholtz and by GEOMAR as well as by the Cluster of Excellence ?The Future Ocean?. The ?Future Ocean? is funded within the framework of the Excellence Initiative by the Deutsche Forschungsgemeinschaft (DFG) on behalf of the German federal and state governments. FRB acknowledges the financial support of the German Academic Exchange Service (DAAD) through the project Doctoral Programmes in Germany 2015/16 (57129429). MI acknowledges financial support of CAPES foundation (Ministry of Education of Brazil) through the Doctoral Programme (process number: 99999.001303/2015-05). MS acknowledges funding from the Cluster of Excellence project CP1215 through a Post-Doctoral Research Grant. BA acknowledges financial support from the Project BIOACID II of the German Federal Ministry of Education and Research (BMBF; FKZ 03F0655, A). JB acknowledges financial support by the Deutsche Bundesstiftung Umwelt (DBU) through the PhD scholarship programme. EB acknowledges funding from the Alexander von Humboldt Sofja Kovalevskaja Award. We thank Frauke Nevoigt, Ute Hecht und Karl Bumke for providing the temperature data set. We also thank Rainer Kiko for handling temperature data sets and for providing ZooScan. We thank Frank Melzner for intellectual input on the heat wave design. We also thank all research divers for species collections. Renate Sch?tt, Philipp Neitzel and Anna-Lena Kolze identified the species. We also thank the following persons for practical support during the experiment (alphabetical order): Miriam Beck, S?nke Beween, Patrick Bla?, Dennis Brennecke, Isabel Casties, Ricarda Christ, Moritz Ehrlich, Julia Gocks, Chi Guan, Giannina Hattich, Kosmas Hensch, Stefanie Ismar, Ulrike J?ger, Sarah Kaehlert, Clarissa Karth?user, Mandy Kierspel, Joana Kollert, Tim Lachnit, Serra ?rey, Fin-Ole Petersen, Julia Raab, Vincent Saderne, Lara Schmittmann, Sabrina Schneider, Jennifer Schulze, Nadja St?rck, Angela Stippkugel, Jenny Tamm, Fabian Wendt, and Levin Wieschermann for help during the experiment.
Publisher Copyright:
© 2018 John Wiley & Sons Ltd
Copyright:
Copyright 2018 Elsevier B.V., All rights reserved.
PY - 2018/9
Y1 - 2018/9
N2 - Climate change will not only shift environmental means but will also increase the intensity of extreme events, exerting additional stress on ecosystems. While field observations on the ecological consequences of heat waves are emerging, experimental evidence is rare, and lacking at the community level. Using a novel “near-natural” outdoor mesocosms approach, this study tested whether marine summer heat waves have detrimental consequences for macrofauna of a temperate coastal community, and whether sequential heat waves provoke an increase or decrease of sensitivity to thermal stress. Three treatments were applied, defined and characterized through a statistical analysis of 15 years of temperature records from the experimental site: (1) no heat wave, (2) two heat waves in June and July followed by a summer heat wave in August and (3) the summer heat wave only. Overall, 50% of the species showed positive, negative or positive/negative responses in either abundance and/or biomass. We highlight four possible ways in which single species responded to either three subsequent heat waves or one summer heat wave: (1) absence of a response (tolerance, 50% of species), (2) negative accumulative effects by three subsequent heat waves (tellinid bivalve), (3) buffering by proceeding heat waves due to acclimation and/or shifts in phenology (spionid polychaete) and (4) an accumulative positive effect by subsequent heat waves (amphipod). The differential responses to single or sequential heat waves at the species level entailed shifts at the community level. Community-level differences between single and triple heat waves were more pronounced than those between regimes with vs. without heat waves. Detritivory was reduced by the single heat wave while suspension feeding was less common in the triple heat wave regime. Critical extreme events occur already today and will occur more frequently in a changing climate, thus, leading to detrimental impacts on coastal marine systems.
AB - Climate change will not only shift environmental means but will also increase the intensity of extreme events, exerting additional stress on ecosystems. While field observations on the ecological consequences of heat waves are emerging, experimental evidence is rare, and lacking at the community level. Using a novel “near-natural” outdoor mesocosms approach, this study tested whether marine summer heat waves have detrimental consequences for macrofauna of a temperate coastal community, and whether sequential heat waves provoke an increase or decrease of sensitivity to thermal stress. Three treatments were applied, defined and characterized through a statistical analysis of 15 years of temperature records from the experimental site: (1) no heat wave, (2) two heat waves in June and July followed by a summer heat wave in August and (3) the summer heat wave only. Overall, 50% of the species showed positive, negative or positive/negative responses in either abundance and/or biomass. We highlight four possible ways in which single species responded to either three subsequent heat waves or one summer heat wave: (1) absence of a response (tolerance, 50% of species), (2) negative accumulative effects by three subsequent heat waves (tellinid bivalve), (3) buffering by proceeding heat waves due to acclimation and/or shifts in phenology (spionid polychaete) and (4) an accumulative positive effect by subsequent heat waves (amphipod). The differential responses to single or sequential heat waves at the species level entailed shifts at the community level. Community-level differences between single and triple heat waves were more pronounced than those between regimes with vs. without heat waves. Detritivory was reduced by the single heat wave while suspension feeding was less common in the triple heat wave regime. Critical extreme events occur already today and will occur more frequently in a changing climate, thus, leading to detrimental impacts on coastal marine systems.
KW - Baltic Sea
KW - benthic temperate community
KW - climate extremes
KW - community experiment
KW - marine heat waves
KW - near-natural experiment
UR - http://www.scopus.com/inward/record.url?scp=85047452976&partnerID=8YFLogxK
U2 - 10.1111/gcb.14282
DO - 10.1111/gcb.14282
M3 - Article
C2 - 29682862
AN - SCOPUS:85047452976
SN - 1354-1013
VL - 24
SP - 4357
EP - 4367
JO - Global Change Biology
JF - Global Change Biology
IS - 9
ER -