Economy and diversity of aquaculture production in Bulgaria: status and trends

Aquaculture production in Bulgaria has increased over the last decade, reaching 16 442 tonnes in 2019. Fish production has doubled in comparison with 2007, while that of mussels has increased tenfold. The Bulgarian contribution to EU aquaculture production has been increasing significantly in both volume and value over the years, making up 1.15% of the volume and 1.0% of the value of EU production in 2019. Freshwater aquaculture accounts for 78% of total production. Common carp dominates with about 29.4% (4836 t), followed by rainbow trout with 29.2% (4820 t) in 2019. The cultivation of sturgeon species and caviar production are among the most dynamically developing aquaculture segments. Mariculture in the Black Sea has increased in recent years, with the production of Mediterranean mussel reaching 2932 tonnes in 2019. An average of 405 farms operated during the period 2010-2019. Four regions (Plovdiv, Stara Zagora, Burgas and Montana) account for 50% of the total fish production. Pond aquaculture is the dominant technology used in Bulgaria, and it serves as the basis for numerous other activities, including management of fish stocks in various water bodies mainly for recreational fishing. Approximately 35 net-cage farms currently operate in bigger dams. Recirculating fish farms output made up only 0.15% of the total amount of aquaculture for the period 2010-2019. The aquaculture sector exhibited difficulties in recovering from the financial crisis of 2007-2008, manifested by a slow growth for the period 2010-2014. From 2015 to 2019 there has been a significant growth, manifested in a sharp increase of total revenue and profitability, especially among the larger enterprises in the sector, as well as an increase in the number of employees, and the labour productivity. As a result, in 2019 the registered total revenue per enterprise and total revenue per employee were more than double the respective figures for 2010. The profits of larger enterprises increased more than three times on average, but smaller entities, micro-enterprises with less than 5 employees, operated at the border line between profit and loss. The COVID-19 crisis could have lasting consequences. Despite EUR 1.2 million direct payments in the sector in 2020, there has been a significant drop in the export of aquaculture products. Consumption of fish and other aquaculture products remains low compared to those in the other EU countries.

Peri-urban home gardens in San Cristobal de Las Casas, Mexico are fundamental spaces of resistance

Objective: To determine the effects of neoliberal policies (including the Green Revolution), the urban sprawl (as a consequence of population growth), and the reduction of agricultural areas on peri-urban agriculture;however, the main focus is the forms of resistance against these pressures from the dominant system. Design/Methodology/Approach: Through participant observation, surveys, collection, and botanization we identified plant species, their diversity, uses, and richness. Home gardens in San Felipe Ecatepec, Chiapas, Mexico are a system, which consists of subsystems, functions, composition, and management, as well as a high number of species, high to moderate richness, and a surface that oscillates between 600 m2 and 2500 m2. Growing products next to the house provides healthy and fresh food, creates a useful and productive space, and preserves agrobiodiversity. It is an agroecosystem where each family and sitio or home garden interact with other families and other home gardens, integrating local knowledge and offering a space for families to live together. They can be considered spaces of resistance based on traditional knowledge, which also help to control their resources and to bolster individual and collective food sovereignty. Results: Home gardens in San Felipe Ecatepec, Chiapas, Mexico are a system, which consists of subsystems, functions, composition, and management, as well as a high number of species, high to moderate richness, and established on surfaces that oscillates between 600 m2 and 2,500 m2. Study Limitations/Implications: The research was carried out during the two years of the COVID-19 pandemic, which posed an extra challenge to the field work. Findings/Conclusions: Growing products next to the house provides healthy and fresh food, creates a useful and productive space, and preserves agrobiodiversity. It is an agroecosystem where each family and sitio or home garden interact with other families and other home gardens, integrating local knowledge and offering a space for families to live together. They can be considered spaces of resistance based on traditional knowledge, which also help families to control their resources and to bolster individual and collective food sovereignty.

