Search

Your search keyword '"Muhammad Umar Hayyat"' showing total 29 results
Start Over Author "Muhammad Umar Hayyat"
29 results on '"Muhammad Umar Hayyat"'

1. Assessment of growth, and ion uptake of plant species, Conocarpus erectus and Dodonaea viscosa, on industrial solid waste

Author

Zafar Siddiq, Umair Azam, Muhammad Atif Irshad, Noor Mirza, Rab Nawaz, Muhammad Umar Hayyat, Ali Irfan, Abdulaziz Abdullah Alsahli, Mohammed Bourhia, Amare Bitew Mekonnen, Zulkifl Ahmed, and Rabia Ghaffar

Subjects
Ecosystem restoration, Environmental management, Industrial ecology, Pollution remediation, Waste management, Botany, QK1-989
Abstract

Abstract Present study assessed the growth of two plant species and ion uptake by them grown on different proportion of industrial solid waste and garden soil. The industrial waste having high concentration of chemicals were used with garden soil at different proportion i.e. 0% (T0), 5% (T1), 10% (T2), 15% (T3) and 20% (T4). Two species namely Conocarpus erectus (alien plant) and Dodonaea viscosa (indigenous) were used as test plants in pot study. Different parameters including growth, physiology, and anatomy of plants and concentration of cations (Na+, K+, Ca2+, and Mg2+) in the plant shoot and root were measured at different time duration (initial, 1st, 2nd, 3rd and 4th month). The key objective of the study was to use these plants to establish their plantations on the barren lands where industrial solid wastes were being disposed of. C. erectus showed better growth than D. viscosa, as well as more uptake of ions. A significant increase in plant growth was observed in fourth month in T1, where plant height reached 24.5% and 46% for C. erectus and D. viscosa, respectively. At harvest, in C. erectus, no significant difference in the fresh (65–78 g) and dry weight (24–30 g) of the shoot was observed across treatments compared to the control. In D. viscosa, at the time of harvest, the fresh and dry weights of the root and shoot showed a strong, significantly decreasing pattern across T1, T2, and T3, leading to the death of the plant at T3 and T4. Further, optimum ratio of waste soil to garden soil was found as 10:90 and 20:80 to establish the plantations of D. viscosa and C. erectus, respectively in areas where such solid waste from industries are disposed. Findings can be used for the restoration of such solid waste for the sustainable management of industrial areas and their associated ecosystems.

Published
2024
Full Text
View/download PDF

2. Mitigating NaCl stress in Vigna radiata L. cultivars using Bacillus pseudomycoides

Author

Bushra Bilal, Zafar Siddiq, Tehreema Iftikhar, and Muhammad Umar Hayyat

Subjects
Biomass, Cultivars, Growth, Mung bean, Salt-tolerant bacteria, Stress, Medicine, Biology (General), QH301-705.5
Abstract

Salt stress is one of the significant abiotic stress factors that exert harmful effects on plant growth and yield. In this study, five cultivars of mung bean (Vigna radiata L.) were treated with different concentrations of NaCl and also inoculated with a salt-tolerant bacterial strain to assess their growth and yield. The bacterial strain was isolated from the saline soil of Sahiwal District, Punjab, Pakistan and identified as Bacillus pseudomycoides. Plant growth was monitored at 15-days interval and finally harvested after 120 days at seed set. Both sodium and potassium uptake in above and below-ground parts were assessed using a flame photometer. Fresh and dry mass, number of pods, seeds per plant, weight of seeds per plant and weight of 100 seeds reduced significantly as the concentration of NaCl increased from 3 to 15 dSm−1. There was a significant reduction in the growth and yield of plants exposed to NaCl stress without bacterial inoculum compared to the plants with bacterial inoculum. The latter plants showed a significant increase in the studied parameters. It was found that the cultivar Inqelab mung showed the least reduction in growth and yield traits among the studied cultivars, while Ramzan mung showed the maximum reduction. Among all the cultivars, maximum Na+ uptake occurred in roots, while the least uptake was observed in seeds. The study concludes that NaCl stress significantly reduces the growth and yield of mung bean cultivars, but Bacillus pseudomycoides inoculum alleviates salt stress. These findings will be helpful to cultivate the selected cultivars in soils with varying concentrations of NaCl.

Published
2024
Full Text
View/download PDF

3. Dairy farmers’ levels of awareness of antibiotic use in livestock farming in Pakistan

Author

Muhammad Farhan, Namra Awan, Amina Kanwal, Faiza Sharif, Muhammad Umar Hayyat, Laila Shahzad, and Gul Zareen Ghafoor

Subjects
History of scholarship and learning. The humanities, AZ20-999, Social Sciences
Abstract

