Chemical Ecology in Aquatic Systems

• Summarizes the state of the art of chemical interactions in aquatic systems, providing a firm foundation for future studies
• Integrates work on marine and freshwater systems in order to foster collaboration between these separate research communities
• Adopts a wide approach to the topic, including research on defence adaptations and chemical signalling
• Includes contributions from the leading researchers in the field

Readership: This accessible, research level text is aimed at graduate students and professional researchers in the fields of limnology, marine ecology, evolutionary biology, behavioural ecology, and chemical ecology.

Edited by Christer Brönmark, Lund University, Sweden, and Lars-Anders Hansson, Lund University, Sweden

Christer Brönmark is a professor of Limnology at the Department of Biology/Limnology at Lund University, Sweden. His main research interests resolve around the importance of indirect interactions in freshwater food webs and how these affect the structure and function of lake ecosystems. Here, chemical cues from predators have been shown to affect the behaviour and morphology of their prey and such trait-mediated interactions may in turn affect organisms at lower trophic levels. A spectacular example of an inducible morphological defence was shown in the Crucian carp that responded to diet-related chemical cues from piscivorus fish by increasing their body depth. Brönmark has published more than 80 papers in international, peer-reviewed journals and has published a textbook (The Biology of Lakes and Ponds) at OUP (together with Lars-Anders Hansson). Besides research Brönmark has long experience of teaching at both the undergraduate and the graduate levels.

Lars-Anders Hansson is a professor of Limnology at the Department of Biology/Limnology at Lund University, Sweden. His main research interests includes direct and indirect interactions in freshwater systems, specifically how organisms use plastic traits and chemical cues to simultaneously handle and compromise among multiple threats. He has performed studies on most aquatic organisms, but the main focus has been on free swimming plankton organisms and the mechanisms behind their migration and movements. Within this research area he has introduced nanoparticles as tracking devices, allowing studies on behaviour, responses to chemical cues and migratory patterns of these small organisms. Hansson is also teaching at undergraduate and graduate courses in aquatic ecology and has a long publication record and has, together with Christer Brönmark written a text book in Limnology (The Biology of Lakes and Ponds) and also co-edited a book on Lake restoration (together with Eva Bergman).

Christer Brönmark and Lars-Anders Hansson: Chemical ecology of aquatic systems - an introduction
1: Jelle Atema: Aquatic odour dispersal fields: opportunities and limits of detection, communication, and navigation
2: Eric von Elert: Information conveyed by chemical cues
3: Thomas Breithaupt and Jörg D. Hardege: Pheromones mediating sex and dominance in aquatic animals
4: Gabriele Gerlach and Cornelia Hinz: Chemical signals and kin biased behaviour
5: Gabriele Gerlach and Jelle Atema: The use of chemical cues in habitat recognition and settlement
6: Ole B. Stabell: Migration and navigation
7: Marc Weissburg: Death from downstream: chemosensory navigation and predator-prey processes
8: Linda Weiss, Christian Laforsch, and Ralph Tollrian: The taste of predation and the defences of prey
9: Douglas P. Chivers, Grant E. Brown, and Maud C.O. Ferrari: The evolution of alarm substances and disturbance cues in aquatic animals
10: Andrew M. Turner and Scott D. Peacor: Scaling up infochemicals: ecological consequences of chemosensory assessment of predation risk
11: Charles D. Derby and Richard K. Zimmer: Neuroecology of predator-prey interactions
12: Ulrich K. Steiner and Josh R. Auld: Why is the jack of all trades a master of none? Studying the evolution of inducible defences in aquatic systems
13: Georg Pohnert: How to explore the sometimes unusual chemistry of aquatic defence chemicals
14: Elisabeth M. Gross, Catherine Legrand, Karin Rengefors, and Urban Tillmann: Allelochemical interactions among aquatic primary producers
15: Henrik Pavia, Finn Baumgartner, Gunnar Cervin, Swantje Enge, Julia Kubanek, Göran M. Nylund, Erik Selander, J. Robin Svensson, and Gunilla B. Toth: Chemical defences against herbivores
16: Cynthia Kicklighter: Chemical defences against predators
17: Miquel Lürling: Info-disruption: pollutants interfering with the natural chemical information conveyance in aquatic systems
18: Christer Brönmark and Lars-Anders Hansson: Aquatic chemical ecology: new directions and challenges for the future
Index