E. I. Mukammal scite author profile

E. I. Mukammal

5Publications

56Citation Statements Received

5Citation Statements Given

How they've been cited

167

How they cite others

Affiliations

Environment and Climate Change Canada, Transport Canada

Publications

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Direct Correlation of Air-Polluting Ozone and Tobacco Weather Fleck

Macdowall¹,

Mukammal²,

Cole³

1964

Can. J. Plant Sci.

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Influxes of polluted air and attacks of tobacco weather fleck in southwestern Ontario were accurately forecast from the synoptic weather pattern and from considerations of mesoscale meteorological systems. However, the principal air pollutant, ozone, occurred daily at low concentrations that were often not followed by corresponding amounts of damage. This difficulty was largely removed by modification of the dose term with the coefficient of evaporation. The latter may empirically represent physiological and physical factors affecting gas exchange. A related downward flux of ozone might be important in determining the amount of ozone available for absorption. The threshold doses of air-polluting ozone and experimentally generated ozone were approximately the same.

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Application of the Priestley-Taylor evaporation model to assess the influence of soil moisture on the evaporation from a large weighing lysimeter and class a pan

Mukammal

Neumann

1977

Boundary-Layer Meteorol

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The influence of soil moisture on evaporation from a 6-m grass-covered lysimeter and from Class A pans was assessed for one summer using the a-parameter of the Priestfey-Taylor evaporation model appropriate for the individual surfaces computed on a daily basis. Net radiation over the pan was estimated from above-grass measurements using a correlation established between the hvo, using measurements made in the previous two summers. Changes in heat storage of the water were considered in the derivation of a for the pan. A unique relationship for the particular conditions of the site was determined between the (Y for the lysimeter and soil moisture, approaching 1.29 at soil moisture near field capacity, but decreasing to as low as 0.5 for dry soil. The corresponding relationship for the pan showed more scatter, but this was improved by using 5-day running means of evaporation and stratifying the data in terms of wind speed to yield a family of curves. Values for a at wet soil conditions varied from 1.07 for 100 km day-' wind run to 1.17 for 250 km day-' wind run. For each curve, values of (I increased by about 20% as the soil dried. The relationships may be used to reduce observed Class A pan evaporation to equivalent values for wet-soil conditions and to estimate near-surface soil moisture and actual evapotranspiration for this particular site. Extension of the technique to other areas requires derivation of similar relationships appropriate for those other locations

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Ozone as a cause of tobacco injury

Mukammal¹

1965

Agricultural Meteorology

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Meteorological conditions associated with ozone in southwestern Ontario, Canada

Mukammal¹,

Neumann²,

Gillespie³

1982

Atmospheric Environment (1967)

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Comparison of aerodynamic and energy budget techniques in estimating evapotranspiration from a cornfield

Mukammal¹,

King

Cork³

1966

Arch. Met. Geoph. Biokl. B.

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E. I. Mukammal

Direct Correlation of Air-Polluting Ozone and Tobacco Weather Fleck

Application of the Priestley-Taylor evaporation model to assess the influence of soil moisture on the evaporation from a large weighing lysimeter and class a pan

Ozone as a cause of tobacco injury

Meteorological conditions associated with ozone in southwestern Ontario, Canada

Comparison of aerodynamic and energy budget techniques in estimating evapotranspiration from a cornfield

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