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Flow is more Important than Temperature in Driving Patterns of Organic Matter Storage and Stoichiometry in Stream Ecosystems.

Authors :
Junker, James R.
Cross, Wyatt F.
Benstead, Jonathan P.
Huryn, Alexander D.
Hood, James M.
Nelson, Daniel
Gíslason, Gísli M.
Ólafsson, Jón S.
Source :
Ecosystems. Sep2021, Vol. 24 Issue 6, p1317-1331. 15p.
Publication Year :
2021

Abstract

Understanding the connections between biological communities and elemental cycles is increasingly important given that alterations to both are occurring on a global scale. Biological control of elemental cycles is tied to patterns of biomass and the elemental stoichiometry of organisms and organic matter (OM) pools that comprise ecosystems. The structure and size of these ecosystem components are, in turn, shaped by key environmental factors that influence species composition, functional traits, and OM and element storage. In stream and river ecosystems, temperature and flow regime have a strong influence on ecosystem structure and function, yet little is known about their relative importance in driving patterns of ecosystem OM and stoichiometry. We quantified ecosystem OM pools and elemental stoichiometry in 11 Icelandic streams across a wide gradient of temperature (~ 5 to 25 °C) and flow. Across these environmental gradients, we observed two orders of magnitude variation in ecosystem OM mass, as well as relatively large variation in certain ecosystem stoichiometries (that is, C:N, C:P). We found that flow regime was more important than temperature in driving variation in OM pools and stoichiometry because of large shifts in community structure, that is, from dominance by large-bodied macrophyte and bryophyte communities to epilithic and detrital OM pools. Although temperature is known to influence mass-specific rates of metabolic and chemical processes, our study suggests that the flow disturbance regime may be the dominant control on patterns of OM storage and may thus control ecosystem fluxes by constraining ecosystem OM pool mass, organism size structure, and stoichiometric traits. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
14329840
Volume :
24
Issue :
6
Database :
Academic Search Index
Journal :
Ecosystems
Publication Type :
Academic Journal
Accession number :
152744784
Full Text :
https://doi.org/10.1007/s10021-020-00585-6