The impact of treated wastewater irrigation on the dissemination of antibiotic resistance in soil, subsoil and groundwater environments

Almost two hundred years ago, Dr John Snow identified the faecal contaminated water as a source of bacterial infections during a severe cholera outbreak. Several years later, we have developed many weapons on our arsenal to reduce the bacterial infections, from simple ones such as public hygiene measures (e.g. frequent showers & hand washing, clean water), to specialised ones such as the use of antibiotics. The antibiotics inhibit the bacterial growth, thus their use has effectively helped to treat many bacterial infections, revolutionizing medicine. Successful recovery from surgical operations would be seldom and would last exponentially without their use. Yet, antimicrobial resistance (AMR) has increased globally threatening to render antibiotics useless. However, the “golden era” of novel antibiotics development, when many novel antibiotics were discovered in a few years, belongs to the past. The bacteria developed resistance mechanisms to every single one of the antibiotics and rendered them useless. This could be reflected to an increase in the death rates, but more importantly to the increased health-care costs, which might compromise the treatment for other diseases. The Covid-19 pandemic provided such a clear paradigm on the straining of health care systems during massive parallel hospitalisation of patients. While, the misuse of antibiotics for human and veterinary was the main contributor of the increased AMR levels, other anthropogenic activities greatly contributed to AMR spread as well. Specifically, the wastewater treatment plants are considered as hotspots for AMR and agricultural practices, such as manure amendment, have been show to clearly promote AMR. Thus, the scientific community across clinical settings, environmental and agricultural sectors intensively researches on AMR, in an attempt to fully understand the AMR phenomenon. Nevertheless, the AMR is not the only problem that currently occurs in our society. The climate change, the urbanisation and the ever increasing human population has caused an increasing freshwater scarcity. The demand for treated wastewater (TWW) irrigation has increased due to this freshwater scarcity, and is expected to increase more. Since the TWW contains a high load of antibiotics, antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARGs), the irrigation with TWW has raised concerns regarding AMR spread in the environment. Many studies have attempted to investigate the impact of TWW on AMR spread in crops and soil; however, the impact on deeper lying environments remains not yet elucidated. This should raise concerns, since groundwater remains the most valuable drinking water source globally. Here in this thesis, I attempted to gain further understanding on whether TWW irrigation promotes the AMR spread in the soil and the so-far neglected deeper-lying subsurface environments. My outmost desire is that the present work will contribute to a framework of minimising the potential risks during TWW irrigation, rendering TWW irrigation as a safe and sustainable alternative for freshwater resources depletion

The relationship between collaboration, productivity and publications: an empirical analysis in field of family business

Purpose: It is widely accepted that coauthorship and collaboration promotes intellectual partnerships and improves the quality of publications. This paper examines the relationship between collaboration, productivity and publications in the field of family business. Design/methodology/approach: The authors identify the most prolific authors, affiliations and countries and focus on the evolution of research in the field of family business. In doing so, the authors employ social network analysis to discover the structure of the networks and the ways in which authors, institutions and countries interact. Findings: The empirical results show that collaboration is positively related to productivity, and there is significant evidence that the shaped networks exhibit small-world characteristics, a condition in which collaboration within authors becomes integrated in conjunction with time. Practical implications: The findings highlight the mechanics of collaborative research production and can be useful to understand the importance of collaboration patterns to be followed in the field of family business. Originality/value: The contributions are as follows: (a) application of social network analysis to model the coauthorship patterns among individuals, institutions and countries in family business; (b) distinguishing the most degree-central authors in the social network of collaborating academics; (c) investigation of the academic collaborations in family business that have the characteristics of a small-world social network and (d) suggesting a unique connection, through published keywords, between the research priorities of the most central or prolific authors with the research trends in the family business literature. The authors demonstrate that authors\u27 collaboration becomes integrated in conjunction with time

THE VALIDATION OF THE TRANSFORMATION BETWEEN AN OLD GEODETIC REFERENCE FRAME AND A MODERN REFERENCE FRAME, BY USING EXTERNAL SPACE TECHNIQUES SITES: THE CASE STUDY OF THE HELLENIC GEODETIC REFERENCE SYSTEM OF 1987

Many of the old geodetic reference frames which realized in the previous decades using classical observations carry biases. These biases are mainly caused due to the problematic observations and/or the tectonic motion. That is the case of the official Greek geodetic reference frame which consists of classical and satellite observations. Herein, we present a rigorous approach of the reconstruction of the Greek official reference frame based on the modern geodetic reference frames and their ability to express the spatial position and the dynamic change of the stations. We applied the rigorous approach to ninety stations located in Greece and we compare it with the officially accepted procedure. We found a consistency at 59.4cm between the rigorous and the officially accepted approaches, respectively. The associated mean bias estimation was estimated at 51.4 cm, indicating the resistance of a rather large amount of systematic effects. In addition, the observed discrepancies between the two approaches show great inhomogeneity all over the country

