M. A. K. Lodhi scite author profile

We apply our Bethe-Salpeter model for mesons to the B c family with parameters fixed in our previous investigation. We evaluate the mass of the pseudo-scalar B c meson as 6.356 GeV/c 2 and 6.380 GeV/c 2 and the lifetime as 0.47 ps and 0.46 ps respectively in two reductions of the Bethe-Salpeter Equation, in good agreement with the recently reported mass of 6.40 ± 0.39 (stat.) ± 0.13 (syst.) GeV/c 2 and lifetime of 0.46 +0.18 −0.16 (stat.) ± 0.03 (syst.) ps by the CDF Collaboration. We evaluate the decay constant of the B c meson and compare different contributions to its decay width.

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Allelopathy in agroecosystems: Wheat phytotoxicity and its possible roles in crop rotation

Lodhi

Bilal

Malik

1987

J Chem Ecol

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The germination rates of cotton and wheat seeds were significantly affected by various extracts of wheat mulch and soils collected from the wheat field. This toxicity was even more pronounced against seedling growth. Five allelochemics: ferulic,p-coumaric,p-OH benzoic, syringic, and vanillic acids, were identified from the wheat mulch and its associated soil. Quantitatively, ferulic acid was found at higher concentrations thanp-coumaric acid in the soil. Various concentrations of ferulic andp-coumaric acids were toxic to the growth of radish in a bioassay. The functional aspects of allelochemic transfer from decaying residue to soil and the subsequent microbial degradation within agroecosystems are discussed, particularly as they relate to wheat crop rotation, with wheat and cotton, in Pakistan.

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Allelopathic Inhibition of Nitrification and Nitrifying Bacteria in a Ponderosa Pine (Pinus Ponderosa Dougl.) Community

Lodhi

Killingbeck

1980

American J of Botany

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The dynamics of ponderosa pine (Pinus ponderosa Dougl.) stands in western North Dakota were studied to determine the influence of plant‐produced chemicals on nitrification rates and competitive interactions within the stands. Ponderosa pine accounted for more than 98% of all tree and shrub stratum stems in this climax community. Low levels of nitrate‐nitrogen relative to ammonium‐nitrogen and low numbers of Nitrosomonas and Nitrobacter in the soils indicated that nitrification rates were low. Inhibition of nitrification is often attributed to low soil pH in coniferous forests, but the slightly alkaline soils in this study (pH 7.25–7.75) suggested that another factor caused the low nitrification. Evidence obtained suggested that the reduction in nitrate synthesis was due to the production and subsequent transfer to the soil of secondary plant chemicals that were toxic to Nitrosomonas. Chemical inhibitors of nitrification, including caffeic acid, chlorogenic acid, quercitin, and condensed tannins, were found in extracts from ponderosa pine needles, bark, and A horizon soils. These extracts proved to be toxic to soil suspensions of Nitrosomonas causing reductions of from 68–93% of the control. These findings indicate that climax ponderosa pine communities minimize the conversion of ammonia‐nitrogen to nitrate‐nitrogen by chemically inhibiting nitrification.

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Role of Allelopathy as Expressed by Dominating Trees in a Lowland Forest in Controlling the Productivity and Pattern of Herbaceous Growth

Lodhi

1976

American J of Botany

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Low productivity rate and relatively bare areas occur under sycamore, hackberry, red oak, and white oak trees, even though several herbaceous species may grow well under elm trees in the same community which cast just as dense shade. No significant differences were found in amounts of most mineral elements and pH sampled under sycamore, hackberry, red oak, and white oak trees as compared with control soils under elm trees in the adjacent plots. Percent soil moisture was consistently higher under all test trees than under elm trees throughout the growing season. Thus the low productivity rate and relatively bare areas under sycamore, hackberry, red oak, and white oak trees were not due primarily to the factors stated above. Decaying leaves, leaf leachate of all four test species, and soil collected from under test trees significantly reduced seed germination, radicle growth, and seedling growth of selected herbaceous species. Several growth inhibitors, chiefly phenolics, were isolated and identified from sycamore, hackberry, red oak, and white oak leaves and the soils under them. Thus it appears that the low productivity rate and destitute growth under test tree species are due to allelopathy. Ecological significance of allelopathy in a community is discussed.

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Energy dependence of pion double charge exchange

et al. 1998

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The Influence and Comparison of Individual Forest Trees on Soil Properties and Possible Inhibition of Nitrification Due to Intact Vegetation

Lodhi

1977

American Journal of Botany

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The Influence and Comparison of Individual Forest Trees on Soil Properties and Possible Inhibition of Nitrification Due to Intact Vegetation

Lodhi

1977

American J of Botany

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Soil properties were found to vary with increasing distance from tree trunks of individuals of the same species, and different species were found to vary in their effects on soil properties. The differences in pH and mineral concentration at different distances from the trunk were often statistically significant even under the same tree. When all species are considered, iron had the least variability at different distances from the trunks of all minerals investigated, followed by potassium. Nitrate nitrogen had the greatest overall variability at different distances from the trunks. Ammonium nitrogen in the soil was always considerably higher than nitrate nitrogen when compared at each distance from the trunk under each species. Low amounts of nitrate nitrogen could not have been due to its uptake by the intact vegetation, because the soil samples were taken before the active growth period. It seems possible that the variable tree litter under different species plays an important role in controlling the soil pH, nitrification, and mineralization. Thus, it appears that in a climax community different dominating species, by developing variable physio‐ecological niches, can determine the variable undergrowth vegetation under them.

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Allelopathic potential ofSalsola kali L. and its possible role in rapid disappearance of weedy stage during revegetation

Lodhi

1979

J Chem Ecol

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M. A. K. Lodhi

Bc mesons in a Bethe-Salpeter model

Allelopathy in agroecosystems: Wheat phytotoxicity and its possible roles in crop rotation

Allelopathic Inhibition of Nitrification and Nitrifying Bacteria in a Ponderosa Pine (Pinus Ponderosa Dougl.) Community

Role of Allelopathy as Expressed by Dominating Trees in a Lowland Forest in Controlling the Productivity and Pattern of Herbaceous Growth

Energy dependence of pion double charge exchange

The Influence and Comparison of Individual Forest Trees on Soil Properties and Possible Inhibition of Nitrification Due to Intact Vegetation

The Influence and Comparison of Individual Forest Trees on Soil Properties and Possible Inhibition of Nitrification Due to Intact Vegetation

Allelopathic potential ofSalsola kali L. and its possible role in rapid disappearance of weedy stage during revegetation

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