Abid Kamal scite author profile

Abid Kamal

9Publications

23Citation Statements Received

52Citation Statements Given

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184

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The University of Agriculture, Peshawar, Universiti Putra Malaysia

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Relationship of soil physico chemical properties with elevation and geographical directions

Imran

Amanullah

Naveed³

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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The core findings of this study revealed that physicochemical properties fluctuate with soil texture and soil class. Sandy soil showed inconsistent variation with geographical directions. Bulk density, lime content, EC and pH decreases with topography and soil elevation while these parameters increased from surface to subsurface soil within a profile. Nitrogen, phosphorus, potassium and micronutrient increased with increase in elevation. All these parameters decreased from surface to subsurface soil. Water holding capacity and saturation percentage increased with increase in elevation, while decreased from surface to subsurface soil. Based on the critical level of phosphorus, the altitude was low in available P and available P was quite low than the crop requirements and so they will be classified as phosphorus-deficient soils.

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Soil Fertility, N2 Fixation and Yield of Chickpea as Influenced by Long-Term Biochar Application under Mung–Chickpea Cropping System

et al. 2020

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A research study was established at the research farm of the University of Agriculture, Peshawar during winter 2018–2019. Commercial biochars were given to the experimental site from 2014 to summer 2018 and received 0.95, 130 and 60 tons ha−1 of biochar by various treatments viz., (Biochar1) BC1, (Biochar2) BC2, (Biochar3) BC3 and (Biochar4) BC4, respectively. This piece of work was conducted within the same study to find the long-term influence of biochar on the fertility of the soil, fixation of N2, as well as the yie1d of chickpea under a mung–chickpea cropping system. A split plot arrangement was carried out by RCBD (Randomized Complete Block Design) to evaluate the study. Twenty-five kilograms of N ha−1 were given as a starter dosage to every plot. Phosphorous and potassium were applied at two levels (half (45:30 kg ha−1) and full (90:60 kg ha−1) recommended doses) to each of the four biochar treatments. The chickpea crop parameters measured were the numbers and masses of the nodules, N2 fixation and grain yield. Soil parameters recorded were Soil Organic Matter (SOM), total N and mineral N. The aforementioned soil parameters were recorded after harvesting. The results showed that nodulation in chickpea, grain yield and nutrient uptake were significantly enhanced by phosphorous and potassium mineral fertilizers. The application of biochar 95 tons ha−1 significantly enhanced number of nodules i-e (122), however statistically similar response in terms of nodules number was also noted with treatment of 130 tons ha−1. The results further revealed a significant difference in terms of organic matter (OM) (%) between the half and full mineral fertilizer treatments. With the application of 130 tons ha−1 of biochar, the OM enhanced from 1.67% in the control treatment, to 2.59%. However, total and mineral nitrogen were not statistically enhanced by the mineral fertilizer treatment. With regard to biochar treatments, total and mineral N enhanced when compared with the control treatment. The highest total N of 0.082% and mineral nitrogen of 73 mg kg−1 in the soil were recorded at 130 tons ha−1 of biochar, while the lowest total N (0.049%) and mineral nitrogen (54 mg kg−1) in the soil were recorded in the control treatment. The collaborative influence of mineral fertilizers and biochars was found to be generally non-significant for most of the soil and plant parameters. It could be concluded that the aforementioned parameters were greater for treatments receiving biochar at 95 tons or more per hectare over the last several years, and that the combination of lower doses of mineral fertilizers further improved the performance of biochar.

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Soil and Water Conservation Practices in District Swabi, KP, Pakistan

Ali¹,

Khan²,

Khan³

et al. 2018

Adv Crop Sci Tech

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Maize Yield Response under Various Phosphorus Sources and their Ratios

Ali¹,

Ali²,

Kamal³

et al. 2019

Eur J Exp Bio

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Improper use of fertilizers and its ratio is one of the main reasons for low productivity; therefore balance fertilization is required to maintain crop production and improved soil fertility. Therefore the experiment was carried out at Cereal Crop Research Institute (CCRI) Pirsabak, Distract Nowshera KP, Pakistan during Kharif 2016. To study the effect of different phosphorus (P) sources and their ratios on maize yield and yield components, an experiment was carried out in a Randomized Complete Block Design (RCBD) with three replication. The treatments consisted of sole application of Farmyard Manure (FYM), Poultry Manure (PM) and Diammonium Phosphate (DAP), 75% FYM+25% DAP, 50% FYM+50% DAP, 75% PM+25% DAP, 50% PM+50% DAP and a control treatment with no P fertilizer. Phosphorus was applied at the rate of 100 kg ha -1 from different sources in different ratios. The results indicated a significant effect of different phosphorus sources on days to tasselling, days to silking, days to maturity, plant height, grains ear -1 , grain yield, biological yield, and harvest index, whereas the emergence m -2 was found non-significant with different P sources. The combined use of organic and inorganic P sources delayed tasselling, silking and maturity. Plant height, grains ear -1 , biological yield, grain yield, and harvest index was also higher with the addition of P from both sources as compared with the sole application of organic or inorganic fertilizer. The combined application of organic manures 50:50 (FYM or PM) and inorganic fertilizer (DAP) performed better as compared to the rest of the ratios and produced higher yield and yield components.

