Your search keyword '"Khan, Muhammad Azam"' showing total 14 results

1. Comparative Assessment of Bioactive Compounds, Fruit Quality Attributes and Sugar Profiling in Early Maturing Table Grape (Vitis Vinifera L.) Cultivars from Pothohar, Pakistan.

Author

Akram, Muhammad Tahir, Qadri, Rashad, Khan, Muhammad Azam, Atak, Arif, Liaquat, Mehwish, Hussain, Tanveer, Khan, Muhammad Mumtaz, Azam, Muhammad, and Hasan, Mahmood ul

Published

2024

2. Revisiting the determinants of life expectancy in Asia—exploring the role of institutional quality, financial development, and environmental degradation.

Author

Uddin, Ijaz, Khan, Muhammad Azam, Tariq, Muhammad, Khan, Farah, and Malik, Zilakat Khan

Subjects

LIFE expectancy, ENVIRONMENTAL degradation, BIRTH rate, ECOLOGICAL impact, CARBON emissions, POLLUTION, LONGEVITY

Abstract

This study revisited the socioeconomic factors determining life expectancy by specifically focusing on the role of institutional quality, financial development, and environmental degradation proxied by carbon emissions and ecological footprint for selected Asian countries, namely Bangladesh, Bhutan, India, Nepal, Pakistan, and Sri Lanka, from 2002 to 2020. We employed CIPS (cross-sectional Im, Pesaran, and Shin) unit root tests, CS-ARDL (cross-sectional augmented distributed lag (CS-ARDL), FMOLS (fully modified ordinary least squares), and DOLS (dynamic ordinary least squares) for the empirical examination of the data. The long-run estimates exhibit that institutional quality, financial development, and health expenditure variables contribute to longer life expectancy, while carbon emissions, ecological footprint, birth rate, mortality rate, and population growth reduce life expectancy in the selected Asian countries. Based on these findings, we propose that financial sector strengthening, increase in healthcare budget allocation, the adoption of clean and green technology and stringent environmental pollution regulatory policies are vital for improving life expectancy and overall human well-being and achieving the ultimate goals of sustainable development. [ABSTRACT FROM AUTHOR]

Published

2024

3. Temperature variability during the growing season affects the quality attributes of table grapes in Pothwar—insight from a new emerging viticulture region in South Asia.

Author

Rafique, Rizwan, Ahmad, Touqeer, Khan, Muhammad Azam, and Ahmed, Mukhtar

Subjects

TABLE grapes, BERRIES, VITICULTURE, GROWING season, VITAMIN C, HIGH temperatures, ATMOSPHERIC temperature, FRUIT quality, DRUG-eluting stents

Abstract

Rising air temperature due to climate change has posed a mammoth challenge to global viticulture and key berry quality traits are compromised. Exploring the effects of seasonal temperature variability on berry ripening and quality attributes in different viticulture regions may help in sustainable viticulture industry. The present research was designed to explore the effect of temperature variables on key quality attributes of table grape cultivars in Pothwar region of Pakistan. Key berry quality traits such as total soluble solids (TSS), titratable acidity (TA), maturity indices (MI), ascorbic acid, sugars, total polyphenol contents (TPC) and total anthocyanin contents (TAC) were unlocked for four important table grape cultivars under varying environmental conditions at Chakwal and Islamabad districts for two consecutive vintages of 2019 and 2020. The district Chakwal has up to 0.92 °C, 1.35 °C, 1.12°C and 0.81°C higher Tmin, Tmax, Tmean and diurnal temperature variation (DTV) respectively, compared to Islamabad particularly for the 2019 vintage. The results of the present study revealed that the warmer site (Chakwal) has significantly (P ≤0.05) higher juice pH, TSS (°brix) and maturity indices (MI) particularly for the relatively hotter vintage of 2019. Interestingly, MI was 33% higher for the relatively warmer vintage of 2019 compared to 2020 with relatively lower acidity (up to 38%). Moreover, higher titratable acidity (11.2%), ascorbic acid (28.5%), polyphenols (20.3%) and anthocyanins (10.6%) were noticed for the colder Islamabad compared to Chakwal. Although elevated temperature for warmer location and vintage favoured berry ripening, however key biochemical attributes such as titratable acidity, ascorbic acid, polyphenols and anthocyanins were negatively affected. The findings of the present research provide useful insight into the impact of growing season temperature on key berry attributes and may help devise adaptation strategies to improve berry quality. [ABSTRACT FROM AUTHOR]