COVID-19: DIARRHEA, INFLAMMATION AND INTESTINAL MICROBIOTA

Introduction: Increased inflammatory cytokines has been observed in COVID-19 patients and there is evidence showing an alteration in gut-microbiota composition. SARS-CoV-2 can cause gastrointestinal symptoms, such as diarrhea. Evidence of an altered gut-microbiota composition and cytokines levels in COVID-19 diarrhea patients is lacking. Objectives: To compare serum cytokine levels and gut microbiota between COVID-19 diarrhea (D-COVID- 19) and non-diarrhea (NonD-COVID-19) patients and non- COVID-19 controls (HC). Material and methods: We included 143 hospitalized COVID-19 patients (positive quantitative reverse transcription PCR) in a single University Hospital, and 53 ambulatory HC (negative rapid serological test) were included. Blood and stool samples were collected at hospital admission in COVID-19 patients and at the time of HC recruitment. 27- pro and anti-inflammatory cytokines (Bio-Plex Pro™, Bio- Rad) were measured. Gut microbiota composition and diversity profiles were characterized by sequencing the 16S rRNA gene V3-V4 region amplified using DNA extracted from stool samples. Bioinformatics analysis was performed with QIIME2 software. First, we compare cytokine levels between COVID- 19 and HC and then COVID-19 with and without diarrhea. All comparisons were adjusted for age, sex, and BMI with linear regression. Results: The mean age in COVID-19 patients was 54 +/- 15 years (F=50%) and 52 +/- 8 (F=62%) for HC. Diarrhea was present in 19 (13.29%) of COVID-19 patients. COVID-19 patients had significative higher levels of: IL- 1ra, IL-2, IL-6, IL-7, IL-8, IL-13, IP-10 and PDGF-bb. Significant lower values of: IL-9, FGF -basic, MIP-1β, TNF-α were observed in D-COVID-19 compared to NonD-COVID-19. COVID-19 patients had a significant reduction of bacterial species (p=0.0001), and diversity and complexity of the bacterial community (Shannon's index) (p=0.0001) compared to the HC. There was no difference between D-COVID-19 and NonD-COVID-19. There were also changes in the composition of the microbiota associated with COVID-19. At the phylum level, COVID-19 patients showed a significant decrease in Actinobacteria and Firmicutes, and an increase in Bacteroidetes. At species level, an increase of 4 species of the genus Bacteroides was observed in COVID-19 patients. 31 very diverse bacterial species were found, all decreased in D-COVID-19. Conclusions: An alteration in serum cytokine levels was observed between COVID-19 and HC. D-COVID-19 had a decrease in some proinflammatory cytokines. A significant decrease in richness and species diversity of gutmicrobiota was observed in COVID-19 patients compared to HC, but no significant differences were observed between D-COVID-19 and NonD-COVID-19. However, in D-COVID- 19, a decrease in some bacterial species was observed.(Table Presented)(Figure Presented)

Species Diversity And Resistance Markers of Candida Yeasts In COVID Positive and COVID Negative Patients With Community-Acquired Pneumonia

Background. At the height of the novel coronavirus infection, the risk of fungal coinfection increases due to a decrease in the immune status of patients and massive antibacterial therapy, which leads to a complication in the course of the underlying disease and increases the risk of an unfavorable outcome. Therefore, it is necessary not only to identify all associates that cause the infectious process, but also to determine their sensitivity to antibacterial and antifungal drugs in order to select an adequate treatment regimen for a patient. The aim of the study was to investigate the species composition of fungal associates in corona positive and corona negative patients with community-acquired pneumonia (CAP), as well as to determine the spectrum of sensitivity/resistance of yeasts and yeast-like fungi to antimycotic drugs. Material and methods. The species composition of the fungal microflora in sputum samples from 723 patients with CAP, sent from a health care facility in Rostov-on-Don, was investigated. The isolated cultures were identified using bacteriological and mass spectrometric methods. The sensitivity of yeasts to antimycotic drugs was determined by disk-diffusion method. Results. It has been established that yeast and yeast-like fungi were present in sputum samples in 31-32% of patients with CAP in etiologically significant quantities. 10 different types of yeast and yeast-like fungi were identified. Candida albicans was the predominant species in terms of the number of isolated cultures (83%). A re-examination of corona positive patients after their hospital stay revealed a tendency towards an increase in the number and intensity of manifestation of candidal lesions. Moreover, a change in Candida species has been registered, which entails a change in their sensitivity to antifungal drugs. A high percentage of strains resistant to fluconazole was identified after determining the sensitivity of fungi to antimycotics. Conclusion. The data obtained demonstrate that yeast and yeast-like fungi are the dominant associates in complicated forms of CAP. In this regard, it seems appropriate to provide individual microbiological support to patients during their treatment with the identification of all pathogens.