Abstract Antimicrobial resistance due to the irrational and non-sustainable use of antimicrobials poses a serious threat to animal health, human health and urban food security. This study aimed to access the knowledge and perceptions of dairy farmers regarding antimicrobial use and misuse in Lahore, Pakistan. This is the first study regarding antibiotic misuse in Lahore, Pakistan. A random sample of 270 dairy farmers from urban and suburban areas of Lahore participated in an interview-based survey conducted in 2019–20. The results were analyzed using SPSS version 16. About 22% of farmers do not consult a veterinarian, 32.9% do not follow correct dosage instructions and 39% discontinue treatment once the disease signs subside. Moreover, 40% of farmers were unaware of the dangers of misusing antibiotics and admitted to saving leftover antibiotics for future use. Alarmingly, over 20.7% of respondents share antibiotics with friends/farmers and 43% sought advice from non-veterinarian sources. Furthermore, 90% of farmers perceived self-medication as more economical than consulting a veterinarian. Dairy farmers have a wrong perception of antibiotic efficacy, use, expertise of veterinarians and cost of antibiotics. The absence of a food policy and lack of antibiotic use guidance is a serious gap in Pakistan. Antibiotic dispensing laws need to be developed and strictly implemented. Awareness campaigns need to be launched so that farmers get knowledge regarding the uses, overuse and misuse of antibiotics. A holistic approach is essential to address the potential food security crisis caused by non-sustainable farming practices. Policymakers must take action to bridge the gap in the Pakistani food supply chain and promote the sustainable use of antimicrobials/antibiotics.

Published
2024
Full Text
View/download PDF

4. Spatio-temporal analysis of land use land cover change and its impact on land surface temperature of Sialkot City, Pakistan

Author

Kainat Javaid, Gul Zareen Ghafoor, Faiza Sharif, Memuna Ghafoor Shahid, Laila Shahzad, Naghmana Ghafoor, Muhammad Umar Hayyat, and Muhammad Farhan

Subjects
Medicine, Science
Abstract

Abstract The dynamic interplay between urbanization and its impacts on climate is a subject of recent concern, particularly in rapidly urbanizing cities of Pakistan. This research investigated the spatio-temporal effects of urban growth in terms of Land Use Land Cover changes on the thermal environment (Land Surface Temperature) of the Sialkot city, Pakistan using satellite data spanning four distinct time periods (1989, 2000, 2009 and 2020) and predicted changes for year 2030 by employing Cellular Automata Markov Chain Model. Satellite imagery (Landsat 5, 7 and 8) was processed, and maximum likelihood supervised classification was done to generate LULC maps for each of the aforementioned years. In addition to LULC classification, thermal bands of satellite data (for summer and winter) were processed to compute Land Surface Temperature (LST) of the city. The prediction of LULC changes and LST was done for year 2030 using Cellular Automata Markov Chain Model. The accuracy of classified and prediction maps was checked using Kappa Index. The LULC analysis revealed 4.14% increase in the built-up area and 3.43% decrease in vegetation cover of the city during 1989 to 2020. Both land covers are expected to change in the future (year 2030) by + 1.31% (built-up) and − 1.1% (vegetation). Furthermore, a declining trend in the barren land and water bodies was also observed over time. These LULC changes were found affecting the LST of study area. The transformation of vegetation cover into built-up area resulted in an increase in LST over time. A notable rise of 4.5 °C (summer) and 5.7 °C (winter) in the mean LST of Sialkot was observed during 1989 to 2020 and further increases are anticipated in year 2030. This study calls for attention of the policy makers to reduce human impact on the local climate of the city. The study will also help city developers in analyzing the urban population growth trend, finding suitable location to built new infrastructure by governmental authorities and how the rising temperature can affect energy demand and agriculture production of the city in future.

Published
2023
Full Text
View/download PDF

5. Investigating the role of bulking agents in compost maturity

Author

Khadija Zahra, Muhammad Farhan, Amina Kanwal, Faiza Sharif, Muhammad Umar Hayyat, Laila Shahzad, and Gul Zareen Ghafoor

Subjects
Medicine, Science
Abstract

Abstract Kitchen waste is increasing globally, similarly in Pakistan bulk of municipal solid waste comprises of kitchen waste specifically, tea waste. Composting of kitchen waste is one of the promising ways to convert waste into useful product, resulting into zero waste. This study is aimed to convert waste (kitchen waste) in to a resource (compost) using bulking agents (tea waste and biochar) for reducing maturity time. Secondly, compost application on Solanum lycopersicum (tomato) was also tested. Four compost treatments were designed under aerobic composting conditions for 30 days. Tea waste and biochar have accelerated the maturity rate and produced a nutrient rich compost. Final compost had Electrical Conductivity of 2mS/cm, Carbon Nitrogen ration of 15, 54% of organic matter, 15% of moisture content, 48% of cellulose content, and 28% of Lignin content. With the use of Co-compost the Solanum lycopersicum showed 133% germination index, 100% germination, 235% Munoo-Liisa Vitality Index and 1238% seed vigor index. Co-compost also improved the soil total nitrogen by 1.4%, total phosphorous by 2%, total potassium by 2.1% and bulk density by 2.6 gcm−3. This study successfully used tea waste and biochar as bulking agents to reduce maturation time to 30 days. Tea waste and biochar enhanced the organic matter degradation, lignocellulose degradation, water holding capacity, porosity, seed’s vigor, germination index. This research can be helpful in developing home composting and home gardening to combat solid waste management and food security issue in developing countries.