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Effect of wheat straw derived biochar on the bioavailability of Pb, Cd and Cr using maize as test crop

Irfan

Ishaq

Muhammad

et al. 2021

Journal of Saudi Chemical Society

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The nutrition of cashew on the sandy soils of Malaysia

Yaacoh

Kamal

1983

Communications in Soil Science and Plant Analysis

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The nutrition of cashew (Anacardium occidentale L.), commercially grown on a large scale on infertile sandy Spodosols at Besut, Malaysia, was evaluated based on the major element of the leaves composition from two fertilizer trials and from an independent field nutritional survey (1979)(1980)(1981). Except for the sampling periods which represented four physiological stages of the crop, commercial fertilizers applied even up to 1.4 kg/ tree/year did not show significant changes in the five major elements in cashew tree leaves. However, the organic matter levels within the top 32 cm of the surface soil did show consistent positive correlations with each of the five major elements in leaves sampled from a nutritional survey. The significance of these foliar data is discussed in relation to the overall nutrition of cashew grown extensively on sandy infertile soils of Malaysia. 680 YAACOB AND KAMAL IHTRODUCTION Cashev (Anacardium oaaidentale L.) is a neglected crop grown by small fanners on infertile sandy soils . It has been estimated that more than lU2,000 ha of such soils are to be found on the eastern coast of Peninsular Malaysia . In 1973, the Cashevnut Industry of Malaysia (CIMA), a subsidiary of the Food Industries of Malaysia (FIMA), embarked on a large scale planting (>1100 ha) of cashev using mixed planting materials and local agronomic knov-hov at that time. A year later, a further 1100 ha were planted,-and to-date, more than 36"OO ha had been planted to cashevs, 2400 ha at Besut and 1200 ha at Kuantan. These plantations came into production in 19T6. Since then, the yield is not 7 12 only lov compared with that obtained elsevhere, * , but also varies between locations. Since conditions at the Besut plantation in terms of yield are more acute basic soil-related research was needed at this location 9 * 1T> l8 . The purpose of this paper is to evaluate the overall nutrition of cashev commercially grown on infertile sandy soils using the current practises adopted by CIMA, together with results of independent nutritional survey carried out rn the field at Besut. MATERIALS AMD METHODS Study AreaThe main study was located at Besut where cashev had been growing on more than 2U00 ha of sandy infertile (Bris) soils since 19T3. The detailed information of cashev grown in a large scale plantation system are given elsewhere . The physical and chemical properties of sandy soils under cashev are given inTable 1, and the analytical methods used were the same as those of Chapman and Pratt . The general fertilizer programme used, irrespective of soil types and planting materials, adopted by IT CIMA since 19T3 is given by taacob et at , while the yield at the Downloaded by [] at 02:51 03 January 2015TABLE 1 Mechanical Composition and Chemical Properties of Sandy 'Brls' Soils Under Cashew on the East Coast, of Peninsular Malaysia Soil series 1 Baging Rudua (well drained) Rudua Soil Horizon A 1 A 1 2 1 Mechanical composition Sand 96.2 98.1 95.2 98.9 87.8 97.0 98.3 98.O 97.5 Silt 1.2

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The Effect of Liming and Phosphorus Application on the Leaf Nutrient Contents of Cashew on Tin Tailing and Bris Soils in Malaysia

Kamal¹,

Rahman²,

Yaacob³

1985

Acta Hortic.

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Enhancing Lettuce Growth and Cadmium and Lead Tolerance Through Biochar and Bacteria

et al. 2023

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Abid Kamal

Relationship of soil physico chemical properties with elevation and geographical directions

Soil Fertility, N2 Fixation and Yield of Chickpea as Influenced by Long-Term Biochar Application under Mung–Chickpea Cropping System

Soil and Water Conservation Practices in District Swabi, KP, Pakistan

Maize Yield Response under Various Phosphorus Sources and their Ratios

Effect of wheat straw derived biochar on the bioavailability of Pb, Cd and Cr using maize as test crop

The nutrition of cashew on the sandy soils of Malaysia

The Effect of Liming and Phosphorus Application on the Leaf Nutrient Contents of Cashew on Tin Tailing and Bris Soils in Malaysia

Enhancing Lettuce Growth and Cadmium and Lead Tolerance Through Biochar and Bacteria

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