Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning

Northern lakes are experiencing widespread increases in dissolved organic carbon (DOC) that are likely to lead to changes in pelagic phytoplankton biomass. Pelagic phytoplankton biomass responds to trade-offs between light and nutrient availability. However, the influence of DOC light absorbing prop...

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Published in:	Ecosystems
Main Authors:	Isles, Peter D.F., Creed, Irena F., Jonsson, Anders, Bergström, Ann-Kristin
Format:	Article in Journal/Newspaper
Language:	English
Published:	Springer Nature 2021
Subjects:	boreal browning chlorophyll-a doc doc:tn doc:tp lake stoichiometry subarctic sweden Browning Subarctic
Online Access:	https://doi.org/10.1007/s10021-021-00619-7

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spelling	fteawag:oai:dora:eawag_22474 2023-06-18T03:43:15+02:00 Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning Isles, Peter D.F. Creed, Irena F. Jonsson, Anders Bergström, Ann-Kristin 2021 https://doi.org/10.1007/s10021-021-00619-7 eng eng Springer Nature Ecosystems--Ecosystems--journals:772--1432-9840--1435-0629 eawag:22474 doi:10.1007/s10021-021-00619-7 scopus: 2-s2.0-85103204629 journal id: journals:772 issn: 1432-9840 e-issn: 1435-0629 ut: 000632792900004 boreal browning chlorophyll-a doc doc:tn doc:tp lake stoichiometry subarctic sweden Journal Article Text 2021 fteawag https://doi.org/10.1007/s10021-021-00619-7 2023-06-04T23:49:55Z Northern lakes are experiencing widespread increases in dissolved organic carbon (DOC) that are likely to lead to changes in pelagic phytoplankton biomass. Pelagic phytoplankton biomass responds to trade-offs between light and nutrient availability. However, the influence of DOC light absorbing properties and carbon–nutrient stoichiometry on phytoplankton biomass across seasonal or spatial gradients has not been assessed. Here, we analyzed data from almost 5000 lakes to examine how the carbon–phytoplankton biomass relationship is influenced by seasonal changes in light availability, DOC light absorbing properties (carbon-specific visual absorbance, SVA 420 ), and DOC–nutrient [total nitrogen (TN) and total phosphorus (TP)] stoichiometry, using TOC as a proxy for DOC. We found evidence for trade-offs between light and nutrient availability in the relationship between DOC and phytoplankton biomass [chlorophyll (chl)- a ], with the shape of the relationship varying with season. A clear unimodal relationship was found only in the fall, particularly in the subsets of lakes with the highest TOC:TP. Observed trends of increasing TOC:TP and decreasing TOC:TN suggest that the effects of future browning will be contingent on future changes in carbon–nutrient stoichiometry. If browning continues, phytoplankton biomass will likely increase in most northern lakes, with increases of up to 76% for a 1.7 mg L −1 increase in DOC expected in subarctic regions, where DOC, SVA 420 , DOC:TN, and DOC:TP are all low. In boreal regions with higher DOC and higher SVA 420 , and thus lower light availability, lakes may experience only moderate increases or even decreases in phytoplankton biomass with future browning. Article in Journal/Newspaper Subarctic DORA Eawag Browning ENVELOPE(164.050,164.050,-74.617,-74.617) Ecosystems
institution	Open Polar
collection	DORA Eawag
op_collection_id	fteawag
language	English
topic	boreal browning chlorophyll-a doc doc:tn doc:tp lake stoichiometry subarctic sweden
spellingShingle	boreal browning chlorophyll-a doc doc:tn doc:tp lake stoichiometry subarctic sweden Isles, Peter D.F. Creed, Irena F. Jonsson, Anders Bergström, Ann-Kristin Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
topic_facet	boreal browning chlorophyll-a doc doc:tn doc:tp lake stoichiometry subarctic sweden
description	Northern lakes are experiencing widespread increases in dissolved organic carbon (DOC) that are likely to lead to changes in pelagic phytoplankton biomass. Pelagic phytoplankton biomass responds to trade-offs between light and nutrient availability. However, the influence of DOC light absorbing properties and carbon–nutrient stoichiometry on phytoplankton biomass across seasonal or spatial gradients has not been assessed. Here, we analyzed data from almost 5000 lakes to examine how the carbon–phytoplankton biomass relationship is influenced by seasonal changes in light availability, DOC light absorbing properties (carbon-specific visual absorbance, SVA 420 ), and DOC–nutrient [total nitrogen (TN) and total phosphorus (TP)] stoichiometry, using TOC as a proxy for DOC. We found evidence for trade-offs between light and nutrient availability in the relationship between DOC and phytoplankton biomass [chlorophyll (chl)- a ], with the shape of the relationship varying with season. A clear unimodal relationship was found only in the fall, particularly in the subsets of lakes with the highest TOC:TP. Observed trends of increasing TOC:TP and decreasing TOC:TN suggest that the effects of future browning will be contingent on future changes in carbon–nutrient stoichiometry. If browning continues, phytoplankton biomass will likely increase in most northern lakes, with increases of up to 76% for a 1.7 mg L −1 increase in DOC expected in subarctic regions, where DOC, SVA 420 , DOC:TN, and DOC:TP are all low. In boreal regions with higher DOC and higher SVA 420 , and thus lower light availability, lakes may experience only moderate increases or even decreases in phytoplankton biomass with future browning.
format	Article in Journal/Newspaper
author	Isles, Peter D.F. Creed, Irena F. Jonsson, Anders Bergström, Ann-Kristin
author_facet	Isles, Peter D.F. Creed, Irena F. Jonsson, Anders Bergström, Ann-Kristin
author_sort	Isles, Peter D.F.
title	Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
title_short	Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
title_full	Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
title_fullStr	Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
title_full_unstemmed	Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
title_sort	trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning
publisher	Springer Nature
publishDate	2021
url	https://doi.org/10.1007/s10021-021-00619-7
long_lat	ENVELOPE(164.050,164.050,-74.617,-74.617)
geographic	Browning
geographic_facet	Browning
genre	Subarctic
genre_facet	Subarctic
op_relation	Ecosystems--Ecosystems--journals:772--1432-9840--1435-0629 eawag:22474 doi:10.1007/s10021-021-00619-7 scopus: 2-s2.0-85103204629 journal id: journals:772 issn: 1432-9840 e-issn: 1435-0629 ut: 000632792900004
op_doi	https://doi.org/10.1007/s10021-021-00619-7
container_title	Ecosystems
_version_	1769009565942153216

Trade-offs between light and nutrient availability across gradients of dissolved organic carbon lead to spatially and temporally variable responses of lake phytoplankton biomass to browning

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