Published

2023

4. Catalytic Growth of Carbon Nanowires on Thin SS-410 Sheet by CVD Method and Its Adsorption Behavior Toward Copper Ions.

Author

Ali, Zulfiqar, Khan, Muhammad Azam, Mehmood, Mazhar, and Shah, Attaullah

Subjects

*CARBON nanowires, *COPPER ions, *CHEMICAL vapor deposition, *LANGMUIR isotherms, *ADSORPTION (Chemistry), *SORPTION, *ADSORPTION isotherms

Abstract

In this work, carbon nanowires (CNWs) were synthesized on thin stainless steel (SS-410) sheet by a chemical vapor deposition method at the growth temperature of 900 °C using acetylene gas as a precursor of carbon. Scanning electron microscopic images revealed the fibrous morphology of synthesized carbon material. At the same time, EDX analysis suggested the fibrous carbon material was predominantly grown on Fe/Cr metal catalyst particles presumably formed on the surface of a thin SS-410 sheet at high temperatures. The diameter distribution of the carbon nanowires is in the range of 40–60 nm. The carbon contents of the as-prepared material were about 50 wt % which increased to 90 wt % after nitric acid treatment due to the removal of excess metallic impurities. After purification with concentrated nitric acid, CNWs exhibited better adsorption behavior toward copper ions than that of as-prepared CNWs under similar conditions. Effect of pH, contact time, adsorbate, and adsorbent dose were studied. Langmuir isotherm model appears to be a better fit compared to the Freundlich isotherm model, thus suggesting the physisorption adsorption process between CNWs adsorbent and copper adsorbate in an aqueous solution. [ABSTRACT FROM AUTHOR]

Published

2023

5. Seasonal variability in the effect of temperature on key phenological stages of four table grapes cultivars.

Author

Rafique, Rizwan, Ahmad, Touqeer, Ahmed, Mukhtar, Khan, Muhammad Azam, Wilkerson, Carol J., and Hoogenboom, Gerrit

Subjects

TABLE grapes, TEMPERATURE effect, CULTIVARS, VITICULTURE, SUSTAINABILITY, GROWING season, GRAPE growing, BERRIES, GRAPES

Abstract

Progressive warming of the grape growing regions has reduced the land capability for sustainable grapevine production and the geographical distribution of grapes. Bud burst, blooming, berry set, veraison, and harvest are the key phenological stages of grapevine, and are crucial for managing vineyard activities. The objective of this study was to evaluate the effect of seasonal temperature variability on the timing of key phenological stages of table grape cultivars in a new emerging viticulture region, i.e., the Pothwar region of Pakistan. Phenological stages of four table grape cultivars were recorded during two consecutive growing seasons at two locations. All phenological stages were attained earlier for the relatively warmer location, i.e., Chakwal. Similarly, the length of the growing season from bud burst to harvest was 15 to 21 days longer for the 2020 growing season than for the 2019 growing season, which corresponds to the inter-annual temperature variability. Moreover, the grapevine cultivars showed a distinct response for each growth phase; cv. Perlette matured earlier while cv. NARC Black was the last to ripen. Despite the large variability in the length of the active growing period from bud burst to harvest, accumulated growing degree days (GDD) varied only in a narrow range, i.e., 1510–1557 for cv. Perlette, 1641–1683 for cv. King's Ruby, 1744–1770 for cv. Sugraone, and 1869–1906 for cv. NARC Black. This implies that seasonal temperature variability using GDD is a better indicator for the phenology of table grape cultivars compared to regular time. It is clear from the results from this study that the variation in phenological responses of table grape cultivars due to temperature differences necessitates genotype and site-specific vineyard management. [ABSTRACT FROM AUTHOR]

