Consumers' fear regarding food security in Slovenia during the first wave of COVID-19 crisis

The various crises are having a significant impact on the entire food sector and are changing the attitudes of Europeans as well as policies on the importance of food security and sustainably produced quality and safe food for consumer health. The paper focuses on the consumer's fear of food security for the time of the first wave of COVID-19 and the associated concern for food security in the future and the changes in consumer behaviour. The online survey in Slovenia was conducted in June 2020 using a "snowball" method. The sample included 490 individuals. The results showed that both measured forms of fear (i) fear over food security during the first wave of COVID-19 crisis, and (ii) fear over food security in the future were statistically significant, moderately strong and positively associated with almost all forms of self-perceived behaviour change caused by the COVID-19 crisis. The respondents focused more on buying locally produced and processed food, food stockpiling and decreasing food waste. Only minor changes were expressed with regards to their food purchasing channels, with the elderly, the highly educated and those who classified themselves in a higher social class buying more often directly from farmers. In the future, the results of this research should be compared with other countries and the impact of an individual's economic situation and the impact of promotional campaigns on agricultural products on changing consumer behaviour should also be analysed in more detail.

Getting Proactive with Pharma Packaging

According to market research, the pharmaceutical packaging sector is expected to grow at a compound annual rate of 7.4% between 2022 and 2031, reaching an estimated USS178.8 billion (€171.8 billion) by the end of the forecast period (1). "Pharmaceutical waste continues to be a huge problem, so to eliminate non-biodegradable and single-use plastics from the supply chain, more research is taking place around bio-based PET [polyethylene terephthalate]. "By designing a product's primary and secondary packaging well from the outset (including investing ample resources into the process), manufacturers can reduce the amount of materials used and wasted, test new eco materials, ensure safety compliance and efficacy, and benefit from cheaper transportation costs," Quelch surmises. [...]pharma companies can benefit from a packaging supplier with a true global footprint," he says.

Challenges faced in biomedical waste management by waste handlers amidst the COVID-19 pandemic in a tertiary care hospital: a qualitative study

Introduction : Coronavirus disease 2019 (COVID-19) saw an overhaul in the biomedical waste management (BMWM) practices. Waste handlers were at the brunt of these changes. If the challenges pertaining to BMWM at the ground level are better understood, more effective measures to overcome them can be formulated. Objectives: 1. To identify myths and concerns regarding BMWM in the context of COVID-19 pandemic. 2. To explore the challenges faced in BMWM amidst the COVID-19 pandemic. 3.To explore opportunities and future perspectives of BMWM. Method: In-depth interviews were conducted among 17 purposively selected Class IV health care workers during August to November 2021 in a tertiary care institute in Mumbai. Data was reported using thematic analysis. Results: Three major themes - challenges and concerns faced by BMW handlers, enablers/motivators, opportunities and future practices were generated from the transcripts. Various challenges faced by waste handlers were- difficulties in segregation and transport of BMW, exhaustion from PPE usage and fear of acquiring and spreading COVID-19 from work, stigma faced from public, and handling COVID-19 deaths. Support from family and colleagues, incentives and a positive change in public perception enabled them to work. Forming redressal committees, addressing job security concerns and timely provision of good quality equipment can improve hospital waste management measures in the future. Conclusion: It is of utmost importance to address challenges faced by waste handlers in BMWM. Onus should also be on periodic training in BMWM.

Silent superbug killers in a river near you how factory farms contaminate public water courses on three continents

Water downstream from factory farms harbours an invisible threat to people's health which could eclipse the COVID-19 crisis. The threat? Antibiotic Resistance Genes (ARGs) which are driving antimicrobial resistance the world's superbug crisis - projected to kill up to 10 million people annually by 2050. This publication reports the presence of ARGs in animal waste discharged from industrial farms into public waterways or onto soil (or crops) in four countries. Gauge community impact and sentiment regarding the issue was also highlighted. The water and sediment from public water courses connected to effluent discharges from 6-10 pig farms were tested in each of four countries (Canada, Spain, Thailand and the USA).

