Your search keyword '"Ashita Sharma"' showing total 7 results

1. Significant variation in air quality in South Indian cities during COVID-19 lockdown and unlock phases

Author

Shibani Navasakthi, Anuvesh Pandey, Jashanpreet Singh Bhari, and Ashita Sharma

Subjects

General Medicine, Management, Monitoring, Policy and Law, Pollution, General Environmental Science

Published

2023

2. Recent Advances in Physico-chemical Methods for Removal of Dye from Wastewater

Author

Rafiya Javeed Ganaie, Samreen Rafiq, and Ashita Sharma

Subjects

General Medicine, General Chemistry

Abstract

Water pollution due to untreated discharge of wastewater from various industries is the amongst the most challenging problem related with environment. Of all the pollutants being discharged into surface water streams, dyes are of serious concern, because of the visible impact on the surface water quality. Various methods are being used for removal of dyes from wastewater streams. The efficiency of removal method is dependent upon various factors including chemical composition of dye, pH and temperature of water and presence of other pollutants. The present review focusses on various physico-chemical methods used for the removal of dyes from the wastewater. The efficiency of various methods has also been discussed.

Published

2023

3. Leaf Litter Vermi Composting: Converting Waste to Resource

Author

Anamika Sharma, Ashita Sharma, Satveer Singh, Adarsh Pal Vig, and Nagpal Avinash Kaur

Abstract

Waste is not waste unless someone wastes it. Solid waste collection and its management is one of the burning issues of environment today in most nations worldwide. Although many methods have been proposed and implemented for proper solid waste disposal but some of these treatment and disposal strategies can cause severe environmental issues. The present manuscript intends to give an overview of studies on use of garden leaf litter waste around us as a substrate for vermicompost formation. Vermicomposting is aerobic process in which detritivorous earthworms play an important role in decomposition of organic waste converting it to nutrient rich medium for plant growth known as vermicompost. They do so by interacting with wide range of microorganisms and variety of other fauna acting as decomposers and this interaction results in stabilization of organic matter leading to alteration of its physical and biochemical properties. In recent years, vermicomposting technique has advanced considerably because it is eco-friendly, economically feasible and socially acceptable approach for waste management. In simple words, it is a way of converting waste to wealth. Furthermore, the end product of vermicomposting (Vermicast) - the nutrient rich compost is an efficient soil conditioner.

Published

2021

4. Health Risk Associated with Copper Intake through Vegetables in Different Countries

Author

Nitika Sharma, Akanksha Bakshi, Ashita Sharma, Inderpreet Kaur, and Avinash Kaur Nagpal

Abstract

Sustainable development goals aim to attain food security by 2030. To attain food security, it becomes extremely important to target various aspects of food security where safety of food is a major factor. In order to meet the growing population demand, efforts are being made to increase production of food and thus the safety aspect is often ignored. Irrational anthropogenic activities have impacted and deteriorated the ambient environment. Degradation of soil and water has resulted in buildup of contaminants in these spheres and further transfer of contaminants into the food chain. Increase in heavy metals in our surroundings is reported in many parts of the world. Further, increase in concentration of metals in soil and water result in the transfer of these metals into food chain. Unlike other metals copper is although is an essential element for living organisms but excessive consumption of copper is known to cause toxic impacts to living organisms. Green leafy vegetables are considered as hyperaccumulators for copper. The excessive concentration of copper in vegetables is not limited to any one region of the world. The present review summarizes the reports of copper content in vegetables in various parts of the world and health effects associated with it.

Published

2021

5. Contamination of vegetables with heavy metals across the globe: hampering food security goal

Author

Avinash Kaur Nagpal and Ashita Sharma

Subjects

Consumption (economics), 021110 strategic, defence & security studies, education.field_of_study, Food security, Natural resource economics, Population, digestive, oral, and skin physiology, 0211 other engineering and technologies, 02 engineering and technology, Review Article, 010501 environmental sciences, Millennium Development Goals, 01 natural sciences, Hazard quotient, Contaminated land, Hyperaccumulator, Business, education, Productivity, 0105 earth and related environmental sciences, Food Science

