Your search keyword '"Subhan Danish"' showing total 55 results

1. Mycorrhiza and Phosphate Solubilizing Bacteria: Potential Bioagents for Sustainable Phosphorus Management in Agriculture

Author

Niaz Ahmed, Fazli Wahid, Subhan Danish, Doğan Arslan, Huseyin Arslan, Muhammad Sharif, Rahul Datta, Muhammad Arif Ali, Rafiullah, Shah Fahad, Murat Erman, Muhammad Adnan, Fatemeh Gholizadeh, Shah Saud, Amjad Ali, and Ayman El Sabagh

Subjects

biology, Agronomy, Physiology, Agriculture, business.industry, Plant Science, Phosphorus management, Mycorrhiza, biology.organism_classification, Phosphate solubilizing bacteria, business, Biochemistry

Published

2022

2. Zinc nutrition and arbuscular mycorrhizal symbiosis effects on maize (Zea mays L.) growth and productivity

Author

R.Z. Sayyed, Shah Fahad, Niaz Ahmed, Subhan Danish, Abdul Saboor, Shabir Hussain, Hesham El Enshasy, Rahul Datta, Abdul Gafur, Sajjad Hussain, and Muhammad Arif Ali

Subjects

Mycorrhizal colonization, Host (biology), QH301-705.5, fungi, Stunted growth, chemistry.chemical_element, food and beverages, Zinc, Biology, Micronutrient, Arid, Crop, Extraradical hyphae, Nutrient, Agronomy, Symbiosis, chemistry, Nutrient toxicity, Nutrient deficiency, Biology (General), General Agricultural and Biological Sciences, Calcareous

Abstract

Zinc (Zn) is an essential micronutrient required to enhance crop growth and yield. In the arid - semiarid region, Zn deficiency is expected due to alkaline calcareous soil. Contrarily, Zn toxicity is also becoming an environmental concern due to increasing anthropogenic activities (metal smelting, copper industry, etc.). Therefore, balanced Zn application is necessary to save resources and achieve optimum crop growth and yield. Most scientists suggest biological approaches to overcome the problem of Zn toxicity and deficiency. These biological approaches are mostly environment-friendly and cost-effective. In these biological approaches, the use of arbuscular mycorrhizae fungi (AMF) symbiosis is becoming popular. It can provide tolerance to the host plant against Zn-induced stress. Inoculation of AMF helps in balance uptake of Zn and enhances the growth and yield of crops. On the other hand, maize (Zea mays L.) is an important cereal crop due to its multifarious uses. As maize is an effective host for mycorrhizae symbiosis, that's why this review was written to elaborate on the beneficial role of arbuscular mycorrhizal fungi (AMF). The review aimed to glance at the recent advances in the use of AMF to enhance nutrient uptake, especially Zn. It was also aimed to discuss the mechanism of AMF to overcome the toxic effect of Zn. We have also discussed the detailed mechanism and physiological improvement in the maize plant. In conclusion, AMF can play an imperative role in improving maize growth, yield, and balance uptake of Zn by alleviating Zn stress and mitigating its toxicity.

Published

2021

3. Kaolin and Jasmonic acid improved cotton productivity under water stress conditions

Author

Sulaiman Ali Alharbi, Fiaz Ahmad, Shazia Anjum, Shah Fahad, Muhammad Nazim, Omaima Nasif, Muqarrab Ali, Subhan Danish, Fahim Nawaz, Rahul Datta, M. Amin, and Khurram Shahzad

Subjects

Irrigation, Jasmonic acid, Yield, Vegetative reproduction, QH301-705.5, Field experiment, Kharif crop, Water stress, Randomized block design, Cotton, Biology, Crop, chemistry.chemical_compound, Horticulture, chemistry, Original Article, Biology (General), General Agricultural and Biological Sciences, Kaolin, Water content, Gas exchange characteristics

Abstract

Drought is one of the most emerging threat that causes a severe reduction in cotton plant growth and development. Being cotton is a major cash crop has great threat to prevailing drought events in Pakistan. A field experiment was conducted in Kharif season 2018 at Research Area of MNS-University of Agriculture, Multan, Pakistan to assess the role of foliar applied kaolin and jasmonic acid on vegetative growth, gas exchange and reproductive traits of cotton under normal irrigated and artificial water deficit conditions. The experiment was laid -out in a factorial randomized complete block design with split – split plot arrangement. Main plots were allocated for irrigation levels, sub-plots for two -cotton genotypes viz. NIAB − 878 and SLH − 19 while sub – sub plots for treatments of kaolin and Jasmonic acid. Water deficit stress was created by skipping irrigation at flowering for 21 days. Foliar sprays of Kaolin (5%, w/v) and Jasmonic acid (100 μM) were applied alone or in combination at 60 days after planntinon both to normal irrigated and water-stresse skip irrigation while irrigation water alone was sprayed in control plots. Both cotton genotypes responded variably to normal irrigated and skip conditions. Skipping irrigation for up to 21 days at flowering caused a significant decrease in leaf relative water content, SPAD values, net photosynthetic rate and seed cotton yield in both the genotypes. Seed cotton yield showed an overall decline of 24.7% in skip over Normal irrigated crop. The genotype NIAB − 878 produced maximum seed cotton yield of 3.304 Mg ha−1 in normal that dropped to 2.579 Mg ha−1 in skip, thus showing an average decline of 21.9 %. Similarly, SLH − 19 produced 2.537 Mg ha−1 seed cotton under normal that dropped to 1.822 Mg ha−1 in skip, showing an average decline of 28.2%. The Application of Kaolin and JA Jasmonic acid, either applied individually or in combination, improved vegetative and reproductive development of both cotton varieties in normal and skip regimes. However, combined kaolin and Jasmonic Acid application proved to be more beneficial in terms of seed cotton production and other parameters studied.

Published

2021

4. Optimizing nutrient use efficiency, productivity, energetics, and economics of red cabbage following mineral fertilization and biopriming with compatible rhizosphere microbes

Author

Deepranjan Sarkar, Shah Fahad, Sonam Singh, O. Siva Devika, Shikha, Mohammad Javed Ansari, Abdul Gafur, Ardith Sankar, Manoj Parihar, R. Z. Sayyed, Amitava Rakshit, Rahul Datta, and Subhan Danish

Subjects

Nitrogen, Science, Plant Development, Brassica, engineering.material, Article, Soil, Nutrient, food, Plant symbiosis, Fertilizers, Plant Physiological Phenomena, Rhizosphere, Minerals, Multidisciplinary, Red cabbage, biology, Nutrient management, Microbiota, Trichoderma harzianum, Soil carbon, Nutrients, biology.organism_classification, food.food, Carbon, Crop Production, Agronomy, Fertilization, engineering, Medicine, Fertilizer, Soil fertility, Energy Metabolism, Plant sciences

Abstract

Conventional agricultural practices and rising energy crisis create a question about the sustainability of the present-day food production system. Nutrient exhaustive crops can have a severe impact on native soil fertility by causing nutrient mining. In this backdrop, we conducted a comprehensive assessment of bio-priming intervention in red cabbage production considering nutrient uptake, the annual change in soil fertility, nutrient use efficiency, energy budgeting, and economic benefits for its sustainable intensification, among resource-poor farmers of Middle Gangetic Plains. The compatible microbial agents used in the study include Trichoderma harzianum, Pseudomonas fluorescens, and Bacillus subtilis. Field assays (2016–2017 and 2017–2018) of the present study revealed supplementing 75% of recommended NPK fertilizer with dual inoculation of T. harzianum and P. fluorescens increased macronutrient uptake (N, P, and K), root length, heading percentage, head diameter, head weight, and the total weight of red cabbage along with a positive annual change in soil organic carbon. Maximum positive annual change in available N and available P was recorded under 75% RDF + P. fluorescens + B. subtilis and 75% RDF + T. harzianum + B. subtilis, respectively. Bio-primed plants were also higher in terms of growth and nutrient use efficiency (agronomic efficiency, physiological efficiency, apparent recovery efficiency, partial factor productivity). Energy output (26,370 and 26,630 MJ ha−1), energy balance (13,643 and 13,903 MJ ha−1), maximum gross return (US $ 16,030 and 13,877 ha−1), and net return (US $ 15,966 and 13,813 ha−1) were considerably higher in T. harzianum, and P. fluorescens treated plants. The results suggest the significance of the bio-priming approach under existing integrated nutrient management strategies and the role of dual inoculations in producing synergistic effects on plant growth and maintaining the soil, food, and energy nexus.

Published

2021

5. Physio-chemical characterization of indigenous agricultural waste materials for the development of potting media

Author

Fatma Bibi, Shah Fahad, Javed Iqbal, Syed Inam Ullah Shah Bukhari, Omaima Nasif, Subhan Danish, Allah Bakhsh, Sidra Kiran, Rahul Datta, Khaled D. Alotaibi, and Ali Tan Kee Zuan

Subjects

Potting media, biology, QH301-705.5, Chemical attributes, Physical attributes, Particle size, Plant litter, Straw, biology.organism_classification, Potting, Nutrient, Agronomy, Seedling, Environmental science, Original Article, Aeration, Coir, Leaching (agriculture), Biology (General), General Agricultural and Biological Sciences, Agricultural waste

Abstract

Organic residues are an important factor that directly affects fruiting tree seedlings' health at earlier stages. It provides a suitable environment for seedling growth by providing better nutrient ions, water, and aeration. However, low organic contents and high shrinkage of most organic materials mostly deteriorate ideal potting media characteristics. Low aeration, high water, and nutrients leaching decrease seedling growth and cause a significant loss of valuable resources. That is why the current study was conducted to screen out the best indigenous materials based on particle size to produce good characteristics bearing potting media. For that, eight different ingredients, i.e., “sugarcane”, “coconut coir”, “wheat straw”, “rice straw”, “corn cob”, “leaf litter”, “farmyard manure”, and “sunflower heads” were collected. Initially, all the materials were air-dried and processes as per requirement. After grinding, three particles size (fine = < 2 mm, medium = 3 mm and coarse = 5 mm) were separated by sieving. Results showed that decreasing particle size in “rice straw”, “corn cob”, “farmyard manure,” and “sunflower head” decreased leachate pH. Higher EC in leachates was negatively correlated with particle size in all potting media ingredients. Except for farmyard manure, fine particle size increases the water-holding ability of potting media ingredients. However, air-filled porosity was associated with a decrease in particle size of potting media in gradients. In conclusion, farmyard manure, “sunflower heads”, “leaf litter” and “sugarcane” should be incorporated while making a combination for potting media. More investigations are suggested by mixing different particle size ingredients to prepare potting media.

Published

2021

6. Mitigation of bacterial spot disease induced biotic stress in Capsicum annuum L. cultivars via antioxidant enzymes and isoforms

Author

Waqas Nazir Malik, Manzer H. Siddiqui, Subhan Danish, Ayman El Sabagh, Nazia Tahir, Samina Ejaz, Nida Javaid, Muhammad Arif Ali, Sundas Sana, Niaz Ahmed, Rahul Datta, Sidra Mubeen, Saud Alamri, Nasim Ahmad Yasin, Musarrat Ramzan, Shah Fahad, and Anis Ali Shah

Subjects

0106 biological sciences, 0301 basic medicine, Antioxidant, Xanthomonas, medicine.medical_treatment, Science, 01 natural sciences, Antioxidants, Article, Superoxide dismutase, 03 medical and health sciences, Ascorbate Peroxidases, Stress, Physiological, medicine, Protein Isoforms, Biotic, Peroxidase, Plant Diseases, Plant Proteins, chemistry.chemical_classification, Multidisciplinary, biology, Superoxide Dismutase, food and beverages, Hydrogen Peroxide, Biotic stress, APX, biology.organism_classification, Catalase, Horticulture, Oxidative Stress, 030104 developmental biology, Enzyme, chemistry, Plant stress responses, biology.protein, Medicine, Capsicum, Plant sciences, 010606 plant biology & botany

Abstract

Bacterial spot, caused by a group of Xanthomonads (Xanthomonas spp.), is a devastating disease. It can adversely affect the Capsicum annum productivity. Scientists are working on the role of antioxidants to meet this challenge. However, research is lacking on the role of antioxidant enzymes and their isoforms in the non-compatible pathogen and host plant interaction and resistance mechanisms in capsicum varieties. The present study was conducted to ascertain the defensive role of antioxidant enzymes and their isoforms in chilli varieties Hybrid, Desi, Serrano, Padron, and Shehzadi against bacterial spot disease-induced Xanthomonas sp. The seedlings were inoculated with bacterial pathogen @ 107 CFU/mL, and samples were harvested after regular intervals of 24 h for 4 days followed by inoculation. Total plant proteins were extracted in phosphate buffer and quantified through Bradford assay. The crude protein extracts were analyzed through quantitative enzymatic assays in order to document activity levels of various antioxidant enzymes, including peroxidase (POD), Catalase (CAT), Ascorbate peroxidase (APX), and Superoxide dismutase (SOD). Moreover, the profiles appearance of these enzymes and their isoforms were determined using native polyacrylamide gel electrophoresis (PAGE) analysis. These enzymes exhibited maximum activity in Hybrid (HiR) cultivar followed by Desi (R), Serrano (S), Padron, and Shehzadi (HS). Both the number of isoforms and expression levels were higher in highly resistant cultivars compared to susceptible and highly susceptible cultivars. The induction of POD, CAT, and SOD occurs at the early stages of growth in resistant Capsicum cultivars. At the same time, APX seems to make the second line of antioxidant defense mechanisms. We found that modulating antioxidant enzymes and isoforms activity at the seedling stage was an important mechanism for mitigating plant growth inhibition in the resistant ones.

