Michael G. Hardie scite author profile

Michael G. Hardie

4Publications

20Citation Statements Received

1Citation Statement Given

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Affiliations

Missouri University of Science and Technology, Environmental Health, Respect

Publications

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AQUATIC ORGANISMS AND HEAVY METALS IN MISSOURI'S NEW LEAD BELT¹

Gale¹,

Wixson²,

Hardie³

et al. 1973

J American Water Resour Assoc

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The New Lead. Belt of southeastern Missouri has recently become the largest lead producing region of the world. The impact of this rapid development on the previously rural and undeveloped region of the Missouri Ozarks is the subject of a continuing interdisciplinary study. Since the industrial development began, there have been a number of nuisance biological blooms in several of the small streams receiving effluent from the mines and mills. The major constituents of the problem algal growths were identified and found to include: Cladophora, Oscillatoria, Mougeotia, Zygnema, Spirogyra, Cymbella, and a variety of other stalked and non‐stalked diatoms. Secondary blooms of Sphaerotilus were observed to reach problem proportions in some streams, particularly in the autumn. Finely ground rock flour and mineral particles escaping from tailings dams were found to be trapped by the stream vegetation. Concentrations of lead, zinc, copper, and manganese in the algal and bacterial mats were found to be inversely related to distance downstream from the tailings dams. Consumer organisms, including crayfish, snails, aquatic insects, tadpoles, minnows and larger sunfish were analyzed to determine the extent of dissemination and concentration of the heavy metals through food chains. Preliminary results indicated insignificant concentrations of heavy metals in those consumer organisms studied, though in at least one problem stream the normal consumer organisms mentioned were markedly reduced in numbers.

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Closure to “Treatment of Refinery Waste by Physicochemical Processes”

Huang

Hardie

1972

J. Sanit. Engrg. Div.

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Treatment of Refinery Waste by Physicochemical Processes

Huang

Hardie

1971

J. Sanit. Engrg. Div.

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WATER RECLAMATION BY PHYSICOCHEMICAL TREATMENT OF WASTEWATER¹

Huang

Hardie

1971

J American Water Resour Assoc

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ABSTRACT. Treatment of a high strength acidic industrial chemical waste, which had a COD of about 3000 mg/1 and a pH of 3, was attempted by activated carbon adsorption to evaluate the feasibility of yielding effluents of reusable qualities. The experimental methods which were employed in this investigation included batch and column studies. The former was used to evaluate the rate and equilibrium of carbon adsorption while the latter was used to determine treatment efficiencies and performance characteristics. Parallel operations of fixed‐bed and expanded‐bed adsorbers were contrasted in the column study. Results of this investication indicate that activated carbon was very efficient in removing the COD of the chemical waste. Initial pH adjustments for the wastewater to 7.0 or 11.4 did not increase the COD removal efficiency. Turbidity and nitrogen (total Kjeldahl‐ and ammonia‐N) were removed to some extents by the carbon bed adsorbers while phosphorus (total‐and ortho‐P) was totally unaffected by the carbon treatment.

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Michael G. Hardie

AQUATIC ORGANISMS AND HEAVY METALS IN MISSOURI'S NEW LEAD BELT¹

Closure to “Treatment of Refinery Waste by Physicochemical Processes”

Treatment of Refinery Waste by Physicochemical Processes

WATER RECLAMATION BY PHYSICOCHEMICAL TREATMENT OF WASTEWATER¹

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About

Michael G. Hardie

AQUATIC ORGANISMS AND HEAVY METALS IN MISSOURI'S NEW LEAD BELT1

Closure to “Treatment of Refinery Waste by Physicochemical Processes”

Treatment of Refinery Waste by Physicochemical Processes

WATER RECLAMATION BY PHYSICOCHEMICAL TREATMENT OF WASTEWATER1

Contact Info

Product

Resources

About

AQUATIC ORGANISMS AND HEAVY METALS IN MISSOURI'S NEW LEAD BELT¹

WATER RECLAMATION BY PHYSICOCHEMICAL TREATMENT OF WASTEWATER¹