info:eu-repo/semantics/article
The abundance of mixotrophic algae drives the carbon isotope composition of the copepod Boeckella gracilipes in shallow Patagonian lakes
Fecha
2015-02-12Registro en:
Trochine, Carolina; Diaz Villanueva, Veronica; Bastidas Navarro, Marcela Alejandra; Balseiro, Esteban Gabriel; Modenutti, Beatriz Estela; The abundance of mixotrophic algae drives the carbon isotope composition of the copepod Boeckella gracilipes in shallow Patagonian lakes; Oxford University Press; Journal Of Plankton Research; 37; 2; 12-2-2015; 441-451
0142-7873
1464-3774
Autor
Trochine, Carolina
Diaz Villanueva, Veronica
Bastidas Navarro, Marcela Alejandra
Balseiro, Esteban Gabriel
Modenutti, Beatriz Estela
Resumen
The importance of allochthonous versus authochthonous carbon in the diet of zooplankters has been discussed at length in the recent literature, the more so for lakes with dissolved organic matter (DOM) concentrations between 3.5 and 25 mg L21 . Here, we investigated the sources of carbon for Boeckella gracilipes (Copepoda, Calanoida) in three Patagonian shallow lakes that have different but relatively moderate DOM concentrations (,5 mg L21 ). We linked their d13C values with parameters such as water color (absorbance 440 nm, abs440), dissolved organic carbon (DOC) concentrations and the ratio Colorabs440:Chlorophyll a (Chl a). We also determined the isotopic composition of seston and phytoplankton composition. Our results showed a direct relationship between the d13C values of B. gracilipes and seston (r 2 ¼ 0.64, P,0.001), and we demonstrated the importance of phytoplankton to B. gracilipes as its d13C signal was strongly related to the abundance of the mixotrophic nanoflagellate Chrysochromulina parva (r 2 ¼ 0.86, P , 0.001). We further found an inverse relationship between DOM and the ratio Colorabs440:Chl a and B. gracilipes d13C values (r 2 ¼ 0.67 and 0.56, respectively), which also supported the importance of authochthonous carbon for the copepod. We conclude that phytoplankton, particularly mixotrophic algae, rather than allochthonous carbon, supports the copepod B. gracilipes in shallow Patagonian lakes.