Published

2023

6. Association mapping for abiotic stress tolerance using heat- and drought-related syntenic markers in okra.

Author

Ahmad, Ikhlaq, Rana, Rashid Mehmood, Hassan, Mahmood Ul, Khan, Muhammad Azam, and Sajjad, Muhammad

Abstract

Background: Considerable production losses are caused by heat and drought stress in okra. Germplasm evaluation at genetic level is essential for the selection of promising genotypes. Lack of genomic information of okra limits the use of genetic markers. However, syntenic markers of some related family could be used for molecular characterization of major economic traits. Methods and results: Herein, 56 okra genotypes were evaluated for drought and heat tolerance. Sixty-one expressed sequence tags (ESTs) identified for heat and drought tolerance in cotton were searched from literature surveys and databases. The identified ESTs were BLAST searched into okra unigene database. Primers of selected okra unigenes were synthesized and amplified in all genotypes using standard polymerase chain reaction (PCR) protocol. Marker trait association (MTA) of the syntenic unigenes were identified between genotypic and phenotypic data on the basis of linkage disequilibrium Functional syntenic analysis revealed that out of these 61 cotton ESTs 55 had functional homology with okra unigenes. These 55 unigenes were used as markers for further analysis (amplification). Okra genotypes showed significance variations for all the physo-morphological parameters under heat and drought stress. Genotypes Perbhani Karanti, IQRA-III, Selection Super Green, Anmol and Line Bourd performed better under drought stress whereas genotypes Perbhani Karanti, IQRA-III, Green Gold, OK-1501 and Selection Super Green showed heat tolerance. Fifty markers showed amplification in okra. Fifty-six okra genotypes were clustered into three distinct populations. LD analysis has shown most significant linkage between markers Unigene43786 and Unigene3662. MTAs using MLM and GLM models revealed that 23 markers have significant associations (p < 0.05) with different traits under control and stressed conditions. Relative water content is associated with four markers (Unigene10673, Unigene99547, Unigene152901, and Unigene129684) under drought conditions. Whereas, Electrolyte leakage was associated with 3 markers (Unigene109922, Unigene28667 and Unigene146907) under heat stress. Conclusion: These identified unigenes may be helpful in the development of drought and heat tolerant genotypes in okra. [ABSTRACT FROM AUTHOR]

Published

2022

7. Climate variables effect on fruiting pattern of Kinnow mandarin (Citrus nobilis Lour × C. deliciosa Tenora) grown at different agro-climatic regions.

Author

Nawaz, Rab, Khan, Muhammad Azam, Hafiz, Ishfaq Ahmad, Khan, Muhammad Faisal, and Khalid, Azeem

Subjects

*MANDARIN orange, *CLIMATE change, *AGRICULTURAL ecology, *HUMIDITY

Abstract

Kinnow orchards grown in different agro-ecological regions of Punjab, Pakistan, namely Sargodha, Toba Tek Singh (TTS) and Vehari districts, were selected to assess the effect of climate variables on fruit-bearing patterns. Experiment was laid out in RCBD while selecting identical features Kinnow plants and labeled twigs at analogous canopy positions in all three sites. Temperature was reported higher in TTS and Vehari areas, while relative humidity in Sargodha accounted for different levels of agrometeorological indices by computing more variations in warm districts. Climate variables influenced fruit-bearing habits and vegetative growth trend in all three flushes while recording heavy fruit-bearing plants during on-year and light fruit-bearing in off-year at Vehari. Similarly, three vegetative flushes were recorded unevenly in all three sites due to different fruit-bearing patterns induced by climate variables. Harvesting pattern of orchards began earlier in Sargodha, where maximum orchards were harvested before new flowering to add evenness to fruiting habits during on & off-years. In warm conditions, fruit ripening arrived in the peak of winter and mostly domestic market-driven harvesting resulted in late start of fruit picking with more erratic fruit-bearing habits. Both physiological and pathological fruit drops have been significantly affected by climate variables with a higher degree of physiological drop in warm regions and pathological effects in the humid conditions of Sargodha on heavy fruit-bearing plants. Fruit yield and grading quality were also affected in both seasons by showing more asymmetrical trend in yield and fruit grading in warm areas of TTS and Vehari due to an irregular fruiting pattern compared to Sargodha. From now on, the climate variables of the three sites directly influenced the fruiting patterns, vegetative flushes, fruit drops, yields and grades of Kinnow mandarin. [ABSTRACT FROM AUTHOR]