Contribution of the herbarium of the national center of floristics of Cote d'Ivoire in the fight against the symptoms caused by the COVID-19 disease: a bibliographic synthesis

This study was undertaken to identify herbal remedies that may be involved in the symptomatic management of COVID-19 disease. From a list of 247 medicinal plants, a bibliographic study was carried out with the richness, the floristic composition, the methods of preparation and use and the active principles of the plants as a variable. The importance value of these plants was also calculated. A Principal Component Analysis showed the links between the parts of plants used, the methods of preparation, the symptoms of COVID-19 disease that can be treated and the active ingredients. The results show that 226 medicinal plants divided into 190 genera and 79 families can be used to treat the symptoms of COVID- 19 disease namely otolaryngologic signs, pulmonary signs and general signs. Of these, twenty-eight (28) can relieve the majority of symptoms of COVID-19 disease. These symptoms are rhinorrhea, cough, fever, headache, vomiting, diarrhea, and muscle aches. These plants are mainly prepared in the form of a decoction and administered mainly orally. They mainly contain flavonoids, coumarins, alkaloids, tannins, steroids, terpenoids, saponosides, essential oils, mucilages, quinones, coumarins. The importance value of these plants is between 85.71 and 57.14%. The results also showed that eight (8) groups of medicinal plants can be distinguished according to the organs used, the methods of preparation, the symptoms of the COVID-19 disease treated and the active ingredients. The results of this study could serve as a database for the formulation of improved traditional drugs in the management of symptoms of COVID-19 disease in Cote d'Ivoire.

Special issue on microbiome. (Special issue on microbiome.)

This special issue includes 13 articles focusing on innate lymphoid cells and gastrointestinal disease;microbiota-gut-brain axis in autism spectrum disorder;characteristic dysbiosis in gout and the impact of a uric acid-lowering treatment, febuxostat on the gut microbiota;gut microbiota, inflammation, and molecular signatures of host response to infection;the rice histone methylation regulates hub species of the root microbiota;a powerful adaptive microbiome-based association test for microbial association signals with diverse sparsity levels;an efficient metatranscriptomic approach for capturing RNA virome and its application to SARS-CoV-2;easy to create repeatable and editable Venn diagrams and Venn networks online.

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.

Reflecting on research produced after more than 60 years of exclosures in the Kruger National Park

Herbivores are a main driver of ecosystem patterns and processes in semi-arid savannas, with their effects clearly observed when they are excluded from landscapes. Starting in the 1960s, various herbivore exclosures have been erected in the Kruger National Park (KNP), for research and management purposes. These exclosures vary from very small (1 m2) to relatively large (almost 900 ha), from short-term (single growing season) to long-term (e.g. some of the exclosures were erected more than 60 years ago), and are located on different geologies and across a rainfall gradient. We provide a summary of the history and specifications of various exclosures. This is followed by a systematic overview of mostly peer-reviewed literature resulting from using KNP exclosures as research sites. These 75 articles cover research on soils, vegetation dynamics, herbivore exclusion on other faunal groups and disease. We provide general patterns and mechanisms in a synthesis section, and end with recommendations to increase research outputs and productivity for future exclosure experiments. Conservation Implications: Herbivore exclosures in the KNP have become global research platforms, that have helped in the training of ecologists, veterinarians and field biologists, and have provided valuable insights into savanna dynamics that would otherwise have been hard to gain. In an age of dwindling conservation funding, we make the case for the value added by exclosures and make recommendations for their continued use as learning tools in complex African savannas.