“New Alien Mediterranean Biodiversity Records” (November 2021)

This Collective Article includes records of 29 alien and cryptogenic species in the Mediterranean Sea, belonging to eight Phyla (Rhodophyta, Ochrophyta, Cnidaria, Annelida, Mollusca, Arthropoda, Echinodermata, and Chordata) and coming from 11 countries. Notes published here can be divided into three different categories: occupancy estimation for wide areas, new records for the Mediterranean Sea, and new records of species expanding within the Mediterranean Sea. The first category includes a visual survey held along the coastline of Peloponnese (Greece), which yielded records of 15 species. The second category includes the first Mediterranean records of the Coho salmon Oncorhynchus kisutch (Greece) and of the Arabian monocle bream Scolopsis ghanam (Tunisia). The third category includes new records for countries (Ganonema farinosum in Malta, Cassiopea andromeda in Libya, Cingulina isseli in Greece, Okenia picoensis in Italy, Callinectes sapidus in Slovenia, Charybdis cf. hellerii in Malta, Urocaridella pulchella in Cyprus, Ablennes hians and Aluterus monoceros in Lebanon, and Fistularia petimba in Greece and Lebanon), new records for MSFD areas or regional seas (Septifer cumingii in the Greek Ionian Sea and F. petimba in the Marmara Sea), and confirmation of old, doubtful, or spurious records/statements (Branchiomma luctuosum in Tunisia, Thalamita poissonii in the Saronikos Gulf, and Pterois miles in Albania). Noteworthy, the three new records of F. petimba suggest that it may soon spread further in the Mediterranean Sea, as already happened for its congeneric Fistularia commersonii. Distributional data reported here will help tracing colonization routes of alien species in the basin and may facilitate the development of mitigation measures

New records of rare species in the Mediterranean Sea (October 2020)

This Collective Article presents information about 21 taxa belonging to seven Phyla (one Ochrophyta, one Porifera, three Cnidaria, two Arthropoda, three Mollusca, one Echinodermata, and ten Chordata) and extending from the western Mediterranean Sea to the Levantine Sea. The new records were reported from nine countries as follows: Spain: first records of three deep-sea species from the Blanes Canyon along the Catalan margin, namely the gorgonian Placogorgia coronata, the bivalve Acesta excavata, and the Azores rockling Gaidropsarus granti; Italy: first record of the mesopsammic nudibranch Embletonia pulchra from Ligurian shallow-waters; first record of the deep-sea carnivorous sponge Lycopodina hypogea from the north-central Tyrrhenian Sea, living in dense clusters over dead black corals; new records of the Portuguese man o’ war Physalia physalis from Sardinian and Sicilian waters; first Italian record of the large asteroid Coronaster briareus from the Ionian Sea; first record of the white grouper Epinephelus aeneus in the northernmost point of the Adriatic Sea; Croatia: first record of the gastropod Haliotis mykonosensis for the Adriatic Sea; Malta: new sightings of Physalia physalis from Maltese waters; Libya: first record of the sand crab Albunea carabus from two localities along the Libyan coast; Greece: first records of the deep-sea black coral Parantipathes larix from the eastern Mediterranean Sea; first verified record of the agujon needlefish Tylosurus imperialis in the Hellenic Ionian Sea; first confirmed record of the brown algae Treptacantha squarrosa in the eastern Mediterranean Sea; new records of three deep-sea fish species from the Aegean Sea, namely the bluntnose sixgill shark Hexanchus griseus, the Atlantic pomfret Brama brama, and the rudderfish Centrolophus niger; new record of the tripletail Lobotes surinamensis from Lesvos Island; new record of the shrimp Brachycarpus biunguiculatus from the gut content of the non-indigenous lionfish Pterois miles; Turkey: new record of the imperi- al blackfish Schedophilus ovalis from Turkish waters; Lebanon: first record of the slender sunfish Ranzania laevis, stranded along the Lebanese coast; Israel: new record, after about 60 years from the last catch, of the spotted dragonet Callionymus maculatus.peer-reviewe

Unpublished Mediterranean and Black Sea records of marine alien, cryptogenic, and neonative species

