Using ion-exchange resins to monitor nitrate fluxes in remote semiarid stream beds

Monitoring in remote areas can represent a real challenge in environmental studies. Numerous techniques have been developed over the last decades to monitor nutrients and other elements in different systems. However, not all of them are suitable for field applications, particularly when the location...

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Bibliographic Details
Published in:Environmental monitoring and assessment 2022-05, Vol.194 (5), p.376-376, Article 376
Main Authors: Vizuete-Jaramillo, Efrain, Grahmann, Kathrin, Mora Palomino, Lucy, Méndez-Barroso, Luis, Robles-Morua, Agustín
Format: Article
Language:English
Subjects:
Atmospheric Protection/Air Quality Control/Air Pollution
Catchment area
Catchments
Climatic conditions
Earth and Environmental Science
Ecology
Ecosystem
Ecotoxicology
Environment
Environmental Management
Environmental Monitoring
Environmental science
Environmental studies
Ephemeral streams
Fluxes
Hyporheic zone
Hyporheic zones
Ion exchange
Ion Exchange Resins
Mineral nutrients
Monitoring/Environmental Analysis
Nitrates
Nitrates - analysis
Nitrogen - analysis
Nitrogen Oxides
Nutrients
Outcrops
Plant cover
Rain
Rainfall
Remote monitoring
Resins
River beds
Riverbeds
Rivers
Samplers
Seasons
Soil
Soils
Streambeds
Summer
Summer rainfall
Vegetation
Vegetation cover
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Summary:Monitoring in remote areas can represent a real challenge in environmental studies. Numerous techniques have been developed over the last decades to monitor nutrients and other elements in different systems. However, not all of them are suitable for field applications, particularly when the locations are difficult to access or its accessibility depends on seasonal climate conditions. This study was aimed to test the applicability and efficiency of resin samplers and resin bags to monitor nitrates fluxes (NO 3 -N) in two small semi-arid catchments in Northwestern Mexico. Resin samplers were installed in the hyporheic zone below the river bed in order to monitor the vertical fluxes of NO 3 -N and remained there for 5 months (during the summer rains). Resin bags were anchored in rock outcrops upstream of the resin samplers before the onset of the summer rainfall season and replaced every 2 weeks during 4 months to capture pulses of NO 3 -N in ephemeral streams. NO 3 -N pulses in the stream are a potential source of NO 3 -N that can infiltrate into the soil. Results of the resin samplers found a difference of up to 12 kg ha −1 season −1 between the two catchments. The resin bags showed a higher accumulation of NO 3 -N in the catchment with lower vegetation cover (160.3 mg L −1 season −1 ) compared to the one with higher vegetation (67.8 mg L −1 season −1 ). Measured nitrate fluxes at both sites responded to rainfall pulses recorded during the monitoring period. Resin samplers and resin bags can be used together, to assess nutrient fluxes on the surface and in the soil and can be tested in any type of ecosystem. In this particular case, these methods demonstrated an efficient way of determining spatio-temporal nitrate fluxes in semi-arid ecosystems in remote areas that are difficult to access, monitor, and collect data.
ISSN:0167-6369
1573-2959
DOI:10.1007/s10661-022-10041-8