Published

2021

8. Inheritance of leaf resistance to Sclerotinia sclerotiorum in Brassica napus and its genetic correlation with cotyledon resistance.

Author

Khan, Muhammad Azam, Cowling, Wallace, Banga, Surinder Singh, You, Ming Pei, Tyagi, Vikrant, Bharti, Baudh, and Barbetti, Martin J.

Subjects

*RAPESEED, *SCLEROTINIA sclerotiorum, *GENETIC correlations, *COTYLEDONS, *OILSEEDS, *RUTABAGA, *BIVARIATE analysis, *HEREDITY

Abstract

Research to control yield losses from Sclerotinia (Sclerotinia sclerotiorum) in oilseed rape (Brassica napus) has focused on stem resistance. However, resistance to leaf infection against this pathogen would also be beneficial, both in limiting additional plant leaf damage and in reducing inoculum build up within-crop and resultant spread onto stems. Three B. napus breeding populations, C2 (NC-8 × RQ-001-NCA-8 NC2-7), C5 (cv. Charlton × RQ-001-NCA-8 NC2-7) and C6 (cv. Charlton × NC4-5), were screened for leaf resistance (based on mean lesion diameter) under controlled environment conditions. Each population consisted of parents (P1 and P2), F1, F2, BC1P1 and BC2P2, except for C5 that lacked BC1P1. Moderate broad sense heritability for leaf resistance (0.45) to S. sclerotiorum was only found in population C6, where genetic variance was mostly non-additive. Analyses of generation means and variances indicated that both dominance and complex epistatic interactions were present in C6. Bivariate analysis revealed a positive genetic covariance between the non-additive effects for mean leaf lesion and cotyledon lesion diameters, and significant negative covariance of residuals, which supports a common genetic control of cotyledon and leaf resistance to S. sclerotiorum. These results will guide breeders in selection and development of genotypes with both cotyledon and leaf resistance against this important pathogen worldwide. [ABSTRACT FROM AUTHOR]

Published

2020

9. Patterns of inheritance for cotyledon resistance against Sclerotinia sclerotiorum in Brassica napus.

Author

Khan, Muhammad Azam, Cowling, Wallace, Banga, Surinder Singh, You, Ming Pei, Tyagi, Vikrant, Bharti, Baudh, and Barbetti, Martin J.

Subjects

*SCLEROTINIA sclerotiorum, *RAPESEED, *COTYLEDONS, *EPISTASIS (Genetics), *DISEASE resistance of plants, *PLANT defenses, *LEAF physiology

Abstract

Sclerotinia rot, caused by the fungal pathogen Sclerotinia sclerotiorum, is a devastating disease on oilseed rape and mustard worldwide. While the focus to effectively control yield losses from Sclerotinia has been on locating stem resistance, resistance to leaf and to early (cotyledon) stage resistance to this pathogen are also important, both not only limiting additional plant damage, but also inoculum build up and spread onto stems. Three Brassica napus breeding populations developed in India, C2 (NC-8 × RQ-001-NCA-8 NC2-7), C5 (cv. Charlton × RQ-001-NCA-8 NC2-7) and C6 (cv. Charlton × NC4-5), were screened for cotyledon resistance (based on lesion diameter) under controlled environmental conditions to investigate the inheritance of disease resistance. Each population consisted of parents (P1 and P2), F1, F2, BC1P1 and BC2P2, except for population C5 which lacked BC1P1. Moderate broad sense heritability of 0.42, 0.31 and 0.49 for cotyledon resistance was found in populations C2, C5 and C6, respectively, and there was mostly non-additive genetic control of resistance. Analyses of generation means and variances indicated that the additive-dominance model was adequate to explain genetics of cotyledon resistance in population C2. There was heterosis for susceptibility (i.e., larger lesion diameter). The dominance × dominance digenic epistasis explained genetic control in population C6, with heterosis towards resistance (i.e., smaller lesion diameter). This information is critical for breeding for resistance to this important pathogen in Australia, India and elsewhere. [ABSTRACT FROM AUTHOR]

