Effects of sodic water on soil sodicity and nutrient leaching in poultry and sheep manure amended soils

Chrysanthemum growth and nutrient leaching of three clinoptilolite-based root media, which were formulated and provided by Boulder Innovative Technologies, Inc. and ZeoponiX, Inc., were compared to the performance of control plants grown in Sunshine Mix #2 (3 peat: 1 perlite, v/v). The control received 210 mg·L–1 N from an 18N–4P–15K soluble fertilizer at each irrigation. The experimental zeolite-based medium NZ, which contained untreated zeolite and received the same soluble fertilizer as the control, leached lower concentrations of NH4-N, K, and PO4-P for most of the production cycle compared to the control. Medium EZ1 was formulated to provide N, P, and K as fertilizer nutrients and produced plants similar to the control based on ratings, height, width, and dry mass, but not fresh mass, at harvest when the fertilizer rate was half of that applied to the control, 105 mg·L–1 N. Medium EZ2, which did not receive P or K from soluble fertilizer, produced plants similar to the control based on rating, height, and dry mass, but not width or fresh mass, with soluble fertilizer input reduced to only N. Tissue N, P, and K concentrations of plants grown in media EZ1 and EZ2 were lower than those of control plants. With further refinements, these zeolite-based products show promise for decreasing nutrient leaching during crop production and allowing for application of lower rates of soluble fertilizers.

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Characterization of Soluble Organic Compounds and Complexation of Copper, Nickel, and Zinc in Extracts of Sludge-amended Soils

Journal of Environmental Quality ◽

10.2134/jeq1987.00472425001600040009x ◽

1987 ◽

Vol 16 (4) ◽

pp. 341-348 ◽

Cited By ~ 25

Author(s):

L. M. Dudley ◽

B. L. McNeal ◽

J. E. Baham ◽

C. S. Coray ◽

H. H. Cheng

Keyword(s):

Organic Compounds ◽

Amended Soils ◽

Copper Nickel

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Response of maize to coniferous tree woods biochar and sheep manure application to contaminated mine soil

Biomass Conversion and Biorefinery ◽

10.1007/s13399-021-01390-4 ◽

2021 ◽

Author(s):

T. EL Rasafi ◽

A. Oukarroum ◽

A. Haddioui

Keyword(s):

Mine Soil ◽

Coniferous Tree ◽

Manure Application ◽

Sheep Manure

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Correction to: Long-term application of manure reduced nutrient leaching under heavy N deposition

Nutrient Cycling in Agroecosystems ◽

10.1007/s10705-021-10124-x ◽

2021 ◽

Vol 119 (2) ◽

pp. 163-163

Author(s):

Yaqi Wang ◽

Chunyang Huang ◽

Minghong Liu ◽

Ling Yuan

Keyword(s):

N Deposition ◽

Nutrient Leaching

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Effect of Sewage Sludge Compost Usage on Corn and Faba Bean Growth, Carbon and Nitrogen Forms in Plants and Soil

Agronomy ◽

10.3390/agronomy11040628 ◽

2021 ◽

Vol 11 (4) ◽

pp. 628

Author(s):

Hassan E. Abd Elsalam ◽

Mohamed E. El- Sharnouby ◽

Abdallah E. Mohamed ◽

Bassem M. Raafat ◽

Eman H. El-Gamal

Keyword(s):

Organic Matter ◽

Sewage Sludge ◽

Plant Growth ◽

Total Nitrogen ◽

Faba Bean ◽

Residual Effect ◽

Growth Period ◽

Nitrogen Forms ◽

Amended Soils ◽

Nitrogen Levels

Sewage sludge is an effective fertilizer in many soil types. When applied as an amendment, sludge introduces, in addition to organic matter, plant nutrients into the soil. When applied for cropland as a fertilizer, the mass loading of sewage sludge is customarily determined by inputs of N and/or P required to support optimal plant growth and a successful harvest. This study aims to examine the changes in organic matter contents and nitrogen forms in sludge-amended soils, as well as the growth of corn and faba bean plants. The main results indicated that there were higher responses to the corn and faba bean yields when sludge was added. Levels of organic carbon in soil were higher after maize harvest and decreased significantly after harvesting of beans, and were higher in sludge amended soils than unmodified soils, indicating the residual effect of sludge in soil. NO3−-N concentrations were generally higher in the soil after maize harvest than during the plant growth period, but this trend was not apparent in bean soil. The amounts of NH4+-N were close in the soil during the growth period or after the maize harvest, while they were higher in the soil after the bean harvest than they were during the growth period. Total nitrogen amounts were statistically higher in the soil during the growth period than those collected after the corn harvest, while they were approximately close in the bean soil. The total nitrogen amount in corn and bean leaves increased significantly in plants grown on modified sludge soil. There were no significant differences in the total nitrogen levels of the maize and beans planted on the treated soil.

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Can repeated soil amendment with biogas digestates increase soil suppressiveness toward non-specific soil-borne pathogens in agricultural lands?

Renewable Agriculture and Food Systems ◽

10.1017/s1742170520000393 ◽

2020 ◽

pp. 1-12

Author(s):

L. M. Manici ◽

F. Caputo ◽

G. A. Cappelli ◽

E. Ceotto

Keyword(s):

Plant Growth ◽

Biomass Production ◽

Soil Amendment ◽

Plant Biomass ◽

Amended Soils ◽

Soil Suppressiveness ◽

Soil Microbial ◽

Soil Borne Pathogens ◽

The Impact ◽

Plant Biomass Production

Abstract Soil suppressiveness which is the natural ability of soil to support optimal plant growth and health is the resultant of multiple soil microbial components; which implies many difficulties when estimating this soil condition. Microbial benefits for plant health from repeated digestate applications were assessed in three experimental sites surrounding anaerobic biogas plants in an intensively cultivated area of northern Italy. A 2-yr trial was performed in 2017 and 2018 by performing an in-pot plant growth assay, using soil samples taken from two fields for each experimental site, of which one had been repeatedly amended with anaerobic biogas digestate and the other had not. These fields were similar in management and crop sequences (maize was the recurrent crop) for the last 10 yr. Plant growth response in the bioassay was expressed as plant biomass production, root colonization frequency by soil-borne fungi were estimated to evaluate the impact of soil-borne pathogens on plant growth, abundance of Pseudomonas and actinomycetes populations in rhizosphere were estimated as beneficial soil microbial indicators. Repeated soil amendment with digestate increased significantly soil capacity to support plant biomass production as compared to unamended control in both the years. Findings supported evidence that this increase was principally attributable to a higher natural ability of digestate-amended soils to reduce root infection by saprophytic soil-borne pathogens whose inoculum was increased by the recurrent maize cultivation. Pseudomonas and actinomycetes were always more abundant in digestate-amended soils suggesting that both these large bacterial groups were involved in the increase of their natural capacity to control soil-borne pathogens (soil suppressiveness).

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