Abstract
Wetlands hold significant potential for climate change mitigation due to their high capacity to sequester atmospheric carbon dioxide (CO2). Colombo, Sri Lanka was recently declared as one of the eighteen global Ramsar wetland cities. The current study represents the first attempt to quantify soil organic carbon (SOC) stocks held by the urban freshwater wetlands in Colombo. The study focused on the extensive urban wetland ecosystems of Kolonnawa wetland and Thalawathugoda wetland park. SOC stocks were determined using three parameters: depth of soil, bulk density, and SOC concentration. Loss on ignition method was used in quantifying SOC concentrations. Average SOC stocks, up to a depth of 60 cm at Kolonnawa wetland and Thalawathugoda wetland park were estimated at 504 ± 14 t C/ha and 550 ± 23 t C/ha, respectively. Furthermore, the total SOC stock at Kolonnawa wetland and Thalawathugoda wetland park were estimated at 198,408 ± 5564 t CO2eq and 66,313 ± 2764 t CO2eq, respectively. When considering global estimates, it was found that freshwater wetlands in Colombo hold a higher SOC stock than tropical wet forests and tropical dry forests. The current study highlights the importance of urban ecosystems in mitigating the ever increasing concentrations of atmospheric CO2 .
Highlights
The occurrence of climate change at an unprecedented scale is indicated by many studies and global assessments
The results of the t-tests performed for the comparison of soil organic carbon (SOC) concentrations between corresponding depth intervals of the two wetlands indicated that there existed a statistically significant difference in mean SOC concentrations between the Kolonnawa wetland and the Thalawathugoda wetland park, across all considered depths (0–20 cm; p < 0.001, 20–40 cm; p < 0.001 and 40–60 cm; p < 0.001)
This study seeks to present an estimate of the total SOC stock of the Kolonnawa wetland and Thalawathugoda wetland park, both of which are part of the wider wetland complex distributed within the Colombo Ramsar wetland city of Sri Lanka
Summary
The occurrence of climate change at an unprecedented scale is indicated by many studies and global assessments. The extent of world’s wetlands is estimated to be about 5– 8% of the total land surface of earth (Mitsch et al 2013). Despite this low representation as a percentage of area on land, wetlands among all terrestrial ecosystems have the best capacity of any ecosystem to sequester and retain carbon through long term burial (Stern et al 2007). Global soil carbon sequestration rates of coastal wetlands (210 g/cm2/yr) and freshwater wetlands (20–30 g/cm2/yr) are higher than those of terrestrial forests (10 g/cm2/yr) (Chmura et al 2003; Clark and York 2005)
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