The effects of COVID-19 on the water sector

The COVID-19 pandemic affected public health, economy, social life, and the environment. It infected and killed millions of people around the world. Most of the recent literature has focused on the medications to combat this virus, including antivirals and vaccines, but studies about its effect on the environment are still rare, particularly on the water sector. Most of the studies concentrate on the effect of water availability on COVID-19, the effect of the used medications on the water, and the probability of transmission of SARS-CoV-2 through water. Herein, we have summarized the effects of COVID-19 on the water sector from many perspectives. We show different methods to detect the effect of the pandemic on water and also methods to investigate the presence of the virus or its RNA in the water. We also show the different effects of its presence in the wastewater, the probability of transmission, the detection of different variants, and the prediction of new waves. We also show the disadvantages and advantages of the pandemic in the water sector. We finally suggest some recommendations to face this pandemic and the future pandemics for the governments and water policymakers, water treatment plants, general population, and researchers. The aim of this review is to show the different aspects of the pandemic in order to give a general idea about what must be done in order to minimize its effect and any probable pandemic in the future.

A fuzzy sustainable model for COVID-19 medical waste supply chain network

The COVID-19 has placed pandemic modeling at the forefront of the whole world's public policymaking. Nonetheless, forecasting and modeling the COVID-19 medical waste with a detoxification center of the COVID-19 medical wastes remains a challenge. This work presents a Fuzzy Inference System to forecast the COVID-19 medical wastes. Then, people are divided into five categories are divided according to the symptoms of the disease into healthy people, suspicious, suspected of mild COVID-19, and suspicious of intense COVID-19. In this regard, a new fuzzy sustainable model for COVID-19 medical waste supply chain network for location and allocation decisions considering waste management is developed for the first time. The main purpose of this paper is to minimize supply chain costs, the environmental impact of medical waste, and to establish detoxification centers and control the social responsibility centers in the COVID-19 outbreak. To show the performance of the suggested model, sensitivity analysis is performed on important parameters. A real case study in Iran/Tehran is suggested to validate the proposed model. Classifying people into different groups, considering sustainability in COVID 19 medical waste supply chain network and examining new artificial intelligence methods based on TS and GOA algorithms are among the contributions of this paper. Results show that the decision-makers should use an FIS to forecast COVID-19 medical waste and employ a detoxification center of the COVID-19 medical wastes to reduce outbreaks of this pandemic. © 2023, Crown.

Advances in wastewater-based epidemiology in 2021

Wastewater-based epidemiology (WBE) is a powerful and cost-effective tool for investigating chemicals consumption/pathogens infection and health status of populations, and is rapidly evolving as COVID-19 continues to ravage the world. This paper reviews the significant developments and breakthroughs of WBE in 2021 including collection, pretreatment and analysis of sewage samples, materials stability, correction factors calculation and uncertainty analysis, implementation cases and so on, based on the research findings published in international top academic journals or the most influential achievements. It provides reference for clarifying the development of WBE and promoting the research and application of WBE.

