Defining planktonic protist functional groups on mechanisms for energy and nutrient acquisition: incorporation of diverse mixotrophic strategies

Arranging organisms into functional groups aids ecological research by grouping organisms (irrespective of phylogenetic origin) that interact with environmental factors in similar ways. Planktonic protists traditionally have been split between photoautotrophic "phytoplankton" and phagotrop...

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Bibliographic Details
Published in:Protist
Main Authors: Mitra, Aditee, Flynn, Kevin J., Tillmann, Urban, Raven, John A., Caron, David, Stoecker, Diane K., Not, Fabrice, Hansen, Per J., Hallegraeff, Gustaaf, Sanders, Robert, Wilken, Susanne, McManus, George, Johnson, Mathew, Pitta, Paraskevi, Vage, Selina, Berge, Terje, Calbet, Albert, Thingstad, Frede, Jeong, Hae Jin, Burkholder, JoAnn, Glibert, Patricia M., Graneli, Edna, Lundgren, Veronica
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier BV 2018
Subjects:
DINOFLAGELLATE DINOPHYSIS-ACUMINATA
CILIATE MYRIONECTA-RUBRA
RED-TIDE ALGAE
SURFACE WATERS
FOOD WEBS
ANTARCTIC DINOFLAGELLATE
SARCODINES ACANTHARIA
SPATIAL-DISTRIBUTION
COLONIAL RADIOLARIA
PLASTID RETENTION
Plankton functional types (PFTs)
phagotroph
phototroph
mixotroph
phytoplankton
microzooplankton
Antarctic
Antarc*
Online Access:https://hdl.handle.net/10371/192668
https://doi.org/10.1016/j.protis.2016.01.003
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Summary:Arranging organisms into functional groups aids ecological research by grouping organisms (irrespective of phylogenetic origin) that interact with environmental factors in similar ways. Planktonic protists traditionally have been split between photoautotrophic "phytoplankton" and phagotrophic "microzooplankton". However, there is a growing recognition of the importance of mixotrophy in euphotic aquatic systems, where many protists often combine photoautotrophic and phagotrophic modes of nutrition. Such organisms do not align with the traditional dichotomy of phytoplankton and microzooplankton. To reflect this understanding, we propose a new functional grouping of planktonic protists in an ecophysiological context: (i) phagoheterotrophs lacking phototrophic capacity, (ii) photoautotrophs lacking phagotrophic capacity, (iii) constitutive mixotrophs (CMs) as phagotrophs with an inherent capacity for phototrophy, and (iv) non-constitutive mixotrophs (NCMs) that acquire their phototrophic capacity by ingesting specific (SNCM) or general non-specific (GNCM) prey. For the first time, we incorporate these functional groups within a foodweb structure and show, using model outputs, that there is scope for significant changes in trophic dynamics depending on the protist functional type description. Accordingly, to better reflect the role of mixotrophy, we recommend that as important tools for explanatory and predictive research, aquatic food-web and biogeochemical models need to redefine the protist groups within their frameworks. (C) 2016 The Authors. Published by Elsevier GmbH. N 1

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