Optimizing corn production and reducing nitrate losses with water table control-subirrigation.

Drury C.F.; Tan C.S.; Gaynor J.D.; Oloya T.O.; Van Wesenbeeck I.J.; McKenney D.J.

Optimizing corn production and reducing nitrate losses with water table control-subirrigation.

1997

Water table control-subirrigation (WTC) systems have increased crop production and improved water quality; however, the relationship between N management, water table depths, and corn production has not been well defined. We hypothesized that optimizing water depth depth would increase corn (Zea mays L.) growth, improve N fertilizer efficiency, and reduce NO3(-) losses. A greenhouse incubation study with three water table depths (30, 60, and 80 cm) and four N rates (0, 0.7, 1.4, and 2.1 g N plant-1) was conducted using undisturbed soil columns (Fox sandy loam, Typic Hapludalf) planted to corn. The 30-cm WTC treatment had the greatest NO3(-) loss through tile drainage (715 microgram N column-1). The 60-cm WTC treatment reduced these losses by 54%. Nitrate losses through tile drainage were proportional to drainage volume, which followed the order 30 cm > 60 cm > 80 cm WTC. The 60-cm WTC treatment increased crop yields (95 g plant-1) compared with the 30-cm (68 g plant-1) and 80-cm WTC (18 g plant-1) treatments at the optimal N rate of 1.4 g N plant-1. After the first simulated rainfall event, N2O production was increased by 12.7 times with the 30-cm WTC treatment (825 microgram N column-1 d-1) compared with the 60- and 80-cm WTC treatments. Water stress imposed by the 80-cm WTC treatment limited crop growth, N uptake, leaching, and N2O emissions. However, up to 28% of added N (664 mg N column-1) remained in the soil after corn was harvested from the 80-cm WTC treatment, which would be susceptible to leaching between cropping seasons.

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Mots clés AGROVOC

abonos nitrogenados absorption de substances nutritives application rates chemical composition composition chimique crop yield denitrification depth drainage drenaje efficiency eficacia gestion des eaux groundwater table irrigation souterraine leaching lessivage du sol loam soils losses nappe souterraine nitrate nitrates nitratos nitrogen content nitrogen fertilizers nitrous oxide nutrient uptake ontario oxyde nitreux perte profondeur profundidad rendement des cultures rendimiento de cultivos riego subterraneo sandy soils soil soil morphological features sol sol sableux sol sablolimoneux subsurface irrigation suelo suelo arenoso suelo franco teneur en azote trait morphologique du sol uses usos utilisation water management zea mays

Informations bibliographiques

Publié dans

Soil Science Society of America

Volume 61 ISSN 0361-5995

Pagination

v.889-895(3)

D'autres materias

Denitrificacion; Absorcion de sustancias nutritivas; Composicion quimica; Efficacite; Caracteristicas morfologicas suelo; Contenido de nitrogeno; Dosis de aplicacion; Oxido nitroso; Lixiviacion; Perdidas; Capa freatica; Engrais azote; Ordenacion de aguas; Dose d' application

Langue

anglais

Note

references. AVAILABILITY: US (DNAL 56.9 So3).

Type

Journal Article; Journal Part

Source

Soil-Science-Society-of-America (USA). (May-Jun 1997). v. 61(3) p. 889-895.

Auteur institutionnelle

Agriculture and Agri-Food Canada, Harrow, Ontario, Canada.

Sur AGRIS depuis: 2012-11-15

Format: AGRIS AP

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Optimizing corn production and reducing nitrate losses with water table control-subirrigation.

1997

Mots clés AGROVOC

Informations bibliographiques