Health is complex, the solutions are long term

The debate on folic acid fortification of food to prevent neural tube defects in babies, for example, hasn't progressed in more than two decades (doi:10.1136/bmj.p1158).8 The worrying rise in perinatal suicides requires better funded services and support for women and young families to prevent deaths (doi:10.1136/bmj-2023-075414).9 And are the mandatory school inspections that harm the mental health of teaching staff even necessary (doi:10.1136/bmj.p1147)?10 The same applies to overzealous and discriminatory processes implemented by medical regulatory bodies such as the General Medical Council, despite claims of improvement by its chief executive (doi:10.1136/bmj.p1295 doi:10.1136/bmj.p1252).1112 The prevention principle would urge us to support a ban on vaping (doi:10.1136/bmj.p1266) and consider new options for reducing the number of days people experience migraines (doi:10.1136/bmj.p1249).1314 It would also induce bewilderment at the decision to wind down the UK's world leading covid surveillance network when covid-19 is still with us and future pandemics are inevitable (doi:10.1136/bmj.p1157).15 It would not, however, lend support to a non-evidence based screening programme for haemochromatosis (doi:10.1136/bmj.p1264).16 The first steps of an "avoid, reduce, reuse, recycle, research, rethink” framework (doi:10.1136/bmj-2021-069044) focus on better clinical practice that avoids low value care and inappropriate admissions and minimises blood tests and other interventions.17 This latest article in our series on achieving net zero and environmental sustainability in clinical practice examines critical care. The challenge isn't entirely a clinical one, because achieving net zero will depend on commitment across healthcare professions, engineering, waste management, hospital leadership, and beyond. A research paper assessing the value of routine monitoring of people being treated with methotrexate finds that frequency of monitoring should be adjusted according to risk, reducing the burden of work on clinical staff and making life more manageable for patients (doi:10.1136/bmj-2022-074678 doi:10.1136/bmj.p1120).1819 The difficulty here is one of getting research into practice, a timescale of 17 years by some estimates.

Carbon Dioxide Monitoring in Refuse Collection Vehicle Cabins to Reduce the Risk of SARS-CoV-2 Airborne Transmission

During the COVID-19 pandemic, essential workers such as waste collection crews continued to provide services in the UK, but due to their small size, maintaining social distancing inside waste collection vehicle cabins is impossible. Ventilation in cabins of 11 vehicles operating in London was assessed by measuring air supply flow rates and carbon dioxide (CO2) in the driver's cabin, a proxy for exhaled breath. The indoor CO2 indicated that air quality in the cabins was mostly good throughout a working day. However, short episodes of high CO2 levels above 1500 ppm did occur, mainly at the beginning of a shift when driving towards the start of their collection routes. This data indicated that the ventilation systems on the vehicles were primarily recirculating air and the fresh air supply made up only 10-20 % of the total airflow. Following recommendations to partly open windows during shifts and to maintain ventilation systems, a second monitoring campaign was carried out, finding on average, an improvement in ventilation on board the vehicles. © 2022 17th International Conference on Indoor Air Quality and Climate, INDOOR AIR 2022. All rights reserved.

ON BENEFICIAL CONNECTIONS AMONG SHORT AGRI-FOOD SUPPLY CHAINS AND CIRCULAR BIOECONOMY

The concepts of short agri-food supply chains and circular bioeconemy are complementary and mutually reinforcing, while they may play an important role in sustainability transitions. The elimination of middlemen and the possibilities of forward vertical integration of farmers are the key components ofshort agri-food supply chains, while bioeconomy refers to the sustainable production and use of biological resources stemming from forestry, agriculture, fisheries, and waste streams. The development of closed-loop systems where waste is converted into new resources, lies in the core of circular bioeconomy, which seeks to reduce waste and maximize resource usage. A sustainable and regenerative economy where waste is viewed as a resource and the use of finite resources is decreased is what this strategy seeks to achieve. When combined, short agri-food supply chains and circular bioeconomy can support sustainable economic growth, social advancement, and environmental protection by encouraging local manufacturing, minimizing waste, and developing innovative bio-based goods and procedures. In this article, we examine the benefits which occur in short agri-food supply when they adopt the principles of circular bioeconomy. Also, we examine how can the ideas of the circular bioeconomy be applied to short agri-food supply chains in order to minimize waste and maximize resource usage. In addition, we explore the corresponding difficulties and opportunities for creating bio-based goods and procedures in short agri-food supply chains. Last but not least, we discuss the effects of short agri-food supply chains and the circular bioeconomy on global agri-food systems and how these concepts are connected with issues at stake, such as food security and sustainability.

