Micro plastic: an imperceptible threat on Agua Dulce Beach, Chorrillos District

The use of plastics in the world is increasing, but their proper final arrangement is limited. Peru made regulatory efforts to reduce its use;however, they are isolated activities that have not represented a significant change in their management. This study allows to identify the presence of microplastic on one of the busiest beaches of the city of Lima Metropolitana, during the emergency period caused by the SARS-COV-2 pandemic. To achieve the objectives of the research, it has been sampled in high tide and supra-coastal areas, applying the methodology proposed in the Ministry of the Environment's Soil Sampling Guide. This study shows the presence of microplastics, with an abundance of 43 pieces per m2, and found that the predominance of the type of microplastic found is of secondary origin (polystyrene and polypropylene);however, 20.9% correspond to primary microplastics (pellets) whose source could not be determined. Finally, it is indicated that despite restrictions on the state of emergency the number of microplastics per m2 in Agua Dulce Beach between 2019 (40 pieces) and 2020 (43 pieces) increased by 7.5%.

Preventive measures for managing Legionella in drinking water systems during epidemics

This paper describes and summarizes the strategies and measures that should be applied in Croatia to prevent Legionella contamination in drinking water systems in buildings during the COVID-19 epidemic. Legionella colonisation in drinking water installations increases the risk of infection for humans and it is important to point out that this public health problem is even greater during other epidemics. Legionella can cause very severe types of pneumonia called Legionnaires' disease and less serious illness Pontiac fever. Therefore, Croatia will implement the new EU Directive 2020/2184 on the quality of water intended for human consumption into its legislation, which for the first time includes an obligation to assess the risk of Legionella. This should help reduce the health risk or complications of respiratory infections (severe pneumonia) and mortality during other epidemics (COVID-19 and similar).

The pandemic COVID-19 and its positive influences on the environment

The coronavirus disease (COVID-19) has emerged as the latest and serious public health threat throughout the world. In the absence of prevention and rehabilitation interventions, different countries have implemented shutdown and/or lockout policies to monitor the transmission of the epidemic, resulting of a significant reduction in anthropogenic activities. As a result, this kind of phenomenon is helped to inhibit the environmental degradation activity by reducing various pollutants from the air, water and soil. This condition provided 'a once-in-a-lifetime' chance for nature to evolve and recover. This paper discusses the nature of which in terms of its beneficial effect on water, air, the ozone layer, and waste deposition. Finally, the article also presents certain suggestive measures by highlighting the role of government, educational institutes, and a person as a whole in the sustenance of nature under pandemic. Based on the reported effect of the pandemic on the environment, it can be inferred that nature, with or without human intervention, can repair itself to some degree. However, human beings need to aware of saving and supporting to nature instead of involving in constant degradation.

Mapping the trophic state index of eastern lakes in China using an empirical model and Sentinel-2 imagery data

Lake eutrophication has become a critical environmental issue due to the global effects of anthropogenic activities and climate change, and has been comprehensively studied for many years. A series of models and indicators have been proposed to assess the trophic state of lakes. The trophic state index (TSI) is a synthetic index that integrates chlorophyll-a, water clarity, and total phosphorus and is widely used to evaluate the trophic state of aquatic environments. In this study, we collected in situ lake samples (N = 431) from typical lakes to match Sentinel-2 MultiSpectral Instrument (MSI) imagery data using the Case 2 Regional Coast Color processor. Then we developed a new empirical model, TSI = -34.04 x (band 4/band 5) - 1.114 x (band 1/band 4) + 97.376. This model is valid for all of China, with good performance and few errors (RMSE = 7.36;MAE = 6.25) for the validation dataset. Recognizing that over 94% of the Chinese population located along eastern watersheds and large lakes have competing water uses, and given the TSI model on the seasonal scales, we further estimated the mean TSI and trophic state in eastern Chinese lakes (> 100 km2) from 2019 to 2020. The results revealed that more lakes were eutrophic in autumn (94.28%) than in spring (> 77.14%), indicating a serious eutrophication of eastern lakes. Although the eastern lakes have been studied in more detail, this study found that eutrophication still has markedly negative impacts on lake ecosystems. In addition, no significant improvement was observed in spring, most likely due to the months of curfew/lockdown from January 2020 onwards due to COVID-19. This may be due to the enrichment of nutrients deposited in sediment or watershed soil, which can be characterized as "autochthonous sources" of lake eutrophication, over decades with high rates of economic development. This study demonstrates the applicability of Sentinel-2 MSI data to monitor lake eutrophication as well as the feasibility of blue/red and red/red edge combinations. The framework and TSI model used bands available on MSI sensors to develop a novel approach for generating historical eutrophication data for large-scale evaluation of and decision-making related aquatic environmental changes, even in poorly studied areas.