Published
2023
Full Text
View/download PDF

6. Effect of climatic factors on leaf litter decomposition dynamics of a subtropical scrub forest under field and microcosm conditions

Author

Gul Zareen Ghafoor, Faiza Sharif, Muhammad Umar Hayyat, Memuna Ghafoor Shahid, and Laila Shahzad

Subjects
carbon storage, climate change, elevation, moisture, mineralization, warming, Biotechnology, TP248.13-248.65, Life, QH501-531
Abstract

This study investigated the leaf litter decomposition dynamics of Hayat-ul-Mir subtropical scrub forest in Pakistan. Litter bags were incubated for 360 days in the forest to elucidate the effect of elevation and incubation time and for 90 days in microcosms to investigate the effect of projected warming (+2.3°C and +4.5°C) and soil moisture (M15% and M20%) on litter decomposition. Site elevation significantly affected k and T50% while time affected mass loss, residual weight, remaining C and N at p

Published
2022
Full Text
View/download PDF

7. Immune Tolerance vs. Immune Resistance: The Interaction Between Host and Pathogens in Infectious Diseases

Author

Hafiz Ishfaq Ahmad, Abdul Jabbar, Nadia Mushtaq, Zainab Javed, Muhammad Umar Hayyat, Javaria Bashir, Iqra Naseeb, Zain Ul Abideen, Nisar Ahmad, and Jinping Chen

Subjects
disease resistance, immune tolerance, pathogens, adaptive immunity, infectious diseases, Veterinary medicine, SF600-1100
Abstract

The immune system is most likely developed to reduce the harmful impact of infections on the host homeostasis. This defense approach is based on the coordinated activity of innate and adaptive immune system components, which detect and target infections for containment, killing, or expulsion by the body's defense mechanisms. These immunological processes are responsible for decreasing the pathogen burden of an infected host to maintain homeostasis that is considered to be infection resistance. Immune-driven resistance to infection is connected with a second, and probably more important, defensive mechanism: it helps to minimize the amount of dysfunction imposed on host parenchymal tissues during infection without having a direct adverse effect on pathogens. Disease tolerance is a defensive approach that relies on tissue damage control systems to prevent infections from causing harm to the host. It also uncouples immune-driven resistance mechanisms from immunopathology and disease, allowing the body to fight infection more effectively. This review discussed the cellular and molecular processes that build disease tolerance to infection and the implications of innate immunity on those systems. In addition, we discuss how symbiotic relationships with microbes and their control by particular components of innate and adaptive immunity alter disease tolerance to infection.

Published
2022
Full Text
View/download PDF

8. Models to estimate the above and below ground carbon stocks from a subtropical scrub forest of Pakistan

Author

Zafar Siddiq, Muhammad Umar Hayyat, Amin U. Khan, Rashid Mahmood, Laila Shahzad, Rabia Ghaffar, and Kun-Fang Cao

Subjects
Biomass allocation, Carbon content, Dry subtropical forest, Ecology, QH540-549.5
Abstract

Despite an increased number of studies on carbon stock estimates from tropical and temperate forests, little information is available for subtropical forests, although they constitute a significant proportion of global forest cover. In this present study, we aimed to assess the above- and below ground biomass allocation strategies and carbon stocks of Acacia modesta and Olea ferruginea, which co-dominate a subtropical dry forest in Pakistan covering approximately 1.6 Mha. This scrub forest has been subjected to mining, overgrazing, and other anthropogenic activities resulting in the loss of trees and habitat degradation. For the assessment of biomass and carbon stock, 11 trees of each species representing the diameter range of 10–52 cm at 1.3 m height were harvested. The harvested A. modesta and O. ferruginea trees showed 80% and 82% of biomass in the above-ground parts and 20% and 18% to below ground parts respectively. We developed power models from the destructive harvest data for both the above- and below-ground biomass components to assess the tree-level carbon. Furthermore, we also estimated the carbon content in the leaves, roots, and shoots of both species by using a carbon analyzer, which ranged from 43.42% to 46.50%. Using the developed models, we found that the total carbon stock was 49.82 t ha−1 in the studied forest with a basal area of 27 m2 ha−1, consisting of 568 trees ha−1. This study provides useful information about the tissue carbon content, on-site models for estimating the above- and below ground biomass and carbon stock in two dominant species from a subtropical dry forest, which can be applied to estimate the carbon stock of forests in arid climate.

Published
2021
Full Text
View/download PDF

9. Limestone Quarry Waste Promotes the Growth of Two Native Woody Angiosperms

Author

Muhammad Umar Hayyat, Zafar Siddiq, Rashid Mahmood, Amin U. Khan, and Kun-Fang Cao

Subjects
Acacia modesta, calcium, mining, habitat restoration, biomass, mineral uptake, Evolution, QH359-425, Ecology, QH540-549.5
Abstract

Limestone quarrying is an active mining practices generating bulk of solid remains and altering the habitat by the removal of plants; however, the utilization of such waste for the growth of plants has not been investigated much. The present study aimed to evaluate the effects of limestone quarry waste on the growth of two native plants by analyzing its physicochemical properties and utility for plantation purposes, while determining whether mitigation measures would be required for the habitat restoration of quarry site. Two species, Acacia modesta and Adhatoda vasica were selected from the quarry site habitat. These plants were grown in different proportions of quarry waste, and garden soil was used as a control. Growth was assessed by recording plant height, number of branches per plant, root and shoot length, and total biomass. We also analyzed the N, P, K, Na, Ca, and Mg contents of the root and shoot tissues of both species. We found a significant increase in plant height (1.24- and 1.19-fold greater than controls for A. modesta and A. vasica, respectively). Differences in the number branches, root, shoot length, and biomass were also found. A significant and positive relationship was found between the mineral content in roots and the total plant biomass across both species. We conclude that (1) the mining solid waste contained the necessary minerals for the studied plant species and no amelioration would be required for restoration of such sites with the selected indigenous plants; and (2) the quarry waste promoted the growth of the two selected species. The results of the present study can be used to plan habitat restoration in limestone mining areas that have lost plant cover.

