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Local environment overrides regional climate influence on regime shift in a north temperate lake

Zhang, Min ; Xu, Jun and Hansson, Lars-Anders LU orcid (2015) In Aquatic Ecology 49(1). p.105-113
Abstract
Regime shifts in shallow lakes are typically characterized by submerged macrophyte (clear water regime) or phytoplankton (turbid regime) dominance. Climate warming is expected to affect water quality and facilitate turbidity in lakes, but we may also expect synergistic effects on organisms' interactions from climate and local specific dynamics in lakes. We here examined long-term changes in phytoplankton composition in July and August from 1980 to 2011 in a temperate shallow lake, Lake Krankesjon, a dataset including 21 years throughout a 31-year period. We hypothesize that although effects of the ongoing climate change are visible in our long-term data set, local specific dynamics override climate effects. We found that cyanophytes were... (More)
Regime shifts in shallow lakes are typically characterized by submerged macrophyte (clear water regime) or phytoplankton (turbid regime) dominance. Climate warming is expected to affect water quality and facilitate turbidity in lakes, but we may also expect synergistic effects on organisms' interactions from climate and local specific dynamics in lakes. We here examined long-term changes in phytoplankton composition in July and August from 1980 to 2011 in a temperate shallow lake, Lake Krankesjon, a dataset including 21 years throughout a 31-year period. We hypothesize that although effects of the ongoing climate change are visible in our long-term data set, local specific dynamics override climate effects. We found that cyanophytes were the most abundant phytoplankton taxa among which small-sized colonial cyanobacteria were dominant. Both population density of small-sized colonial cyanobacteria and maximum water temperature increased over the period of study. However, the variations in the phytoplankton assembly were likely mainly related to three principal factors, including the local availability of nutrients, grazing from zooplankton, and possibly, an increasing trend in temperature. The first two factors are associated with the local specific dynamics, while the last with regional climate. Our long-term study showed that although there were potential climate warming effects on the phytoplankton community, local factors, such as biotic interactions and nutrient availability, were likely stronger drivers than climate warming in Lake Krankesjon at least over the last 30-year period. (Less)
Please use this url to cite or link to this publication:
author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Regime shift, Climate warming, Phytoplankton community, Biotic, interaction, Nutrient availability
in
Aquatic Ecology
volume
49
issue
1
pages
105 - 113
publisher
Springer
external identifiers
  • wos:000350394600010
  • scopus:84925541570
ISSN
1386-2588
DOI
10.1007/s10452-015-9509-4
language
English
LU publication?
yes
id
caa63ebf-0123-4394-a4c4-44597e20eab1 (old id 5300448)
date added to LUP
2016-04-01 13:05:52
date last changed
2022-01-27 17:17:41
@article{caa63ebf-0123-4394-a4c4-44597e20eab1,
  abstract     = {{Regime shifts in shallow lakes are typically characterized by submerged macrophyte (clear water regime) or phytoplankton (turbid regime) dominance. Climate warming is expected to affect water quality and facilitate turbidity in lakes, but we may also expect synergistic effects on organisms' interactions from climate and local specific dynamics in lakes. We here examined long-term changes in phytoplankton composition in July and August from 1980 to 2011 in a temperate shallow lake, Lake Krankesjon, a dataset including 21 years throughout a 31-year period. We hypothesize that although effects of the ongoing climate change are visible in our long-term data set, local specific dynamics override climate effects. We found that cyanophytes were the most abundant phytoplankton taxa among which small-sized colonial cyanobacteria were dominant. Both population density of small-sized colonial cyanobacteria and maximum water temperature increased over the period of study. However, the variations in the phytoplankton assembly were likely mainly related to three principal factors, including the local availability of nutrients, grazing from zooplankton, and possibly, an increasing trend in temperature. The first two factors are associated with the local specific dynamics, while the last with regional climate. Our long-term study showed that although there were potential climate warming effects on the phytoplankton community, local factors, such as biotic interactions and nutrient availability, were likely stronger drivers than climate warming in Lake Krankesjon at least over the last 30-year period.}},
  author       = {{Zhang, Min and Xu, Jun and Hansson, Lars-Anders}},
  issn         = {{1386-2588}},
  keywords     = {{Regime shift; Climate warming; Phytoplankton community; Biotic; interaction; Nutrient availability}},
  language     = {{eng}},
  number       = {{1}},
  pages        = {{105--113}},
  publisher    = {{Springer}},
  series       = {{Aquatic Ecology}},
  title        = {{Local environment overrides regional climate influence on regime shift in a north temperate lake}},
  url          = {{http://dx.doi.org/10.1007/s10452-015-9509-4}},
  doi          = {{10.1007/s10452-015-9509-4}},
  volume       = {{49}},
  year         = {{2015}},
}