Scheda di dettaglio – i prodotti della ricerca
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Title | Response of the invertebrate predator Bythotrephes to a climate-linked increase in the duration of a refuge from fish predation |
Abstract | Climate warming can affect ecological food chains directly by increasing the rates of physiological processes and indirectly by changing habitat use and altering predatorprey interactions. In Lake Maggiore, Italy, a greater than 10-fold increase in the mean annual population density of Bythotrephes longimanus (Cladocera Onychopoda) was recorded between 1987 and 1993, when high values of the North Atlantic Oscillation winter index indicate warmer winter and spring temperatures across Europe. Bythotrephes remained abundant and further increased during the following 10 yr, as water temperature continued to increase. We analyzed changes in water temperature, timing of thermal stratification, and hypolimnion depth to test whether changes in the duration and thickness of a warm, low-light, deep-water refuge from fish predation can account for increases in the invertebrate predators abundance and seasonal duration. Using a 21-yr data set, we found that the sharpest increase in Bythotrephes abundance coincided with a shift from late August to May in its first appearance in the water column. The appearance of the planktonic population was, in turn, linked with earlier thermal stratification and earlier establishment of the predation refuge. The duration and thickness of the refuge increased as a result of earlier warming and deeper mixing, factors affected by climate rather than decreased water clarity. Daphnia hyalina galeata, the dominant grazer a d a prey of Bythotrephes, decreased sharply as Bythotrephes increased. This study provides an example of how climate warming can indirectly affect the population density and phenology of a key invertebrate predator and, hence, the functioning of the pelagic food web. |
Source | Limnology and oceanography 54(6), pp. 2506–2512 |
Journal | Limnology and oceanography |
Editor | American Society of Limnology and Oceanography., [Waco, Tex., etc.], Stati Uniti d'America |
Year | 2009 |
Type | Articolo in rivista |
DOI | 10.4319/lo.2009.54.6_part_2.2506 |
Authors | Manca M.; DeMott R. (1) |
Text | 53139 2009 10.4319/lo.2009.54.6_part_2.2506 ISI Web of Science WOS 000272785700018 Response of the invertebrate predator Bythotrephes to a climate linked increase in the duration of a refuge from fish predation Manca M.; DeMott R. 1 1 Department of Biology, IndianaPurdue University, Fort Wayne, Indiana, USA Climate warming can affect ecological food chains directly by increasing the rates of physiological processes and indirectly by changing habitat use and altering predatorprey interactions. In Lake Maggiore, Italy, a greater than 10 fold increase in the mean annual population density of Bythotrephes longimanus Cladocera Onychopoda was recorded between 1987 and 1993, when high values of the North Atlantic Oscillation winter index indicate warmer winter and spring temperatures across Europe. Bythotrephes remained abundant and further increased during the following 10 yr, as water temperature continued to increase. We analyzed changes in water temperature, timing of thermal stratification, and hypolimnion depth to test whether changes in the duration and thickness of a warm, low light, deep water refuge from fish predation can account for increases in the invertebrate predators abundance and seasonal duration. Using a 21 yr data set, we found that the sharpest increase in Bythotrephes abundance coincided with a shift from late August to May in its first appearance in the water column. The appearance of the planktonic population was, in turn, linked with earlier thermal stratification and earlier establishment of the predation refuge. The duration and thickness of the refuge increased as a result of earlier warming and deeper mixing, factors affected by climate rather than decreased water clarity. Daphnia hyalina galeata, the dominant grazer a d a prey of Bythotrephes, decreased sharply as Bythotrephes increased. This study provides an example of how climate warming can indirectly affect the population density and phenology of a key invertebrate predator and, hence, the functioning of the pelagic food web. 54 6 Response of the invertebrate predator Bythotrephes to a climate linked increase in the duration of a refuge from fish predation. Manca_DeMOTT_2009.pdf Articolo in rivista American Society of Limnology and Oceanography. 0024 3590 Limnology and oceanography Limnology and oceanography Limnol. oceanogr. Limnology and oceanography. marinamarcella.manca MANCA MARINA MARCELLA TA.P04.016.004 Ecologia teorica e applicata degli ecosistemi acquatici |