Biodiversity Data Journal :
Data Paper (Biosciences)
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Corresponding author: Lisa K. Schneider (lisa.schneider@deltares.nl)
Academic editor: Anne Thessen
Received: 17 Jul 2020 | Accepted: 08 Sep 2020 | Published: 23 Oct 2020
© 2020 Lisa Schneider, Konstantinos Anestis, Joost Mansour, Anna Anschütz, Nathalie Gypens, Per Hansen, Uwe John, Kerstin Klemm, Jon Martin, Nikola Medic, Fabrice Not, Willem Stolte
This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Citation:
Schneider LK, Anestis K, Mansour J, Anschütz AA, Gypens N, Hansen PJ, John U, Klemm K, Martin JL, Medic N, Not F, Stolte W (2020) A dataset on trophic modes of aquatic protists. Biodiversity Data Journal 8: e56648. https://doi.org/10.3897/BDJ.8.e56648
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An important functional trait of organisms is their trophic mode. It determines their position within food webs, as well as their function within an ecosystem. For the better part of the 20th century, aquatic protist communities were thought to consist mainly of producers (phytoplankton) and consumers (protozooplankton). Phytoplankton cover their energy requirements through photosynthesis (phototrophy), while protozooplankton graze on prey and organic particles (phagotrophy). However, over the past decades, it was shown that another trophic group (mixoplankton) comprise a notable part of aquatic protist communities. Mixoplankton employ a third trophic mode by combining phototrophy and phagotrophy (mixotrophy). Due to the historical dichotomy, it is not straightforward to gain adequate and correct information on the trophic mode of aquatic protists. Long hours of literature research or expert knowledge are needed to correctly assign trophic modes. Additionally, aquatic protists also have a long history of undergoing taxonomic changes which make it difficult to compare past and present literature. While WoRMS, the World Register of Marine Species, keeps track of the taxonomic changes and assigns each species a unique AphiaID that can be linked to its various historic and present taxonomic hierarchy, there is currently no machine-readable database to query aquatic protists for their trophic modes.
This paper describes a dataset that was submitted to WoRMS and links aquatic protist taxa, with a focus on marine taxa, to their AphiaID and their trophic mode. The bulk of the data used for this dataset stems from (routine) monitoring stations in the North Sea and the Baltic Sea. The data were augmented and checked against state-of-the-art knowledge on mixoplankton taxa by consulting literature and experts. Thus, this dataset provides a first attempt to make the trophic mode of aquatic protists easily accessible in both a human- and machine-readable format.
aquatic protists, phytoplankton, protozooplankton, mixoplankton, trophic mode, functional traits, functional biodiversity
Protists (i.e. unicellular eukaryotes) form the base of aquatic ecosystems by providing food for higher trophic levels. Even though protist communities are so important for the trophic functioning of aquatic ecosystems, the trophic diversity within those protist communities is not always clear. For the better part of the 20th century, aquatic protist communities were divided into producers, the phytoplankton and grazers, the (proto)zooplankton (
However, taking the correct trophic mode into account is still a challenge. Due to the historical bias, most aquatic protists are still by default categorised as either phytoplankton or protozooplankton. Intensive experimental work is required to determine mixotrophy in protists. While, in the past years, quite a few papers were published that contained lists of currently-proven marine mixoplankton (
This dataset provides information on the trophic mode of aquatic protists and links them to the WoRMS database that keeps track of taxonomic name changes by using a unique species identifier, the AphiaID. By combining information on trophic modes with an already existing and widely-used database such as WoRMS, the authors hope to make data on trophic modes of aquatic protists more accessible in a machine-readable fashion. Thus, the dataset can help facilitate a better understanding of trophic dynamics and the functional role of protist groups within aquatic ecosystems. The trophic mode of the taxa included in this dataset can be accessed via the attributes of the WoRMS taxa search tool (see, for example, http://www.marinespecies.org/aphia.php?p=taxdetails&id=232772#attributes).
However, this dataset is only a start. The authors hope that, as more information on mixoplankton becomes available, this dataset will actively be expanded through community effort. New data can easily be submitted to WoRMS using the instructions available on https://www.marinespecies.org/contribute.php.
The purpose of this project was to establish a dataset on trophic modes of aquatic protists. As correct classification of trophic modes is especially important within the context of analysing routine monitoring data, the idea arose to make this work more accessible to the broad aquatic science and management community. This dataset was assembled in the scope of the H2020 Marie-Curie ITN "MixITiN".
A dataset on trophic modes of aquatic protists
Lisa K. Schneider (management, data collection, literature research, tidy data implementation, data concatenation, manuscript preparation), Konstantinos Anestis (data collection, literature research, manuscript contribution), Joost Mansour (literature research, manuscript contribution), Anna A. Anschütz (literature research, manuscript revision), Nathalie Gypens (data collection, expert knowledge, manuscript revision), Per J. Hansen (data collection, expert knowledge, manuscript revision), Uwe John (data collection, expert knowledge, manuscript revision), Kerstin Klemm (data collection, manuscript revision), Jon Lapeya Martin (data collection, manuscript revision), Nikola Medic (literature research, manuscript revision), Fabrice Not (expert knowledge, manuscript revision), Willem Stolte (management, concept development, expert knowledge, manuscript preparation).