Published
2021
Full Text
View/download PDF

10. Novel Ergot Alkaloids Production from Penicillium citrinum Employing Response Surface Methodology Technique

Author

Memuna Ghafoor Shahid, Muhammad Nadeem, Ahmed Gulzar, Muhammad Saleem, Hafeez ur Rehman, Gul Zareen Ghafoor, Muhammad Umar Hayyat, Laila Shahzad, Rabia Arif, and Rubina Nelofer

Subjects
ergot alkaloids, strain improvement, UV, EMS, Penicillium citrinum, response surface methodology, Medicine
Abstract

Ergot alkaloids are novel pharmaceutical and therapeutic agents synthesized in this study using fungal species Penicillium citrinum. To get the maximum yield of ergot alkaloids a statistical process of response surface methodology was employed using surface culture fermentation technique. Initially, the strain of Penicillium was improved using physical (ultraviolet (UV) and chemical (ethyl methane sulfonate (EMS) treatments to get the maximum yield of ergot alkaloids through surface culture fermentation technique. After improving the strain, survival rate of colonies of Penicillium citrinum treated with UV and EMS was observed. Only 2.04% living colonies were observed after 150 min of exposure of Penicillium citrinum in UV light and 3.2% living colonies were observed after 20 min of the exposure in EMS. The mutated strains of Penicillium citrinum were screened for their production of ergot alkaloids and after fermentation experiments, maximum yield was obtained from PCUV-4 and PCEMS-1 strains. After strain improvement, Plackett–Burman design (PBD) and Box–Behnken design (BBD) of RSM were employed and 10-fold yield enhancement (35.60 mg/100 mL) of ergot alkaloids was achieved. This enhancement in yield of ergot alkaloids proved the positive impacts of RSM and UV on the yield of ergot alkaloids. The study provides a cost effective, economical and sustainable process to produce medically important ergot alkaloids which can be used in various pharmaceutical formulations to treat human diseases.

Published
2020
Full Text
View/download PDF

11. Enhancing the Decolorizing and Degradation Ability of Bacterial Consortium Isolated from Textile Effluent Affected Area and Its Application on Seed Germination

Author

Rashid Mahmood, Faiza Sharif, Sikander Ali, and Muhammad Umar Hayyat

Subjects
Technology, Medicine, Science
Abstract

A bacterial consortium BMP1/SDSC/01 consisting of six isolates was isolated from textile effected soil, sludge, and textile effluent from Hudiara drain near Nishat Mills Limited, Ferozepur Road, Lahore, Pakistan. It was selected because of being capable of degrading and detoxifying red, green, black, and yellow textile dyes. The pH and supplements were optimized to enhance the decolorization ability of the selected consortium. The results indicated that decolorizing ability of consortium for the red, green, black, and yellow dyes was higher as compared to individual strains. The consortium was able to decolorize 84%, 84%, 85%, 85%, and 82% of 200 ppm of red, green, black, yellow, and mixed dyes within 24 h while individual strain required 72 h. On supplementing urea, the consortium decolorized 87, 86, 89, 86, and 83%, respectively, while on supplementing sodium chloride the consortium decolorized 93, 94, 93, 94, and 89% of red, green, black, yellow, and mixed dyes, respectively, which was maximum while in the presence of ascorbic acid and ammonium chloride it showed intermediate results. The effect of untreated and treated dyes was investigated on Zea mays L. (maize) and Sorghum vulgare Pers. (sorghum). This study will help to promote an efficient biotreatment of textile effluents.

Published
2015
Full Text
View/download PDF

12. Effects of the Covid-19 Pandemic on Primary Education System of Lahore, Pakistan

Author

Laila Shahzad, Sadia Yousaf, Nimra Riaz, Muhammad Umar Hayyat, and Gulzareen Ghafoor

Abstract

Background: The pandemic of Covid-19 impeded all socio-economical, pedagogic, and recreational activities. Pakistan is facing an intensified educational crisis due to previous educational differences, so the era of the pandemic has shown difficulties in the educational framework. Aim: Awareness among parents and students to combat challenges of pandemic. Method: The current study is based on random quantitatively study which gathered data from 300 respondents assembled from different areas of Lahore, Pakistan from June 2020 to July 2021. The responses were collected from students, teachers, and parents that how homeschooling compromises student’s physical, psychological, and emotional health. Results: About 76% of the students favoured traditional classes over online classes whereas only 20% of the students found the online session interactive. In the other section, only 15.33% of the teachers were satisfied by the online results and they complained about the poor performance and interaction with the students. Overall, 81.67% parents agreed that there is a decline in the physical activity of their children. The results of this study suggested that social distancing and the emerging challenges associated with Covid- 19 have entirely changed the education system that has caused number of problems for children, parents, and teachers in Pakistan. Practical implication: This study highlights pros and cons of online study; such studies give students and teachers a way to prepare for future challenges. Conclusion: Considering all outcomes of study, it is highlighted that policy-level interventions were needed, along with well-designed interactive courses. Hence, integrated approaches based on the mental as well as physical capabilities of the students must be executed, and e-tools must also be practiced in traditional classes to fill the gap of homeschooling. Keywords: Covid-19, Homeschooling, Friendly Tool, Psychological Pressures, Policy-level Intervention