Published

2021

7. Soil microbial and nutrient dynamics under different sowings environment of Indian mustard (Brassica juncea L.) in rice based cropping system

Author

Tariq Muhammad Munir, Rakesh Singh, Sandeep Kumar, Gulab Singh Yadav, Subhan Danish, Ram Swaroop Meena, Rahul Datta, and Sunil Kumar

Subjects

Soil biodiversity, Science, Population, 010501 environmental sciences, engineering.material, Biology, 01 natural sciences, Article, Crop, Nutrient, Plant symbiosis, Cropping system, education, 0105 earth and related environmental sciences, Soil health, education.field_of_study, Multidisciplinary, Mass spectrometry, Compost, fungi, Sowing, food and beverages, 04 agricultural and veterinary sciences, Soil microbiology, Agronomy, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Medicine, Microbiology techniques

Abstract

Farmers are not growing diversified crops and applying huge amounts of agrochemicals and imbalanced fertilizers in the rice-wheat cropping system (RWCS), since the 1960s. The objective of this study was to evaluate the microbial and nutrient dynamics in Indian mustard (Brassica juncea L.) under various sowing environments and nutrient sources during Rabi season (October–March), 2015–2016. The experiment was laid out in the split-plot design with three sowing dates in main-plots, and eight nutrient sources in sub-plots. The maximum bacteria, fungi, and actinomycetes population, soil microbial biomass carbon (SMBC), dehydrogenase activities, and available nitrogen, phosphorus, potassium, and sulphur (NPKS) were recorded on November 17 sown crop, and the lowest was observed on December 7 sowing during both the years, and in the pooled analysis. Furthermore, applied nutrient sources, highest bacteria, fungi, and actinomycetes population, available NPKS, SMBC, and dehydrogenase activity were observed in 75% recommended dose of fertilizers (RDF) + 25% N through pressmud (PM) + Azotobacto + phosphorus solubilizing bacteria (PSB) than other nutrient sources. In conclusion, high demand and cost of chemical fertilizers can be replaced by 25% amount easily and locally available organic manures like PM compost to sustain the soil health and crop productivity. It will be helpful to restore the soil biodiversity in the RWCS and provide a roadmap for the researchers, government planners, and policymakers for the use of PM as a source of organic matter and nutrients.

Published

2021

8. Effect of micronutrients foliar supplementation on the production and eminence of plum (Prunus domestica L.)

Author

Rahul Datta, Subhan Danish, Muhammad Adnan, J Ali, Rafiullah, I.A. Salim, Hafeez-u-Rehman, A.H. Shah, Muhammad Tariq, Muhammad Irfan, Manzoor Ahmad, Muhammad Zafar-ul-Hye, Tayebeh Zarei, Martin Leonardo Battaglia, Farmanullah Khan, Shah Fahad, and Fazli Wahid

Subjects

Soil organic matter, 010401 analytical chemistry, food and beverages, 04 agricultural and veterinary sciences, Biology, Micronutrient, 040401 food science, 01 natural sciences, 0104 chemical sciences, Bioavailability, Horticulture, Prunus, 0404 agricultural biotechnology, Yield (wine), Soil fertility, Sugar, Agronomy and Crop Science, Calcareous, Food Science

Abstract

Poor soil fertility due to continuous depletion of micronutrients is a major problem for the production of Prunus domestica L. Low level of soil organic matter and calcareous parent material decrease the bioavailability of these micronutrients to plum plants. Thus, less micronutrients uptake resulted in deterioration of plum fruit quality and decreased yield. On the other hand, balance and correct combination of micronutrients used as a foliar has potential to overcome this problem. Foliar application method provides plants a chance for rapid and easy uptake of micronutrients. Therefore, the present research was carried out to select the best combination of micronu-trients using foliar method. Aim of the study was to select a balanced combination of micronutrients for better production and improved quality of plum (Prunus domestica L., variety Fazal manai) fruit. Seven treatments in three replications were applied. Our results showed that the quality of fruit was significantly improved through the application of T6 micronutrients consortia. A significant increase in total soluble solids (16%), fruit yield per tree (92%) and fruit size (12%) validated the effectiveness of treatment T6 (Zn + Cu + Fe + Mn + B = 0.5% + 0.2% + 0.5% + 0.5% + 0.1%) over control. Application of treatment T6 also enhanced quality attributes, that is, juice acid-ity (22%), juice sugar (22%) and juice contents (16%), as compared to control. It is concluded that use of treatment T6 as a foliar application is a better approach for significant improvement in quality and yield attributes of plum in micronutrients deficient conditions.

Published

2020

9. Recognizing the Basics of Phytochrome-Interacting Factors in Plants for Abiotic Stress Tolerance

Author

Shah Fahad, Zhenjie Shi, Liangbing Xiong, Rahul Datta, Shah Saud, Jan Banout, Subhan Danish, and Imran Ahmad

Subjects

Abiotic component, abiotic stress, biology, Phytochrome, Mechanism (biology), Abiotic stress, biotic stress, plant hormones, fungi, food and beverages, biology.organism_classification, Cell biology, Phytochrome-interacting factor, Plant hormone, Signal transduction, QK900-989, Plant ecology, Transcription factor, Intracellular, signal transduction

Abstract

Phytochrome-interacting factor (PIF) belongs to the basic helix-ring-helix (Basic Helix– Loop– Helix, bHLH) type transcription factors, which are involved in multiple biological processes in plants as a "hub" of intracellular signal regulation, PIF not only regulates the growth and development of plants, but also plays an important role in the process of plants resistance to abiotic stresses such as low and high temperatures, shade, drought through different plant hormone signaling pathways that involve numerous plant hormones. Finally, PIF also mediates the defense mechanism of phytochemicals against biological stresses such as diseases and insect pests.

Published

2022

10. Integrated weed management for sustainable agriculture

Author

Khalid Iqbal, Subhan Danish, Zainul Abideen, Muhammad Ahsan Asghar, and M. Iftikhar Hussain

Subjects

Irrigation, biology, Agroforestry, biological control, Intercropping, cover crop, Crop rotation, biology.organism_classification, Weed control, Crop, Sustainable agriculture, allelopathy, Environmental science, mulching, Cover crop, Weed

Abstract

Increased world population will demand more food production, less water-consuming crops, better crop production techniques and better strategies for weed control. More production with rational use of available resources should enhance food security. Here, we review weed management approaches, which vary from crop to crop, with focus on organic weed management, non-chemical weed control, cover crops and allelopathy. Weeding practice in any crop depends on crop factors such as position in rotation, plant spacing and architecture; on field factors such as soil type and weed seed bank history; and on seasonal factors, e.g. rainfall. Crop losses can be reduced by integrated weed management with resistant crop varieties, rational use of agrochemicals, biocontrol agents, allelopathic crops, crop rotation and better cultural practices. Complementary weed control methods include grazing, herbicide application, land fallowing, biological control, cover crops, inclusion of competitive ability of crops, mechanical weeding, sowing time adjustment, irrigation methods, mulching and intercropping.

Published

2022

11. Regulation of Phosphorus and Zinc Uptake in Relation to Arbuscular Mycorrhizal Fungi for Better Maize Growth

Author

Muhammad Saeed Tahir, Muhammad Arif Ali, Subhan Danish, Shabir Husain, Khurram Shehzad Baig, Rahul Datta, Niaz Ahmed, Muhammad Bilal, Abdul Saboor, Bernard R. Glick, and Muhammad Irfan

Subjects

biology, Inoculation, Phosphorus, zinc, chemistry.chemical_element, Agriculture, Zinc, Micronutrient, biology.organism_classification, maize, Horticulture, Alkali soil, Nutrient, chemistry, Shoot, optimization application rates, phosphorus, mycorrhizae, Agronomy and Crop Science, Glomus

Abstract

Zinc (Zn) is an important micronutrient for plants, whose deficiency in alkaline soils creates hurdles in the achievement of optimum crop growth. Moreover, overuse of phosphorus (P) fertilizers often causes Zn immobilization in the soil. The employment of arbuscular mycorrhizal fungi (AMF) could be potentially environmentally friendly technology in this regard. Therefore, a pot experiment was conducted to assess the beneficial role of AMF (Glomus species) on maize under low and high P and Zn levels. Seven levels of Zn (0, 20, 40, 60, 80, 100 and 120 mg Zn kg−1 soil ZnSO4·7H2O) and three levels of P (0, 14.5, 29 and 58 kg ac−1 as single superphosphate) were applied with (M+) and without AMF (M−). The results showed that a high application rate of Zn (100 and 120 mg Zn kg−1 soil) restricted P translocation in plants and vice versa. Moreover, the nutritional status of mycorrhizal plants (AM) was better than non-mycorrhizal (NM) plants. AM plants showed a maximum positive response at 20 mg Zn kg−1 soil, or 29 kg P ac−1. In response to 20 mg Zn kg−1 soil, root colonization was maximum, which enhanced the maize nutrient concentration in shoots. In conclusion, AMF inoculation (M+) with P (29 kg ac−1) and Zn (20 mg kg−1) is efficacious for improving maize’s growth and nutrition. More investigations are suggested at the field level under different agroclimatic zones to ascertain whether P (29 kg ac−1) or Zn (20 mg kg−1) with AMF is the best treatment for maize growth optimization.

Published

2021

12. Abiotic Stresses: Alteration of Composition and Grain Quality in Food Legumes

Author

Aminul Islam, Md. Parvez Anwar, A. K. M. Mominul Islam, Rahul Datta, Subhan Danish, Marium Khatun, Farzana Mustafa Era, and Sumi Sarkar

Subjects

Abiotic component, abiotic stress, Abiotic stress, digestive, oral, and skin physiology, food and beverages, Agriculture, drought, legume, Biology, salinity, Salinity, heat stress, Agronomy, Grain quality, Food quality, Sugar, heavy metals, Agronomy and Crop Science, Productivity, Legume

Abstract

Abiotic stresses varyingly affect the grain composition and quality of food legumes. This paper is aimed at discussing the impact of abiotic stresses on the grain composition and quality of food legumes. As protein is the main grain constituent of food legumes for which it is being consumed by humans as a cheap protein source, abiotic stresses such as heat, cold, drought, salinity and heavy metals alter this grain protein content in different dimensions for different food legumes. Moreover, other valuable constituents such as starch, soluble sugar, oil, fatty acid and fiber content are affected differently by the abiotic stresses. The diverse impact of these abiotic stresses ultimately declines the grain quality and yield of food legumes. As food legumes play a vital role in the nutritional diet of millions of people in the world and are occasionally denoted as the meat of poor people, it is important to recognize that the sustainable production of food legumes, even under various environmental stresses, has the potential to ensure protein security for people globally. Therefore, it has become a necessity to improve the productivity and quality of food legumes under abiotic stresses through proper crop management and improved breeding strategies, thus enhancing food and economic security to the farmers, particularly in the developing countries of the world.