Microbial diversity and the abundance of keystone species drive the response of soil multifunctionality to organic substitution and biochar amendment in a tea plantation

High nitrogen (N) fertilizer inputs accelerate soil acidification and degradation in tea plantations, thus posing a threat to soil microbial diversity, species composition, and ecosystem service functions. The effects of organic fertilizer and biochar applications on improving soil fertility have been extensively studied on cropland;however, little is known about their effectiveness in promoting soil multifunctionality on rapidly expanding acidic soils in tea plantations. In this study, we conducted a two‐year field experiment in a subtropical tea plantation to investigate the effects of organic fertilizer substitution and biochar amendment on soil microbial communities and multifunctionality. The results showed that soil multifunctionality was enhanced in plots amended with organic fertilizer and biochar. Soil multifunctionality was significantly and positively correlated with alpha‐diversity of bacteria but not fungi. We also found that organic fertilizer substitution and biochar amendment improved soil multifunctionality by altering the abundance of keystone species. The abundance of keystone species classified as module hubs in the bacterial co‐occurrence network contributed significantly and positively to soil multifunctionality. In contrast, the keystone species categorized as module hubs in the fungal co‐occurrence network negatively affected soil multifunctionality. Soil pH was a key driver of soil microbial community composition, indicating that the increase in soil pH under organic fertilizer and biochar amendment had a crucial role in biological processes. These results suggest that organic substitution and biochar amendment are beneficial in preventing soil degradation and maintaining soil multifunctionality in subtropical tea plantations.

Investigations on water quality parameters and icthyofaunal diversity of the river Tangon at Radhikapur, Uttar Dinajpur, West Bengal, India

The physicochemical parameters and ichthyofauna diversity of the water of the internationally important river Tangon at the Radhikapur village in Uttar Dinajpur district of West Bengal were studied for one year from December 2019 to November 2020. The study was done monthly from the four selected sampling sites of the Tangon river. Water temperature varied from 16.80..C to 32.60..C at all the sites during the study. pH ranged from 7.0 to 8.5, indicating the slightly alkaline nature of the water. Higher values of electrical conductivity were observed in the summer months. Free CO2 showed a positive correlation with water temperature and total hardness during the entire study. The lowest value of dissolved oxygen was observed to be 1.80 mgL-1 at Site 1 and Site 2, which might be due to the use of fertilizer at the nearby agricultural field and lifting of excessive sand from the Tangon river. The sudden increase in dissolved oxygen concentrations at all the sites from March to June might be due to the lesser anthropogenic activities during the lockdown in India because of the Covid-19 Pandemic situation. Total hardness (57.40 mgL-1 to 125.00 mgL-1) had a significant negative correlation with transparency at Site 2. Chloride (3.00 mgL-1 to 24.14 mgL-1) had a significant correlation with pH and total hardness at Site 1. BOD was varied between 1.00 mgL-1 and 11.04 mg L-1. The highest BOD was found in December at Site 4, which was much greater than the drinking and bathing water standard set by CPCB. It may be due to the higher level of pollution due to the increasing level of anthropogenic activities. The study on ichthyofauna diversity revealed a total of 40 species of fish belonged to seventeen families from the different sites of the Tangon river during the entire study period. Cyprinidae was found to be the most dominant family throughout the study period. Eight species of fishes were under the vulnerable category (20%) and three species were under a near threatened category (7%). The present study will help formulating the future policy for conservation and proper management of the fish diversity in the Radhikapur village of the Tangon river. Public awareness is very much important for the conservation of the river.

Telling the Wood from the Trees: Ranking a Tree Species List to Aid Urban Afforestation in the Amazon

The vast Amazonian biome still poses challenges for botanists seeking to know and recognize its plant diversity. Brazilian northern cities are expanding fast, without considering the regional biodiversity, and urban plantings of almost exclusively exotic species are taking place. It is paramount that the correct identity of such trees is ascertained before procurement of the seeds and young plants, as the use of popular names may lead to importation of plant material from elsewhere, with potential introduction of invasive species. The abundant local diversity also leads to the need to score the most suitable species within a given region. Following the preparation of authoritatively named floristic lists in Southeastern Pará state, we proceeded to score and rank the most suitable trees for urban planning using different characteristics such as size, ornamental value, ecologic role, resilience and known methods of propagation. From an initial 375 species list, 263 species were ranked according to their suitability for street and urban area plantings and visualized using a Venn diagram. A final list with the 49 of the highest-ranking species was further analysed regarding their pollination and phenology period and two types of dissimilarity analyses were provided to aid practitioners in matching and choosing groups of species. Different local vegetation types mean that similar floristic lists must be used to extract cohorts of suitable plants to increase the urban richness in the eight Brazilian states that are included in the Amazonian biome.