Published
2023

16. Evaluating the Phytoremediation Potential of Eichhornia crassipes for the Removal of Cr and Li from Synthetic Polluted Water

Author

Muhammad Umar Hayyat, Rab Nawaz, Ali Irfan, Sami A. Al-Hussain, Mehlil Aziz, Zafar Siddiq, Sajjad Ahmad, and Magdi E. A. Zaki

Subjects
Health, Toxicology and Mutagenesis, water management, Public Health, Environmental and Occupational Health, emerging pollutant, pollutant removal, heavy metals, water pollution and remediation
Abstract

Heavy metals like chromium (Cr) are hazardous pollutants for aquatic life in water bodies. Similarly, lithium (Li) is also an emerging contaminant in soil and water which later is taken up by plants. The aim of the present study is to evaluate the removal rate of Cr and Li by Eichhornia crassipes. The rate of the removal of Cr and Li by roots, stems, and leaves of E. crassipes were evaluated. The translocation factor (TF) and bioaccumulation factor (BAF) were also estimated. Roots of E. crassipes accumulated higher concentrations of Cr and Li as compared to the stems and leaves. BAF for Cr and Li showed that E. crassipes effectively accumulated the Cr and Li in the roots as compared to the stems and leaves. Statistical analysis showed that E. crassipes removed significant concentrations of Cr and Li (p ≤ 0.05). Thus, this study recommends that Cr and Li can be effectively removed by E. crassipes. High concentrations of Cr and Li could also be removed by E. crassipes. This technology could be used for the cleanup of the environment because it is eco-friendly and cost-effective.

Published
2023
Full Text
View/download PDF

18. Assessment of heavy metals concentrations in commercially available lipsticks in Pakistan

Author

Muhammad Farhan, Laila Shahzad, Muhammad Umar Hayyat, Faiza Sharif, Ayesha Munir, and Gul Zareen Ghafoor

Subjects
Human health, 010504 meteorology & atmospheric sciences, Waste management, media_common.quotation_subject, Environmental science, Heavy metals, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Waste Management and Disposal, Cosmetics, 0105 earth and related environmental sciences, media_common
Abstract

Heavy metals in cosmetics pose a high threat to human health. In the current study, heavy metals were detected in 15 locally manufactured lipsticks purchased from the native markets in Lahore, Paki...

Published
2020

20. Investigation of Lithium Application and Effect of Organic Matter on Soil Health

Author

Maira Mushtaq, Mohammed Nasser Alyemeni, Muhammad Umar Hayyat, Muhammad Atif Irshad, Shafaqat Ali, Muhammad Bilal Shakoor, Rab Nawaz, Sajid Rashid Ahmad, Afzal Hussain, Abdulaziz Abdullah Alsahli, and Zafar Siddiq

Subjects
Soil test, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, complex mixtures, Animal science, nutrients, Soil pH, Sodium adsorption ratio, Leaching (agriculture), lcsh:Environmental sciences, 0105 earth and related environmental sciences, lcsh:GE1-350, Soil health, sorption, Renewable Energy, Sustainability and the Environment, Chemistry, lcsh:Environmental effects of industries and plants, soil fertility, 04 agricultural and veterinary sciences, leaching, lcsh:TD194-195, lithium, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Soil fertility, Waste disposal
Abstract

The extensive use of lithium (Li) ion-based batteries has increased the contamination of soil and water systems due to widespread dispersal of Li products in the environment. In the current study, the influence of Li application on soil fertility and leachate was observed. Three soil samples were collected and five treatments of Li (0, 50, 100, 150 and 200 mg/L) were applied. After three months of Li treatment, leachate was collected and soil samples were subjected to physical and chemical analyses. The results showed that the mean values of soil pH were increased slightly after Li application while electrical conductivity (EC) ranged from 1.2 to 5.1 µS/cm, indicating that soil was slightly saline in nature. The sodium was observed to be greater than the recommended values (0.3–0.7 mg/kg) in Li-amended soil while calcium and magnesium values decreased in soils compared to untreated soil. Mean values of phosphorus and potassium were greater before Li application and reduced considerably after Li application. Leachate analysis showed that all the parameters differed significantly except those of zinc and iron. The EC of leachate samples ranged from 2286–7188 µS/cm, which shows strong salinity. The sodium adsorption ratio (SAR) ranged from 1–11, which indicates that it falls into the marginal soil category. Lithium concentration in leachate samples ranged from 0–95 mg/L, which was significantly higher than the acceptable value for lithium (2.5 mg/L) in leachate. A soil sample (3) with an additional 10% organic matter showed that after Li application, the loss of nutrients in leachate was less as compared to the other two samples, demonstrating that organic matter improved soil conditions and suppressed the negative effects of Li on soil. Our results could raise concerns about risks in situations where food and fodder crops are associated with Li-contaminated waste disposal.