Published

2020

10. Examining foreign direct investment and environmental pollution linkage in Asia.

Author

Khan, Muhammad Azam and Ozturk, Ilhan

Subjects

FOREIGN investments, POLLUTION, SUSTAINABLE development, CAPITAL movements, ECONOMIC policy

Abstract

This study investigated the causal linkage between environmental pollution by carbon dioxide (CO2) emissions and net foreign direct investment (FDI), along with some other variables, namely economic growth by real per capita income and trade openness, using balanced annual data of 17 countries from Asia for the period from 1980 to 2014. Panel cointegration tests confirm the long-run association among the variables. After checking the panel data for stationarity properties, the method panel fully modified ordinary least squares (FMOLS) is implemented. The FMOLS estimates on CO2 emission model reveal that inward FDI has a significantly positive impact on environmental pollution, supporting the pollution haven hypothesis (PHH). Likewise, FDI model results imply that CO2 emissions represent environmental pollution; economic growth and trade openness are the pivotal determinants of FDI. Panel causality results suggest bidirectional linkages between CO2 emissions and inward FDI. Empirical findings suggest that economic policy reforms are required to channelise foreign capital inflows to a more environmentally healthy direction. The governments of Asian countries should chalk out policies on FDI inflows and the environment in order to achieve sustainable economic growth and development. [ABSTRACT FROM AUTHOR]

Published

2020

11. Heterocyclic Amines.

Author

Sahar, Amna, ur Rahman, Ubaid, Khan, Muhammad Issa, and Khan, Muhammad Azam

Published

2016

12. Developing a simple and efficient modeling solution for predicting key phenological stages of table grapes in a non-traditional viticulture zone in south Asia.

Author

Rafique, Rizwan, Ahmad, Touqeer, Khan, Muhammad Azam, Ahmed, Mukhtar, and Hoogenboom, Gerrit

Abstract

Phenological shifts are one of the most visible signs of climatic variability and change in the biosphere. However, modeling plant phenological responses has always been a key challenge due to climatic variability and plant adaptation. Grapevine is a phenologically sensitive crop and, thus, its developmental stages are affected by the increase in temperature. The goal of this study was to develop a temperature-based grapevine phenology model (GPM) for predicting key developmental stages for different table grape cultivars for a non-traditional viticulture zone in south Asia. Experiments were conducted in two vineyards at two locations (Chakwal and Islamabad) in the Pothawar region of Pakistan during the 2019 and 2020 growing seasons for four cultivars including Perlette, King’s Ruby, Sugraone and NARC Black. Detailed phenological observations were obtained starting in January until harvest of the grapes. The Mitscherlich monomolecular equation was used to develop the phenology model for table grapes. There was a strong non-linear correlation between the Eichhorn and Lorenz phenological (ELP) scale and growing degree days (GDD) for all cultivars with coefficient of determinations (R2) ranging from 0.90 to 0.94. The results for model development indicated that GPM was able to predict phenological stages with high skill scores, i.e., a root mean square (RMSE) of 2.14 to 2.78 and mean absolute error (MAE) of 1.86 to 2.26 days. The prediction variability of the model for the onset timings of phenological stages was up to 3 days. The results also reveal that the phenology model based on GDD approach provides an efficient planning tool for viticulture industry in different grape growing regions. The proposed methodology, being a simpler one, can be easily applied to other regions and cultivars as a predictor for grapevine phenology. [ABSTRACT FROM AUTHOR]

Published

2024

13. Efficacy of Beauveria bassiana and Metarhizium anisopliae (Ascomycota: Hypocreales) against Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae) under controlled and open-field conditions on bitter gourd.

