Carbon stock, subsurface characteristics and accommodation settings of sub-tropical peatland Histosols, K'gari, Queensland Australia

Whereas temperate and tropical peatlands have been extensively studied, much less is known about the age, formation history, carbon stock and soil characteristics of subtropical peatlands. Here we investigate the organic carbon density or stock and soil characteristics of three peatlands of K'g...

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Published inGeoderma Regional Vol. 40; p. e00913
Main Authors Chalmers, Gareth, Ghasemzadeh, Zeinab, Chittleborough, David, Gontz, Allen, Cooray, Iroshaka Gregory, Yule, Catherine, Chellaiah, Darshanaa, McCallum, Adrian
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2025
Subjects
Accommodation space
Bulk density
carbon sinks
Carbon stock
climate
coastal sediments
Degree of Humification
Haplohemists
Hiatuses
Histosol
Histosols
Holocene epoch
humification
organic carbon
Peat
peatlands
Queensland
redox potential
swamps
topography
water content
water table
Queensland
Bulk density
Degree of Humification
Carbon stock
Hiatuses
Histosol
Accommodation space
Haplohemists
Peat
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Abstract Whereas temperate and tropical peatlands have been extensively studied, much less is known about the age, formation history, carbon stock and soil characteristics of subtropical peatlands. Here we investigate the organic carbon density or stock and soil characteristics of three peatlands of K'gari (Fraser Island), Queensland, Australia. The Empodisma minus -dominated peatlands are unique to the subtropics and their bulk density, pH, oxidation-reduction potential, carbon percentages and carbon stocks were compared to other Empodisma sp. peatlands in temperate and montane-alpine climates as well as global peatland estimates. A good agreement occurs between the elemental analyser (LECO) derived carbon percentages and the estimations made by loss-of-ignition-derived carbon percentages using Farmer et al. (2014) conversion factor. Carbon stock estimation ranges between 381.2 and 1665.5 Mg C ha−1 for the total peat depth and ranges between 444.0 and 1189.7 Mg C ha−1 on a per metre basis. The carbon stock average for the Moon Point and Dilli Swamp peatlands is comparable to global peatland estimates with the Red Lagoon peatland is lower than the average. All three peatlands have a higher average carbon stock than other Empodisma-dominated peatlands in temperate and montane-alpine climates. The three peatland sites chosen are within different morphosequences that range in age between Holocene, 7.8 to 132 ka and 132–263 ka. The Moon Point peatland (Holocene; < 11,700 BP) has a higher bulk density, lower moisture content and higher degree of humification compared to the other morphosequence areas. The difference in peat characteristics is not due to the morphosequence, as the climate changed approximately 6000 to 5000 years BP to be more favourable for peat accumulation across south-east Queensland. However, we suspect the older morphosequence (i.e., Yankee Jack) as well as the Holocene coastal sediment setting, due to their lower topography reduces the groundwater level and the accommodation space for peats to accumulate. The lower accommodation setting limits the peat thickness, increases the number of hiatuses and is susceptible to more peat fires. This study shows the K'gari peatlands are significant carbon sinks and careful management is needed to ensure they do not become carbon emitters as climate continues to change.
AbstractList Whereas temperate and tropical peatlands have been extensively studied, much less is known about the age, formation history, carbon stock and soil characteristics of subtropical peatlands. Here we investigate the organic carbon density or stock and soil characteristics of three peatlands of K'gari (Fraser Island), Queensland, Australia. The Empodisma minus -dominated peatlands are unique to the subtropics and their bulk density, pH, oxidation-reduction potential, carbon percentages and carbon stocks were compared to other Empodisma sp. peatlands in temperate and montane-alpine climates as well as global peatland estimates. A good agreement occurs between the elemental analyser (LECO) derived carbon percentages and the estimations made by loss-of-ignition-derived carbon percentages using Farmer et al. (2014) conversion factor. Carbon stock estimation ranges between 381.2 and 1665.5 Mg C ha−1 for the total peat depth and ranges between 444.0 and 1189.7 Mg C ha−1 on a per metre basis. The carbon stock average for the Moon Point and Dilli Swamp peatlands is comparable to global peatland estimates with the Red Lagoon peatland is lower than the average. All three peatlands have a higher average carbon stock than other Empodisma-dominated peatlands in temperate and montane-alpine climates. The three peatland sites chosen are within different morphosequences that range in age between Holocene, 7.8 to 132 ka and 132–263 ka. The Moon Point peatland (Holocene; < 11,700 BP) has a higher bulk density, lower moisture content and higher degree of humification compared to the other morphosequence areas. The difference in peat characteristics is not due to the morphosequence, as the climate changed approximately 6000 to 5000 years BP to be more favourable for peat accumulation across south-east Queensland. However, we suspect the older morphosequence (i.e., Yankee Jack) as well as the Holocene coastal sediment setting, due to their lower topography reduces the groundwater level and the accommodation space for peats to accumulate. The lower accommodation setting limits the peat thickness, increases the number of hiatuses and is susceptible to more peat fires. This study shows the K'gari peatlands are significant carbon sinks and careful management is needed to ensure they do not become carbon emitters as climate continues to change.