Medical Waste Management and Treatment Technologies

Medical wastes are generated in healthcare facilities and hospitals, and they include discarded materials that are contaminated with blood or infectious materials, used syringes, gloves, etc. Medical wastes are hazardous;hence, they require a special attention. The objective of this chapter is to introduce medical waste constituents, medical waste regulations, and conventional and advanced methods of medical waste management and control. This chapter discusses waste management techniques such as segregation, labeling, separation, and waste minimization methods, in addition to medical waste treatment methods including landfilling, autoclaving, chemical disinfection, microwave disinfection, plasma gasification, and pyrolysis. Furthermore, medical waste management and control during COVID-19 pandemic is examined through recent case studies. © The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2022.

Optimizing the synthesis of yeast Beta-glucan via response surface methodology for nanotechnology application.

BACKGROUND: The production of biopolymers from waste resources is a growing trend, especially in high-population countries like Egypt. Beta-glucan (ß-glucan) belongs to natural polysaccharides that are derived from plant and microbial origins. In this study, following increasing demands for ß-glucan owing to its bioactive properties, a statistical model to enhance microbial ß-glucan production was evaluated for its usefulness to the food and pharmaceutical industries. In addition, a trial to convert ß-glucan polymer to nanostructure form was done to increase its bioactivity. RESULTS: Ingredients of low-cost media based on agro-industrial wastes were described using Plackett-Burman and central composite design of response surface methodology for optimizing yeast ß-glucan. Minerals and vitamin concentrations significantly influenced ß-glucan yield for Kluyveromyces lactis and nitrogen and phosphate sources for Meyerozyma guilliermondii. The maximum predicted yields of ß-glucan recovered from K. lactis and M. guilliermondii after optimizing the medium ingredients were 407 and 1188 mg/100 ml; respectively. For the first time, yeast ß-glucan nanoparticles (ßGN) were synthesized from the ß-glucan polymer using N-dimethylformamide as a stabilizer and characterized using UV-vis spectroscopy, transmission electron microscope (TEM), dynamic light scattering (DLS) and Fourier transform infrared spectroscopy (FT-IR). The average size of ßGN was about 300 nm as determined by DLS. The quantitative variation of functional groups between ß-glucan polymer and ßGN was evaluated by FT-IR for explaining the difference in their biological activity against Normal Homo sapiens-Hela contaminant and Hepatic cancer cell lines. CONCLUSIONS: Enriching the low-cost media based on agro-industrial wastes with nutritional ingredients improves the yield of yeast ß-glucan. The present study succeeds to form ß-glucan nanoparticles by a simple method.

A comparative study of waste management practices in pre-COVID and during-COVID scenarios: an overview of the hotel industry

The COVID-19 pandemic has been challenging for the hotel industry, with rooms being converted into quarantine centres and leading to an increase in waste volume and composition. With frequent lockdowns and stringent guidelines by governments on social distancing, 60% of hotels converted 10% of their rooms into quarantine facilities, which drastically changed the composition of hotel waste (JLL, 2020). This waste may lead to environmental degradation if handled inappropriately. The primary objective of this study is to identify, compare and highlight the challenges faced in waste management practices in two different circumstances, namely pre-COVID and during-COVID, in the hotel industry. Data were collected using a structured questionnaire put to hoteliers in selected hotels in India. A total of 61 responses were recorded out of 100 respondents. Descriptive analysis indicated new practices in hotel housekeeping such as use of single-use PPE kits, arrangement of separate zones for disposing of medical waste and digitalization of services. Another interesting finding of the research is the aggravation of single-use plastic in the form of disposable crockery, cutlery and packaging of PPE kits. Lastly, the study showed an increase in operational costs and highlighted innovative procedures in existing waste management disposal practices and suggested new practices that will be of great significance for dealing with similar episodes in the future.