An agent-based model for contamination response in water distribution systems during the COVID-19 pandemic

Contamination events in water distribution systems (WDS) are emergencies that cause public health crises and require fast response by the responsible utility manager. Various models have been developed to explore the reactions of relevant stakeholders during a contamination event, including agent-based modeling. As the COVID-19 pandemic has changed the daily habits of communities around the globe, consumer water demands have changed dramatically. In this study, an agent-based modeling framework is developed to explore social dynamics and reactions of water consumers and a utility manager to a contamination event, while considering regular and pandemic demand scenarios. Utility manager agents use graph theory algorithms to place mobile sensor equipment and divide the network in sections that are endangered of being contaminated or cleared again for water consumption. The status of respective network nodes is communicated to consumer agents in real time, and consumer agents adjust their water demands accordingly. This sociotechnological framework is presented using the overview, design, and details protocol. The results comprise comparisons of reactions and demand adjustments of consumers to a water event during normal and pandemic times, while exploring new methods to predict the fate of a contaminant plume in the WDS.

COVID-19 lockdowns promoted recovery of the Yangtze river's aquatic ecosystem

The impacts of COVID-19 lockdowns on human life, air quality, and river water quality around the world have received significant attention. In comparison, assessments of the implications for freshwater ecosystems are relatively rare. This study explored the impact of COVID-19 lockdowns on aquatic ecosystems in the Yangtze River by comparing river water quality, phytoplankton, zooplankton, and fish data collected at the site in the middle reach of the Yangtze River in 2018 and 2020. The results show that during COVID-19 lockdowns, the reduction in industrial and domestic effluent discharge led to a reduction in organic pollution and industrial plant nutrient pollution in rivers. Among them, PO43--P, CODMn, and TP were significantly decreased (p < 0.05). During lockdowns, nutrient supplies such as TN and TP were reduced, which led to inhibition of algae growth and decreased phytoplankton abundance. Phytoplankton affects the abundance of zooplankton through a bottom-up effect, and a decrease in phytoplankton density leads to a decrease in zooplankton density. The decrease in plankton density led to lower primary productivity in rivers, reduced fish feed supplies, intensified competition among fish populations, with increases in population dominated by high trophic level carnivorous fish. In addition, the decrease in fishing intensity has contributed to an increase in the number of rivers-sea migratory fish;the fish community was earlier mainly dominated by small-sized species with a short life cycle, and the number of supplementary populations has now increased. As a consequence, the fish community structure shows a tendency toward high complexity and high fish diversity. Overall, these observations demonstrate that the rapid revival of the retrogressive Yangtze River ecosystem is possible through limitation of anthropic interferences.

Access to water and the SARS-CoV-2 pandemic: opportunities and threats in a post-pandemic era for sub-Saharan Africa

The emergence of SARs-Cov-2 has severely impacted on the progress made so far on the sustainable development goals in SSA. The current ineffective water and healthcare sectors in many African countries could serve as a deterrent to an impending crisis. This mini review aims to highlight the opportunities and threats to the water and healthcare sector in a post pandemic era. Recent studies indicate that the virus have been found in water bodies including wastewater and sewage and this could serve as a potential medium of mutation of the virus. In addition, SSA have poor waste management implementation and sanitation especially within rural and densely populated areas. This coupled with lack of adequate supply of potable water can see SSA fall back in achieving the SDGs. The struggle against climate change and recently Covid-19 will devastate socio-economic development of many countries within the SSA region. Climate change has impacted on water accessibility and quality and Covid-19 requires adequate water supply to reduce human-to-human transmission. This will see a severe stress on already existing stresses in the water and health sectors which can eventually led to a system collapse. Urgent attention is therefore required through the design and implementation of programs aimed at building resilience to climate impacts and prepare for future pandemics.

