Drivers of carbon sink function in tropical seagrass beds : influence of carbon import, plant composition, seascape configuration and human activities

• Seagrass meadows are effective carbon sinks, sequestering atmospheric CO2 and capturing allochthonous organic material, storing organic carbon (Corg) in their sediments, so called Blue Carbon. In tropical areas, seagrass meadows have a high number of calcareous organisms, which can offset carbon sequestration by releasing CO2 through their calcification. Human activities such as urbanization and land-use change with inadequate management of blue carbon ecosystems are causing fast degradation of tropical blue carbon ecosystems, particularly mangroves and seagrasses. In this thesis, I and colleagues looked at the carbon sequestration process and the impact of marine protected areas (MPAs) on Corg conservation in the blue carbon ecosystems of the western Indian Ocean (WIO) region. This was accomplished by examining the air-water CO2 flux in different plant community compositions (i.e. seagrass and calcifying macroalgae), as well as factors driving air-water CO2 flux and the assessment of Corg stocks within and outside MPAs in tropical and subtropical areas of the WIO. The impact of landscape configuration and modification due to urbanization and mangrove degradation on the accumulation and variability of Corg in seagrass habitats was also investigated. We found that, the sum of the fluxes showed a net efflux of CO2 over the meadows. The CO2 fluxes changed both in rate and direction over the day, and were significantly related to plant community composition and environmental conditions  such as pH and CO2 partial pressure, where pH had the strongest influence on CO2 fluxes. Influxes were found only over vegetation with high proportion of seagrass and in the afternoon, whereas calcifying algae appeared to reverse the flow. We found that highly productive seagrass meadows can generate a net CO2 from the water to the atmosphere as plants’ demand for CO2 to a large extent is covered by internal cycling of CO2, both from degradation of autochthonous and allochthonous material and calcification. We found that accumulation of Corg in seagrass meadows is larger than the flow to the atmosphere, indicating that these systems can still be carbon sinks.The inflow of allochthonous carbon, Corg content and stocks in the seagrass meadows was influenced by a combination of landscape metrics and inherent habitat plant- and sediment-properties. We discovered a strong land to sea gradient in terms of Corg content in seagrass seascapes, due to hydrodynamic forces that resulted into unique patterns in sedimentary Corg levels. Seagrass surface sediments closer to a deforested mangrove had higher Corg content and mangrove signal, probably due to increased Corg export from deforested mangrove. In comparison to more diversified and patchy seascapes, seascapes with extensive continuous seagrass meadows have higher sedimentary Corg content. Seagrass meadows located near an area with rapid and short-term urbanization and degraded mangroves had a higher sedimentary Corg content, but similar carbon accumulation rate as an area with long-term progressive urbanization. It was found that tropical and subtropical blue carbon ecosystems store a significant amount of carbon in their sediments, but that many carbon storage hotspots are entirely/partially outside MPAs. This masks their influence on blue carbon conservation. MPAs can still be used to conserve blue carbon if carbon hotspots are properly located and managed.This thesis contributes knowledge of important determining factors influencing primary pathways of tropical coastal ecosystem carbon sequestration and are critical for identifying hotspots of carbon storage to generate conservation prioritizations.  Future research should focus on conservation prioritizations that will limit the unsustainable use of coastal resources.

Ämnesord

NATURVETENSKAP  -- Geovetenskap och miljövetenskap -- Klimatforskning (hsv//swe)

NATURAL SCIENCES  -- Earth and Related Environmental Sciences -- Climate Research (hsv//eng)

NATURVETENSKAP  -- Geovetenskap och miljövetenskap -- Miljövetenskap (hsv//swe)

NATURAL SCIENCES  -- Earth and Related Environmental Sciences -- Environmental Sciences (hsv//eng)

TEKNIK OCH TEKNOLOGIER  -- Naturresursteknik -- Miljöledning (hsv//swe)

ENGINEERING AND TECHNOLOGY  -- Environmental Engineering -- Environmental Management (hsv//eng)

Nyckelord

Carbon sequestration

tropical seagrass meadows

coastal seascape

landscape configuration and transformation

calcification

allochthonous carbon

community respiration

carbon sink

human disturbance

coastal conservation

Plant Physiology

växtfysiologi

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