dc.contributor.author |
Jorquera, Eliana |
|
dc.contributor.author |
Quijano-Baron, Juan |
|
dc.contributor.author |
Rodriguez, Jose...et.al |
|
dc.date.accessioned |
2023-06-22T00:50:47Z |
|
dc.date.available |
2023-06-22T00:50:47Z |
|
dc.date.issued |
2022 |
|
dc.identifier.citation |
Jorquera, E., Quijano-Baron, J. P., Rodriguez, J and Saco, P. 2022. Final Moata’a mangrove ecosystem analysis report. SPREP, Apia, Samoa. |
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dc.identifier.uri |
${sadil.baseUrl}/handle/123456789/3705 |
|
dc.description |
91 p. (PDF) |
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dc.description.abstract |
Mangrove ecosystems are under pressure due to anthropogenic stressors and sea
level rise. The resilience of mangroves will depend on the rate of accretion of
sediments compared to the rate of sea-level rise and their capability to colonise
higher elevation areas or buffer zones. This will also be affected by the measures to
protect the existing mangroves against anthropogenic pressures.
The Secretariat of the Pacific Regional Environment Programme (SPREP) and the
University of Newcastle signed a partnership agreement to analyse the ecosystem
sustainably and determine possible adaptation interventions against climate change
of the Moata’a mangroves, Samoa. This report presents the Output 4, “Final Moata’a
Mangrove Ecosystem Analysis Report” from the project: “Mangrove, catchment and
climate change impacts assessment and mangrove ecosystem analysis”.
The report comprises an analysis of background studies relevant for the project
and the available information, including data quality assessment and gap filling, a
description of the modelling tools and assumptions, results from hydro sedimentological and ecosystem assessments, and resilience analysis of the Moata’a
mangrove ecosystem considering future changes in climate, land use and
infrastructure construction.
The data and background information were used to develop
hydrosedimentological models of the Moata’a catchment and also of the Vaisigano
catchment using the freely available software SWAT. The Vaisigano catchment was
included in the analysis because it contributes important amounts of sediment and
water to the Moata’a mangrove ecosystem during large floods, The results from the
hydrosedimentological analysis were used in conjunction with tidal flows and
sediments to analyse the response of the mangrove ecosystem to sea level rise using
an ecogeomorphological model.
The ecosystem response assessment indicated that approximately 40% of the
mangrove area can be lost over the next 100 years due to the sea level rise that
corresponds to a high emission pathway (RCP8.5 of AR6 IPCC report). Mangroves can
respond to sea level rise by increasing their elevation when capturing sediments and
organic material in the soil or by migrating to higher ground, but the high values of
2
sea level rise limit the effectiveness of these mechanisms. Analysis of uncertainties
in the model topographic data indicated that the loss of mangroves can be between
approximately 30% and 60% over the next 100 years.
The resilience of the Moata’a mangrove was studied by analysing the response of
the ecosystem under different scenarios of climatic and man-made alterations at the
catchment scale, in conjunction with sea level rise. A scenario that considered the
construction of levees and a dam for flood protection resulted in a reduced resilience
of the ecosystem due to a reduced delivery of sediment to the wetland. Conversely,
a scenario that considered an increase in rainfall intensity due to a 4°C temperature
rise greatly improved the resilience of the ecosystem because of a higher production
of sediment due to erosion. A scenario that considered land use changes due to
replacement of forest by agriculture in areas of the Vaisigano catchment had little
effect on the mangroves resilience as the sediment inputs increased only marginally
and water quality effects were not accounted for.
The results indicate that the mangrove ecosystem resilience is very sensitive to
reductions in sediment availability. Maintaining the connectivity of flow and
sediment within the mangrove wetland and with the Vaisigano river and the coastal
areas is vital for the resilience of the mangrove ecosystem. In addition,
implementation of buffer zones at elevations that can promote migration are
recommended to accommodate future mangrove colonization. Regular monitoring is
required to assess the effectiveness of any preventive measures and to be able to implement adaptive management strategies. |
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dc.description.sponsorship |
Irish Aid |
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dc.language.iso |
en |
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dc.publisher |
SPREP |
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dc.subject |
Mangroves |
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dc.subject |
Ecology - Flora and Fauna |
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dc.subject |
Land use |
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dc.subject |
Contamination |
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dc.subject |
Hydrylogy and flooding |
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dc.subject |
Coastal processes |
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dc.subject |
Sediment erosion and deposition |
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dc.subject |
climate change |
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dc.subject |
Catchment Management |
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dc.title |
Resilient ecosystems, resilient communities-situational analysis of the Moata'a community and mangrove enviroment |
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dc.title.alternative |
Final Moata'a mangrove ecosystem analysis report |
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dc.type |
Technical Report |
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