To gather, analyse and disseminate the trophic mode of aquatic protists, a dataset was submitted to the World Register of Marine Species, WoRMS at http://www.marinespecies.org. WoRMS provides "an authoritative and comprehensive list of names of marine organisms, including information on synonymy" (
In this dataset, the trophic mode is defined by assigning one of the three different aquatic protist categories (sensu
Furthermore, for each mixoplankton, the type of mixotrophy is assigned as a trait. In the dataset, the type of mixotrophy is defined by assigning CM, GNCM, pSNCM or eSNCM to the mixoplankton, according to the types identified in
This project has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 766327 and EMODnet Biology (EC Service contract – EASME/EMFF/2016/1.3.1.2/Lot 5/SI2.750022).
This dataset focuses on the trophic modes of aquatic protists. It combines data from five different sources: routine monitoring (
This dataset (Suppl. material
In total, 21% of the taxa are classified as mixoplankton, 66% as phytoplankton and 13% as protozooplankton (Fig.
In order to ensure consistent taxonomy over the various data sources, each data source was matched against the WoRMS taxonomic database using the WoRMS "Match taxa" tool. This ensured that each taxon was given the currently-accepted scientific name and referenced with an AphiaID. Data sources were tidied (
As this consortium is based in the EU, data stemming from routine monitoring is biased towards European waters. Data derived from literature extends beyond the EU. We hope that this dataset will be built upon with data contributions from other scientists, to establish a more encompassing collaborative resource that will promote research on trophic modes. New data can easily be submitted to WoRMS using the instructions available on https://www.marinespecies.org/contribute.php.
Fig.
This dataset focuses on the trophic mode of aquatic protists. As mentioned, aquatic protists can be divided into phytoplankton, protozooplankton and mixoplankton. This next section will give more detail on these different functional groups and their impact on aquatic ecosystems.
Phytoplankton are defined as those protists that perform photosynthesis and are incapable of phagotrophy. The most prominent examples of phytoplankton groups are cyanobacteria, diatoms and green algae. Attributing to their need of light for photosynthesis, phytoplankton are found in the euphotic zone, where light is available. It is estimated that aquatic photosynthesis by phytoplankton totals about half of the total primary production on Earth (
Protozooplankton are defined as those protists that gain their nutrition through capture and ingestion of prey (or organic particles). Protozooplankton do not have the capability for photosynthesis, nor other means of producing their own organic carbon. Examples of protozooplankton are heterotrophic ciliates, heterotrophic dinoflagellates and heterotrophic (nano)flagellates. The grazing of heterotrophic protists on phytoplankton plays an important role in controlling the growth and population of phytoplankton taxa. Heterotrophic protists are the connecting link for energy transfer towards higher trophic levels and, in some cases, can be responsible for the removal of the largest part of primary production (
Mixoplankton are defined as those protists that can combine phototrophy and phagotrophy (sensu
List of trophic mode references giving the short citation form (used in the dataset) and the full reference.
Column label | Column description |
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source | Short citation of the reference source used in the dataset |
Full citation | Full APA citation of the reference source |
Dataset listing the trophic modes of aquatic protists (with reference and data source) along with their accepted scientific name, AphiaID and taxonomic hierarchy.
Column label | Column description |
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ScientificName | Accepted scientific name retrieved from WoRMS. |
AphiaID | Accepted AphiaID (unique identifier) retrieved from WoRMS. |
Trophy | Gives the trophic mode of taxa as either "phytoplankton", "protozooplankton" or "mixoplankon". |
typeMX | Gives the type of mixotrophy as either "CM" (Consitutive Mixoplankton), "GNCM" (General Non-Constitutive Mixoplankton), "eSNCM" (endosymbiotic Specialist Non-Constitutive Mixoplankton) or "pSNCM" (plastid Specialist Non-Constitutive Mixoplankton). If the type of mixotrophy does not apply (because the organism is labelled as phytoplankton or protozooplankton), the type of mixotrophy is labelled with "NA". |
source | Gives the reference for the assigned trophic modes. Refers to primary literature or secondary literature (book, review papers or published datasets from routine monitoring). |
dataType | Denotes the origin of the data point. Can be either "book", "paper", "review", "routine monitoring" or "scientific cruise". |
Kingdom | Kingdom of the taxa within the taxonomic hierarchy |
Phylum | Phylum of the taxa within the taxonomic hierarchy |
Class | Class of the taxa within the taxonomic hierarchy |
Order | Order of the taxa within the taxonomic hierarchy |
Family | Family of the taxa within the taxonomic hierarchy |
Genus | Genus of the taxa within the taxonomic hierarchy |
Species | Species of the taxa within the taxonomic hierarchy |
A github repository is available which contains the code to match the species list against WoRMS, as well as to create the figures: https://github.com/lkschn/trophyProtists.
The authors want to thank Salvador Fernández for reviewing the manuscript and the staff at WoRMS for their quick and efficient handling of the dataset submission.
This project has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 766327 and EMODnet Biology (EC Service contract – EASME/EMFF/2016/1.3.1.2/Lot 5/SI2.750022).
This list gives all trophic citations in their short form (used in the dataset), as well as their full reference.
This dataset lists the trophic modes of aquatic protists (with reference and data origin) along with their accepted scientific name, AphiaID and taxonomic hierarchy.