Published
2021
Full Text
View/download PDF

21. Effect of industrial wastewater on wheat germination, growth, yield, nutrients and bioaccumulation of lead

Author

Faiza Sharif, Muhammad Umar Hayyat, Gul Zareen Ghafoor, Muhammad Farhan, Laila Shahzad, and Amina Kanwal

Subjects
0106 biological sciences, Stomatal conductance, Irrigation, lcsh:Medicine, Industrial Waste, Germination, Wastewater, 010501 environmental sciences, Biology, 01 natural sciences, Article, Environmental impact, chemistry.chemical_compound, Animal science, Dry weight, lcsh:Science, Triticum, Plant Proteins, 0105 earth and related environmental sciences, Transpiration, Multidisciplinary, Ecology, lcsh:R, food and beverages, Nutrients, biology.organism_classification, Bioaccumulation, Lead, chemistry, Seedling, Chlorophyll, Seeds, Shoot, lcsh:Q, Edible Grain, 010606 plant biology & botany
Abstract

Due to fresh water scarcity, farmers are using polluted water for irrigation. This research was conducted to study the bioaccumulation of Pb in wheat (Cv. Shafaq-2006). The experiment was comprised of seven treatments of lead i.e. 0–1,000 mg Pb/kg. The results revealed that lead severely reduces germination (− 30%), seedling fresh weight (− 74%), seedling dry weight (− 77%), vigor index (− 89%), tolerance index (− 84%), plant height (− 33%), number of leaves (− 41%), root fresh weight (− 50%), shoot fresh weight (− 62%), root dry weight (− 63%), shoot dry weight (− 71%), and root length (− 45%). The physiological parameters also respond negatively like stomatal conductance (− 82%), transpiration rate (− 72%) and photosynthetic rate (− 74%). Similarly, biochemical parameters also showed negative impacts, like carotenoids (− 41), total chlorophyll (− 43), chlorophyll a (− 42) and chlorophyll b (− 53). Yield parameters like the number of seed/plant, seed weight/plant, 1,000 seed weight and harvest index were reduced by 90%, 88%, 44% and 61%, respectively in T6. In addition, protein contents (− 81%), phosphorous (− 60%) and potassium (− 55%) were highly effected in the highest lead concentration (T6). Lead accumulation was extremely higher in seeds (119%) as compared to control plants. Lead bio-accumulation above threshold concentrations in crop parts is a serious human health concern.

Published
2020

22. Models to estimate the above and below ground carbon stocks from a subtropical scrub forest of Pakistan

Author

Muhammad Umar Hayyat, Amin U. Khan, Zafar Siddiq, Kun-Fang Cao, Rabia Ghaffar, Rashid Mahmood, and Laila Shahzad

Subjects
0106 biological sciences, geography, Biomass (ecology), geography.geographical_feature_category, Ecology, Desert climate, 010604 marine biology & hydrobiology, Carbon content, chemistry.chemical_element, Forestry, Subtropics, 010603 evolutionary biology, 01 natural sciences, Shrubland, Basal area, Dry subtropical forest, Habitat destruction, chemistry, Biomass allocation, Environmental science, Carbon, Temperate rainforest, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Abstract

Despite an increased number of studies on carbon stock estimates from tropical and temperate forests, little information is available for subtropical forests, although they constitute a significant proportion of global forest cover. In this present study, we aimed to assess the above- and below ground biomass allocation strategies and carbon stocks of Acacia modesta and Olea ferruginea, which co-dominate a subtropical dry forest in Pakistan covering approximately 1.6 Mha. This scrub forest has been subjected to mining, overgrazing, and other anthropogenic activities resulting in the loss of trees and habitat degradation. For the assessment of biomass and carbon stock, 11 trees of each species representing the diameter range of 10–52 cm at 1.3 m height were harvested. The harvested A. modesta and O. ferruginea trees showed 80% and 82% of biomass in the above-ground parts and 20% and 18% to below ground parts respectively. We developed power models from the destructive harvest data for both the above- and below-ground biomass components to assess the tree-level carbon. Furthermore, we also estimated the carbon content in the leaves, roots, and shoots of both species by using a carbon analyzer, which ranged from 43.42% to 46.50%. Using the developed models, we found that the total carbon stock was 49.82 t ha−1 in the studied forest with a basal area of 27 m2 ha−1, consisting of 568 trees ha−1. This study provides useful information about the tissue carbon content, on-site models for estimating the above- and below ground biomass and carbon stock in two dominant species from a subtropical dry forest, which can be applied to estimate the carbon stock of forests in arid climate.