Published

2021

13. Application of sewage sludge combined with thiourea improves the growth and yield attributes of wheat (Triticum aestivum L.) genotypes under arsenic-contaminated soil

Author

Sulaiman A. Alrumman, Saleha Ahmed Ali, Huma Shahid, Shameem Kausar, Ebrahem M. Eid, Subhan Danish, Khadija tul Kubra, Samia Yaseen, Nida Mansoora, Ghulam Mustafa, Syeda Fasiha Amjad, and Saad Alamri

Subjects

Chlorophyll, Pigments, Organosulfur Compounds, Leaves, Chloroplasts, Plant Science, Toxicology, Pathology and Laboratory Medicine, Sludge, Nutrient, Medicine and Health Sciences, Materials, Multidisciplinary, Sewage, Plant Anatomy, Thiourea, Eukaryota, Plants, Soil contamination, Horticulture, Chemistry, Shoot, Wheat, Physical Sciences, Medicine, Engineering and Technology, Fertilizer, Cellular Structures and Organelles, Cellular Types, Research Article, Chemical Elements, Science, Plant Cell Biology, Materials Science, Amendment, chemistry.chemical_element, engineering.material, Biology, Arsenic, Dry weight, Plant Cells, Grasses, Organic Pigments, Toxicity, Phosphorus, Organisms, Chemical Compounds, Biology and Life Sciences, Cell Biology, chemistry, engineering, Sanitary Engineering

Abstract

Arsenic (As) contamination is a serious threat to agriculture and human health worldwide. It can adversely affect the growth attributes of food crops. On the other hand, using thiourea (TU) to ameliorate As stress is an economically consistent approach. However, there is a knowledge gap regarding the combined use of TU and Sewage sludge (SS). SS is considered important, unutilized biomass. It can be used as a fertilizer that has high organic matter and nutrients. Therefore, the current study was performed to evaluate TU and SS sole and combined responses under As toxicity on two wheat genotypes (Markaz 19 and Ujala 16). There were four treatments control (As 50 mg kg-1), SS (30 g kg−1)+TU (6.5 mM)+As, TU+As and SS+As applied with four replications. Results revealed that SS+TU performed significantly better over SS, TU and control for improvement in root and shoot fresh and dry weight of wheat varieties Markaz 19 and Ujala 16 under As toxicity. A significant decrease in POD, SOD and APX of Markaz 19 and Ujala 16 also validated the effective functioning of SS+TU over control. The maximum increase of 71 and 77% was noted in phosphorus, where SS+TU was applied over control in Markaz 19 and Ujala 16, respectively. In conclusion, SS+TU is a better approach than the sole application of SS and TU under As contamination for improvement in wheat growth attributes. More investigations are recommended at the field level under different As contamination and agro-climatic zones to declare SS+TU an effective amendment to mitigate As toxicity in wheat.

Published

2021

14. Application of Zinc Fertilizer and Mycorrhizal Inoculation on Physio-Biochemical Parameters of Wheat Grown under Water-Stressed Environment

Author

Ghulam Hussain Jatoi, Israr Ud Din, Shah Fahad, Samia Yaseen, Syeda Fasiha Amjad, Nida Mansoora, Maliha Naz, Rana Khalid Iqbal, Ghulam Murtaza, Subhan Danish, and Rahul Datta

Subjects

Irrigation, Osmotic shock, Geography, Planning and Development, chemistry.chemical_element, TJ807-830, Zinc, Management, Monitoring, Policy and Law, engineering.material, Biology, TD194-195, Renewable energy sources, Crop, Field capacity, Dry weight, wheat, GE1-350, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, fungi, zinc, food and beverages, Environmental sciences, Horticulture, antioxidants, chemistry, mycorrhizal inoculation, Shoot, engineering, Fertilizer, osmotic stress

Abstract

Drought stress and poor zinc (Zn) are major constraints for commercial agriculture. Their detrimental effects significantly decrease crop’s growth and yield. Less water uptake disturbs the metabolic processes in plants. However, the deficiency of Zn leads to the inactivation of many enzymes. It is well documented that cereal crops, especially wheat, are susceptible to drought and Zn deficiency. Scientists suggest the supplementation of Zn along bio-fertilizers for the sustainable management of these issues. That is why the current experiment was conducted to explore the best combination of Zn and bio-fertilizer for wheat. There were two different recommended concentrations of Zn sulfate (Zinc level 1 (Zn1) = 20 and Zinc level 2 (Zn2) = 40 kg ha−1) applied under normal irrigation (75% field capacity = FC) and severe drought stress (40% FC). Sole and combined inoculation of arbuscular mycorrhizal fungi (AM) with Zn1 and Zn2 was also performed. Osmotic stress (40% FC) significantly decreased the examined growth parameters. It also significantly enhanced antioxidant and oxidative indicators in wheat. A significant increase in root fresh weight, root dry weight, and shoot length while a significant decrease in EL, SOD, POD over the control validated the efficacious role of Zn2 + AM. It is concluded that Zn2 + AM can improve wheat root fresh weight and root length wheat under 40% FC. Under different climatic zones, wheat varieties, and soil types, more investigations are recommended to declare Zn2 + AM as the best amendment for improving wheat growth attributes under osmotic stress.

Published

2021

15. Effect of arbuscular mycorrhizal fungi on the physiological functioning of maize under zinc-deficient soils

Author

Mohammad Javed Ansari, Shah Fahad, Muhammad Arif Ali, Bernard R. Glick, Abdul Saboor, Rahul Datta, Omaima Nasif, Niaz Ahmed, Subhan Danish, and Muhammad Habib ur Rahman

Subjects

Stomatal conductance, Science, chemistry.chemical_element, Zinc, Biology, Photosynthesis, Zea mays, Article, Soil, Nutrient, Symbiosis, Mycorrhizae, Plant symbiosis, Multidisciplinary, Mass spectrometry, Inoculation, fungi, food and beverages, Horticulture, chemistry, Plant stress responses, Plant Stomata, Shoot, Soil water, Medicine, Plant sciences

Abstract

Zinc (Zn) deficiency can severely inhibit plant growth, yield, and enzymatic activities. Zn plays a vital role in various enzymatic activities in plants. Arbuscular mycorrhizal fungi (AMF) play a crucial role in improving the plant’s Zn nutrition and mitigating Zn stress effects on plants. The current study was conducted to compare the response of inoculated and non-inoculated maize (YH 1898) in the presence of different levels of zinc under greenhouse conditions under a Zn deficient condition. There were two mycorrhizal levels (i.e., M + with mycorrhizae, M- without mycorrhizae) and five Zn levels (i.e., 0, 1.5, 3, 6, and 12 mg kg-1), with three replicates following completely randomized design. At the vegetative stage (before tillering), biochemical, physiological, and agronomic attributes were measured. The results showed that maize plants previously inoculated with AMF had higher gaseous exchange traits, i.e., a higher stomatal conductance rate, favoring an increased photosynthetic rate. Improvement in antioxidant enzyme activity was also observed in inoculated compared to non-inoculated maize plants. Moreover, AMF inoculation also played a beneficial role in nutrients availability and its uptake by plants. Higher Zn12 (12 mg Zn kg-1 soil) treatment accumulated a higher Zn concentration in soil, root, and shoot in AMF-inoculated than in non-inoculated maize plants. These results are consistent with mycorrhizal symbiosis beneficial role for maize physiological functioning in Zn deficient soil conditions. Additionally, AMF inoculation mitigated the stress conditions and assisted nutrient uptake by maize.

Published

2021

16. Drought Stress Alleviation by Potassium-Nitrate-Containing Chitosan/Montmorillonite Microparticles Confers Changes in Spinacia oleracea L

Author

Muhammad Naeem, Subhan Danish, Shah Fahad, Syed Abu Bakr Haider Bukhari, Irfana Lalarukh, Rahul Datta, Nida Mansoora, Maliha Naz, Syeda Fasiha Amjad, Muhammad Shahbaz, Theodore Danso Marfo, Syeda Aqsa Batool Bukhari, and Saleha Ahmad Ali

Subjects

Spinacia, spinach, Potassium, Geography, Planning and Development, chemistry.chemical_element, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, soil mineral, Renewable energy sources, chemistry.chemical_compound, Nutrient, GE1-350, mineral fertilizer, growth attributes, biology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, fungi, food and beverages, Potassium nitrate, biology.organism_classification, Malondialdehyde, Ascorbic acid, Environmental sciences, Horticulture, antioxidants, chemistry, Shoot, Spinach, osmotic stress

Abstract

Drought and low amounts of mineral nutrients in the soil are the two leading global constraints in arid and semiarid regions. Their detrimental effects on soils and crops can be alleviated by applying controlled release and biodegradable fertilizers to better and sustain the crops. On a global scale, spinach (Spinacia oleracea L.) is an essential leafy green vegetable that is biologically considered a reliable source of essential nutrients and minerals for human health. A comprehensive approach is needed to manage water stress to mitigate the impacts of stress-caused damage and to examine this for better and increased plant production. An experiment was conducted using potassium-nitrate-containing chitosan/montmorillonite microparticles (150 mg) under mild and severe drought stress (MDS: 50% and SDS: 35% FC, respectively). The treatments include control (no KNO3 and 70% FC as normal irrigation (NI)), KNO3 + NI, 50% FC as mild drought stress (MDS), KNO3 + MDS, 35% FC as severe drought stress (SDS) and KNO3 + SDS. Results revealed that drought stress decreased all studied physiological parameters and increased oxidative stress indicators in spinach. Applying KN significantly increased root (122%) and shoot length (4%), shoot fresh weight (32%) and shoot dry weight (71%), chlorophyll a (88%), carotenoids (39%), total soluble proteins (50%), soluble sugars (51%), potassium (80%), and phosphorous (32%) concentrations over No KN at severe drought. While stress indicators, like glycine betaine, malondialdehyde, hydrogen peroxide, electrolyte leakage, peroxidase, superoxide dismutase, and ascorbic acid levels, were increased in stress. Treatment KN was proved efficient and effective in improving spinach physiological status in both MDS and SDS.

Published

2021

17. Biochar and urease inhibitor mitigate NH3 and N2O emissions and improve wheat yield in a urea fertilized alkaline soil

Author

Shah Saud, Subhan Danish, Aamir Khan, Muhammad Ahmad, Rahul Datta, Jan Banout, Khadim Dawar, Muhammad Habib-ur-Rahman, Ishaq Ahmad Mian, Shah Fahad, Mohammad Javed Ansari, Iqbal Munir, Muhammad Adnan, Shah Alam Khan, Raf Dewil, Syed Sartaj Alam, and Mohammad M. R. Jahangir

Subjects

Pollution remediation, Urease, Science, NITRIFICATION INHIBITOR, Randomized block design, Biomass, Article, OXIDE EMISSIONS, RECENT TRENDS, CARBON, Ammonia, chemistry.chemical_compound, Alkali soil, Animal science, Biochar, NITROGEN USE EFFICIENCY, FIELD, Science & Technology, Multidisciplinary, biology, Nitrous oxide, RELEASE FERTILIZER, NITRIFIER DENITRIFICATION, Environmental sciences, Multidisciplinary Sciences, chemistry, Urea, biology.protein, Medicine, Science & Technology - Other Topics, Plant sciences, MAIZE, AMMONIA VOLATILIZATION

Abstract

In this study, we explored the role of biochar (BC) and/or urease inhibitor (UI) in mitigating ammonia (NH3) and nitrous oxide (N2O) discharge from urea fertilized wheat cultivated fields in Pakistan (34.01°N, 71.71°E). The experiment included five treatments [control, urea (150 kg N ha−1), BC (10 Mg ha−1), urea + BC and urea + BC + UI (1 L ton−1)], which were all repeated four times and were carried out in a randomized complete block design. Urea supplementation along with BC and BC + UI reduced soil NH3 emissions by 27% and 69%, respectively, compared to sole urea application. Nitrous oxide emissions from urea fertilized plots were also reduced by 24% and 53% applying BC and BC + UI, respectively, compared to urea alone. Application of BC with urea improved the grain yield, shoot biomass, and total N uptake of wheat by 13%, 24%, and 12%, respectively, compared to urea alone. Moreover, UI further promoted biomass and grain yield, and N assimilation in wheat by 38%, 22% and 27%, respectively, over sole urea application. In conclusion, application of BC and/or UI can mitigate NH3 and N2O emissions from urea fertilized soil, improve N use efficiency (NUE) and overall crop productivity.

