Tropical Montane Forest Conversion Is a Critical Driver for Sediment Supply in East African Catchments

Kroese, Jaqueline Stenfert; Jacobs, Suzanne; Tych, Włodek; Quinton, John; Rufino, Mariana C.

doi:10.1029/2020wr027495

Cited by 15 publications

(13 citation statements)

References 82 publications

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“…Peak SSC concentrations were reached in early to mid-rainy season (in the months of April-July for long rains and September to October for short rains), in some instances prior to peak flow, and decreased in the transition from rainy to dry season (in the months of December-March). The higher concentrations of suspended sediments during the rainy season and the lower concentrations in the dry season in this study are consistent with other rivers studied in the Mau Forest Complex (Dutton et al, 2018;Stenfert Kroese et al, 2020a). Also notable are the considerable high SSC even in times when flows were consistently lower in March and May 2019 at site CMT and KIP.…”

Section: Spatial and Temporal Trends Of Suspended Sediment Concentrationssupporting

confidence: 90%

“…Forests and riparian buffer zones can act as a filter, controlling and decreasing the sediment load by surface runoff (Mello et al, 2018). Similar effects were reported in previous studies that found forested watersheds to have lower suspended sediment concentrations as compared to agricultural landscapes (Tu, 2013;Zhang et al, 2017;Mello et al, 2018;Stenfert Kroese et al, 2020a). Contrasting the effect of land use, we have no clear explanation for the positive correlation with catchment size.…”

Section: Spatial and Temporal Trends Of Suspended Sediment Concentrationssupporting

confidence: 81%

“…Other studies have reported similar results showing that the SSC did not necessarily change with discharge values which is an indication that other factors besides rainfall such as natural and anthropogenic disturbances control the SSC in small catchments (Ouellet-Proulx et al, 2016;Rodríguez-Blanco et al, 2018). Stenfert Kroese et al (2020a), in a study in the same catchment, reported that the impulse response between the peaks of discharge and sediment concentration was in general longer compared to the rainfall peak.…”

Section: Spatial and Temporal Trends Of Suspended Sediment Concentrationsmentioning

confidence: 62%

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Monitoring of Suspended Sediments in a Tropical Forested Landscape With Citizen Science

et al. 2021

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Catchments are complex systems, which require regular monitoring of hydro-chemical parameters in space and time to provide comprehensive datasets. These are needed to characterize catchment behavior on a local level, make future projections based on models, implement mitigation measures and meet policy targets. However, many developing countries lack a good infrastructure for hydrological monitoring since its establishment is costly and the required resources are often not available. To overcome such challenges in data scarce regions like Kenya, a participatory citizen science approach can be a promising strategy for monitoring water resources. This study evaluates the potential of using a contributory citizen science approach to explore spatiotemporal turbidity and suspended sediment dynamics in the Sondu-Miriu river basin, western Kenya. A group of 19 citizen scientists was trained to monitor turbidity using turbidity tubes and water levels with water level gauges in six nested subcatchments of the Sondu-Miriu river basin. Over the course of the project, a total of 37 citizen scientists participated and contributed to the overall dataset of turbidity. The sampling effort and data contribution varied from year to year and among participants with the majority of the data (72%) originating from 8 (22%) citizen scientists. Comparison between citizen-scientist collected suspended sediment data and measurements from automated stations showed high correlation (R2 > 0.9) which demonstrates that data collected by citizen scientists can be comparable to data collected using expensive monitoring equipment. However, there was reduced precision of the measurements of suspended sediment concentrations at low and high levels attributed largely to the detection limitations of the turbidity tubes and citizen scientists not capturing major sediment export events. Suspended sediment concentrations were significantly higher downstream (109 ± 94 mg L−1), a subcatchment dominated by agriculture and rangeland with low forest vegetation cover, as compared to a subcatchment with high forest cover (50 ± 24.7 mg L−1). This finding indicates that forest cover is a key landscape feature to control suspended sediment concentrations in the region. Future citizen science projects should focus on motivation and engagement strategies and the application of robust methods with improved detection limits and resolution to advance hydrological monitoring.