Emerging investigator series: moving beyond resilience by considering antifragility in potable water systems

It is inherently difficult to plan water systems for a future that is non-predictive. This paper introduces a novel perspective for the design and operation of potable water systems under increasing water quality volatility (e.g., a relatively rapid and unpredicted deviation from baseline water quality). Increased water quality volatility and deep uncertainty stress water systems, confound design decisions, and increase the risk of decreased water system performance. Recent emphasis on resilience in drinking water treatment has partly addressed this issue, but still establishes an adversarial relationship with change. An antifragile system benefits from volatile change. By incorporating antifragility, water systems may move beyond resilience and improve performance with extreme events and other changes, rather than survive, or fail and quickly recover. Using examples of algal blooms, wildfires, and the COVID-19 pandemic, this work illustrates fragility, resilience, and antifragility within physicochemical process design including clarification, adsorption and disinfection. Methods for increasing antifragility, both individual process options and new system design tools, are discussed. Novel physicochemical processes with antifragile characteristics include ferrate preoxidation and magnetic iron (nano)particles. New design tools that allow for systematic evaluation of antifragile opportunities include artificial neural networks and virtual jar or pilot "stress testing". Incorporating antifragile characteristics represents a trade-off with capital and/or operating cost. We present a real options analysis approach to considering costs in the context of antifragile design decisions. Adopting this antifragile perspective will help ensure water system improved performance during extreme events and a general increase in volatility.

Pollutants distribution using environmetric technique in surface water sited at Gebeng, Kuantan, Pahang, Malaysia

The quick response of contaminants from various sources and the extensive deterioration of rivers' water quality may harm our biodiversity, aquatic creatures, and environment. The depletion of this river water quality can be caused by both natural and manmade factors and this condition will jeopardize its use for many human uses and may harm the residents' health. Our concerning phenomenon prompted this investigation to study the primary pollutant source in two rivers near Gebeng. A total of ten sampling stations from both Balok and Tunggak Rivers were selected and physicochemical parameters reading were measured monthly afore and in COVID-19 Pandemic spread in Malaysia from March 2019 to October 2020. Later, the Cluster and Principal Component Analysis (CA and PCA) were applied. CA grouped the ten sampling stations into three clusters which are upstream areas that were considered as most polluted. PCA yields only four significant components that represented 90.68% of the total variability. The findings of this study can provide useful information regarding the current state of river water quality in the Gebeng area, and the proposed method can be used as a strategy for sustaining the use of water resources in support of long-term development goals.

The 3rd International conference on Fisheries and Marine Sciences, Surabaya, Indonesia, 10 September 2020

This proceedings contains 96 papers on ocean biodiversity;breeding, reproduction, feeding and diseases of aquacultured fish and shellfish;water quality;fishery management, seafood preservation and quality;aquaculture and fishery economics and the impact of COVID-19 on aquaculture and fishery production.

Translating nursing and health science research into evidence-based practice in achieving SDGs. The 3rd International Nursing and Health Sciences Students and Health Care Professionals Conference (INHSP), South Sulawesi, Indonesia, 6-7 November 2019

This conference proceeding contains 126 articles that discuss a variety of topic which includes public health, COVID-19, health and agriculture, maternal and child health, aromatherapy, mental health, health care and health services, traditional medicine, culture, maternal and child health, food safety, media communications, reproductive and sexual health, water quality and safety, socioeconomics and nutrition, among others.

Baseline assessment of heavy metal pollution during COVID-19 near river mouth of Kerian River, Malaysia

River water quality is a serious concern among scientist and government agencies due to increasing anthropogenic activities and uncontrolled industrial discharge to rivers. The present study was conducted near the river mouth of the Kerian River to assess heavy metal pollution during COVID-19 pandemic-lockdown conditions and post-COVID-19 pandemic-unlock conditions. Twelve samples of shallow, middle, and bottom depths were collected at four locations along a 9.6 km reach. A concentration of eight heavy metals including Cadmium, Chromium, Copper, Iron, Manganese, Nickel, Lead, and Zinc were extracted through atomic absorption spectrometry. Total suspended solid was measured during laboratory experimentation. The results showed that, during the pandemic, concentrations of Nickel, Zinc, and Iron were high at shallow, middle, and bottom depths, respectively. Decreasing orders of heavy metal concentration are variable at different depths due to either their high sinking tendency with other existing components of water matrix or the anthropogenic source. However, almost all values of heavy metals are under the permissible limit of National Water Quality Standards of Malaysia and Food and Drug Administration. A possible reason for the lack of heavy metal pollution may be the restriction of anthropogenic activities during the COVID-19 pandemic. Additionally, no significant differences were observed in total suspended solid.