Published

2021

18. Legumes under Drought Stress: Plant Responses, Adaptive Mechanisms, and Management Strategies in Relation to Nitrogen Fixation

Author

Ejaz Ahmad Waraich, Karthika Rajendran, Anamika Dubey, Mohammad Anwar Hossain, Shah Fahad, Arzu Çı˘g, Akbar Hossain, Murat Erman, Fatih Çı˘g, Shah Saud, M. Kaium Chowdhury, Zahoor Ahmad, Mohammad Sohidul Islam, Muhammad Ali Raza, Sajjad Hussain, Muhammad Aamir Iqbal, Subhan Danish, Ashwani Kumar, Muhammad Arif, Muhammad Habib ur Rahman, and Ayman El Sabagh

Subjects

Drought stress, Agronomy, Nitrogen fixation, Biology

Published

2021

19. Elevated CO2 in Combination with Heat Stress Influences the Growth and Productivity of Cereals: Adverse Effect and Adaptive Mechanisms

Author

Rahul Datta, Allah Wasaya, Marian Brestic, Ali Raza, Akbar Hossain, Muhammad Aamir Iqbal, Subhan Danish, Skalický Milan, Paul Ola Igboji, Disna Ratnasekera, Adnan Arshad, Mohammad Sohidul Islam, Sharif Ahmed, Kulvir Singh, Arpna Kumari, Muhammad Ali Raza, Ayman El Sabagh, Sytar Oksana, and Shah Fahad

Subjects

Toxicology, Biology, Adverse effect, Productivity, Heat stress

Published

2021

20. Leaf Proteome Response to Drought Stress and Antioxidant Potential in Tomato (Solanum lycopersicum L.)

Author

Mohamed I. Sakran, Gyanendra K. Rai, Gayatri Jamwal, Adel I. Alalawy, Ranjeet Kumar, Pradeep Kumar Rai, Umer Basu, Subhan Danish, Mohammad Anwar Hossain, Abida Parveen, Muhammad Habib ur Rahman, Mohammed A. Al-Duais, Ali Raza, and J.P. Sharma

Subjects

MALDI-TOF, Atmospheric Science, biology, Abiotic stress, proteome, Drought tolerance, fungi, drought stress, food and beverages, Environmental Science (miscellaneous), tomato, APX, biology.organism_classification, 2D gel electrophoresis, Solanum pimpinellifolium, Superoxide dismutase, Horticulture, antioxidants, Catalase, Meteorology. Climatology, Proteome, biology.protein, Solanum, QC851-999

Abstract

Advances in proteome research have opened the gateway to understanding numerous metabolic pathways and fundamental mechanisms involved in abiotic stress tolerance. In the present study, the antioxidant capacity of four tomato genotypes i.e., Kashi Amrit, Kashi Anupam, EC-317-6-1, and WIR-4360 was determined under drought stress to ascertain the scavenging potential for reactive oxygen species (ROS). A significant increase in the superoxide dismutase (SOD), Ascorbate peroxidase (APX), and catalase (CAT) activities in all the four genotypes under drought stress was observed, which seemed to be associated with a protective role against ROS (p &lt, 0.001). Based on the antioxidant enzyme activities, a proteomic approach was applied to study differential protein expression in two selected genotypes from different species i.e., EC-317-6-1 (Solanum pimpinellifolium) and Kashi Amrit (Solanum lycopersicum) grown under irrigated, drought, and re-watering conditions. To reveal the protein network regulated under these conditions, two-dimensional gel electrophoresis was employed to identify and quantify the number of proteins in drought-sensitive (Kashi Amrit) and tolerant (EC-317-6-1) genotypes. Matrix-assisted laser desorption/ionization-time of flight analysis (MALDI-TOF) revealed a total of 453 spots after fine-tuning factors i.e., smoothness, saliency, and minimum area that responded to drought. Out of 453 total spots, 93 spots were identified in Kashi Amrit and 154 in EC-317-6-1 under irrigated conditions, whereas 4 spots were identified in Kashi Amrit and 77 spots in EC-317-6-1 under drought conditions. Furthermore, differentially expressed proteins were distinguished according to the fold change of their expression. Information provided in this report will be useful for the selection of proteins or genes in analyzing or improving drought tolerance in tomato cultivars. These findings may assist in the construction of a complete proteome database encompassing various divergent species which could be a valuable source for the improvement of crops under drought-stress conditions in the future.

Published

2021

21. Rhizobacteria Inoculation and Caffeic Acid Alleviated Drought Stress in Lentil Plants

Author

Abdallah M. Elgorban, Subhan Danish, Muqarrab Ali, Muhammad Naeem Akbar, Rahul Datta, Mohammad Javed Ansari, Mazhar Abbas, Shah Fahad, Atiqa Zahid, Yasir Iftikhar, and Muhammad Zafar-ul-Hye

Subjects

abiotic stress, Bacillus amyloliquefaciens, Geography, Planning and Development, Turgor pressure, TJ807-830, Management, Monitoring, Policy and Law, Rhizobacteria, TD194-195, Renewable energy sources, chemistry.chemical_compound, Caffeic acid, GE1-350, Proline, Legume, biology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Abiotic stress, fungi, food and beverages, Building and Construction, plant growth, legume, biology.organism_classification, Environmental sciences, Horticulture, chemistry, Chlorophyll, caffeic acid

Abstract

Lentil (Lens culinaris Medik) is an important component of the human diet due to its high mineral and protein contents. Abiotic stresses, i.e., drought, decreases plant growth and yield. Drought causes the synthesis of reactive oxygen species, which decrease a plant’s starch contents and growth. However, ACC-deaminase (1-aminocyclopropane-1-carboxylate deaminase) producing rhizobacteria can alleviate drought stress by decreasing ethylene levels. On the other hand, caffeic acid (CA) can also positively affect cell expansion and turgor pressure maintenance under drought stress. Therefore, the current study was planned with an aim to assess the effect of CA (0, 20, 50 and 100 ppm) and ACC-deaminase rhizobacteria (Lysinibacillus fusiform, Bacillus amyloliquefaciens) on lentils under drought stress. The combined application of CA and ACC-deaminase containing rhizobacteria significantly improved plant height (55%), number of pods per plant (51%), 1000-grain weight (45%), nitrogen concentration (56%), phosphorus concentration (19%), potassium concentration (21%), chlorophyll (54%), relative water contents RWC (60%) and protein contents (55%). A significant decrease in electrolyte leakage (30%), proline contents (44%), and hydrogen peroxide contents (54%), along with an improvement in cell membrane stability (34% over control) validated the combined use of CA and rhizobacteria. In conclusion, co-application of CA (20 ppm) and ACC-deaminase producing rhizobacteria can significantly improve plant growth and yield for farmers under drought stress. More investigations are suggested at the field level to select the best rhizobacteria and CA level for lentils under drought.

Published

2021

22. Multi-strain Inoculation with PGPR Producing ACC Deaminase is More Effective Than Single-strain Inoculation to Improve Wheat (Triticum aestivum) Growth and Yield

Author

Abdur Rehim, Ayesha Iftikhar, Ifat Nazir, Mehreen Gul, Subhan Danish, Muhammad Zafar-ul-Hye, Mazhar Abbas, Misbah Batool Zahra, Muhammad Tahzeeb-ul-Hassan, Muhammad Naeem Akbar, Maria Murtaza, and Maria Abid

Subjects

Horticulture, Strain (chemistry), Physiology, Inoculation, Crop yield, Yield (chemistry), Biofertilizer, Shoot, Plant Science, Biology, Rhizobacteria, Biochemistry, Single strain

Published

2020

23. Effect of foliar application of Fe and banana peel waste biochar on growth, chlorophyll content and accessory pigments synthesis in spinach under chromium (IV) toxicity

Author

Fayyaz Ahmad Tahir, Niaz Ahmad, Muhammad Arif Ali, Subhan Danish, Inam Irshad, Uzma Younis, Beenish Butt, Muhammad Khalid Rasheed, and Sidra Kiran

Subjects

Spinacia, Agriculture (General), 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, S1-972, chemistry.chemical_compound, spinacia oleracea l, Dry weight, fe concentration, Biochar, biochar, 0105 earth and related environmental sciences, biology, Banana peel, Agriculture, 021001 nanoscience & nanotechnology, biology.organism_classification, Horticulture, banana, chemistry, Chlorophyll, Shoot, Spinach, chromium, 0210 nano-technology, General Agricultural and Biological Sciences, Accessory pigment

Abstract

Chromium (Cr) toxicity is becoming one of a major issue for the cultivation of crops. Toxicity of Cr directly affects synthesis of chlorophyll and restricts Fe intake, which decreases crop growth. It is well documented that the reduction of Cr toxicity through the application of biochar. However, current experiment was carried out to investigate any positive effect of, banana peel waste biochar (BC) and foliar application of Fe (FFe) on growth and chlorophyll content of Spinacia oleracea L. under different levels of Cr toxicity. Seeds of Spinacia oleracea L. were grown under three levels of Cr i.e. control (Cr0), Cr35 (35 mg Cr kg−1 soil) and Cr70 (70 mg Cr kg-1 soil). Analyzed data confirmed that Spinacia oleracea L. seeds grown in 1% BC amended soils and 1000mM FFe, showed significantly better growth, Fe uptake and chlorophyll content as compared to control at Cr35 and Cr70. A significant improvement in shoot length (16.9 and 26.9%), root length (16.3 and 20.9%), plant fresh (15.5 and 28.3%) and dry weight (70.3 and 77.8%) as compared to control under Cr35 and Cr70, respectively, validated the efficacious functioning of 1% BC and FFe to mitigate Cr toxicity in Spinacia oleracea L. It is concluded that both 1% banana peel waste BC and 1000mM FFe have potential but sole application of FFe is more effective to alleviate Cr toxicity in Spinacia oleracea L. Fortification of Fe by foliar application is more effective comparative to banana peel waste biochar for improvement in growth, chlorophyll content and accessory pigments synthesis in spinach under chromium (IV) toxicity.

Published

2019

24. Evaluation of Jatropha curcas L. leaves mulching on wheat growth and biochemical attributes under water stress

Author

Jiri Holatko, Faizan Ullah, Ayman El Sabagh, Subhan Danish, Antonin Kintl, Asif Ullah Khan, Mohamed El-Sharnouby, Rahul Datta, Sultan Mehmood, Martin Brtnicky, Muhammad Irshad, Inam Irshad, and Shah Fahad

Subjects

Chlorophyll, 0106 biological sciences, Mulch, Water stress, Jatropha, Soluble sugars, Plant Science, Biology, Plant Roots, 01 natural sciences, Field capacity, Soil, Water content, Triticum, Electrolyte leakage, Dehydration, Botany, Sowing, 04 agricultural and veterinary sciences, biology.organism_classification, Carotenoids, Crop Production, Plant Leaves, Horticulture, QK1-989, Shoot, 040103 agronomy & agriculture, Carbohydrate Metabolism, 0401 agriculture, forestry, and fisheries, Phenolics, Soil fertility, Jatropha curcas, Research Article, 010606 plant biology & botany

Abstract

Background Organic mulches are widely used in crop production systems. Due to their benefits in improving soil fertility, retention of soil moisture and weed control. Field experiments were conducted during wheat growing seasons of 2018–2019 and 2019–2020 to evaluate the effects of Jatropha leaves mulch on the growth of wheat varieties ‘Wadan-17’ (rainfed) and ‘Pirsabaq-2013’ (irrigated) under well irrigated and water stress conditions (non-irrigated maintaining 40% soil field capacity). Jatropha mulch was applied to the soil surface at 0, 1, 3 and 5 Mg ha−1 before sowing grains in the field. Under conditions of water stress, Jatropha mulch significantly maintained the soil moisture content necessary for normal plant growth. Results We noted a decrease in plant height, shoot and root fresh/dry weight, leaf area, leaf relative water content (LRWC), chlorophyll, and carotenoid content due to water stress. However, water stress caused an increase in leaf and root phenolics content, leaf soluble sugars and electrolytes leakage. We observed that Jatropha mulch maintained LRWC, plant height, shoot and root fresh/dry weight, leaf area and chlorophyll content under water stress. Moreover, water stress adverse effects on leaf soluble sugar content and electrolyte leakage were reversed to normal by Jatropha mulch. Conclusion Therefore, it may be concluded that Jatropha leaves mulch will minimize water stress adverse effects on wheat by maintaining soil moisture and plant water status.

