한국해양대학교

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A study on ecology, vegetation structure and ecosystem carbon stocks of mangroves in Sri Lanka

DC Field Value Language
dc.contributor.advisor Jinsoon Park -
dc.contributor.author ARULNAYAGAM AHALYA -
dc.date.accessioned 2022-06-22T17:38:21Z -
dc.date.available 2022-06-22T17:38:21Z -
dc.date.created 20210823115521 -
dc.date.issued 2021 -
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/12755 -
dc.identifier.uri http://kmou.dcollection.net/common/orgView/200000506373 -
dc.description.abstract Mangroves are highly productive coastal ecosystem that have high potential to capture and store atmospheric carbon in their living biomass and sediments; so called ‘blue carbon’; playing a remarkable role in coastal carbon cycle and which makes them an effective tool in global climate change mitigation. However, the intrinsic relationship of ecological elements to mangrove carbon sequestration is vital in promoting mangrove restoration and conservation. In the present study, we quantified the blue carbon capacity of eight natural mangrove stands on the Sri Lankan coast and investigated the ecological influence on their community structure and carbon sequestration potential. We employed a combination of allometry for floral carbon and sediment core extraction for sediment carbon assessment. We studied forest structure with a 10 m wide belt transect at six points in each site (n=48) and to measure edaphic influence we took three water samples by the adjoining lagoon/estuary. In order to measure sediment carbon, we extracted sediment cores at the points of the survey up to a depth of 45 cm and then were subsampled to 15 cm each. Floristic carbon was calculated with allometry while sediment organic carbon was measured and analyzed with the use of an elemental analyzer. We identified 20 true-mangrove species distributes heterogeneously with the community’s structure dominated by Avicennia marina, Avicennia officinalis, Brugueira cylindrica, Excoecaria indica, Rhizophora mucronata, and Sonneratia alba. Whole ecosystem carbon stocks were significantly different between the sites and different climatic zones (p<0.05) with the highest carbon content in Rekawa (1247.28 MgC ha-1) and the lowest in Mannar (307.82 MgC ha-1). Mean carbon content was the highest in the intermediate zone (180.36 ± 46.20 MgC ha-1). On average, the sediment carbon stock was 89% of the total carbon while higher proportion of the rest was aboveground biomass. Distance based redundancy analysis (dbRDA) showed that salinity and dissolved oxygen together with precipitation influenced species distribution across the sites. Correlation analysis revealed that the ecosystem carbon stocks are highly influenced by forests structural variables including tree density and taxonomic diversity, and ecological variables such as dissolved oxygen, salinity and precipitation. From the analysis, we found out that if the said mangroves are disturbed by any means of land-use changes, they could emit an equivalent (mean ± SD) 2584.13 ± 1061.23 Mg ha-1 of carbon dioxide. This could possibly play a critical role in the climate change mitigation agenda. In summary, the Sri Lankan mangroves holds a substantial asset for national and global blue carbon management and therefore climate change mitigation policy. In addition, the potential carbon sequestration and other co-benefits that these mangrove ecosystems provide would be lost if high intensity land-use change were to occur across these estates. The key findings from this thesis will be an essential to guide policymakers and will inform climate change mitigation strategies at both regional and national scales. -
dc.description.tableofcontents 1. Chapter One: Introduction 1 1.1. Role of mangrove carbon on climate change mitigation 1 1.2. Dynamics of mangrove carbon storage 3 1.3. Human impacts on mangrove blue carbon 5 1.4. Mangroves of Sri Lanka: Brief summary 7 1.5. Deforestation and anthropocene decline of mangrove ecosystems 8 1.6. Conservation actions and legal protection of mangroves in Sri Lanka 9 1.7. Thesis problem statement 11 1.8. Thesis rationale 11 1.9. Research objectives 12 1.10. Research hypothesis 13 1.11. Significance of the Study 13 2. Chapter Two: Materials and Methods 14 2.1. Study area 14 2.2. Research methodology 14 2.3. Floristic survey 16 2.4. Species identification 16 2.5. Structural analysis 16 2.6. Forest characteristics 20 2.7. Biomass and floral carbon calculation 20 2.8. Sediment sampling 21 2.9. Calculation of total ecosystem carbon stock 22 2.10. Carbon dioxide equivalent determination 22 2.11. Environmental parameters 23 2.12. Statistical analysis 23 3. Chapter Three: Results 26 3.1. Environmental setting of sampling sites 26 3.2. Floristic distribution of mangroves in Sri Lanka 29 3.3. Ecological diversity of mangroves across the sites 36 3.4. Spatial distribution of mangrove assemblages and community structure 37 3.4.1. Mangrove forest structure across the sites 37 3.4.2. Cluster analysis and community structure 40 3.5. Environment factors - mangrove assemblage relationship 45 3.6. Biomass and Blue carbon content of Sri Lankan mangroves 47 3.6.1.Living biomass of mangroves 47 3.6.2.Living biomass carbon of mangroves 47 3.6.3.Bulk density, organic carbon content and sediment organic carbon stock 49 3.6.4.Ecosystem carbon of the mangroves 49 3.7. Factors influencing ecosystem carbon stocks in mangroves 55 3.7.1.Trend of influencing variables 57 4. Chapter Four: Discussion 60 4.1. Ecological and structural influence on ecosystem carbon stock 60 4.2. Carbon partitioning and variation patterns 63 4.3. Contribution to climate change mitigation 66 4.4. Comparison with other carbon studies in South Asia 67 4.5. Mangrove restoration and carbon stock conservation 70 5. Chapter Five: Conclusion and Implications 72 5.1. Conclusion 72 5.2. Implications for conservation 73 References 75 -
dc.language eng -
dc.publisher Graduate School of Ocean Science and Technology -
dc.rights 한국해양대학교 논문은 저작권에 의해 보호받습니다. -
dc.title A study on ecology, vegetation structure and ecosystem carbon stocks of mangroves in Sri Lanka -
dc.type Dissertation -
dc.date.awarded 2021. 8 -
dc.embargo.liftdate 2021-08-23 -
dc.contributor.department 해양과학기술전문대학원 해양과학기술융합학과 -
dc.contributor.affiliation 한국해양대학교 해양과학기술전문대학원 해양과학기술융합학과 -
dc.description.degree Master -
dc.identifier.bibliographicCitation [1]ARULNAYAGAM AHALYA, “A study on ecology, vegetation structure and ecosystem carbon stocks of mangroves in Sri Lanka,” Graduate School of Ocean Science and Technology, 2021. -
dc.subject.keyword Sri Lanka -
dc.subject.keyword Mangroves -
dc.subject.keyword Blue carbon -
dc.subject.keyword Community structure -
dc.subject.keyword Ecology -
dc.contributor.specialty Marine Ecology -
dc.identifier.holdings 000000001979▲200000002463▲200000506373▲ -
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해양과학기술융합학과 > Thesis
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