Translating the agricultural N surplus hazard into groundwater pollution risk: Implications for effectiveness of mitigation measures in nitrate vulnerable zones

Cameira, Maria do Rosário; Rolim, João; Valente, Fernanda; Mesquita, Marta; Dragosits, Ulrike; Cordovil, C.

doi:10.1016/j.agee.2020.107204

Cited by 27 publications

(14 citation statements)

References 66 publications

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“…The Tagus-Sado basin is the most important aquifer in the Iberian Peninsula and the main source of water for societal and agricultural purposes (Almeida et al, 2000). It is a multi-layered aquifer system, covering 8000 km 2 in a sedimentary basin where intensive agriculture occurs with implications in groundwater pollution (Cameira et al, 2019(Cameira et al, , 2021.…”

Section: Estimating Groundwater N Contamination From Diffuse Agricultural Lossesmentioning

confidence: 99%

“…However, these models focus on groundwater vulnerability assessment rather than on the contamination hazard and groundwater contamination risk. Thus, they can indicate high vulnerability, but no pollution risk given the absence of a contamination load (Cameira et al, 2021). By integrating the hazard and vulnerability concepts, the present paper aims to present a more holistic approach to assess and to rate the groundwater N contamination risk at a national scale.…”

Section: Introductionmentioning

confidence: 99%

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Development of a groundwater contamination index based on the agricultural hazard and aquifer vulnerability: Application to Portugal

Serra¹,

Cameira

Cordovil³

et al. 2021

Science of The Total Environment

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Section: Estimating Groundwater N Contamination From Diffuse Agricultural Lossesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Development of a groundwater contamination index based on the agricultural hazard and aquifer vulnerability: Application to Portugal

Serra¹,

Cameira

Cordovil³

et al. 2021

Science of The Total Environment

Self Cite

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“…Complex problems of the quantity and quality of water resources of coastal agricultural watersheds, and especially of the groundwater regarding the water table depletion, the nitrate contamination, and the seawater intrusion, are encountered in the semi-arid Mediterranean coastal region [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18]23,28,29,32,39]. The developed integrated modeling system consisting of coupled and interrelated models of surface and groundwater hydrology, crop growth/nitrate leaching, and groundwater contaminant transport and its application in the Almyros basin, emphasize the significance of the integrated modeling for the study and the effective and accurate analysis of the spatiotemporal patterns of groundwater flow, nitrate pollution originated by fertilizer practices, and seawater intrusion [32].…”

Section: Discussionmentioning

confidence: 99%

“…Groundwater pollution has an important role among water resources management strategies due to the majority of the semi-arid regions it is encountered. Some known examples of coastal water systems where intensive agricultural practices, for irrigation and fertilization purposes, have caused serious degradation of the groundwater resources and documented in the international literature, including Italy (Nurra region of Sardinia [3] and central-southern Italy [4]), south-eastern France (Lower Var Valley) [5], Spain (e.g., Mancha Oriental System in Jucar River Basin, Oropesa Plain, Vinaroz Plain) [6,7], Portugal (Tagus catchment) [8], Egypt (e.g., Bagoush plain, North Sinai area, East Nile Delta aquifer), Tunisia (Jerba Island), Algeria (Nador plain), Morocco (Bou-Areg aquifer) [9], Lebanon (Akkar and Damour aquifers), Syria (e.g., Latakia and Tartous groundwaters), Palestine (Gaza aquifer), Jordan (northern Jordan, Yarmouk Basin) [10], Cyprus (Magosa aquifer) [11], Turkey (e.g., Silifke-Goksu Deltai, Serik, and Tarsus Plains) [12], and in the Greek coastal areas.…”

Section: Introductionmentioning

confidence: 99%

An Integrated Modeling System for the Evaluation of Water Resources in Coastal Agricultural Watersheds: Application in Almyros Basin, Thessaly, Greece

Lyra

Λουκάς

Sidiropoulos

et al. 2021

Water

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This study presents an integrated modeling system for the evaluation of the quantity and quality of water resources of coastal agricultural watersheds. The modeling system consists of coupled and interrelated models, including (i) a surface hydrology model (UTHBAL), (ii) a groundwater hydrology model (MODFLOW), (iii) a crop growth/nitrate leaching model (REPIC, an R-ArcGIS-based EPIC model), (iv) a groundwater contaminant transport model (MT3DMS), and (v) a groundwater seawater intrusion model (SEAWAT). The efficacy of the modeling system to simulate the quantity and quality of water resources has been applied to the Almyros basin in Thessaly, Greece. It is a coastal agricultural basin with irrigated and intensified agriculture facing serious groundwater problems, such as groundwater depletion, nitrate pollution, and seawater intrusion. Irrigation demands were estimated for the main crops cultivated in the area, based on precipitation and temperature from regional weather stations. The models have been calibrated and validated against time-series of observed crop yields, groundwater table observations, and observed concentrations of nitrates and chlorides. The results indicate that the modeling system simulates the water resources quantity and quality with increased accuracy. The proposed modeling system could be used as a tool for the simulation of water resources management and climate change scenarios.

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“…However, the groundwater nitrate pollution tends to be persistent as shown in that exceedance of the nitrate standard was 17.3% in the survey of the areas adjacent to polluted wells and 42.6% in the monitoring survey of polluted wells in 2018 [40]. A general improvement in water quality regarding nitrate concentrations is usually accompanied by the existence of contamination/pollution hotspots due to agricultural activities, as demonstrated by [42,43]. This means that a closer look must be given to local and regional aspects of N losses, and all actors must be involved in the development of sustainable N management.…”

Section: Discussionmentioning

confidence: 99%

Contrasting Considerations among Agricultural Stakeholders in Japan on Sustainable Nitrogen Management

Ragkos¹,

Hayashi

Serra

et al. 2021

Sustainability

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Sustainable nitrogen (N) management in agriculture is one of the most important issues affecting the environmental performance of modern agriculture. It is actually well perceived that coordinated efforts and holistic approaches are required to regulate N use by farmers. The purpose of this study was to provide an initial examination of stakeholders’ views in Japan regarding N use in agriculture and challenges to increase its sustainability. The analysis was based on a questionnaire study of five types of stakeholders (farmers, advisors, researchers, suppliers, policy makers). By means of multivariate analysis techniques it was revealed that consensus was lacking either in the acknowledgment of the causes and effects of unsustainable N management or in the challenges that need to be addressed. N losses from farms and the effects of N use were perceived but not conceived equally by all stakeholders. Organic farming and mandatory measures were the most controversial challenges, while those involving awareness, training and advisory were the most popular. This study cannot provide safe conclusions that can be generalized in the Japanese context, but it indicates domains where further research is required and orientations for future policy design towards more sustainable N use.

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Translating the agricultural N surplus hazard into groundwater pollution risk: Implications for effectiveness of mitigation measures in nitrate vulnerable zones

Cited by 27 publications

References 66 publications

Development of a groundwater contamination index based on the agricultural hazard and aquifer vulnerability: Application to Portugal

Development of a groundwater contamination index based on the agricultural hazard and aquifer vulnerability: Application to Portugal

An Integrated Modeling System for the Evaluation of Water Resources in Coastal Agricultural Watersheds: Application in Almyros Basin, Thessaly, Greece

Contrasting Considerations among Agricultural Stakeholders in Japan on Sustainable Nitrogen Management

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