Impact of water application conditions on nitrogen leaching under furrow irrigation: Experimental and modelling approaches

Local infiltration tests on 1.5 m long blocked furrows were carried out on a loam soil to assess N fertiliser leaching under furrow irrigation where ridging operations entails placing nitrogen on the upper part of the ridge. This article focuses on the impact of flow depths, or water application dep...

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Published inAgricultural water management Vol. 87; no. 3; pp. 275 - 284
Main Authors Mailhol, J.C., Crevoisier, D., Triki, K.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 16.02.2007
Elsevier Science
Elsevier
Elsevier Masson
SeriesAgricultural Water Management
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Abstract Local infiltration tests on 1.5 m long blocked furrows were carried out on a loam soil to assess N fertiliser leaching under furrow irrigation where ridging operations entails placing nitrogen on the upper part of the ridge. This article focuses on the impact of flow depths, or water application depth (WAD), on nitrogen movement in seven 1.5-m long blocked furrows. For a first irrigation event, a WAD greater than or equal to 240 mm, significantly reduced the heterogeneity of the N concentration profiles measured at the top of the ridge and beneath the furrow. The virtually homogeneous N soil distribution with depth permitted the determination of the nitrogen balance throughout the season using soil samples obtained at the beginning and end of the season as well as the determination of nitrogen present in the crop tissue. This is not possible when there is a heterogeneous N soil profile at the end of the irrigation season, as observed under moderate WAD conditions. In addition, a substantial WAD delivered during the first irrigation event, and at a period where the plant N requirements are high, does not affect crop yield potential. A modelling approach, adapted to 2D water and solute transfer, allowed us to validate the estimated N leaching resulting from N balance performed under high WAD conditions. About 22 kg/ha of N was leached behind the root zone (around 10% of the nitrogen application) during the irrigation season under high WAD (240 mm during first irrigation and around 200 mm for the following irrigation events). Modelling should be used to estimate N leaching under low or moderate WAD conditions because of the heterogeneous N distribution within the root zone.
AbstractList Des tests d'infiltration locaux sur des raies bouchées de 1.5 m de longeur on été effectués en sol limoneux afin d'estimer le lessivage d'azote sous irrigation lorsque le fertilisant a été concentré sur la partie haute des billons lors du traçage des raies.Cet article ttreaite plus particulièrement de l'impact des hauteurs d'eau ou des doses infiltrées (DI) sur le déplacement d'azote dans 7 raie bouchées de 1.5 m de long. lors d'un premier arrosage, une DI de plus de 240 mm reduit significativement l'hétérogéneité du profil de concentration d'azote mesuré sous le billon et sous la raie. L'homogénété du profil d'azote entre raie et billon qui en résulte, permet la détermination du bilan d'azote au cours du cycle cultural à partir d'échantillons de sol prélevés en début et en fin de saison ainsi que dans le tissus végétal. Cela n'est pas possible lorsqu'il existe une hétérogénéité importante entre les 2 profils (sous raie et sous billon) à la fin de la saison comme on l'observe sur le traitementsoumis à des apports d'eau modérés.On constate qu'un apport d'eau important lors du premier arrosage n'induit, à une période où les besoins en azote sont élevés, n'affecte pas le rendement potentiel de la culture de maïs. Une modélisation adaptée au contexte 2D du transport d'eau et de solutés nous a permis de valider l'estimation du lessivage d'azote obtenu à partir de la méthode du bilan appliqué au traitement fortement irrigué. Environ 22 kg d'azote ont été lessivé sous la zone racinaire (soit 10% environde la dose de N apportée)au cours de la saison d'irrigation pour des apports d'eau élevés (240 mm pour la première irrigation et environ 200 mm pour les suivantes). La modélisation pourrait être un recours concenrnant l'estimation du lessivage d'azote sous conditions modérées d'apport d'eau en raison de la forte hétérogénéité des profils de distribution d'azote dans la zone racinaire / Local infiltration test on 1.5 blocked furrows were carried out on a loam soil to assess N fertliser leaching under furrow irrigation where ridging operations entails placing nitrogen on the upper part of thge ridge. This article focusses on the impact of flow depth or water application depths (WAD) on nitrogen movement in seven 1.5 m long blocked furrows. For a firts irrigation event , a WAD greater than or equal 240 mm significanlty reduced the heterogeneity of the N concentration profiles measured at the top of the ridge and beneath the furrow. The virtually homogenepus N soil distribution with depth permitted the determination of the nitrogen balance throughout the season using soil samples obtained at the beginnind and end of season as well as the determination of nitrogen present in the crop tissue. This is not possible when there is a heterogeneous N soil profile at the end of the irrigation season, as observed under moderate WAD conditions. In addition, a substantial WAD delivered during the firts irrigation, at a period wher the plant N requirements are high, does not affect crop yield potential. A modelling approache adapted to 2D water and solute transfer allow us to validate the estimated N leaching resulting from N balance performed under high WAD conditions. About 22 kg of N was leached behind the root zone (around 10% of the nitrogen applied) during the irrigation season under high WAD (240 mm during first irrigation and around 200mm for the following irriagtion evnts). Modelling should be used to estimate leaching under low WAD conditions because of the heterogeneous N distribution within the root zone.