Enhancing the fuel properties of beverage wastes as non-edible feedstock for biofuel production

A few industries, such as the beverage industry, have experienced some growth in sales during the COVID-19 pandemic. Globally, beverage companies alone generate over 200 million tonnes of biomass annually, which largely ends up as animal feed or in landfills. With the UK government's commitment to reduce its carbon footprint by at least 68% in 2030, many companies, especially small and medium enterprises (SMEs), are exploring options to reduce carbon emissions and develop roadmaps to become carbon neutral. It has thus become imperative for beverage companies to find value in or repurpose their waste. This paper unlocks the potential for improving the fuel properties of beverage waste through a blending process and explores the determination of optimal fractions for the blends via characterization. With an initial moisture content of 82 and 58 wt.% brewery spent grain (BSG) and spent coffee grounds (SCG), respectively, the pre-treatment process reduced moisture content by approximately 10-15 wt.%. The study concludes that biomass blending improved the fuel properties of the biomass, providing a competitive comparison with coal for energy applications.

Note on Front Matter

A February 2022 World Health Organization news release estimates that through just one of its global response initiatives some "87,000 tonnes of personal protective equipment . . . was procured between March 2020 [and] November 2021," most of which "ended up as waste. On one level, I take some measure of reassurance when I see a mask of any kind littering the street because it means someone took seriously the public health benefits of wearing it. "Tonnes of COVID-19 Health Care Waste Expose Urgent Need to Improve Waste Management Systems."

Using molecular tools to compare various concentration protocols prior to detecting SARS-CoV-2 RNA in wastewater. (Special Issue: Chemistry and global challenges (part A).)

Background: Reports showed presence of SARS-CoV-2 genetic material in wastewater. Wastewater concentration methods are optimized for detection of non-enveloped viruses so need to be adopted for enveloped viruses and their genetic material. Methods: Conventional (cRT-PCR) and quantitative real time RT-PCR (qRT-PCR) were used as readouts to compare 4 water concentration methods namely, (A) filtration on negatively charged membrane followed by extracting RNA from it, (B) adsorbtion-elution method, (C) flocculation with skimmed milk and (D) polyethylene glycol precipitation, to detect SARS-CoV-2 RNA and 229E human coronavirus (229E-HCoV) as a model for spike-containing enveloped virus from fresh and wastewater. Results: On using cRT-PCR: recovery rate of SARS-CoV-2 RNA was better using method A then B for fresh water and method B then D for wastewater. 229E-HCoV recovery from fresh water was better using method C then A and methods B then D for wastewater. On using qRT-PCR, both methods A and B were better for SARS-CoV-2 RNA recovery from both fresh and wastewater. For the 229E-HCoV methods A was the most efficient for fresh water and method B for wastewater. Conclusion: Method B is recommended for SARS-CoV-2 RNA or whole 229E-HCoV recovery from wastewater.

Environmental pollution from COVID-19 generated wastes result in widespread recycling of SARS-CoV-2 infection

Wastes generated in the face of COVID-19 pose enormous risks to the environment and heath. Environmental pollution from deficiencies in disposal patterns of hospital wastes may result in widespread recycling of SARS-CoV-2 infection. This paper aimed at creating awareness of the impact of inaptly disposed medical wastes on the environment;produced from managing COVID-19 leading to SARS-CoV-2 widespread recycling. Assemblage of recent and suitable literatures relating to keywords like waste disposal, medical wastes, coronavirus, COVID-19, SARS-CoV-2 and environmental pollution were revised/reviewed. Data suggest that factors like reduced awareness, negligence, ignorance, lack of polices among others are the chief influences contributing to improper medical wastes collection, disposal and management leading to environmental hazards. Therefore, improper disposal of medical wastes can lead to toxic environmental pollution thereby recycling SARS-CoV-2 in the face of COVID-19 management. Hence, incineration after prior disinfection remains the best management option in the prevailing coronavirus era.