Published

2021

25. Fourier Transform Infrared Spectroscopy vibrational bands study of Spinacia oleracea and Trigonella corniculata under biochar amendment in naturally contaminated soil

Author

Uzma Younis, Jiri Holatko, Subhan Danish, Martin Brtnicky, Ashfaq Ahmad Rahi, Rahul Datta, Muhammad Arif Ali, Tayebeh Zarei, Niaz Ahmed, Shah Fahad, Alaa Baazeem, Ayman El Sabagh, Bernard R. Glick, and Tereza Hammerschmiedt

Subjects

Chlorophyll, Pigments, Leaves, Ketone, Chloroplasts, Infrared, Plant Science, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Soil, Spectrum Analysis Techniques, Spinacia oleracea, Spectroscopy, Fourier Transform Infrared, Vegetables, Soil Pollutants, Materials, Flowering Plants, chemistry.chemical_classification, Multidisciplinary, biology, Molecular Structure, Organic Compounds, Fourier Transform Infrared Spectroscopy, Plant Anatomy, Physics, Eukaryota, Classical Mechanics, 04 agricultural and veterinary sciences, Plants, Ketones, Chemistry, Charcoal, Physical Sciences, Medicine, Cellular Structures and Organelles, Cellular Types, Research Article, Spinacia, Science, Plant Cell Biology, Materials Science, Soil Science, Infrared Spectroscopy, Functional Groups, Research and Analysis Methods, Vibration, Metals, Heavy, Plant Cells, Fourier transform infrared spectroscopy, Spectroscopy, 0105 earth and related environmental sciences, Organic Pigments, Organic Chemistry, Edaphology, Organisms, Chemical Compounds, Biology and Life Sciences, Cell Biology, Spinach, biology.organism_classification, Tetrapyrrole, Plant Leaves, Trigonella, chemistry, Absorption, Physicochemical, 040103 agronomy & agriculture, Earth Sciences, 0401 agriculture, forestry, and fisheries, Environmental Pollution, Acids, Nuclear chemistry

Abstract

Fourier transform infrared spectroscopy (FTIR) spectroscopy detects functional groups such as vibrational bands like N-H, O-H, C-H, C = O (ester, amine, ketone, aldehyde), C = C, C = N (vibrational modes of a tetrapyrrole ring) and simply C = N. The FTIR of these bands is fundamental to the investigation of the effect of biochar (BC) treatment on structural changes in the chlorophyll molecules of both plants that were tested. For this, dried leaf of Spinacia oleracia (spinach) and Trigonella corniculata (fenugreek) were selected for FTIR spectral study of chlorophyll associated functional groups. The study’s primary goal was to investigate the silent features of infrared (IR) spectra of dried leave samples. The data obtained from the current study also shows that leaf chlorophyll can mask or suppress other molecules’ FITR bands, including proteins. In addition, the C = O bands with Mg and the C9 ketonic group of chlorophyll are observed as peaks at1600 (0%BC), 1650 (3%BC) and 1640, or near to1700 (5%BC) in spinach samples. In fenugreek, additional effects are observed in the FTIR spectra of chlorophyll at the major groups of C = C, C = O and C9 of the ketonic groups, and the vibrational bands are more evident at C-H and N-H of the tetrapyrrole ring. It is concluded that C-N bands are more visible in 5% BC treated spinach and fenugreek than in all other treatments. These types of spectra are useful in detecting changes or visibility of functional groups, which are very helpful in supporting biochemical data such as an increase in protein can be detected by more visibility of C-N bands in FTIR spectra.

Published

2021

26. Statistical Based Bioprocess Design for Improved Production of Amylase from Halophilic Bacillus sp. H7 Isolated from Marine Water

Author

R. Z. Sayyed, Rahul Datta, N. I. Wan Azelee, H. P. Jadhav, V. A. Tile, Subhan Danish, and Jayashree Bandal

Subjects

0106 biological sciences, amylase, Central composite design, Starch, Statistics as Topic, Pharmaceutical Science, Organic chemistry, Bacillus, Sodium Chloride, 01 natural sciences, response surface method, Article, Bacillus sp. H7, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Bioremediation, QD241-441, Bioreactors, 010608 biotechnology, Drug Discovery, Bioreactor, Seawater, Food science, Amylase, Response surface methodology, Physical and Theoretical Chemistry, Bioprocess, Phylogeny, 030304 developmental biology, 0303 health sciences, Analysis of Variance, biology, Chemistry, Reproducibility of Results, Factorial experiment, Hydrogen-Ion Concentration, Kinetics, Solubility, Chemistry (miscellaneous), Amylases, biology.protein, Molecular Medicine, production, optimization, Biotechnology

Abstract

Amylase (EC 3.2.1.1) enzyme has gained tremendous demand in various industries, including wastewater treatment, bioremediation and nano-biotechnology. This compels the availability of enzyme in greater yields that can be achieved by employing potential amylase-producing cultures and statistical optimization. The use of Plackett–Burman design (PBD) that evaluates various medium components and having two-level factorial designs help to determine the factor and its level to increase the yield of product. In the present work, we are reporting the screening of amylase-producing marine bacterial strain identified as Bacillus sp. H7 by 16S rRNA. The use of two-stage statistical optimization, i.e., PBD and response surface methodology (RSM), using central composite design (CCD) further improved the production of amylase. A 1.31-fold increase in amylase production was evident using a 5.0 L laboratory-scale bioreactor. Statistical optimization gives the exact idea of variables that influence the production of enzymes, and hence, the statistical approach offers the best way to optimize the bioprocess. The high catalytic efficiency (kcat/Km) of amylase from Bacillus sp. H7 on soluble starch was estimated to be 13.73 mL/s/mg.

Published

2021

27. Cholesterol Reduction and Vitamin B12 Production Study on Enterococcus faecium and Lactobacillus pentosus Isolated from Yoghurt

Author

Milind S. Patole, Rahul Datta, R. Z. Sayyed, Abdallah M. Elgorban, Hind A. AL-Shwaiman, Sham Diwanay, Manal M. Alkhulaifi, Subhan Danish, and Rajan A. Walhe

Subjects

0106 biological sciences, Geography, Planning and Development, TJ807-830, Lactobacillus pentosus, Management, Monitoring, Policy and Law, Biology, TD194-195, 01 natural sciences, Renewable energy sources, law.invention, vitamin B12 production, 03 medical and health sciences, Probiotic, chemistry.chemical_compound, law, 010608 biotechnology, GE1-350, Vitamin B12, Food science, Fermentation in food processing, yoghurt, 030304 developmental biology, 0303 health sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Cholesterol, food and beverages, biology.organism_classification, Lactic acid, cholesterol reduction, Environmental sciences, chemistry, Enterococcus faecium, Bacteria

Abstract

The present study was aimed to test cholesterol reduction and vitamin B12 production abilities of the isolated lactic acid bacteria (LAB). Three LAB isolates, namely, Enterococcus faecium (EF), Enterococcus faecium (Chole1), and Lactobacillus pentosus (7MP), having probiotic potential, were isolated from yoghurt. These isolates were screened for bile salt hydrolase (BSH) activity, cholesterol reduction property in MRS broth, and the production of vitamin B12. The present study revealed that the isolate 7MP possesses the highest potential of (48%) cholesterol reduction compared to the other isolates. The isolates EF and Chole1 produced a good amount of (1 ng/mL) vitamin B12. These isolates were identified by 16S rRNA gene sequencing and confirmed by MALD_TOF analysis. Thus, the use of these LAB isolates for yoghurt-making can offer the value addition of lowering cholesterol and vitamin B12 fortification in fermented food.

Published

2021

28. Statistical-Based Bioprocess Optimization of Amylase Production from Halophilic Bacillus sp. H7

Author

Tile, Azelee Niw, Rahul Datta, Jayashree Bandal, Subhan Danish, R. Z. Sayyed, and H. P. Jadhav

Subjects

biology, Chemistry, biology.protein, biochemistry, Food science, Amylase, Bacillus sp, Bioprocess, Halophile

Abstract

Using the above results from RMS analysis the optimum values were predicted for the independent significant variables (Figure 3) the optimized levels of these variables in combination with other media variables the maximum production was predicted to be 199.90 U/mL. The predicted data were validated through confirmatory experiments performed in triplicates. A 1.29-fold increase in amylase activity against un-optimized (OVAT) medium was achieved in the present study authenticating the efficacy of RSM in process optimization (Figure 4). 2.6 Model validation and scale-up at laboratory scale (5L) bioreactor Once the parameters were standardized in the shake-flasks culture, the experiment was scaled-up to a laboratory-scale bioreactor (5 L). The yield of amylase increased by 1.01 fold (205.69 U/mL), it could be possible because the enzyme production in a bioreactor is higher than in shake-flasks culture as the various critical variable factors such as the dissolved oxygen (DO) and the pH can be optimally controlled at the desired levels [22].

Published

2021

29. Evaluation of morphological traits of wheat varieties at germination stage under salinity stress

Author

Subhan Danish, Mohammad Farsi, Ghader Mirzaghaderi, Seyed Hasan Marashi, and Fatemseh Gholizadeh

Subjects

Salinity, Physiology, Plant Science, Plant Reproduction, Toxicology, Pathology and Laboratory Medicine, Salt Stress, Physical Chemistry, Soil, Plant Resistance to Abiotic Stress, Agricultural Soil Science, Seed Germination, Medicine and Health Sciences, Cultivar, Triticum, Multidisciplinary, biology, Ecology, Plant Anatomy, Eukaryota, food and beverages, Agriculture, Plants, Horticulture, Chemistry, Phenotype, Germination, Plant Physiology, Shoot, Physical Sciences, Wheat, Seeds, Medicine, Research Article, Soil salinity, Science, Soil Science, Salinity stress, Dry weight, Plant-Environment Interactions, Plant Defenses, Grasses, Toxicity, Plant Ecology, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Plant Pathology, biology.organism_classification, Chemical Properties, Seedling, Seedlings, Earth Sciences

Abstract

Salinity stress is one of the major plant growth-limiting factors in agriculture. It causes ionic imbalance, thus decrease the growth and yield attributes of crops especially wheat. Seedling stage is considered as one of the most sensitive stages under salinity stress. Survival of seeds at seedling stage can overcome the adverse impacts of salinity stress to some extent. Selection of salt tolerant varieties in seedling stage is considered as an effective strategy. Hence, current study was conducted to examine the seed germination responses of four wheat varieties under different levels of salinity. The wheat varieties such as ‘Rakhshan’, ‘Sirvan’, ‘Pishgam’ and ‘Heidari’ were grown and four salinity levels of 0, 4, 8 and 12 dS/m were applied under completely randomized design. The varieties such as ‘Sirvan’, ‘Rakhshan’ and ‘Heidari’ showed significant response for germination compared to ‘Pishgam’ at 12 dS/m salinity. Furthermore, the variety ‘Rakhshan’ showed significantly higher germination rate (20.3%), higher root length (33.4%) and higher shoot length (84.3%) than ‘Pishgam’, ‘Sirvan’ and ‘Sirvan’ respectively. However, contrasting results were obtained for dry weight of seedlings where 12.2% increase was observed in ‘Pishgam’ over ‘Rakhshan’ at 12 dS/m salinity that might be due to higher capability to uptake of Na and Cl ions. In conclusion, ‘Rakhshan’ wheat variety proved to be the most salinity tolerant as it grew better under saline soil conditions. More investigations at field level are recommended to declare ‘Rakhshan’ as salinity tolerant cultivar.

Published

2021

30. Role of Soil Microbes and Their Cell Components in Carbon Stabilization

Author

Rahul Datta, Subhan Danish, Muhammad Zafar-ul-Hye, Inam Irshad, Javed Iqbal, Paul Ola Igboji, Muhammad Khalid Rasheed, and Muhammad Tahzeeb-ul-Hassan

Subjects

chemistry.chemical_classification, Fixation (alchemy), biology, Chemistry, Microorganism, Carbon fixation, Heterotroph, Reductive tricarboxylic acid cycle, biology.organism_classification, chemistry.chemical_compound, Enzyme, Algae, Biochemistry, Carbon dioxide

Abstract

Fixation of carbon dioxide (CO2) for the production of organic compounds is carried out globally by microbes. These microbes provide food for the survival of heterotrophs in terms of organic C through CO2 fixation. The most familiar pathway of carbon (C) fixation is Calvin–Benson–Bassham cycle. This pathway is adopted by plants, microbes, and algae for inorganic C fixation in natural environment. However, there are a number of other pathways as well that are specifically adopted by microbes for C fixation. By adopting these pathways, microbes follow diversified chemical and biochemical strategies. This chapter is providing basic knowledge about the fixation of CO2 by microbes, mechanism involved in the fixation of CO2, and the enzymes which regulate these mechanisms. Five major pathways, i.e., Calvin-Benson-Bassham cycle, reductive tricarboxylic acid cycle, 3-hydroxypropionic acid (3-HP) cycle, reductive acetyl-CoA (rACo) pathway, and carboxylases, are discussed in this chapter. Four C-fixing pathway enzymes have been described in the chapter. In the near future, it is expected that new pathways will also be established due to number and diversity of microorganisms.

