Surface moisture area during rainfall–run‐off events to understand the hydrological dynamics of a basin in a plain region

Ares, María Guadalupe; Holzman, Mauro; Entraigas, Ilda; Varni, Marcelo; Fajardo, Luisa; Vercelli, Natalia

doi:10.1002/hyp.11492

Cited by 7 publications

(3 citation statements)

References 67 publications

(107 reference statements)

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“…Daily maps of TIDI show high spatial variability of water availability for vegetation (Figure 9). The general pattern is consistent with changes in topography, groundwater, and oceanic influence [45,46]. Thus, wet areas are located on the east and north-east edge due to the oceanic and shallow groundwater table influences.…”

Section: Parameters and Spatial Variability Of Tidisupporting

confidence: 68%

Relationship between TIR and NIR-SWIR as Indicator of Vegetation Water Availability

2021

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Water availability for vegetation use has been associated with the relative amount of water in the plant and is a key factor for modeling variables related to the soil-plant system (e.g., net primary production, drought effects on vegetation). To the best of our knowledge, the integration of spectral proxies of vegetation water content (near-infrared (NIR), shortwave-infrared (SWIR) bands) and land surface temperature (LST) for estimation, not only of vegetation water content but also soil water available for the evapotranspiration process requires more analysis. This study aims to assess the relationship between NIR, SWIR reflectance, and LST data as indicators of water availability for crop use. For this purpose, vegetation water content, LST, and spectral reflectance over soybean, corn, and barley were measured in the field and the laboratory. Based on the consistency of satellite data from Moderate-Resolution Imaging Spectroradiometer (MODIS/Aqua) in relation to such measurements, a model is proposed, which can be parameterized from remotely sensed NIR-SWIR/LST scatterplots. The obtained results were tested in the Argentine Pampas, showing coherence with surface processes at regional scale associated with soil water availability. The comparison with soil moisture at different depths (R2 > 0.7) showed that the method is sensitive to variations in root zone water availability. Given the reliance of the index on just satellite data, it can be pointed that the potential not only for vegetation water stress analyses but also in the context of hydrological modeling as an input of water availability.

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Section: Parameters and Spatial Variability Of Tidisupporting

confidence: 68%

Relationship between TIR and NIR-SWIR as Indicator of Vegetation Water Availability

2021

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“…In this study, Cmax for groundwater was assumed to be 0.01 kgN/m 3 , the value for drinking water in the Código Alimentario Argentino [39]. This value was used because, in the large plains, the runoff to surface water is negligible and vertical movements (infiltration and evapotranspiration) predominate [40]. A Cnat value of 0.0004 kgN/m 3 was applied in line with the GWF guidelines, as no actual data were available in the study area [7,9].…”

Section: Methodsmentioning

confidence: 99%

Different Approaches to Assessing Pollution Load: The Case of Nitrogen-Related Grey Water Footprint of Barley and Soybean in Argentina

Rodríguez

Holzman

Mujica

et al. 2021

Water

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Agriculture is among the main causes of water pollution. Currently, 75% of global anthropogenic nitrogen (N) loads come from leaching/runoff from cropland. The grey water footprint (GWF) is an indicator of water resource pollution, which allows for the evaluation and monitoring of pollutant loads (L) that can affect water. However, in the literature, there are different approaches to estimating L and thus contrasting GWF estimates: (A1) leaching/runoff fraction approach, (A2) surplus approach and (A3) soil nitrogen balance approach. This study compares these approaches for the first time to assess which one is best adapted to real crop production conditions and optimises GWF calculation. The three approaches are applied to assess N-related GWF in barley and soybean. For barley in 2019, A3 estimated a GWF value 285 to 196% higher than A1, while in 2020, the A3 estimate was 135 to 81% higher. Soybean did not produce a GWF due to the crop characteristics. A3 incorporated N partitioning within the agroecosystem and considered different N inputs beyond fertilization, improving the accuracy of L and GWF estimation. Providing robust GWF results to decision-makers may help to prevent or reduce the impacts of activities that threaten the world’s water ecosystems and supply.

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“…Thus, it is important to improve the knowledge of the hydrological response, its complexity and the factors associated with its variability at the headwaters of these areas, in the regional context of flatlands. Analyses of the hydrology in these regional contexts are not frequent and are still needed (Aragón, Jobbágy, & Viglizzo, 2011;Ares et al, 2018;Dalponte et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Runoff response of a small agricultural basin in the argentine Pampas considering connectivity aspects

Ares

Varni

Chagas

2020

Hydrological Processes

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Our manuscript analyses the surface runoff variability, and its controlling factors in a small basin with gentle slopes, at the headwaters of a flat catchment, to improve the knowledge of the hydrology of plain areas under agriculture. We study runoff, rainfall and antecedent conditions in the argentine Pampas region. We use correlations, regressions and quantitative and qualitative descriptive information of the system: erosion signs, ground cover by crops, groundwater depth data and temporal changes in the drainage network, to discuss and understand the complexity of the runoff process by frameworks to study (dis)connectivity. The analysis of 56 events evidenced a nonlinear rainfall–runoff relationship. In contrast with other works, we identified clear upper limit events, under which hydrological responses emerge, as a result of combinations of antecedent wetness, rainfall erosivity, ground cover and preferential drainage paths. We separated the nonlinear rainfall–runoff response in three linear relationships according to differences in antecedent wetness conditions. We found differences in runoff responses under wet and dry antecedent conditions, but complex responses under medium antecedent conditions. The analyses of the inputs, the structural and the functional elements of the (dis)connectivity frameworks, were key in the understanding of the temporal changes of runoff, and its complex responses. Temporal coincidences of connectivity components and their feedbacks appear to be strongly associated with the runoff dynamics. High‐magnitude hydrological responses occur with complete coincidences, while partial coincidences between the components reduce connectivity and low magnitude and/or heterogeneous responses prevail. Thus, these analyses suggest that runoff is controlled by (dis)connectivity in this basin with gentle slopes. Our work contributes to the understanding of the process of surface runoff in the context of humid flatlands under agricultural land use, by the identification of the complex combinations of factors which regulate/control the (dis)connectivity that helps to interpret the nonlinearities of runoff.

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Surface moisture area during rainfall–run‐off events to understand the hydrological dynamics of a basin in a plain region

Cited by 7 publications

References 67 publications

Relationship between TIR and NIR-SWIR as Indicator of Vegetation Water Availability

Relationship between TIR and NIR-SWIR as Indicator of Vegetation Water Availability

Different Approaches to Assessing Pollution Load: The Case of Nitrogen-Related Grey Water Footprint of Barley and Soybean in Argentina

Runoff response of a small agricultural basin in the argentine Pampas considering connectivity aspects

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