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Afforestation driving long-term surface water browning

Škerlep, Martin LU ; Steiner, Eva ; Axelsson, Anna Lena and Kritzberg, Emma S. LU (2020) In Global Change Biology 26(3). p.1390-1399
Abstract

Increase in surface water color (browning), caused by rising dissolved organic carbon (DOC) and iron concentrations, has been widely reported and studied in the last couple of decades. This phenomenon has implications to aquatic ecosystem function and biogeochemical carbon cycling. While recovery from acidification and changes in climate-related variables, such as precipitation and length of growing season, are recognized as drivers behind browning, land-use change has received less attention. In this study, we include all of the above factors and aim to discern their individual and combined contribution to water color variation in an unprecedentedly long (1940–2016) and highly resolved dataset (~20 times per month), from a river in... (More)

Increase in surface water color (browning), caused by rising dissolved organic carbon (DOC) and iron concentrations, has been widely reported and studied in the last couple of decades. This phenomenon has implications to aquatic ecosystem function and biogeochemical carbon cycling. While recovery from acidification and changes in climate-related variables, such as precipitation and length of growing season, are recognized as drivers behind browning, land-use change has received less attention. In this study, we include all of the above factors and aim to discern their individual and combined contribution to water color variation in an unprecedentedly long (1940–2016) and highly resolved dataset (~20 times per month), from a river in southern Sweden. Water color showed high seasonal variability and a marked long-term increase, particularly in the latter half of the dataset (~1980). Short-term and seasonal variations were best explained by precipitation, with temperature playing a secondary role. All explanatory variables (precipitation, temperature, S deposition, and land-use change) contributed significantly and together predicted 75% of the long-term variation in water color. Long-term change was best explained by a pronounced increase in Norway spruce (Picea abies Karst) volume—a measure of land-use change and a proxy for buildup of organic soil layers—and by change in atmospheric S deposition. When modeling water color with a combination of explanatory variables, Norway spruce showed the highest contribution to explaining long-term variability. This study highlights the importance of considering land-use change as a factor behind browning and combining multiple factors when making predictions in water color and DOC.

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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
afforestation, atmospheric deposition, browning, climate change, DOC, land use, water color
in
Global Change Biology
volume
26
issue
3
pages
10 pages
publisher
Wiley-Blackwell
external identifiers
  • scopus:85075765011
  • pmid:31667991
ISSN
1354-1013
DOI
10.1111/gcb.14891
language
English
LU publication?
yes
id
703282cd-292f-4e1c-bd91-4314ffa6b6cc
date added to LUP
2019-12-16 15:02:12
date last changed
2024-04-17 01:18:25
@article{703282cd-292f-4e1c-bd91-4314ffa6b6cc,
  abstract     = {{<p>Increase in surface water color (browning), caused by rising dissolved organic carbon (DOC) and iron concentrations, has been widely reported and studied in the last couple of decades. This phenomenon has implications to aquatic ecosystem function and biogeochemical carbon cycling. While recovery from acidification and changes in climate-related variables, such as precipitation and length of growing season, are recognized as drivers behind browning, land-use change has received less attention. In this study, we include all of the above factors and aim to discern their individual and combined contribution to water color variation in an unprecedentedly long (1940–2016) and highly resolved dataset (~20 times per month), from a river in southern Sweden. Water color showed high seasonal variability and a marked long-term increase, particularly in the latter half of the dataset (~1980). Short-term and seasonal variations were best explained by precipitation, with temperature playing a secondary role. All explanatory variables (precipitation, temperature, S deposition, and land-use change) contributed significantly and together predicted 75% of the long-term variation in water color. Long-term change was best explained by a pronounced increase in Norway spruce (Picea abies Karst) volume—a measure of land-use change and a proxy for buildup of organic soil layers—and by change in atmospheric S deposition. When modeling water color with a combination of explanatory variables, Norway spruce showed the highest contribution to explaining long-term variability. This study highlights the importance of considering land-use change as a factor behind browning and combining multiple factors when making predictions in water color and DOC.</p>}},
  author       = {{Škerlep, Martin and Steiner, Eva and Axelsson, Anna Lena and Kritzberg, Emma S.}},
  issn         = {{1354-1013}},
  keywords     = {{afforestation; atmospheric deposition; browning; climate change; DOC; land use; water color}},
  language     = {{eng}},
  number       = {{3}},
  pages        = {{1390--1399}},
  publisher    = {{Wiley-Blackwell}},
  series       = {{Global Change Biology}},
  title        = {{Afforestation driving long-term surface water browning}},
  url          = {{http://dx.doi.org/10.1111/gcb.14891}},
  doi          = {{10.1111/gcb.14891}},
  volume       = {{26}},
  year         = {{2020}},
}