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Section: Spatial and Temporal Trends Of Suspended Sediment Concentrationssupporting

confidence: 90%

Section: Spatial and Temporal Trends Of Suspended Sediment Concentrationssupporting

confidence: 81%

Section: Spatial and Temporal Trends Of Suspended Sediment Concentrationsmentioning

confidence: 62%

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Monitoring of Suspended Sediments in a Tropical Forested Landscape With Citizen Science

et al. 2021

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“…Invasive alien plant species have equally been identified to contribute to freshwater pollution (Chamier et al, 2012). Land use/cover change resulting to increase sediment loads from upstream catchments is also a major source of water pollution (Dutton et al, 2018; Stenfert Kroese et al, 2020).…”

Section: Water Security Challenges Facing Sub‐saharan Africamentioning

confidence: 99%

Water security in sub‐Saharan Africa: Understanding the status of sustainable development goal 6

et al. 2021

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The world is nearing the 2030 target‐year by which sustainable development goals (SDGs) should be achieved. While other developing regions seem to be making progress toward achieving SDG6, sub‐Saharan Africa (SSA) is lagging behind significantly, particularly with regard to access to water supply and sanitation (WSS). As a result, most studies evaluating progress toward the achievement of water security SDGs in SSA have focused on WSS while the rest of the SDG6 targets have received scant attention, often using fragmented or incomplete evidence. Here, we fill this knowledge gap by conducting a comprehensive assessment of the status of SDG6 in all 48 countries in SSA. We provide a review of the progress made, the challenges affecting each SDG6 target and examine the different political, socioeconomic, and environmental factors with potential to undermine the achievement of SDG6 in the region. Our review clearly demonstrates that it is likely that most countries may not achieve water security by 2030. The complex nature of the challenges and factors impeding the achievement of water security in SSA outlined here suggests that a holistic intervention involving local, national, and international stakeholders and the research community is urgently needed to address SDG6 if the 2030 target date is to be met. Approaches to enhance water security may equally consider: (a) underpinning peace and security in SSA and (b) the commitment of more financial resources by donors particularly during this period of COVID‐19 pandemic. This article is categorized under: Human Water Human Water > Water Governance Engineering Water > Planning Water

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“…Lack of land-use effects on decomposition rates in this study is intriguing and contrary to similar studies on the effects of agriculture on organic matter processing in tropical (Jinggut et al, 2012;Masese et al, 2014b;Silva-junior et al, 2014;Fugère et al, 2020) and temperate (Woodward et al, 2012;Ferreira et al, 2015) streams. Although our agricultural sites had significantly elevated levels of total suspended solids and electrical conductivity, which are indicators of anthropogenic activities on water quality (Minaya et al, 2013;Ontumbi et al, 2015;Masese et al, 2017;Kroese et al, 2020), these were deemed within tolerable limits of most sensitive taxa, including shredders, in these sites. Riparian zones in agricultural streams were well maintained, and this increased the quality of instream habitats, canopy cover and standing stocks of organic matter (Table 1) that are depended upon by shredders.…”

Section: Discussionmentioning

confidence: 81%

No Difference in Instream Decomposition Among Upland Agricultural and Forested Streams in Kenya

Kadeka

Masese

Lusega

et al. 2021

Front. Environ. Sci.

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Expansion of agriculture is particularly worrying in tropical regions of the world, where native forests have been replaced by croplands and grasslands, with severe consequences for biodiversity conservation and ecosystem functioning. However, limited data exist on the effects of agriculture on the functioning of tropical streams. We conducted a leaf litter decomposition experiment in coarse- and fine-mesh litterbags using the three species of leaves (Eucalyptus globulus [non-native], Vernonia myriantha, and Syzygium cordatum [indigenous]) in three forested and agricultural streams to determine the effect of agriculture on instream leaf litter decomposition in headwater stream sites. We also examined the functional composition of macroinvertebrates in the streams through the contents of benthic kick samples. Agricultural streams had a less dense riparian canopy and smaller abundance of coarse organic particulate matter, and higher electric conductivity and suspended solids than forested streams. In terms of the effects of litter quality on decomposition rates, Vernonia had the fastest decomposition rates while Eucalyptus had the slowest in both forested and agricultural sites. Shredder invertebrates were less abundant in agricultural streams, and in both stream types, they were less diverse and abundant than other functional groups. Overall, leaf litter decomposition rates did not respond to agricultural land-use. The hypothesized negative effects of agriculture on organic matter processing were minimal and likely modulated by intact riparian zones along agricultural streams.

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Tropical Montane Forest Conversion Is a Critical Driver for Sediment Supply in East African Catchments

Cited by 15 publications

References 82 publications

Monitoring of Suspended Sediments in a Tropical Forested Landscape With Citizen Science

Monitoring of Suspended Sediments in a Tropical Forested Landscape With Citizen Science

Water security in sub‐Saharan Africa: Understanding the status of sustainable development goal 6

No Difference in Instream Decomposition Among Upland Agricultural and Forested Streams in Kenya

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