Published

2021

31. Glomalin: A Key Indicator for Soil Carbon Stabilization

Author

Shah Fahad, Václav Pecina, Jiri Holatko, Oldrich Latal, Jitka Prichystalova, Jiri Kucerik, Antonin Kintl, Tereza Hammerschmiedt, Jakub Elbl, Subhan Danish, Rahul Datta, Martin Brtnicky, Marek Sudoma, and Ram Swaroop Meena

Subjects

Total organic carbon, biology, Chemistry, Soil organic matter, fungi, chemistry.chemical_element, Soil carbon, Arbuscular mycorrhizal fungi, complex mixtures, Glomalin, Environmental chemistry, Carbon source, biology.protein, Soil protection, Carbon

Abstract

In the last decades, many studies were addressed focusing on soil protection that helps sequestration and stabilization of organic carbon in soil aggregates. Soil aggregates are an association of primary soil particles, bacteria, fungi, plant root and soil organic matter. Plant root provides a carbon source for arbuscular mycorrhizal fungi (AMF) present in soil aggregates. AMF produces a glycoprotein glomalin which is hydrophobic, insoluble, and recalcitrant in nature. Glomalin plays a vital role in the stabilization of soil aggregates. Greater stability of soil aggregates leads to a larger amount of protected organic carbon in the soil. Thus, glomalin-related soil protein can be considered as a potential contributor in the stabilization of soil organic carbon. In the present chapter, the different aspects of glomalin composition, production, role in soil, recalcitrant nature, potential role in soil carbon locking up and stabilization are summarized and discussed.

Published

2021

32. Production of Organic Fertilizers from Rocket Seed (Eruca sativa L.), Chicken Peat and Moringa oleifera Leaves for Growing Linseed under Water Deficit Stress

Author

Naeem Khan, Shah Masud Khan, Asif Khan, Shah Saud, Sultan Mehmood, Shah Fahad, Ibrahim A. Alaraidh, Subhan Danish, Manzer H. Siddiqui, Zalan Alam Khan, Hayssam M. Ali, Inam Irshad, Faizan Ullah, Rahul Datta, and Ghulam Hussain

Subjects

0106 biological sciences, phenolics, Geography, Planning and Development, TJ807-830, Eruca, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Moringa, Field capacity, GE1-350, Organic matter, Water content, chemistry.chemical_classification, growth attributes, Environmental effects of industries and plants, biology, Renewable Energy, Sustainability and the Environment, soil fertility, yield attributes, fiber quality, 04 agricultural and veterinary sciences, Straw, biology.organism_classification, Environmental sciences, Horticulture, chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, osmotic stress, Soil fertility, Organic fertilizer, 010606 plant biology & botany

Abstract

Linseed is an important industrial crop cultivated for its edible seeds and fiber linen. Organic fertilizers have beneficial effects on soil properties and quality of crops. Therefore, we conducted two field experiments during 2018&ndash, 2019 and 2019&ndash, 2020 to determine the effect of organic fertilizers on soil fertility, yield and fiber quality of linseed varieties Roshni, BL1 and Chandni under low soil moisture conditions. We prepared organic fertilizers from seed cake of Eruca sativa, leaves of Moringa oleifera and chicken peat in various combinations by composting method. The various formulations of organic fertilizers included OF1(1 kg seed cake of Eruca sativa), OF2 (1 kg seed cake of Eruca sativa +1 kg chicken peat), OF3 (1 kg seed cake of Eruca sativa + 0.5 kg chicken peat + 0.25 kg Moringa oliefera leaves) and OF4 (1 kg seed cake of Eruca sativa + 0.250 kg chicken peat + 0.5 kg Moringa oliefera leaves). Compositional analysis of organic fertilizers indicated that OF3 and OF4 had higher and may potentially sufficient quantities of NPK and organic matter. Both of these fertilizers significantly improved soil total N, available P, K, Zn and Fe contents. Growth response of linseed varieties to organic fertilizers was evaluated under water deficit stress (40% field capacity of soil) at tillering stage for one month. Water stress had significantly adverse effects on plant height, production of tillers per plant, leaf relative water content (LRWC), number of capsules per plant, thousand seed weight, total seed yield, straw yield, fiber length and fiber weight of linseed varieties. However, the application of OF3 and OF4 significantly enhanced plant height, tillers production, LRWC, seed yield, straw yield, fiber length and fiber weight under water deficit stress. Water deficit stress also resulted in a significant increase in the content of phenolics of both the leaves and roots. For each measured quality parameter of linseed varieties, organic fertilizer treatments resulted in higher values than untreated and irrigated control. We concluded that organic fertilizers particularly OF3 and OF4 significantly improved soil fertility and minimized negative effect of water deficit stress on plant height, tillers production, LRWC, seed yield, straw yield, fiber length and fiber weight of linseed varieties.

Published

2020

33. Phosphorus Nutrient Management through Synchronization of Application Methods and Rates in Wheat and Maize Crops

Author

Farmanullah Khan, Muhammad Zafar-ul-Hye, Maria Mussarat, Dost Muhammad, Inam Irshad, Muhammad Jamal Khan, Muhammad Adnan, Muhammad Arif, Fazli Wahid, Shah Saud, Musarrat Ramzan, Tayebeh Zarei, Ishaq Ahmad Mian, Rafiullah, Anis Ali Shah, Khadim Dawar, Rahul Datta, Shah Fahad, Subhan Danish, Manzer H. Siddiqui, Bushra Khan, Amanullah, and Saud Alamri

Subjects

0106 biological sciences, chemistry.chemical_element, Plant Science, band application, engineering.material, Biology, 01 natural sciences, Article, nitrogen, Crop, Alkali soil, Nutrient, calcareous soil, phosphorus, Ecology, Evolution, Behavior and Systematics, Ecology, Nutrient management, Crop yield, Phosphorus, grain yield, Botany, Sowing, food and beverages, 04 agricultural and veterinary sciences, Agronomy, chemistry, QK1-989, foliar application, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Fertilizer, 010606 plant biology & botany

Abstract

Management of inorganic fertilizer is very important to obtain maximum crop yield and improved nutrient use efficiency in cereal crops. Fixation of phosphatic fertilizers in alkaline soils due to calcareousness is one of the major hurdles. It induces phosphorus nutritional stress that can decrease the yield of maize and wheat. Selection of a suitable application method and proper stage of crop for phosphorus (P) fertilizer has prime importance in better uptake of P and crop production. Among different application methods, soil and foliar application are widely adopted. In wheat and maize, knee height + tasseling and stem elongation + booting are critical stages towards P deficiency. That is why field trials were conducted to evaluate the supplemental effect of foliar P on maize and wheat yields. For that, 144 mM KH2PO4 was applied as foliar at knee height + tasseling and stem elongation + boot stages in maize and wheat, respectively. Soil application of 0, 20, 40 and 60 kg P ha&minus, 1 was done through broadcast and band methods. Results showed that foliar spray of 144 mM KH2PO4 at knee height + tasseling and stem elongation + boot stages in wheat and maize significantly enhanced grains yield and phosphorus use efficiency (PUE) where P was applied as banding or broadcast at the time of sowing. A significant decreasing trend in response to increasing soil P levels validated the efficacious role and suitability of foliar P. In conclusion, the use of P as foliar at knee height + tasseling and stem elongation + boot stages is an efficacious way to manage P fertilizer.

Published

2020

34. Author Correction: Potential role of compost mixed biochar with rhizobacteria in mitigating lead toxicity in spinach

Author

Muhammad Abid, Muhammad Zafar-ul-Hye, Tereza Dokulilova, Subhan Danish, Martin Brtnicky, Shah Fahad, Rahul Datta, and Muhammad Tahzeeb-ul-Hassan

Subjects

Multidisciplinary, biology, Compost, lcsh:R, lcsh:Medicine, engineering.material, Rhizobacteria, biology.organism_classification, Horticulture, Toxicity, Biochar, engineering, Environmental science, Spinach, lcsh:Q, lcsh:Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

35. Potential role of compost mixed biochar with rhizobacteria in mitigating lead toxicity in spinach

Author

Shah Fahad, Subhan Danish, Martin Brtnicky, Muhammad Zafar-ul-Hye, Rahul Datta, Muhammad Tahzeeb-ul-Hassan, Tereza Dokulilova, and Muhammad Abid

Subjects

Chlorophyll, 0106 biological sciences, Bacillus amyloliquefaciens, Amendment, lcsh:Medicine, 010501 environmental sciences, engineering.material, Rhizobacteria, Plant Roots, complex mixtures, 01 natural sciences, Article, Environmental impact, Soil, Bacterial secretion, Bacterial Proteins, Spinacia oleracea, Biochar, Soil Pollutants, Carbon-Carbon Lyases, Symbiosis, Author Correction, lcsh:Science, Soil Microbiology, 0105 earth and related environmental sciences, Multidisciplinary, Alcaligenes faecalis, Abiotic, biology, Chemistry, Compost, fungi, lcsh:R, food and beverages, Hydrogen-Ion Concentration, biology.organism_classification, Horticulture, Lead, Charcoal, Potassium, engineering, Spinach, lcsh:Q, Soil microbiology, 010606 plant biology & botany

Abstract

Consumption of heavy metals, especially lead (Pb) contaminated food is a serious threat to human health. Higher Pb uptake by the plant affects the quality, growth and yield of crops. However, inoculation of plant growth-promoting rhizobacteria (PGPR) along with a mixture of organic amendments and biochar could be an effective way to overcome the problem of Pb toxicity. That’s why current pot experiment was conducted to investigate the effect of compost mixed biochar (CB) and ACC deaminase producing PGPR on growth and yield of spinach plants under artificially induced Pb toxicity. Six different treatments i.e., control, Alcaligenes faecalis (PGPR1), Bacillus amyloliquefaciens (PGPR2), compost + biochar (CB), PGPR1 + CB and PGPR2 + CB were applied under 250 mg Pb kg-1 soil. Results showed that inoculation of PGPRs (Alcaligenes faecalis and Bacillus amyloliquefaciens) alone and along with CB significantly enhanced root fresh (47%) and dry weight (31%), potassium concentration (11%) in the spinach plant. Whereas, CB + Bacillus amyloliquefaciens significantly decreased (43%) the concentration of Pb in the spinach root over control. In conclusion, CB + Bacillus amyloliquefaciens has the potential to mitigate the Pb induced toxicity in the spinach. The obtained result can be further used in the planning and execution of rhizobacteria and compost mixed biochar-based soil amendment.

Published

2020

36. Effect of Seaweed Extract on Productivity and Quality Attributes of Four Onion Cultivars

Author

Muhammad Saleem, Mazhar Abbas, Jahanzeb Anwar, Ashfaq Ahmad Rahi, Rashid Iqbal Khan, Muhammad Zafar-ul-Hye, Subhan Danish, and Rahul Datta

Subjects

0106 biological sciences, Vegetative reproduction, Nasarpuri, Plant Science, Horticulture, Biology, lcsh:Plant culture, 01 natural sciences, Nutrient, Dry weight, Dry matter, lcsh:SB1-1110, Allium cepa, Cultivar, Lambada and Red Bone, Phulkara, Crop yield, fungi, food and beverages, 04 agricultural and veterinary sciences, Ascorbic acid, Bulb, biostimulants, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, ascorbic acid, 010606 plant biology & botany

Abstract

The excessive use of chemicals and inorganic fertilizers by farmers to increase crop yield is detrimental to the environment and human health. Application of biostimulants such as seaweed extract (SWE) in agriculture could be an effective and eco-friendly alternative to inorganic fertilizers. Biostimulants are natural organic degradable substances. Their application serves as a source of nutrition for crops, possibly improving growth and productivity when applied in combination with the fertilizers. The current study was conducted to evaluate the vegetative growth, reproductive behavior and quality attributes of four onion cultivars, &lsquo, Lambada&rsquo, &lsquo, Red Bone&rsquo, Nasarpuri&rsquo, and &lsquo, Phulkara&rsquo, in response to different concentrations of commercial SWE. Four levels of SWE extract were used, 0% (control), 0.5%, 1%, 2%, and 3%, which were applied as a foliar spray to each cultivar. The application of 0.5% SWE caused a significant increase in total soluble solids, mineral content (N, P, and K), bulb weight and yield. Application at 3% SWE increased ascorbic acid as compared to control. The cultivars responded in different ways regarding bulb dry weight and bulb and neck diameter. Among all cultivars, &lsquo, showed the maximum bulb dry matter, &lsquo, showed enhanced neck diameter whereas &lsquo, showed maximum leaf length. It is concluded that 0.5% SWE increased the yield, nutrient contents, and total soluble solids (TSS) of the four onion cultivars whereas 3% SWE, the highest concentration, increased ascorbic acid in different onion cultivars.

