Ali Murtaza Rasool scite author profile

Rainfall has been recognized as one of the main causes of natural or manmade slope failure in many tropical areas of the world. In order to reduce and mitigate rainfall-induced slope failures, there is a need to develop an understanding of reduction in shear strength of soil due to water infiltration. This research aimed at understanding the influence of matric suction on water infiltration and transformation of shear strength in unsaturated soil in unconfined condition. In the present study, two types of test series have been performed using modern triaxial test apparatus: (1) shear-infiltration test, and (2) pre-wetting shear test. From test results, it was concluded that water infiltration causes the excessive deformations and softening which decreases the cohesion and hence reduces the shear strength of the soil. The more decrease in shear strength was witnessed in case of pre-wetting shear tests and maximum reduction observed was 85% against 36cm 3 of infiltrated water.

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Using multivariate adaptive regression splines to develop relationship between rock quality designation and permeability

Qureshi

Mahmood

Rasool

2022

Journal of Rock Mechanics and Geotechnical Engineering

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Effect of wetting stress paths on mechanical behavior and instability of unsaturated soil in stress state space

Rasool

Kuwano

2022

European Journal of Environmental and Civil Engineering

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Effects of Poultry Manure on the Growth, Physiology, Yield, and Yield-Related Traits of Maize Varieties

et al. 2023

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Industries play a significant role in the improvement of lifestyle and in the development of a country. However, the byproducts from these industries are a source of environmental pollution. The proper use of the byproducts of these industries can help to cope with environmental pollution. Some byproducts have high nutritional content and are good for crop plants. The purpose of this research was to investigate the effect of different rates of poultry manure on the soil chemical properties, growth, and yield of maize. A pot experiment was conducted in the botanical garden of the Department of Botany, University of Sargodha, Pakistan to investigate the effect of various treatments of poultry manure (0, 25, 50, 75, and 100 g/pot) on the morphological, physiological, and yield attributes of two maize varieties, Pearl and MMRI. Treatment T1 was a mixture of soil and 75 g/pot poultry manure, T2 was a mixture of soil and 50 g/pot poultry manure, T3 was a mixture of soil and 25 g/pot poultry manure, and T4 was 100 g/pot poultry manure. Soil without any industrial byproduct (100% soil only) was used as the control (T0). The results revealed that the use of poultry manure enhanced the physical properties of the soil. Available P and soil organic matter were improved in soil amended with poultry manure. It is evident from the results that the vegetative growth of both maize varieties was significantly enhanced by growing in soil amended with poultry manure as compared to their respective control. Similar responses were also recorded for the physiological attributes of leaf area, photosynthetic rate, transpiration rate, stomatal conductance, and water use efficiency of both varieties. Yield and yield-contributing traits of both maize varieties were significantly improved by growing plants in soil amended with 50 and 75 g/pot of poultry manure. It is also inferred that the use of 50 g/pot poultry manure in soil amendment is an eco-friendly and economically effective option for maize growers of arid and semiarid regions to enhance the kernel yield and profit per annum. Poultry manure could be useful to ameliorate the adverse effects of salinity stress on all parameters, particularly the grain yield. Furthermore, this would be a useful and economical method for the safe disposal of byproducts.

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