Published
2021

23. Double mutation of Saccharomyces cerevisiae for enhanced β-D-fructofuranosidase fructohydrolase productivity and application of growth kinetics for parametric significance analysis

Author

Sikander Ali, Muhammad Umar Hayyat, and Aafia Aslam

Subjects
0301 basic medicine, Sucrose, Serratia, Saccharomyces cerevisiae, lcsh:QR1-502, Microbiology, lcsh:Microbiology, Industrial Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Hydrolysis, Monosaccharide, Yeast extract, Chromatography, High Pressure Liquid, chemistry.chemical_classification, Entropy and enthalpy, Chromatography, beta-Fructofuranosidase, biology, Chemistry, Temperature, Methane sulfonate, Hydrogen-Ion Concentration, Sulfinic Acids, biology.organism_classification, Yeast, Enzyme assay, Culture Media, 030104 developmental biology, Mutagenesis, Mutation, biology.protein, Chromatography, Thin Layer, Kinetics and thermodynamics, β-d-Fructofuranosidase fructohydrolase, Mutagens
Abstract

The kinetics of an extracellular β-D-fructofuranosidase fructohydrolase production by Saccharomyces cerevisiae in a chemically defined medium, i.e., sucrose peptone agar yeast extract at pH 6, was investigated. The wild-type was treated with a chemical mutagen, methyl methane sulfonate. Among the six mutants isolated, methyl methane sulfonate-V was found to be a better enzyme producing strain (52 ± 2.4a U/mL). The maximum production (74 ± 3.1a U/mL) was accomplished after at 48 h (68 ± 2.7a mg/mL protein). The mutants were stabilized at low levels of 5-fluoro-cytocine and the viable ones were further processed for optimization of cultural conditions and nutritional requirements. The sucrose concentration, incubation period and pH were optimized to be 30 g/L, 28 °C, and 6.5, respectively. The methyl methane sulfonate-V exhibited an improvement of over 10 folds in enzyme production when 5 g/L ammonium sulfate was used as a nitrogen source. Thin layer chromatography and high-performance liquid chromatography analysis illustrated the optimal enzyme activity supported by the higher rate of hydrolysis of sucrose into monosaccharides, particularly α-D-glucose and β-D-fructose. The values for Qp (2 ± 0.12c U/mL/h) and Yp/s (4 ± 1.24b U/g) of the mutant were considerably increased in comparison with other yeast strains (both isolates and viable mutants). The mutant could be exploited for enzyme production over a wider temperature range (26–34 °C), with significantly high enzyme activity (LSD 0.048, HS) at the optimal temperature.

Published
2016

24. Novel Ergot Alkaloids Production from Penicillium citrinum Employing Response Surface Methodology Technique

Author

Ahmed Gulzar, Muhammad Umar Hayyat, Muhammad Nadeem, Laila Shahzad, Rubina Nelofer, Gul Zareen Ghafoor, Muhammad Saleem, Hafeez ur Rehman, Rabia Arif, and Memuna Ghafoor Shahid

Subjects
0106 biological sciences, Time Factors, Ultraviolet Rays, Health, Toxicology and Mutagenesis, lcsh:Medicine, ergot alkaloids, Toxicology, PBD, 01 natural sciences, Article, response surface methodology, Industrial Microbiology, 03 medical and health sciences, chemistry.chemical_compound, heterocyclic compounds, Penicillium citrinum, Response surface methodology, Food science, 030304 developmental biology, 0303 health sciences, Models, Statistical, Strain (chemistry), biology, Chemistry, lcsh:R, EMS, Penicillium, food and beverages, Methane sulfonate, Sustainable process, biology.organism_classification, UV, Ethyl Methanesulfonate, Yield (chemistry), Fermentation, strain improvement, BBD, 010606 plant biology & botany
Abstract

Ergot alkaloids are novel pharmaceutical and therapeutic agents synthesized in this study using fungal species Penicillium citrinum. To get the maximum yield of ergot alkaloids a statistical process of response surface methodology was employed using surface culture fermentation technique. Initially, the strain of Penicillium was improved using physical (ultraviolet (UV) and chemical (ethyl methane sulfonate (EMS) treatments to get the maximum yield of ergot alkaloids through surface culture fermentation technique. After improving the strain, survival rate of colonies of Penicillium citrinum treated with UV and EMS was observed. Only 2.04% living colonies were observed after 150 min of exposure of Penicillium citrinum in UV light and 3.2% living colonies were observed after 20 min of the exposure in EMS. The mutated strains of Penicillium citrinum were screened for their production of ergot alkaloids and after fermentation experiments, maximum yield was obtained from PCUV-4 and PCEMS-1 strains. After strain improvement, Plackett&ndash, Burman design (PBD) and Box&ndash, Behnken design (BBD) of RSM were employed and 10-fold yield enhancement (35.60 mg/100 mL) of ergot alkaloids was achieved. This enhancement in yield of ergot alkaloids proved the positive impacts of RSM and UV on the yield of ergot alkaloids. The study provides a cost effective, economical and sustainable process to produce medically important ergot alkaloids which can be used in various pharmaceutical formulations to treat human diseases.

