Alternative tidal wetlands in plain sight overlooked Blue Carbon superstars
AMERICAN INSTITUTE OF BIOLOGICAL SCIENCES
Blue Carbon projects are expanding globally; however, demand for credits outweighs the available credits for purchase.
Currently, only three types of wetlands are considered Blue Carbon ecosystems: mangroves, saltmarsh and seagrass.
However, other tidal wetlands also comply with the characteristics of what is considered Blue Carbon, such as tidal freshwater wetlands, transitional forests and brackish marshes.
In a new study, scientists from Australia, Indonesia, Singapore, South Africa, Vietnam, the US and Mexico have highlighted the increasing opportunities for Blue Carbon projects for the conservation, restoration and improved management of highly threatened wetlands.
Led by Griffith University’s Dr Fernanda Adame, from the Australian Rivers Institute, the team compiled information on the biophysical characteristics of various tidal wetlands and their managing potential, and concluded that all wetlands below the highest astronomical tide, directly or indirectly influenced by tides, should be classified as blue carbon ecosystems.
“By recognising and prioritising their protection and restoration, we can unlock myriad benefits, including biodiversity conservation,” she said.
"Our research provides compelling evidence that tidal wetlands, beyond mangroves, saltmarshes, and seagrass, exhibit characteristics aligned with Blue Carbon.
"These ecosystems store significant amounts of carbon dioxide in their soils and aboveground biomass, while emitting low levels of greenhouse gases."
Blue carbon projects, centred around the management of mangroves, saltmarshes, and seagrass, have garnered attention for their ability to enhance carbon sequestration and reduce greenhouse gas emissions.
Coastal wetlands in particular have emerged as critical players in the fight against climate change, offering promising opportunities to mitigate atmospheric greenhouse gases.
“By managing these ecosystems strategically, not only can we reduce curb emissions, but we can also make significant strides towards achieving the United Nations Sustainable Development Goals,” Dr Adame said.
By incorporating all tidal wetlands into blue carbon initiatives, we can maximize their potential as carbon sinks and fortify our efforts in combating climate change.
“This inclusive approach not only safeguards our environment but also offers opportunities for sustainable development and conservation.”
The paper ‘All tidal wetlands are blue carbon ecosystems’ has been published in BioScience.
Blue Carbon projects are expanding globally; however, demand for credits outweighs the available credits for purchase.
Currently, only three types of wetlands are considered Blue Carbon ecosystems: mangroves, saltmarsh and seagrass.
However, other tidal wetlands also comply with the characteristics of what is considered Blue Carbon, such as tidal freshwater wetlands, transitional forests and brackish marshes.
In a new study, scientists from Australia, Indonesia, Singapore, South Africa, Vietnam, the US and Mexico have highlighted the increasing opportunities for Blue Carbon projects for the conservation, restoration and improved management of highly threatened wetlands.
Led by Griffith University’s Dr Fernanda Adame, from the Australian Rivers Institute, the team compiled information on the biophysical characteristics of various tidal wetlands and their managing potential, and concluded that all wetlands below the highest astronomical tide, directly or indirectly influenced by tides, should be classified as blue carbon ecosystems.
“By recognising and prioritising their protection and restoration, we can unlock myriad benefits, including biodiversity conservation,” she said.
"Our research provides compelling evidence that tidal wetlands, beyond mangroves, saltmarshes, and seagrass, exhibit characteristics aligned with Blue Carbon.
"These ecosystems store significant amounts of carbon dioxide in their soils and aboveground biomass, while emitting low levels of greenhouse gases."
Blue carbon projects, centred around the management of mangroves, saltmarshes, and seagrass, have garnered attention for their ability to enhance carbon sequestration and reduce greenhouse gas emissions.
Coastal wetlands in particular have emerged as critical players in the fight against climate change, offering promising opportunities to mitigate atmospheric greenhouse gases.
“By managing these ecosystems strategically, not only can we reduce curb emissions, but we can also make significant strides towards achieving the United Nations Sustainable Development Goals,” Dr Adame said.
By incorporating all tidal wetlands into blue carbon initiatives, we can maximize their potential as carbon sinks and fortify our efforts in combating climate change.
“This inclusive approach not only safeguards our environment but also offers opportunities for sustainable development and conservation.”
The paper ‘All tidal wetlands are blue carbon ecosystems’ has been published in BioScience.
JOURNAL
BioScience
ARTICLE TITLE
All tidal wetlands are blue carbon ecosystems
ARTICLE PUBLICATION DATE
18-Mar-2024
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