Local infiltration tests on 1.5m long blocked furrows were carried out on a loam soil to assess N fertiliser leaching under furrow irrigation where ridging operations entails placing nitrogen on the upper part of the ridge. This article focuses on the impact of flow depths, or water application depth (WAD), on nitrogen movement in seven 1.5-m long blocked furrows. For a first irrigation event, a WAD greater than or equal to 240mm, significantly reduced the heterogeneity of the N concentration profiles measured at the top of the ridge and beneath the furrow. The virtually homogeneous N soil distribution with depth permitted the determination of the nitrogen balance throughout the season using soil samples obtained at the beginning and end of the season as well as the determination of nitrogen present in the crop tissue. This is not possible when there is a heterogeneous N soil profile at the end of the irrigation season, as observed under moderate WAD conditions. In addition, a substantial WAD delivered during the first irrigation event, and at a period where the plant N requirements are high, does not affect crop yield potential. A modelling approach, adapted to 2D water and solute transfer, allowed us to validate the estimated N leaching resulting from N balance performed under high WAD conditions. About 22kg/ha of N was leached behind the root zone (around 10% of the nitrogen application) during the irrigation season under high WAD (240mm during first irrigation and around 200mm for the following irrigation events). Modelling should be used to estimate N leaching under low or moderate WAD conditions because of the heterogeneous N distribution within the root zone.
Local infiltration tests on 1.5 m long blocked furrows were carried out on a loam soil to assess N fertiliser leaching under furrow irrigation where ridging operations entails placing nitrogen on the upper part of the ridge. This article focuses on the impact of flow depths, or water application depth (WAD), on nitrogen movement in seven 1.5-m long blocked furrows. For a first irrigation event, a WAD greater than or equal to 240 mm, significantly reduced the heterogeneity of the N concentration profiles measured at the top of the ridge and beneath the furrow. The virtually homogeneous N soil distribution with depth permitted the determination of the nitrogen balance throughout the season using soil samples obtained at the beginning and end of the season as well as the determination of nitrogen present in the crop tissue. This is not possible when there is a heterogeneous N soil profile at the end of the irrigation season, as observed under moderate WAD conditions. In addition, a substantial WAD delivered during the first irrigation event, and at a period where the plant N requirements are high, does not affect crop yield potential. A modelling approach, adapted to 2D water and solute transfer, allowed us to validate the estimated N leaching resulting from N balance performed under high WAD conditions. About 22 kg/ha of N was leached behind the root zone (around 10% of the nitrogen application) during the irrigation season under high WAD (240 mm during first irrigation and around 200 mm for the following irrigation events). Modelling should be used to estimate N leaching under low or moderate WAD conditions because of the heterogeneous N distribution within the root zone.
Author Mailhol, J.C.
Crevoisier, D.
Triki, K.
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Issue 3
Keywords Nitrogen use efficiency
Infiltration tests
Furrow irrigation
Nitrogen leaching
Water
Nitrogen fertilization
Monocotyledones
Soil transport processes
Methodology
Cultivated soil
Irrigation water
Modeling
Cereal crop
Field experiment
Environmental engineering
Transport process
Soil water movement
Gramineae
Angiospermae
Water engineering
Loam soil
Experimentation
Soil science
Mathematical model
Nitrogen fertilizer
Ground water
Non metal
Water infiltration
Pollution by agriculture
Cultural practice
Underground leaching
Hydraulic model
Zea mays
Nutrient recovery
Impact study
Two dimensional model
Nitrogen
Experimental protocol
Leaching
Soil management
Group VA element
Water pollution
Spermatophyta
MODELISATION
NITROGEN EFFICIENCY
NITROGEN LEACHING
IRRIGATION A LA RAIE
FURROW IRRIGATION
LESSIVAGE DU SOL
AZOTE
IRRIGATION
INFILTRATION TESTS
INFILTRATION
Language English
License CC BY 4.0
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Snippet Local infiltration tests on 1.5 m long blocked furrows were carried out on a loam soil to assess N fertiliser leaching under furrow irrigation where ridging...
Local infiltration tests on 1.5m long blocked furrows were carried out on a loam soil to assess N fertiliser leaching under furrow irrigation where ridging...
Des tests d'infiltration locaux sur des raies bouchées de 1.5 m de longeur on été effectués en sol limoneux afin d'estimer le lessivage d'azote sous irrigation...
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SubjectTerms Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agronomy. Soil science and plant productions
Biological and medical sciences
corn
crop yield
Environmental Sciences
fertilizer application
field experimentation
Fundamental and applied biological sciences. Psychology
Furrow irrigation
General agronomy. Plant production
hydrologic models
infiltration (hydrology)
Infiltration tests
Irrigation. Drainage
leaching
loam soils
model validation
Nitrogen fertilization
nitrogen fertilizers
Nitrogen leaching
Nitrogen use efficiency
Nitrogen, phosphorus, potassium fertilizations
Physical properties
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Soil and water pollution
soil nutrient balance
Soil science
soil transport processes
soil water content
Soil-plant relationships. Soil fertility. Fertilization. Amendments
Water and solute dynamics
Title Impact of water application conditions on nitrogen leaching under furrow irrigation: Experimental and modelling approaches
URI https://dx.doi.org/10.1016/j.agwat.2006.07.015
http://econpapers.repec.org/article/eeeagiwat/v_3a87_3ay_3a2007_3ai_3a3_3ap_3a275-284.htm
https://search.proquest.com/docview/20281680
https://hal.science/hal-00452216
Volume 87
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