Post corona water crisis management

This article talks about future water crisis management after the COVID-19 pandemic. Scenarios such as water use wastage due to hand washing and eutrophication with soap and detergent and water spray as sanitary measures in cities and metros were highlighted as examples and part of the crisis. More than this, climate change in tandem with hydrologic variability were viewed to have a profound impact on the water sector as well. Finally, the article predicts that in 2025, water shortages will be more prevalent due to rising demand and conflict, and how governments will find solutions to such issues moving forward.

Aquaculture: an introductory text

This 4th edition covers issues associated with sustainable aquaculture development, culture systems, hatchery methods, nutrition and feeding of aquaculture species, reproductive strategies, harvesting, and many other topics. While its main focus is on the culture of fish, molluscs and crustaceans for food, the book also covers other forms of aquaculture, such as the production of seaweeds, recreational fish and ornamental species, as well as live foods, such as algae and rotifers that are used to feed larval shrimp and marine fish. Thoroughly updated and revised, this essential textbook now includes increased coverage of open-ocean cage culture and sea lice issues with salmon culture, coverage of the significant progress made in nutrition, including the move away from fishmeal as protein and fish oil as lipids in feed, information on biofloc technology uses, predictive impacts of climate change, probiotics, and the impact of COVID-19 on the aquaculture community, and updated aquaculture production statistics and lists of approved anaesthetics. Aquaculture remains one of the most rapidly growing agricultural disciplines, and this book remains an essential resource for all students of aquaculture and related disciplines.

Coronavirus disease (COVID-19): water quality, sanitation and hygiene management in light of coronavirus disease (COVID-19)

This paper describes the different ways to properly manage water quality, sanitation and hygiene in South Africa amidst COVID-19. These are: (1) use of safe disinfectants in the form of bleach, hyphochlorite or chlorine to disinfect the water before use;(2) virus inactivation through boiling (meaning, rolling boiling water for 2-3 minutes), irradiation (solar and UV) disinfection, and sedimentation and filtration techniques;(3) reclamation of wastewater and the use of sanitation services;safe practices in households through safe confinement of human wastes (faeces and urine);and (4) frequent and proper hand hygiene.

Assessment of the global environmental impacts of COVID-19 pandemic

During the COVID-19 pandemic period, measures taken to control the spread of the virus worldwide;caused a decrease in social, economic and commercial activities. This situation inevitably affected the environmental components directly or indirectly. With the implementation of COVID-19 restrictions, it has been observed that air quality has improved significantly, greenhouse gas emissions have decreased, water pollution and noise levels have slowdown, surface and ground water quality has enhanced and traffic density has reduced in different cities of the world. However, despite these positive effects on the environment, the new corona virus epidemic also caused negative effects such as low indoor air quality, increased use of disposable plastics and medical waste such as masks and gloves, and decreased amount of recycling waste. In this study, it is aimed to reveal the positive and negative effects of the COVID-19 pandemic on environment by reviewing the scientific literatures.

Balanced nutrition practiced with limitations during the COVID-19 pandemic: the experience of teachers in Subang District, West Java, Indonesia

The purpose of the study is to assess the knowledge on Balanced Nutrition and its practices among pre-school teachers in Subang district, West Java, Indonesia before and during the COVID-19 pandemic (before March 2020 vs. October 2021) and to seek differences in the knowledge and practices of teachers who attended nutrition training and those who did not attend any nutrition training. We evaluated the knowledge and practice of 142 teachers based on 10 messages of the 2014 Indonesian Balanced Nutrition Guidelines, using google online survey platform. The top three messages mostly selected by the teachers were consuming a variety of staple foods (87%), drinking adequate and safe water (87%), and eating plenty of vegetables and fruits (86%), while the least selected were enjoying a variety of foods (41%) and reading food labels (28%). A slight increase was found in teachers who consumed fruits daily, while the practice of washing hands before and during the pandemic was statistically and significantly increased (58% to 72%;p < 0.05). A slight decrease was found in teachers who consumed vegetables and animal protein, as well as performed physical exercise daily. Majority of teachers (80%) participated in some kinds of nutrition training in the last four years. The top three gaps of knowledge between trained and non-trained teachers were on physical activity and maintaining ideal body weight (64% vs. 33%;statistically significant at p < 0.05);limit intake of sweet, salty, and fatty food;and consuming high protein food, with the range between 20 to 35 percentage points. We concluded that teachers acquired knowledge on nutrition to some degree, but its application faced limitations during the pandemic. Dissemination of Balanced Nutrition should continue.