Study on the Spatial Evolution of China's Pulp and Paper Product Import Trade and Its Influencing Factors

The purpose of this research is to study the changes in the market structure of China's pulp and paper product imports. In particular, the import trade environment and market layout of Chinese pulp and paper products have changed under the international context of the coronavirus pandemic and the Sino-US trade dispute and the domestic policy context of zero imports of Chinese waste paper. This study attempts to fill the gap regarding the influencing factors of market structure, while contributing new ideas on China's trade in pulp and paper products. Based on pulp and paper product import and export trade data from 2005 to 2021, a trade gravity model was used to explore the changes in the share of China's trade partners for pulp and paper product imports and their influencing factors. The results indicated that the outbreak of COVID-19 led to a significant increase in China's imports of packaging paper products, bringing about an increase in Indonesia's status as a partner in China's pulp and paper product trade. The US-China trade dispute had an impact on pulp and paper product trade between the two countries, with China's tax countermeasures causing the US to lose its status as a trading partner in China for pulp and paper product imports. The center of gravity for paper product imports has moved from the US and Japan to Indonesia and Russia. The restrictions on waste paper imports have shifted the focus of China's paper raw material imports, with the US no longer being the main importer of China's paper raw materials. Specifically, the main importers of wood pulp are Brazil and Chile, while the main importers of waste paper pulp are Thailand and Malaysia. In the future, China needs to continuously strengthen dialogue with the United States to resolve trade disputes and create a favorable environment for trade in pulp and paper products. At the same time, China's paper enterprises should strengthen the expansion of the Southeast Asian market and reduce dependence on the US market, and China should continue to improve the waste paper recycling system and improve the utilization rate of domestic waste paper.

The energy assessment of COVID-19 medical waste as a potential fuel

The COVID-19 pandemic has caused huge health and economic damages. Various protective face masks, such as single-use, cotton, and the most widespread FFP2 or KN95 masks, are used to prevent the spread of this virus. However, these face masks are usually packaged in plastic packaging, which increases the amount of plastic waste. Plastic gloves are also often used in the connection of the pandemic. All this leads to a large production of protective equipment, but their use contributes to the increase of this type of waste, which presents a new challenge in waste management. This article investigates a complete element analysis of these mentioned materials and observes potential harmful substances. Further, pellets, as a potential fuel for combustion or pyrolysis purposes, were produced with the content of 5% and 10% of face masks. FFP2 were firstly separated from ear straps and wires, then disintegrated, added to spruce sawdust, and compressed into pellets. A series of experiments were realized and aimed at elemental, thermogravimetric, and calorific value analyses of produced pellets. Based on the results, it can be concluded that the presence of face masks FFP2 in pellets increases the content of carbon, hydrogen, and nitrogen, volatile matter, and calorific values, but decreases the content of fixed carbon. According to elemental analysis of produced pellets, no significant amounts of harmful elements were found. © 2023 The Author(s)

Modification of the Aeration-Supplied Configuration in the Biodrying Process for Refuse-Derived Fuel (RDF) Production

Biodrying is an essential part of the mechanical–biological treatment process that minimizes moisture content and simultaneously maximizes heating value for refuse-derived fuel (RDF) production. Although the mechanical separation process operates effectively in Thailand's RDF production, high organic content levels and their degradation cause moisture contamination in RDF, producing wet RDF. Aeration is essential for an effective biodrying process, and can reduce RDF's moisture content as well as increase its heating value. To maximize the biodrying effect, aeration should be optimized based on the waste conditions. This study proposes a modified aeration-supplied configuration for wet RDF biodrying. The aeration rate was modified based on the period within the biodrying operation;the first period is from the beginning until day 2.5, and the second period is from day 2.5 to day 5. The optimal aeration supply configuration was 0.5 m3/kg/day in the first period and then 0.3 m3/kg/day until the end of the process;this configuration yielded the greatest moisture content decrease of 35% and increased the low heating value of the biodried product by 11%. The final moisture content and low heating value were 24.07% and 4787 kcal/kg, respectively. Therefore, this optimal aeration-supplied configuration could be applied to meet the moisture content and low heating value requirements of the RDF production standard for Thailand's local cement industry.