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« Previous AbstractPredator-induced defences in Daphnia longicephala: location of kairomone receptors and timeline of sensitive phases to trait formation    Next AbstractSensory Ecology of Predator-Induced Phenotypic Plasticity »

Curr Biol


Title:Rising pCO(2) in Freshwater Ecosystems Has the Potential to Negatively Affect Predator-Induced Defenses in Daphnia
Author(s):Weiss LC; Potter L; Steiger A; Kruppert S; Frost U; Tollrian R;
Address:"Department of Animal Ecology, Evolution & Biodiversity, Ruhr University Bochum NDEF 05/750 Universitaetsstrasse 150, D-44780 Bochum, Germany. Electronic address: linda.weiss@rub.de. Department of Animal Ecology, Evolution & Biodiversity, Ruhr University Bochum NDEF 05/750 Universitaetsstrasse 150, D-44780 Bochum, Germany. Ruhrverband, Kronprinzenstrasse 37, 45128 Essen, Germany"
Journal Title:Curr Biol
Year:2018
Volume:20180111
Issue:2
Page Number:327 - 332
DOI: 10.1016/j.cub.2017.12.022
ISSN/ISBN:1879-0445 (Electronic) 0960-9822 (Linking)
Abstract:"Anthropogenically released CO(2) accumulates in the global carbon cycle and is anticipated to imbalance global carbon fluxes [1]. For example, increased atmospheric CO(2) induces a net air-to-sea flux where the oceans take up large amounts of atmospheric CO(2) (i.e., ocean acidification [2-5]). Research on ocean acidification is ongoing, and studies have demonstrated the consequences for ecosystems and organismal biology with major impacts on marine food webs, nutrient cycles, overall productivity, and biodiversity [6-9]. Yet, surprisingly little is known about the impact of anthropogenically caused CO(2) on freshwater systems due to their more complex biogeochemistry. The current consensus, yet lacking data evidence, is that anthropogenic CO(2) does indeed affect freshwater carbon hydrogeochemistry, causing increased pCO(2) in freshwater bodies [10-13]. We analyzed long-term data from four freshwater reservoirs and observed a continuous pCO(2) increase associated with a decrease in pH, indicating that not only the oceans but also inland waters are accumulating CO(2). We tested the effect of pCO(2)-dependent freshwater acidification using the cosmopolite crustacean Daphnia. For general validity, control pCO(2)-levels were based on the present global pCO(2) average. Treatments were selected with very high pCO(2) levels, assuming a continuous non-linear increase of pCO(2), reflecting worst-case-scenario future pCO(2) levels. Such levels of elevated pCO(2) reduced the ability of Daphnia to sense its predators and form adequate inducible defenses. We furthermore determined that pCO(2) and not the resulting reduction in pH impairs predator perception. If pCO(2) alters chemical communication between freshwater species, this perturbs intra- and interspecific information transfer, which may affect all trophic levels"
Keywords:Animals Carbon Dioxide/*chemistry Daphnia/*physiology Ecosystem *Food Chain Fresh Water/*chemistry Olfactory Perception Pheromones/physiology Chaoborus Daphnia longicephala Daphnia pulex Notonecta climate change freshwater acidification inducible defenses;
Notes:"MedlineWeiss, Linda C Potter, Leonie Steiger, Annika Kruppert, Sebastian Frost, Uwe Tollrian, Ralph eng Research Support, Non-U.S. Gov't England 2018/01/18 Curr Biol. 2018 Jan 22; 28(2):327-332.e3. doi: 10.1016/j.cub.2017.12.022. Epub 2018 Jan 11"

 
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