Post-pandemic effects on faecal pollution of aquatic systems

In order to highlight the impact of the pandemic phenomenon, especially on the wide use of antibiotics and biocides on bacterial communities, 3 Romanian interest regions were studied during 2019-2020. Every year, three wastewater sampling campaigns were organized from Covid-19 hospitals and WWTPs. The effluents were subjected to quantitative analysis for the determination of fecal coliform bacteria by the MPN (Most Probable Number) method using Colilert-18 medium (Idexx). The positive control (Escherichia coli ATCC25922, Citrobacter freundii ATCC 8090 and Enterobacter aerogenes ATCC 13048) and the negative one (Enterococcus faecalis ATCC 29212) were tested. In the same time, a blank control with sterile distilled water was analyzed. Hospital effluents did not show high densities of coliform bacteria at the beginning of the pandemic, but the values of these indicators were high (an average of over 5x105 CFU/100mL) in the WWTP. With the evolution of the pandemic, the treatment plants have streamlined their treatment processes, so that by the end of 2019 the densities of coliform bacteria remained around 5x104 CFU/100mL. While in mid-2020 the density of coliform bacteria decreased in hospital effluents, an increase can be observed in WWTP. In conclusion, the inversely proportional distribution of the densities of coliform bacteria in the hospital compared to WWTP, could be explained by the action of biocides and antibiotics on the microorganisms in the hospital environment that determined their decrease in wastewater.

Effect of COVID-19 pandemic on environment and society: in Indian scenario

Present world! If we utter these words in the present scenario, they will reflect with their truest meaning even in the mind of a lay man of a country. Yes, this is the impact of the Corona Virus Pandemic 2019 which has made the whole world stand in the same line today. We are feeling globally, watching globally and learning globally. COVID -19 Pandemic causes deadly effects on human populations all over the world. Millions of deaths have occurred and more than billions are suffering from this deadly disease. Present study is based on the effects of Pandemic Covid -19 on environment and Human society. On environment issues we focus on the hydrological study of river Ganga near Bijnor District and on wild life. Social aspect specially focuses on the behavioral changes in human beings during lockdown period. Study indicates that all living beings, except human feel happy during lock down. This chapter includes analysis of water quality of lotic system and ethological changes of the animals. Results indicate that significant changes occur in aquatic life and the noticeable changes were found in the behavior of human beings.

A global perspective on the influence of the COVID-19 pandemic on freshwater fish biodiversity. (Special Issue: Conservation and ecological impacts of the COVID-19 pandemic.)

The COVID-19 global pandemic and resulting effects on the economy and society (e.g., sheltering-in-place, alterations in transportation, changes in consumer behaviour, loss of employment) have yielded some benefits and risks to biodiversity. Here, we considered the ways the COVID-19 pandemic has influenced (or may influence) freshwater fish biodiversity (e.g., richness, abundance). In many cases, we could only consider potential impacts using documented examples (often from the media) of likely changes, because anecdotal observations are still emerging and data-driven studies are yet to be completed or even undertaken. We evaluated the potential for the pandemic to either mitigate or amplify widely acknowledged, pre-existing threats to freshwater fish biodiversity (i.e., invasive species, pollution, fragmentation, flow alteration, habitat loss and alteration, climate change, exploitation). Indeed, we identified examples spanning the extremes of positive and negative outcomes for almost all known threats. We also considered the pandemic's impact on freshwater fisheries demand, assessment, research, compliance monitoring, and management interventions (e.g., restoration), with disruptions being experienced in all domains. Importantly, we provide a forward-looking synthesis that considers the potential mechanisms and pathways by which the consequences of the pandemic may positively and negatively impact freshwater fishes over the longer term. We conclude with a candid assessment of the current management and policy responses and the extent to which they ensure freshwater fish populations and biodiversity are conserved for human and aquatic ecosystem benefits in perpetuity.