Ecology of planktonic ciliates in a changing world: Concepts, methods, and challenges

Plankton ecologists ultimately focus on forecasting, both applied and environmental outcomes. We review how appreciating planktonic ciliates has become central to these predictions. We explore the 350‐year‐old canon on planktonic ciliates and examine its steady progression, which has been punctuated...

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Veröffentlicht in:	The Journal of eukaryotic microbiology 2022-09, Vol.69 (5), p.e12879-n/a
Hauptverfasser:	Weisse, Thomas, Montagnes, David J.S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biosphere Ciliates Ciliophora - genetics Climate change Climate change research Ecologists Ecology Ecosystem food webs Forecasting Gene expression Global warming Mixotrophy numerical and functional response Oceans Oceans and Seas Phytoplankton Plankton Plankton - genetics plankton models Population genetics protists rare biosphere thermal response trophic diversity Zooplankton
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creator	Weisse, Thomas Montagnes, David J.S.
description	Plankton ecologists ultimately focus on forecasting, both applied and environmental outcomes. We review how appreciating planktonic ciliates has become central to these predictions. We explore the 350‐year‐old canon on planktonic ciliates and examine its steady progression, which has been punctuated by conceptual insights and technological breakthroughs. By reflecting on this process, we offer suggestions as to where future leaps are needed, with an emphasis on predicting outcomes of global warming. We conclude that in terms of climate change research: (i) climatic hotspots (e.g. polar oceans) require attention; (ii) simply adding ciliate measurements to zooplankton/phytoplankton‐based sampling programs is inappropriate; (iii) elucidating the rare biosphere's functional ecology requires culture‐independent genetic methods; (iv) evaluating genetic adaptation (microevolution) and population composition shifts is required; (v) contrasting marine and freshwaters needs attention; (vi) mixotrophy needs attention; (vii) laboratory and field studies must couple automated measurements and molecular assessment of functional gene expression; (viii) ciliate trophic diversity requires appreciation; and (ix) marrying gene expression and function, coupled with climate change scenarios is needed. In short, continued academic efforts and financial support are essential to achieve the above; these will lead to understanding how ciliates will respond to climate change, providing tools for forecasting.
doi_str_mv	10.1111/jeu.12879
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subjects	Animals Biosphere Ciliates Ciliophora - genetics Climate change Climate change research Ecologists Ecology Ecosystem food webs Forecasting Gene expression Global warming Mixotrophy numerical and functional response Oceans Oceans and Seas Phytoplankton Plankton Plankton - genetics plankton models Population genetics protists rare biosphere thermal response trophic diversity Zooplankton
title	Ecology of planktonic ciliates in a changing world: Concepts, methods, and challenges
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