Published

2020

37. Bacillus amyloliquefaciens and Alcaligenes faecalis with biogas slurry improved maize growth and yield in saline-sodic field

Author

Subhan Danish, Abdur Rehim, Muhammad Shaaban, Umer Farooq, Shahid Hussain, Muhammad Zafar-ul-Hye, and Muhammad Farooq

Subjects

Alcaligenes faecalis, Field (physics), Bacillus amyloliquefaciens, biology, Chemistry, medicine.medical_treatment, Plant Science, biology.organism_classification, Biogas, Yield (chemistry), Slurry, medicine, Food science, Saline

Published

2020

38. Mitigation of drought stress in spinach using individual and combined applications of salicylic acid and potassium

Author

Ashfaq Ahmad Rahi, Rana Khalid Iqbal, Inam Irshad, Subhan Danish, Munaza Gilani, Uzma Younis, Niaz Ahmed, and Ahmed Akrem

Subjects

chemistry.chemical_compound, Horticulture, Drought stress, chemistry, biology, Potassium, Spinach, chemistry.chemical_element, Plant Science, biology.organism_classification, Salicylic acid

Published

2020

39. Antimicrobial, antioxidant and cytotoxic properties of Chenopodium glaucum L

Author

Sultan Mehmood, Shah Saud, Rahul Datta, Fayez Althobaiti, Arsalan Ahmad Rahi, Faizan Ullah, Subhan Danish, Shah Fahad, Safiullah Khan, and Eldessoky S. Dessoky

Subjects

Acinetobacter baumannii, Antifungal Agents, Lung Neoplasms, DPPH, Phytochemicals, Ethyl acetate, Aspergillus flavus, Biochemistry, Antioxidants, Lung and Intrathoracic Tumors, chemistry.chemical_compound, Medicinal Plants, Breast Tumors, Medicine and Health Sciences, Gallic acid, Multidisciplinary, ABTS, biology, Cytotoxins, Antimicrobials, Drugs, Eukaryota, Esters, Plants, Anti-Bacterial Agents, Klebsiella pneumoniae, Chemistry, Aspergillus, Oncology, Physical Sciences, Medicine, Antibacterial activity, Research Article, Science, Antineoplastic Agents, Microbial Sensitivity Tests, Mycology, Microbiology, Chenopodium, Phenols, Cell Line, Tumor, Microbial Control, Breast Cancer, Escherichia coli, Staphylococcus epidermidis, Humans, Agar diffusion test, Pharmacology, Antifungals, Chromatography, Plant Extracts, Aspergillus niger, Chemical Compounds, Organisms, Biology and Life Sciences, Cancers and Neoplasms, biology.organism_classification, chemistry, Antibacterials

Abstract

We evaluated phytochemical composition, antibacterial, antifungal, anti-oxidant and cytotoxic properties of aqueous (water) and organic extracts (methanol, ethyl acetate and n-hexane) of Chenopodium glaucum. Highest phenolic content 45 mg gallic acid equivalents (GAE)/g d.w was found in aqueous extract followed by ethyl acetate (41mg GAE/g d.w) and methanol extract (34.46 mg GAE/g d.w). Antibacterial potential of aqueous and organic extracts of C. glaucum was examined against Acinetobacter baumannii, Klebsiella pneumoniae, Escherichia coli and Staphylococcus epidermidis. The aqueous, methanolic, ethyl acetate, and n-hexane extract showed antibacterial activity against A. baumannii, K. pneumoniae, E. coli and S. epidermidis. However, against A. baumannii significantly higher inhibition zone (19 mm and 18.96 mm respectively) was shown by ethyl acetate and methanol extracts. Aqueous extract possessed highest growth inhibition (11 mm) against E. coli. Aqueous, ethyl acetate and methanol extracts showed 9 mm, 10 mm, and 10.33 mm zone of inhibition against the K. pneumoniae. For antifungal activity, the extracts were less effective against Aspergillus niger but showed strong antifungal activity against Aspergillus flavus (A. flavus). The antioxidant activity was measured as DPPH (2, 2-diphenyl-1-picrylhydrazyl), H2O2 and ABTS (2, 2’-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid) scavenging activity of free radicals. All the organic extracts of C. glaucum possessed ABTS, DPPH and H2O2 scavenging properties. The highest cytotoxic activity measured as half maximal inhibitory concentration (IC50) against human lungs carcinoma cells was recorded for methanolic (IC50 = 16 μg/mL) and n-hexane (IC50 = 25 μg/mL) extracts, respectively. The Gas chromatography–mass spectrometry (GC-MS) analysis showed 4 major and 26 minor compounds in n-hexane extract and 4 major and 7 minor compounds in methanol extract of the C. glaucum. It is concluded that aqueous and organic extracts of C. glaucum would be potential therapeutic agents and could be exploited on a pilot scale to treat human pathogenic diseases.

Published

2021

40. Unraveling Sorghum Allelopathy in Agriculture: Concepts and Implications

Author

Ferdinando Branca, Khawar Jabran, M. Iftikhar Hussain, Oscar Vicente, Subhan Danish, Usman Khalid Chaudhry, Adela M. Sánchez-Moreiras, and Manuel J. Reigosa

Subjects

Cropping systems, 3103.04 Protección de Los Cultivos, Review, Plant Science, Benzoquinone, chemistry.chemical_compound, Sorgoleone, 2417 Biología Vegetal (Botánica), Dhurrin, Chlorogenic acid, BIOQUIMICA Y BIOLOGIA MOLECULAR, Vanillic acid, 13.- Tomar medidas urgentes para combatir el cambio climático y sus efectos, Cover crop, Ecology, Evolution, Behavior and Systematics, Allelopathy, Weed suppression, Rhizosphere, Ecology, biology, 3103.15 Control de Malezas, fungi, Botany, food and beverages, Intercropping, Sorghum, biology.organism_classification, 02.- Poner fin al hambre, conseguir la seguridad alimentaria y una mejor nutrición, y promover la agricultura sostenible, Agronomy, chemistry, QK1-989, Allelochemicals, Phenolics

Abstract

[EN] Allelopathy is an ecological phenomenon that involves the production and release of biomolecules from different crops, cultivated plants, and bacteria or fungi into the soil rhizosphere and impacts other organisms in the vicinity. Sorghum possesses vital allelopathic characteristics due to which it produces and releases different biomolecules from its root hairs, stems, and grains. Several studies have reported that sorghum acts as an allelopathic crop, decreasing the growth and ecophysiological attributes of surrounding plants and weeds growing simultaneously or subsequently in the field. Sorghum allelopathy has been exploited in the context of green manure, crop rotations, cover crops, and intercropping or mulching, whereas plant aqueous extracts or powder might be an alternate method of weed control. A diverse group of allelochemicals, including benzoic acid, p-hydroxybenzoic acid, vanillic acid, ferulic acid, chlorogenic acid, m-coumaric acid, p-coumaric acid, gallic acid, caffeic acid, p-hydroxibenzaldehyde, dhurrin, sorgoleone, m-hydroxybenzoic acid and protocatechuic acid, have been isolated and identified from different plant tissues of sorghum and root exudates. These allelochemicals, especially sorgoleone, have been investigated in terms of their mode(s) of action, specific activity and selectivity, release in the rhizosphere and uptake and translocation in sensitive species. The present review describes the importance of sorghum allelopathy as an ecological tool in managing weeds, highlighting the most recent advances in the allelochemicals present in sorghum, their modes of action, and their fate in the ecosystem. Further research should focus on the evaluation and selection of sorghum cultivars with high allelopathic potential, so that sorghum allelopathy can be better utilized for weed control and yield enhancement

Published

2021

41. Mineral Fertilizers Improves the Quality of Turmeric and Soil

Author

Shah Fahad, R. Z. Sayyed, Subhan Danish, Saad H. Alotaibi, Zafarjon Jabbarov, Abdulahat Azimov, Yuriy I. Enakiev, Rahul Datta, Mohammad Javed Ansari, Dilfuza Jabborova, and Khurshid Sulaymanov

Subjects

Soil test, Urease, Melon, Geography, Planning and Development, TJ807-830, mineral fertilizers, Management, Monitoring, Policy and Law, engineering.material, TD194-195, Renewable energy sources, GE1-350, Environmental effects of industries and plants, biology, Renewable Energy, Sustainability and the Environment, Chemistry, turmeric, macro and microelement, Micronutrient, Rhizome, Environmental sciences, Horticulture, Invertase, engineering, biology.protein, Fertilizer, Soil enzyme, soil enzymes

Abstract

An experiment was carried out to investigate the effects of different mineral fertilizers on mineral contents in turmeric rhizomes and soil enzyme activities and soil properties under field conditions in Uzbekistan. The present study is the first report on the impact of mineral fertilizers in turmeric rhizomes and soil enzymes and soil properties in Uzbekistan. The experiment was carried out with four treatments: T1—Control, T2—N75P50K50 kg/ha, T3—N125P100K100 kg/ha, and T4—N100P75K75 + B3Zn6Fe6 kg/ha. Turmeric rhizomes and soil samples were collected from field experiments at the Surkhandarya scientific experimental station of the vegetable, melon crops and potato research institute, Surkhandarya, Uzbekistan. The data showed that T3—the NPK (125:100:100 kg/ha) and T4—the NPK + BZnFe (100:75:75:3:6:6 kg/ha) treatments significantly enhanced K content by 27–21%, Ca content by 43–38%, and P content by 54–17% in turmeric rhizomes as compared to control without fertilizer. A maximum of turmeric rhizome microelements content was recorded with T4, which also resulted in improved Fe, Zn, Cu, Cr, and Mo contents in turmeric rhizomes and mineral contents of soil compared to other treatments. This treatment significantly enhanced active P content by 34%, active K content by 25%, total P content by 62%, total K content by 14%, and the activities of soil urease, invertase, catalase, and phosphatase over those in the control. The present study results suggest that the application of NPK + BZnFe (100:75:75:3:6:6 kg/ha) improves macro and micronutrient contents in turmeric rhizomes and activities of soil enzymes and physicochemical properties of soil.

Published

2021

42. Biochar increased photosynthetic and accessory pigments in tomato (Solanum lycopersicum L.) plants by reducing cadmium concentration under various irrigation waters

Author

Muhammad Farooq Qayyum, Abdur Rehim, Muhammad Zafar-ul-Hye, Muhammad Abid, Subhan Danish, Muhammad Mutahir Iqbal, Muhammad Nadir Naqqash, and Muhammad Shaaban

Subjects

Irrigation, Agricultural Irrigation, Health, Toxicology and Mutagenesis, Sewage, 010501 environmental sciences, Photosynthesis, 01 natural sciences, Solanum lycopersicum, Dry weight, Biochar, Environmental Chemistry, 0105 earth and related environmental sciences, biology, Pigmentation, business.industry, Chemistry, Soil organic matter, fungi, food and beverages, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Pollution, Agronomy, Charcoal, Shoot, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Solanum, business, Water Pollutants, Chemical, Cadmium

Abstract

Fresh surface water supplies are gradually becoming insufficient in arid and semi-arid regions of the world. Thus, farmers in these areas are being forced to use poor quality sewage water. Irrigating vegetable crops with sewage water having high metal concentration may affect growth and biochemical processes of plants. Biochar (BC) can sorb these metals and may reduce their toxic effects on plants. Thus, a greenhouse experiment was conducted to study the influence of cotton stalks derived biochar (CSDB) at control (0%) and 1%; ground water (GW; 0.01 ppm Cd); cadmium-contaminated water (CCW; 2 ppm Cd); and sewage water (SW; 0.13 ppm Cd) on growth and biochemical processes of tomato (Solanum lycopersicum) plants. On an average, additions of 1% BC significantly (p ≤ 0.05) enhanced dry weight of roots (36%) and shoots (52%) of plants as compared to without BC application. Biochar (1%) decreased shoot Cd concentration by 33% at SW and 100% at CCW. The Cd uptake was increased by 33% with the BC + CCW treatment. Soil organic matter (SOM) was increased 1.2 times while pH and EC were increased by 5 and 47%, respectively, in 1% BC amended soil. Biochar application alleviated toxic effects of Cd and improved growth as well as productions of photosynthetic and accessory pigments in tomato plants.