Author

Hamzah, Abdul Mannan, Mohsin, Ata ul, Naeem, Muhammad, and Khan, Muhammad Azam

Subjects

*METARHIZIUM anisopliae, *BEAUVERIA bassiana, *BACTROCERA, *HYPOCREALES, *TEPHRITIDAE, *ENTOMOPATHOGENIC fungi, *MOMORDICA charantia

Abstract

Background: Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae) is the most destructive pest of bitter gourd. Conventionally, it is controlled by chemical insecticides despite their hazardous impacts. Entomopathogenic fungi are considered as eco-friendly and safer alternative of chemical. This study aimed to evaluate the efficacy of Beauveria bassiana and Metarhizium anisopliae against B. cucurbitae on bitter gourd. Results: The study revealed that B. bassiana and M. anisopliae were efficient against B. cucurbitae in controlled as well as field conditions. Both mode of application (i.e., contact and oral) were found to be effective; however, high efficacies of them were observed through contact application (73.43 and 59.72%), respectively. Pathogenicity of both fungi increased with increase in concentration and time intervals. Under field conditions, significantly low fruit infestations and significantly a high population reduction of B. cucurbitae were observed at 30 DAT when both fungi were applied with 108 CFU/ml concentrations. Conclusions: Beauveria bassiana and M. anisopliae had the potential to be used against B. cucurbitae; however, the former showed high efficiency comparatively. [ABSTRACT FROM AUTHOR]

Published

2021

14. Quantification of Climate Warming and Crop Management Impacts on Phenology of Pulses-Based Cropping Systems.

Author

Fatima, Zartash, Atique-ur-Rehman, Abbas, Ghulam, Iqbal, Pakeeza, Zakir, Iqra, Khan, Muhammad Azam, Kamal, Ghulam Mujtaba, Ahmed, Mukhtar, and Ahmad, Shakeel

Subjects

*CROP management, *AGRICULTURAL climatology, *CROPPING systems, *PHENOLOGY, *MUNG bean, *CHICKPEA

Abstract

Climate warming is impacting the phenology, growth and productivity of diverse cropping systems at local, regional and global levels. Long-term observed chickpea-mungbean system (CMS) phenological changes were used for the determination of the relationship between crop practices, climate warming and phenology for the making strategies for CMS to minimize negative climate change impacts. Observed thermal trend from sowing to maturity was ranging from 0.82 to 1.15 °C decade−1 for chickpea and 0.64 to 0.97 °C decade−1 for mungbean during 1980–2018. Observed chickpea phenology stages was earlier for mean value of 7.04 (sowing; S), 6.76 (emergence; E), 4.31 (anthesis; A), 2.15 (maturity; M) days decade−1, whereas chickpea phases were decreased averagely 2.73 (S–A), 2.16 (A–M), 4.89 (S–M) days decade−1. Mungbean, 'S' 6.24, 'E' 5.97, 'A' 3.76, and 'M' 2.01 days decade−1 were occurred earlier. Period of mungbean phenology phases were lessened with averaged 2.45 (S–A), 1.76 (S–M) and 4.23 (A–M) days decade−1, respectively. Phenological stages and phases of both crops chickpea and mungbean correlated negatively with rising temperatures at all sites studied. By using CROPGRO-Chickpea and CROPGRO-Legume models for usual chickpea and mungbean cultivars at the sites for 38 years duration indicated that model predicted phenology stages were accelerated with thermal trend more as compared with observed stages. This showed that, during last decades, growing newly evolved cultivars of pulses having more thermal time requirement have significantly offset the increased temperature induced changes in chickpea (33%) and mungbean (20%) phenology. Therefore, for the mitigation of climate warming influences, newly evolved cultivars for CMS must be familiarized that need greater demand for degree days and having higher tolerance to temperature. [ABSTRACT FROM AUTHOR]

Published

2021