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Impact of climate change on wetland ecosystems : A critical review of experimental wetlands

Salimi, Shokoufeh LU ; Almuktar, Suhad A.A.A.N. LU and Scholz, Miklas LU (2021) In Journal of Environmental Management 286.
Abstract

Climate change is identified as a major threat to wetlands. Altered hydrology and rising temperature can change the biogeochemistry and function of a wetland to the degree that some important services might be turned into disservices. This means that they will, for example, no longer provide a water purification service and adversely they may start to decompose and release nutrients to the surface water. Moreover, a higher rate of decomposition than primary production (photosynthesis) may lead to a shift of their function from being a sink of carbon to a source. This review paper assesses the potential response of natural wetlands (peatlands) and constructed wetlands to climate change in terms of gas emission and nutrients release. In... (More)

Climate change is identified as a major threat to wetlands. Altered hydrology and rising temperature can change the biogeochemistry and function of a wetland to the degree that some important services might be turned into disservices. This means that they will, for example, no longer provide a water purification service and adversely they may start to decompose and release nutrients to the surface water. Moreover, a higher rate of decomposition than primary production (photosynthesis) may lead to a shift of their function from being a sink of carbon to a source. This review paper assesses the potential response of natural wetlands (peatlands) and constructed wetlands to climate change in terms of gas emission and nutrients release. In addition, the impact of key climatic factors such as temperature and water availability on wetlands has been reviewed. The authors identified the methodological gaps and weaknesses in the literature and then introduced a new framework for conducting a comprehensive mesocosm experiment to address the existing gaps in literature to support future climate change research on wetland ecosystems. In the future, higher temperatures resulting in drought might shift the role of both constructed wetland and peatland from a sink to a source of carbon. However, higher temperatures accompanied by more precipitation can promote photosynthesis to a degree that might exceed the respiration and maintain the carbon sink role of the wetland. There might be a critical water level at which the wetland can preserve most of its services. In order to find that level, a study of the key factors of climate change and their interactions using an appropriate experimental method is necessary. Some contradictory results of past experiments can be associated with different methodologies, designs, time periods, climates, and natural variability. Hence a long-term simulation of climate change for wetlands according to the proposed framework is recommended. This framework provides relatively more accurate and realistic simulations, valid comparative results, comprehensive understanding and supports coordination between researchers. This can help to find a sustainable management strategy for wetlands to be resilient to climate change.

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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
Climate chamber, Constructed wetland, Greenhouse gases, Mesocosm experiment, Peatland, Wetland management
in
Journal of Environmental Management
volume
286
article number
112160
publisher
Elsevier
external identifiers
  • scopus:85101398524
  • pmid:33611067
ISSN
0301-4797
DOI
10.1016/j.jenvman.2021.112160
project
Water level management of wetlands in response to current and future RCP climate change scenarios
language
English
LU publication?
yes
id
409cf6e1-97a8-4512-ad44-30d74855b55c
date added to LUP
2021-03-08 11:33:01
date last changed
2024-06-14 10:57:01
@article{409cf6e1-97a8-4512-ad44-30d74855b55c,
  abstract     = {{<p>Climate change is identified as a major threat to wetlands. Altered hydrology and rising temperature can change the biogeochemistry and function of a wetland to the degree that some important services might be turned into disservices. This means that they will, for example, no longer provide a water purification service and adversely they may start to decompose and release nutrients to the surface water. Moreover, a higher rate of decomposition than primary production (photosynthesis) may lead to a shift of their function from being a sink of carbon to a source. This review paper assesses the potential response of natural wetlands (peatlands) and constructed wetlands to climate change in terms of gas emission and nutrients release. In addition, the impact of key climatic factors such as temperature and water availability on wetlands has been reviewed. The authors identified the methodological gaps and weaknesses in the literature and then introduced a new framework for conducting a comprehensive mesocosm experiment to address the existing gaps in literature to support future climate change research on wetland ecosystems. In the future, higher temperatures resulting in drought might shift the role of both constructed wetland and peatland from a sink to a source of carbon. However, higher temperatures accompanied by more precipitation can promote photosynthesis to a degree that might exceed the respiration and maintain the carbon sink role of the wetland. There might be a critical water level at which the wetland can preserve most of its services. In order to find that level, a study of the key factors of climate change and their interactions using an appropriate experimental method is necessary. Some contradictory results of past experiments can be associated with different methodologies, designs, time periods, climates, and natural variability. Hence a long-term simulation of climate change for wetlands according to the proposed framework is recommended. This framework provides relatively more accurate and realistic simulations, valid comparative results, comprehensive understanding and supports coordination between researchers. This can help to find a sustainable management strategy for wetlands to be resilient to climate change.</p>}},
  author       = {{Salimi, Shokoufeh and Almuktar, Suhad A.A.A.N. and Scholz, Miklas}},
  issn         = {{0301-4797}},
  keywords     = {{Climate chamber; Constructed wetland; Greenhouse gases; Mesocosm experiment; Peatland; Wetland management}},
  language     = {{eng}},
  publisher    = {{Elsevier}},
  series       = {{Journal of Environmental Management}},
  title        = {{Impact of climate change on wetland ecosystems : A critical review of experimental wetlands}},
  url          = {{http://dx.doi.org/10.1016/j.jenvman.2021.112160}},
  doi          = {{10.1016/j.jenvman.2021.112160}},
  volume       = {{286}},
  year         = {{2021}},
}