Towards linking freshwater plants and ecosystems via functional biogeography

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Dokumenter

Functional biogeography has advanced the field of functional ecology into a more spatially[sbnd]predictive science. However, freshwater plants are still underrepresented in these trait[sbnd]based advancements. Here, we argue that there is a need for developing a functional biogeographical framework for freshwater plants and initiate global mapping efforts focusing on the form and function of freshwater plants. Specific attention should be given to (1) the placement of freshwater plants in the global plant trait space and show how this placement links to global trait[sbnd]environment relationships; (2) the theoretical framework for major structural trait[sbnd]trait correlations based on the physical constraints in aquatic ecosystems; (3) the evolutionary and environmental drivers underlying the global distribution of inter[sbnd] and intra[sbnd]specific variation in different life forms; and (4) the level of equilibrium between spatial and temporal trait[sbnd]environment relationships in freshwater plants. By putting freshwater plants in the context of these spatial aspects, we could advance our understanding of freshwater plant adaptations and responses to environmental gradients, and thereby facilitate predicting the consequences of global changes for freshwater ecosystem functions and services.

OriginalsprogEngelsk
Artikelnummer103454
TidsskriftAquatic Botany
Vol/bind176
Antal sider4
ISSN0304-3770
DOI
StatusUdgivet - 2022

Bibliografisk note

Funding Information:
L.L.I. was funded by the Carlsberg Foundation [grant CF19-0068 ]. J.G.G. was supported (in part) by the Academy of Finland [grant number 331957 ]. Y.P. was supported by the National Key Research Development Program of China ( 2017YFC0505203 ) and the National Natural Science Foundation of China ( 31770566 ).

Publisher Copyright:
© 2021 The Authors

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