Disproportionate Contribution of Riparian Inputs to Organic Carbon Pools in Freshwater Systems

Marwick, Trent R.; Borges, Alberto; Acker, Kristof Van; Darchambeau, François; Bouillon, Steven

doi:10.1007/s10021-014-9772-6

Cited by 30 publications

(26 citation statements)

References 73 publications

(122 reference statements)

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“…Although corruption is a legitimate concern in Terai forest management [13], it is an issue of governance and can be minimized through government transparency and accountability [35]. Our study results revealed that other stakeholders are not assured of good governance and accountability issues within the existing SFM mechanisms.…”

Section: Resultsmentioning

confidence: 80%

Stakeholder opinions on scientific forest management policy implementation in Nepal

et al. 2018

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Despite its widespread recognition as a successful model of participatory forest management, the community forestry program in Nepal is often criticized for its protection-oriented emphasis. Recognizing the need for more active timber management, the government of Nepal recently adopted a scientific forest management (SFM) policy in the lowland tropical region. In this study, strength, weakness, opportunity, and threat analytical hierarchical process criteria were employed to understand stakeholder perceptions concerning SFM implementation in Nepal. The overall perception was prioritized in the order of strengths (35%), threats (28%), opportunities (22%), and weaknesses (16%). The study results suggest that there is agreement among stakeholders regarding the need for active management of forests in the tropical lowland region. However, the perceptions of academic researchers and non-government organization professionals differed from those of the other stakeholders in that those two groups were more concerned about potential corruption and uncertainties surrounding policy and legal issues. The findings suggest that the long-term success of SFM may depend on the ability of the government to develop a mechanism that is transparent and capable of ensuring equitable benefit sharing among stakeholders. While the stakeholder perception analysis performed in this study was focused on SFM implementation in Nepal, the results could have implications for other countries that practice the participatory model of forest governance as well.

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Section: Resultsmentioning

confidence: 80%

Stakeholder opinions on scientific forest management policy implementation in Nepal

et al. 2018

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“…Similar seasonal patterns in riverine δ 13 C POC have been reported from other catchments with mixed C3 and C4 vegetation [ Bird et al ., ; Zhang et al ., ; Marwick et al ., ], pointing toward a common driver behind the seasonal delivery of C3 versus C4‐derived C to the river systems within tropical and subtropical latitudes.…”

Section: Discussionmentioning

confidence: 99%

Sediment and carbon fluxes along a longitudinal gradient in the lower Tana River (Kenya)

et al. 2014

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We estimated annual fluxes of suspended matter and different carbon (C) pools at three sites along the lower Tana River (Kenya), based on monthly sampling between January 2009 and December 2011. Concentrations of total suspended matter (TSM), particulate organic carbon (POC), dissolved organic carbon (DOC), and dissolved inorganic carbon (DIC) were monitored, as was the stable isotope composition of the carbon pools. Both TSM and POC concentrations showed strong seasonality, varying over several orders of magnitude, while DOC and DIC concentrations showed no seasonal variations. A strong shift in the origin of POC was observed, which was dominated by C3-derived C during dry conditions (low δ 13 C POC between À28‰ and À25‰), but had significant C4 contributions during high-flow events (δ 13 C POC up to À19.5‰). Between Garissa and the most downstream sampling point, a clear decrease in suspended matter and organic C fluxes was observed, being most pronounced during high-discharge conditions: on an annual basis, fluxes of TSM, POC, and DIC decreased by 34% to 65% for the 3 year study period. Our results suggest that floodplains along the lower Tana River could play an important role in regulating the transport of suspended matter and organic C. A comparison of current flux estimates with data collected prior to the construction of several hydropower dams reveals that the sediment loading is reduced during low discharge conditions.

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“…In contrast, in central Madagascar, the δ 13 C composition of riverine OC is biased toward riparian C3 plants despite the catchment being dominated by C4 grasslands (Marwick et al, 2014). The isotopic composition of riverine OC and terrestrial plant biomarkers can also change between wet and dry seasons, reflecting different fluvial sourcing or OC mobilization mechanisms during wet and dry flow regimes (Marwick et al, 2014;Ponton et al, 2014). Further, the concentration and relative abundance of terrestrial plant nalcohols and n-alkanoic acids in fluvial suspended sediments fluctuate with seasonal change in discharge from the Congo River, while those of the n-alkanes are more stable (Hemingway et al, 2016).…”

Section: Plant Wax Reworking and Temporal Resolutionmentioning

confidence: 95%

“…The δD composition of n-C28 alkanoic acid in riverine POM reflects the average upstream catchment area at each successive point along an elevation gradient in a tributary network to the Amazon (Ponton et al, 2014). In contrast, in central Madagascar, the δ 13 C composition of riverine OC is biased toward riparian C3 plants despite the catchment being dominated by C4 grasslands (Marwick et al, 2014). The isotopic composition of riverine OC and terrestrial plant biomarkers can also change between wet and dry seasons, reflecting different fluvial sourcing or OC mobilization mechanisms during wet and dry flow regimes (Marwick et al, 2014;Ponton et al, 2014).…”

Section: Plant Wax Reworking and Temporal Resolutionmentioning

confidence: 99%

Extracting the most from terrestrial plant-derived n-alkyl lipids and their carbon isotopes from the sedimentary record: A review

Diefendorf

Freimuth

2017

Organic Geochemistry

324

217

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Terrestrial plant biomarkers and their carbon isotopes provide insights into carbon cycling, paleovegetation and paleoclimate, ranging in scale from local to global. Over the past decade, considerable efforts have been made to constrain the factors that influence plant biomarkers and their carbon isotope composition to improve their utility for paleo applications. Global and regional replication of time intervals of great interest, such as during carbon cycle perturbations, has increased the need to compare among sites, but doing so has also complicated interpretation of carbon cycle perturbations due to the differences among records. This has led to questions regarding the fidelity of isotope records, the sensitivity of the isotope record to climate, and the best practices for reconciling records. But, at the same time, it has led to new exciting information on ecosystem responses to climate change. By removing competing influences of climate, ecosystem and biology, modern biomarker and isotope calibrations provide a means of reconciling and improving paleorecords and placing quantitative constraints on their interpretation. Here, we review the factors that influence the concentration of plant biomarkers and their carbon isotope composition and provide best practice for reconciling biomarker carbon isotope records for interpreting climate, ecosystem, and carbon cycling in the geologic past.

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Disproportionate Contribution of Riparian Inputs to Organic Carbon Pools in Freshwater Systems

Cited by 30 publications

References 73 publications

Stakeholder opinions on scientific forest management policy implementation in Nepal

Stakeholder opinions on scientific forest management policy implementation in Nepal

Sediment and carbon fluxes along a longitudinal gradient in the lower Tana River (Kenya)

Extracting the most from terrestrial plant-derived n-alkyl lipids and their carbon isotopes from the sedimentary record: A review

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