Whereas temperate and tropical peatlands have been extensively studied, much less is known about the age, formation history, carbon stock and soil characteristics of subtropical peatlands. Here we investigate the organic carbon density or stock and soil characteristics of three peatlands of K'gari (Fraser Island), Queensland, Australia. The Empodisma minus -dominated peatlands are unique to the subtropics and their bulk density, pH, oxidation-reduction potential, carbon percentages and carbon stocks were compared to other Empodisma sp. peatlands in temperate and montane-alpine climates as well as global peatland estimates. A good agreement occurs between the elemental analyser (LECO) derived carbon percentages and the estimations made by loss-of-ignition-derived carbon percentages using Farmer et al. (2014) conversion factor. Carbon stock estimation ranges between 381.2 and 1665.5 Mg C ha⁻¹ for the total peat depth and ranges between 444.0 and 1189.7 Mg C ha⁻¹ on a per metre basis. The carbon stock average for the Moon Point and Dilli Swamp peatlands is comparable to global peatland estimates with the Red Lagoon peatland is lower than the average. All three peatlands have a higher average carbon stock than other Empodisma-dominated peatlands in temperate and montane-alpine climates. The three peatland sites chosen are within different morphosequences that range in age between Holocene, 7.8 to 132 ka and 132–263 ka. The Moon Point peatland (Holocene; < 11,700 BP) has a higher bulk density, lower moisture content and higher degree of humification compared to the other morphosequence areas. The difference in peat characteristics is not due to the morphosequence, as the climate changed approximately 6000 to 5000 years BP to be more favourable for peat accumulation across south-east Queensland. However, we suspect the older morphosequence (i.e., Yankee Jack) as well as the Holocene coastal sediment setting, due to their lower topography reduces the groundwater level and the accommodation space for peats to accumulate. The lower accommodation setting limits the peat thickness, increases the number of hiatuses and is susceptible to more peat fires. This study shows the K'gari peatlands are significant carbon sinks and careful management is needed to ensure they do not become carbon emitters as climate continues to change.
ArticleNumber e00913
Author Chittleborough, David
Yule, Catherine
Chellaiah, Darshanaa
Gontz, Allen
Cooray, Iroshaka Gregory
Chalmers, Gareth
Ghasemzadeh, Zeinab
McCallum, Adrian
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  givenname: Zeinab
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  organization: The University of the Sunshine Coast, Australia
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  givenname: Allen
  surname: Gontz
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  givenname: Iroshaka Gregory
  surname: Cooray
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  organization: The University of the Sunshine Coast, Australia
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  givenname: Adrian
  surname: McCallum
  fullname: McCallum, Adrian
  organization: The University of the Sunshine Coast, Australia
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Keywords Bulk density
Degree of Humification
Carbon stock
Hiatuses
Histosol
Accommodation space
Haplohemists
Peat
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Snippet Whereas temperate and tropical peatlands have been extensively studied, much less is known about the age, formation history, carbon stock and soil...
SourceID proquest
crossref
elsevier
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Publisher
StartPage e00913
SubjectTerms Accommodation space
Bulk density
carbon sinks
Carbon stock
climate
coastal sediments
Degree of Humification
Haplohemists
Hiatuses
Histosol
Histosols
Holocene epoch
humification
organic carbon
Peat
peatlands
Queensland
redox potential
swamps
topography
water content
water table
Title Carbon stock, subsurface characteristics and accommodation settings of sub-tropical peatland Histosols, K'gari, Queensland Australia
URI https://dx.doi.org/10.1016/j.geodrs.2024.e00913
https://www.proquest.com/docview/3200288965
Volume 40
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