Published
2020

25. Use of Alleviators to Reduce Toxicity of Chromium in Germination of Common Agricultural Crops

Author

Sadia Akram, Rashid Mahmood, Zafar Siddiq, Muhammad Umar Hayyat, RabNawaz, Zawar Haider, and Syed Tariq Rizwan

Subjects
Ecology, biology, Potassium, food and beverages, chemistry.chemical_element, Environmental Science (miscellaneous), Sorghum, biology.organism_classification, Pollution, chemistry.chemical_compound, Chromium, chemistry, Agronomy, Germination, Toxicity, Radicle, Ammonium, Chromium toxicity, Nature and Landscape Conservation
Abstract

The effect of chromium on common agricultural crops (wheat, Indian mustard, sorghum, maize) was investigated and some alleviators were used to reduce chromium toxicity. Petri plate experiments were conducted in order to germinate seeds of crops. The results showed no reduction in germination up to 500 ppm but gradual decrease was observed in higher concentrations. Germination was higher in Indian mustard as compared to wheat and sorghum, however maize exhibited maximum germination. The higher chromium concentration (1000 ppm) significantly inhibited germination, plumule and radicle length. Addition of alleviators (ammonium sulphate, calcium sulphate, calcium phosphate, potassium chloride, zinc sulphate) indicated reduction in chromium toxicity. The most effective alleviator was zinc sulphate. It may be concluded that the attenuation of chromium toxicity by alleviators addition is directly attributed to its regulation on germination, and their distribution at radicle and plumule length. The present study can be used as a tool to alleviate chromium toxicity to enhance the yield of common crops in soils contaminated by chromium.

Published
2015

26. Biotreatment of Textile Effluent for Irrigation Purpose Using Indigenous Bacterial Consortium (BMP1/SDSC/01): A Step towards Reducing Fresh Water Scarcity

Author

Muhammad Umar Hayyat, SikanderAli, Rashid Mahmood, ZafarSiddiq, Syed Tariq Rizwan, and FaizaSharif

Subjects
Irrigation, Ecology, biology, Biomass, Bacillus mycoides, Environmental Science (miscellaneous), Bacterial growth, biology.organism_classification, Pulp and paper industry, Pollution, Bioremediation, Agronomy, Bioreactor, Effluent, Nature and Landscape Conservation, Transpiration
Abstract

A bioreactor was designed to attain efficient, cost-effective and environmentally reliable bioremediation system for the biotreatment of textile effluents to produce irrigation water. The consortium BMP1/SDSC-01 (having six indigenous bacterial isolates: Bacillus subtilus, Bacillus cereus, Bacillus mycoides, Bacillus sp., Micrococcus sp. and Pseudomonas sp.) was used in the bioreactor for the treatment of effluents. Bacterial obliteration from the biotreated textile effluents was done by using acetic acid, which proved efficient and result showed that bacterial growth was not possible in the presence of acetic acid. The treated and untreated textile effluents were applied on two common crops of Pakistan Zea mays L. CV C1415 (Maize) and Sorghum vulgare Pers.CV SSG5000 (Sorghum) to monitor efficacy of bioremediated textile effluents. During experiment plant height, number of leaves, photosynthesis and transpiration rates, and biomass were measured. The results clearly indicated that in untreated effluents maize plant height, biomass, photosynthesis and transpiration was93.26, 45.38, 9.11 and 0.41, respectively. Under irrigation of treated effluents, plant height, biomass, photosynthesis and transpiration were 124, 44.07, 16.95 and 0.84 respectively. Similar trend was observed in sorghum, its plant height increased to 115.8 instead of 85 (untreated). Simultaneously, number of leaves, biomass, photosynthesis and transpiration were 8.62, 44.45, 13.29 and 0.51, respectively. The results are proving that bioreactor successfully reduced the toxicity level of textile effluents and can be used for irrigation purposes. This study will help to produce irrigation water from textile effluents at large scale in Pakistan by applying bioremediation.

Published
2015

27. Strengths, weaknesses, opportunities and threats (SWOT) analysis of Environmental NGOs working in Punjab, Pakistan

Author

Zawar Haider, Muhammad Umar Hayyat, Rab Nawaz, Rashid Mahmood, Nauman Ahmed, and Lina Maqbool

Subjects
Politics, Work (electrical), Descriptive statistics, Scope (project management), business.industry, Political science, Political interference, Audit, Public relations, business, SWOT analysis, Local community
Abstract

The objective of this study is to analyze the working potential of Environmental Non-Governmental Organizations (ENGOs) in Punjab, Pakistan. Semi-structured questionnaire was designed to fulfill the rationale of the study. The potential of working of ENGO is based on the various factors such as financial support, acceptability by the local community, qualification of the staff and social threats while working. Descriptive analysis and Pearson Chi-Square were applied on the collected data to find out the percentage and association. The results showed that operative structure of 65.4% of the ENGOs is volunteer based. Only 42.3% of ENGOs are working on the environmental issues while, others have mixed working scope and vision. There is a lack of auditing system to check the efficient utilization of the resources. A mechanism of self-reporting has been developed by the ENGOs to report to their donors. There is a strong relationship between the number of the staff, age and the strength of the ENGO. It was also found that ENGOs working in Punjab, Pakistan are not being effected by the political parties and having minor social threats. The analysis also showed that the working ENGOs lack the funding which immobilizes them to work efficiently. Many ENGOs have stopped working but their names are still present in the list of the registered ENGOs. There is vital need to update list of ENGOs by concerned departments and to properly mechanize the system of monitoring and auditing. Key words: Operative structure, scope, social threats, political interference, technical expertise.

Published
2014

Catalog

Books, media, physical & digital resources
See catalog results