Abstract

Food Security is a multifaceted aspect covering nutrition, availability, sufficiency, accessibility and safety. Millennium Development Goals as framed by United Nations focused to attain food security for all. The biggest hindrance in attaining food security was less productivity due to lack of enough resources. In order to increase the availability and produce sufficient food, malpractices like growing food on contaminated land or using untreated wastewater for irrigation came into play. Such practices have led to the transfer of heavy metals, pathogens and other harmful toxins to food crops. Various studies across the world have documented high concentration of heavy metals in vegetable crops. Root tubers and succulent stems are hyperaccumulators of heavy metals and thus tend to pose health hazard to the consuming population. In many instances the content of toxic metals in vegetables is much beyond permissible limits. Hazard quotient assessment in various studies has shown that consumption of these vegetables can be toxic to both adults and children. So, the question arises are we really attaining the global food security? There is a need to find a solution to produce sufficient, safe and nutritious food for the civilization so as to meet the goal of "zero hunger".

Published

2019

6. Bioactivities of phytochemicals present in tomato

Author

Ashita Sharma, Poonam Chaudhary, Avinash Kaur Nagpal, and Balwinder Singh

Subjects

0301 basic medicine, chemistry.chemical_classification, Vitamin, Tomatine, Antioxidant, medicine.medical_treatment, Carotene, fungi, food and beverages, Review Article, Biology, Ascorbic acid, Lycopene, 03 medical and health sciences, Ingredient, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, chemistry, 030220 oncology & carcinogenesis, medicine, Food science, Carotenoid, Food Science

Abstract

Tomato is a wonder fruit fortified with health-promoting phytochemicals that are beneficial in preventing important chronic degenerative disorders. Tomato is a good source of phenolic compounds (phenolic acids and flavonoids), carotenoids (lycopene, α, and β carotene), vitamins (ascorbic acid and vitamin A) and glycoalkaloids (tomatine). Bioactive constituents present in tomato have antioxidant, anti-mutagenic, anti-proliferative, anti-inflammatory and anti-atherogenic activities. Health promoting bioactivities of tomatoes make them useful ingredient for the development of functional foods. Protective role of tomato (lycopene as a potent antioxidant) in humans against various degenerative diseases are known throughout the world. Intake of tomato is inversely related to the incidence of cancer, cardiovascular diseases, ageing and many other health problems. Bioavailability of phytoconstituents in tomato is generally not affected by routine cooking processes making it even more beneficial for human consumption. The present review provides collective information of phytochemicals in tomato along with discussing their bioactivities and possible health benefits.

Published

2018

7. Heavy metals in vegetables: screening health risks involved in cultivation along wastewater drain and irrigating with wastewater

Author

Jatinder Kaur Katnoria, Ashita Sharma, and Avinash Kaur Nagpal

Subjects

Irrigation, chemistry.chemical_element, Wastewater, 010501 environmental sciences, 01 natural sciences, Toxicology, Hazard quotient, Hazardous waste, Agricultural land, Vegetables, 0105 earth and related environmental sciences, Cadmium, Multidisciplinary, biology, Research, 04 agricultural and veterinary sciences, biology.organism_classification, Heavy metals, chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Spinach, Environmental science, Metal pollution index, Groundwater

Abstract

Irrigation of agricultural land with wastewater leads to continuous buildup of metals at these sites which gets accumulated in the vegetables and crops growing on these sites. Not just the crops irrigated with wastewater are hazardous, in present study, we have found that vegetables growing in vicinity of wastewater drain are also not safe for human consumption. The risk associated with consumption of vegetables was assessed by calculating hazard quotient and results revealed that the hazard quotient for leafy and tuberous vegetables was higher than the safe limits in all the sites irrespective of mode of irrigation. Spinach was the most hazardous among all as the hazard quotient with respect to cobalt and copper was highest in spinach. Uptake trend of metals in all vegetables: Iron > Cobalt > Copper > Cadmium > Lead. Cadmium, a potential carcinogen was found in concentrations higher than permissible limits in many vegetables from all sites. Highest level of cadmium (1.20 mg/kg) and copper (81.33 mg/kg) was reported in site which was in vicinity of waste water drain but irrigated with ground water. Concentration of copper and lead in vegetable samples from different sites exhibited no statistically significant difference with respect to different sites.

Published

2016