Published

2017

43. Evaluating efficacy of plant growth promoting rhizobacteria and potassium fertilizer on spinach growth under salt stress

Author

Mehreen Gul, Subhan Danish, Fiza Mahmood, Rizwan Yaseen, Shahid Hussain, Muhammad Zafar-ul-Hye, and Muhammad Shaaban

Subjects

chemistry.chemical_classification, Horticulture, biology, chemistry, Potash, Spinach, Salt (chemistry), Plant Science, biology.organism_classification, Rhizobacteria

Published

2020

44. Essential Micronutrients for Cotton Production

Author

Subhan Danish, Fiaz Ahmad, Waseem Hassan, Niaz Ahmed, Sajjad Hussain, and Muhammad Arif Ali

Subjects

Agronomy, Soil pH, Biology, Micronutrient, Calcareous

Abstract

Micronutrients are vital for cotton growth and development. Fundamental micronutrients like boron, zinc, iron, manganese, and copper. Deficiency of these micronutrients increases under calcareous soil and high soil pH conditions which make them unavailable for plant. Currently cotton yield is falling due to nonavailability of micronutrients, so it is need of the hour to ensure sufficient supply of these micronutrients throughout cotton growth period. Micronutrients are required for various growth functions in the cotton plant. Soil application of micronutrients often results in binding with soil particles due to unfavorable soil conditions making them unavailable. Foliar application of micronutrients in such conditions is an economically viable option and also beneficial because of their application and relatively quick absorption by the leaves. In this chapter we discussed about the role of different micronutrients for cotton growth and development. We also elaborated their deficiency symptoms and possible remedial measures to correct the deficiencies.

Published

2020

45. ACC-deaminase producing plant growth promoting rhizobacteria and biochar mitigate adverse effects of drought stress on maize growth

Author

Mubshar Hussain, Subhan Danish, Fauzia Mohsin, and Muhammad Zafar-ul-Hye

Subjects

Pigments, Chlorophyll, 0106 biological sciences, Leaves, Chloroplasts, Plant Science, Pathology and Laboratory Medicine, Biochemistry, 01 natural sciences, chemistry.chemical_compound, Plant Resistance to Abiotic Stress, Natural Resources, Biochar, Medicine and Health Sciences, Photosynthesis, Carbon-Carbon Lyases, Materials, Carotenoid, Plant Growth and Development, chemistry.chemical_classification, Rhizosphere, Multidisciplinary, Ecology, Plant Biochemistry, Plant Anatomy, Pseudomonas Aeruginosa, Eukaryota, 04 agricultural and veterinary sciences, Achromobacter xylosoxidans, Plants, Bacterial Pathogens, Droughts, Root Growth, Experimental Organism Systems, Medical Microbiology, Plant Physiology, Charcoal, Physical Sciences, Water Resources, Medicine, Pathogens, Cellular Structures and Organelles, Cellular Types, Plant Shoots, Research Article, Stomatal conductance, Proline, Plant Cell Biology, Science, Materials Science, Biology, Research and Analysis Methods, Bacterial Physiological Phenomena, Rhizobacteria, Microbiology, Zea mays, Model Organisms, Plant and Algal Models, Stress, Physiological, Plant-Environment Interactions, Pseudomonas, Plant Cells, Plant Defenses, Grasses, Microbial Pathogens, Stomata, Organic Pigments, Bacteria, Plant Ecology, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Cell Biology, Plant Pathology, Stem Anatomy, biology.organism_classification, Carotenoids, Maize, chemistry, Agronomy, Animal Studies, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Developmental Biology, 010606 plant biology & botany

Abstract

Availability of good quality irrigation water is a big challenge in arid and semi arid regions of the world. Drought stress results in poor plant growth and low yield; however, the rhizobacteria, capable of producing 1-aminocyclopropane-1-carboxylate (ACC)-deaminase are likely to improve crop growth and productivity under drought stress. Similarly, biochar could also ameliorate the negative impacts of drought stress. Therefore, this pot experiment was conducted to evaluate the role of ACC-deaminase producing plant growth promoting rhizobacteria (PGPR) alone and in combinations with timber-waste biochar in improving maize growth under drought stress. The ACC-deaminase producing rhizobacteria, Pseudomonas aeruginosa, Enterobacter cloacae, Achromobacter xylosoxidans and Leclercia adecarboxylata were studied along with two rates (0.75 and 1.50% of the soil weight) of biochar under three moisture levels i.e., normal moisture, mild drought stress and severe drought stress. The E. cloacae in conjunction with higher rate of biochar produced a significant improvement i.e., up to 60, 73, 43, 69, 76 and 42% respectively, in grain yield plant-1, photosynthetic rate, stomatal conductance, chlorophyll a, total chlorophyll and carotenoids contents of maize as compared to the control under mild drought stress. Similarly, A. xylosoxidans with higher rate of biochar also enhanced grain yield plant-1, photosynthetic rate, stomatal conductance, chlorophyll a, total chlorophyll and carotenoids contents of maize up to 200, 213, 113, 152, 148 and 284%, respectively over control under severe drought stress. In conclusion, combination of ACC-deaminase containing PGPR, A. xylosoxidans and biochar (0.75%) proved an effective technique to improve maize growth and productivity under drought stress.

Published

2020

46. Heat Stress in Cotton: Responses and Adaptive Mechanisms

Author

Asia Perveen, Muhammad Naeem Akhtar, Khurram Shahzad, Niaz Ahmed, Noor Mohammad, Subhan Danish, Muhammad Arif Ali, and Fiaz Ahmad

Subjects

Agronomy, biology, Seedling, Germination, Yield (finance), engineering, engineering.material, biology.organism_classification, Fiber crop, Gossypium hirsutum, Agroecology, Heat stress

Abstract

Cotton is vital cash besides fiber crop and plays pivotal role in economy in many countries. It thrives well under optimal temperature. Too high and too low temperatures affect badly its growth and yield. Too low temperature affects its germination and seedling establishment stages. Particularly, high temperatures influence many physiological and biochemical processes within cotton plant that result in poor seed cotton yield. Several researches in different agroecological zones employed different agronomic practices and modern breeding techniques to mitigate the heat stress for better cotton production. A bevy of literature regarding heat stress is presented here.

Published

2020

47. Role of Macronutrients in Cotton Production

Author

Usman Khalid Chaudhry, Waseem Hassan, Muhammad Arif Ali, Nawab Ali, Niaz Ahmed, Fiaz Ahmad, Sajjad Hussain, and Subhan Danish

Subjects

Vegetative reproduction, Phosphorus, food and beverages, chemistry.chemical_element, Root system, Biology, Indeterminate growth, biology.organism_classification, Micronutrient, Crop, Nutrient, Agronomy, chemistry, Seedling

Abstract

Sound nutrition plays a key role in enhancing cotton yield. As cotton undergoes vegetative and reproductive growth at the same time, its nutritional requirements are dissimilar, compared to other field crops. Cotton is grown as an annual crop with an indeterminate growth pattern. The vegetative branching provides a potential fruiting place except under abiotic and biotic stresses. Moreover, cotton has a deep root system with low density of roots in the surface layer of soils where availability of nutrients is high. The rooting system makes cotton crop more dependent on the subsoil for nutrition. A continuous supply of nutrients is required to sustain morphogenesis. The rate of both nutrients absorption and dry matter production increases progressively during the seedling, vegetative, and fruiting periods and peaks near the end of the bloom period. Nitrogen, phosphorus, and potassium are required in large quantities and are limited in many soils. The deficiencies of macro- and micronutrients decrease plant growth and development, and consequently seed cotton yield is reduced. The deficiency of phosphorous (P), calcium (Ca), potassium (K), boron (B), magnesium (Mg), and zinc (Zn) affects fruit production in cotton than vegetative growth, while the deficiencies of nitrogen (N), sulfur (S), molybdenum (Mo), and manganese (Mn) affect equally vegetative and reproductive growth of cotton. A bevy of literature concerning the role of macronutrients in growth and development is presented in the following paragraphs.

Published

2020

48. Mitigation of drought stress in maize through inoculation with drought tolerant ACC deaminase containing PGPR under axenic conditions

Author

Muhammad Zafar-ul-Hye, Shahid Hussain, Muhammad Farooq Qayyum, Subhan Danish, and Muhammad Riaz

Subjects

ACC deaminase, Horticulture, Drought stress, Inoculation, Drought tolerance, Plant Science, Biology, Axenic, biology.organism_classification

Published

2019

49. ACC Deaminase Producing PGPR Bacillus amyloliquefaciens and Agrobacterium fabrum along with Biochar Improve Wheat Productivity under Drought Stress

Author

Tariq Muhammad Munir, Muhammad Zafar-ul-Hye, Mazhar Abbas, Maqshoof Ahmad, and Subhan Danish

Subjects

biofertilizers, Stomatal conductance, gas exchange attributes, Bacillus amyloliquefaciens, biology, Vegetative reproduction, Biofertilizer, yield attributes, Drought tolerance, fungi, lcsh:S, food and beverages, Straw, Rhizobacteria, biology.organism_classification, lcsh:Agriculture, Horticulture, water stress, wheat, Biochar, parasitic diseases, activated carbon, Agronomy and Crop Science

Abstract

Drought stress retards wheat plant&rsquo, s vegetative growth and physiological processes and results in low productivity. A stressed plant synthesizes ethylene which inhibits root elongation, however, the enzyme 1-Aminocyclopropane-1-Carboxylate (ACC) deaminase catabolizes ethylene produced under water stress. Therefore, the ACC deaminase producing plant growth promoting rhizobacteria (PGPR) can be used to enhance crop productivity under drought stress. Biochar (BC) is an organically active and potentially nutrient-rich amendment that, when applied to the soil, can increase pore volume, cation exchange capacity and nutrient retention and bioavailability. We conducted a field experiment to study the effect of drought tolerant, ACC deaminase producing PGPR (with and without timber waste BC) on plant growth and yield parameters under drought stress. Two PGPR strains, Agrobacterium fabrum or Bacillus amyloliquefaciens were applied individually and in combination with 30 Mg ha&minus, 1 BC under three levels of irrigation, i.e., recommended four irrigations (4I), three irrigations (3I) and two irrigations (2I). Combined application of B. amyloliquefaciens and 30 Mg ha&minus, 1 BC under 3I, significantly increased growth and yield traits of wheat: grain yield (36%), straw yield (50%), biological yield (40%). The same soil application under 2I resulted in greater increases in several of the growth and yield traits: grain yield (77%), straw yield (75%), above- and below-ground biomasses (77%), as compared to control, however, no significant increases in chlorophyll a, b or total, and photosynthetic rate and stomatal conductance in response to individual inoculation of a PGPR strain (without BC) were observed. Therefore, we suggest that the combined soil application of B. amyloliquefaciens and BC more effectively mitigates drought stress and improves wheat productivity as compared to any of the individual soil applications tested in this study.

Published

2019

50. Multi-strain bacterial inoculation of Enterobacter cloacae, Serratia ficaria and Burkholderia phytofirmans with fertilizers for enhancing resistance in wheat against salinity stress

Author

Muhammad Zafar-ul-Hye, Niaz Muhammad Hussain, Zahir Ahmad Zahir, Umar Aslam, and Subhan Danish

Subjects

biology, Strain (chemistry), Inoculation, Burkholderia phytofirmans, Serratia ficaria, Plant Science, biology.organism_classification, Enterobacter cloacae, Salinity stress, Microbiology

Published

2019