J. J. Sansom scite author profile

J. J. Sansom

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In situ amelioration of sodic minespoil with chemical amendments and crop management: II. Soil physical properties, soil moisture and plant growth

Sansom¹,

Chanasyk²,

Naeth³

et al. 1998

Can. J. Soil. Sci.

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. 1998. In situ amelioration of sodic minespoil with chemical amendments and crop management: II. Soil physical properties, soil moisture and plant growth. Can. J. Soil Sci. 78: 667-674. The effects of sulfur and gypsum amendments in conjunction with crop management (fallow/barley and forage) on soil physical properties, soil moisture and vegetation characteristics were measured on a sodic and calcareous sandy loam minespoil at the Highvale coal mine, west of Edmonton, Alberta.Amendment and crop management had no significant effect on bulk density, plant species composition, canopy cover, ground cover or annual aboveground biomass. Crop management significantly affected penetration resistance (which was generally higher under forage), while amendment treatments did not. Profile soil moisture was lowest within the gypsum-amended plots at all depths, and was similar for sulfur-amended and control plots. Crop management affected profile soil moisture, with significantly less moisture under continuous forage than fallow/barley. As percolation is critical to the effectiveness of amendments in the amelioration process, cereal/fallow rotations are more effective than continuous forage in facilitating that process. rotation jachère-orge, culture fourragère, sur les propriétés physiques et sur le profil hydrique du sol ainsi que sur la végétation. Aucun effet de l'un ou l'autre des traitements n'était observé sur la densité apparente du sol, ni sur la composition botanique, le couvert aérien, la couverture du sol (litière et sol nu) ou la biomasse aéri-enne annuelle. Par ailleurs, seul le système cultural influait sur la résistance du sol à la pénétration, laquelle était généralement supérieure sous culture fourragère. La teneur en eau du profil était particulièrement basse à toutes les profondeurs dans le traitement au gypse, mais dans le cas du soufre il n'y avait pas de différence avec les parcelles témoins. Selon le système cultural utilisé, le bilan hydrique du sol variait, étant significativement moins abondant sous prairie continue que dans l'assolement jachère-orge. Vu que la percolation est essentielle à l'action amélioratrice des amendements, les assolements jachère-céréale sont plus efficaces à cet égard que les cultures fourragères permanentes.

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In situ amelioration of sodic minespoil with chemical amendments and crop management. I. Soil chemical properties

Sansom¹,

Naeth²,

Chanasyk³

et al. 1998

Can. J. Soil. Sci.

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. 1998. In situ amelioration of sodic minespoil with chemical amendments and crop management. I. Soil chemical properties. Can. J. Soil Sci. 78: 359-365. Sodic minespoils, which often have undesirable properties that limit plant growth, may be ameliorated by chemical amendments. The objective of this study was to determine the effectiveness of sulfur and gypsum amendments in conjunction with crop management (summerfallow/barley rotation and continuous forage) in reducing the sodicity of a calcareous, sodic, sandy loam minespoil at the Highvale coal mine, west of Edmonton, Alberta. Amendments were added in chemically equivalent amounts to theoretically ameliorate the uppermost 35 cm of the spoil. Topsoil (20 cm) overlay both the amended and unamended spoil. Soil chemical parameters were measured to determine amendment effectiveness in an upper amended (20-35 cm depth interval from the surface), a lower amended (40-55 cm) and an upper unamended layer (55-70 cm), all within minespoil.Both sulfur and gypsum effectively reduced minespoil sodicity. The ameliorative effect on SAR occurred within 3 mo with gypsum amendment, but was slower with sulfur. Both amendments significantly lowered Sat% and pH but significantly elevated concentrations of Na + , Ca 2+ , Mg 2+ , K + and SO 4 2-in the upper amended layer of the minespoil. Crop management had no significant effect on SAR; however, solute concentrations were lower at all depths under fallow/barley than under continuous forage treatments. 78: 359-365. Il serait possible de restaurer par des amendements chimiques la fertilité des sites miniers sodiques désaffectés, lesquels ont souvent des propriétés indésirables pour la croissance végétale. Nous avons donc cherché à déterminer l'efficacité d'amendement, de soufre, de gypse, couplés à des méthodes culturales (alternance jachère-orge et cultures herbagères en continu) pour réduire la sodicité de résidus d'extraction sablo-loameux sodiques, calcaires, à la mine de charbon Highvale à l'ouest d'Edmonton en Alberta. Les amendements étaient utilisés en quantités chimiquement équivalentes pour, théoriquement, restaurer la fertilité des 35 cm supérieurs des résidus miniers. Les résidus, amendés ou non amendés, étaient recouverts d'une couche de 20 cm de terre de surface. Les paramètres chimiques du sol étaient mesurés pour établir l'efficacité des amendements dans la couche supérieure amendée (20 à 35 cm sous la surface), dans la couche inférieure amendée (40-55 cm) et dans la couche profonde non amendée (55-70 cm) des résidus miniers. Le soufre et le gypse se révélaient efficaces pour réduire la teneur en sodium des résidus. L'effet améliorateur sur le rapport d'absorption du sodium (SAR) se manifestait dans les 3 mois après le traitement au gypse, mais plus lentement dans celui au soufre. Les deux amendements abaissaient significativement le pourcentage de saturation et le pH, mais relevaient significativement les concentrations de NA + , CA 2+ , Mg 2+ , K + et S0 4 2-dans la couche amendée supérieure. Les techniques cultural...

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In situ amelioration of sodic minespoil using sulfur, gypsum and crop management

Sansom¹

1996

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J. J. Sansom

In situ amelioration of sodic minespoil with chemical amendments and crop management: II. Soil physical properties, soil moisture and plant growth

In situ amelioration of sodic minespoil with chemical amendments and crop management. I. Soil chemical properties

In situ amelioration of sodic minespoil using sulfur, gypsum and crop management

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