To enrich spatio-temporal information on the distribution of alien, cryptogenic, and neonative species in the Mediterranean and the Black Sea, a collective effort by 173 marine scientists was made to provide unpublished records and make them open access to the scientific community. Through this effort, we collected and harmonized a dataset of 12,649 records. It includes 247 taxa, of which 217 are Animalia, 25 Plantae and 5 Chromista, from 23 countries surrounding the Mediterranean and the Black Sea. Chordata was the most abundant taxonomic group, followed by Arthropoda, Mollusca, and Annelida. In terms of species records, Siganus luridus, Siganus rivulatus, Saurida lessepsianus, Pterois miles, Upeneus moluccensis, Charybdis (Archias) longicollis, and Caulerpa cylindracea were the most numerous. The temporal distribution of the records ranges from 1973 to 2022, with 44% of the records in 2020–2021. Lethrinus borbonicus is reported for the first time in the Mediterranean Sea, while Pomatoschistus quagga, Caulerpa cylindracea, Grateloupia turuturu, and Misophria pallida are first records for the Black Sea; Kapraunia schneideri is recorded for the second time in the Mediterranean and for the first time in Israel; Prionospio depauperata and Pseudonereis anomala are reported for the first time from the Sea of Marmara. Many first country records are also included, namely: Amathia verticillata (Montenegro), Ampithoe valida (Italy), Antithamnion amphigeneum (Greece), Clavelina oblonga (Tunisia and Slovenia), Dendostrea cf. folium (Syria), Epinephelus fasciatus (Tunisia), Ganonema farinosum (Montenegro), Macrorhynchia philippina (Tunisia), Marenzelleria neglecta (Romania), Paratapes textilis (Tunisia), and Botrylloides diegensis (Tunisia).peer-reviewe

The impact of treated wastewater irrigation on the dissemination of antibiotic resistance in soil, subsoil and groundwater environments

Almost two hundred years ago, Dr John Snow identified the faecal contaminated water as a source of bacterial infections during a severe cholera outbreak. Several years later, we have developed many weapons on our arsenal to reduce the bacterial infections, from simple ones such as public hygiene measures (e.g. frequent showers & hand washing, clean water), to specialised ones such as the use of antibiotics. The antibiotics inhibit the bacterial growth, thus their use has effectively helped to treat many bacterial infections, revolutionizing medicine. Successful recovery from surgical operations would be seldom and would last exponentially without their use. Yet, antimicrobial resistance (AMR) has increased globally threatening to render antibiotics useless. However, the “golden era” of novel antibiotics development, when many novel antibiotics were discovered in a few years, belongs to the past. The bacteria developed resistance mechanisms to every single one of the antibiotics and rendered them useless. This could be reflected to an increase in the death rates, but more importantly to the increased health-care costs, which might compromise the treatment for other diseases. The Covid-19 pandemic provided such a clear paradigm on the straining of health care systems during massive parallel hospitalisation of patients. While, the misuse of antibiotics for human and veterinary was the main contributor of the increased AMR levels, other anthropogenic activities greatly contributed to AMR spread as well. Specifically, the wastewater treatment plants are considered as hotspots for AMR and agricultural practices, such as manure amendment, have been show to clearly promote AMR. Thus, the scientific community across clinical settings, environmental and agricultural sectors intensively researches on AMR, in an attempt to fully understand the AMR phenomenon. Nevertheless, the AMR is not the only problem that currently occurs in our society. The climate change, the urbanisation and the ever increasing human population has caused an increasing freshwater scarcity. The demand for treated wastewater (TWW) irrigation has increased due to this freshwater scarcity, and is expected to increase more. Since the TWW contains a high load of antibiotics, antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARGs), the irrigation with TWW has raised concerns regarding AMR spread in the environment. Many studies have attempted to investigate the impact of TWW on AMR spread in crops and soil; however, the impact on deeper lying environments remains not yet elucidated. This should raise concerns, since groundwater remains the most valuable drinking water source globally. Here in this thesis, I attempted to gain further understanding on whether TWW irrigation promotes the AMR spread in the soil and the so-far neglected deeper-lying subsurface environments. My outmost desire is that the present work will contribute to a framework of minimising the potential risks during TWW irrigation, rendering TWW irrigation as a safe and sustainable alternative for freshwater resources depletion

The impact of treated wastewater irrigation on the dissemination of antibiotic resistance in soil, subsoil and groundwater environments

Almost two hundred years ago, Dr John Snow identified the faecal contaminated water as a source of bacterial infections during a severe cholera outbreak. Several years later, we have developed many weapons on our arsenal to reduce the bacterial infections, from simple ones such as public hygiene measures (e.g. frequent showers & hand washing, clean water), to specialised ones such as the use of antibiotics. The antibiotics inhibit the bacterial growth, thus their use has effectively helped to treat many bacterial infections, revolutionizing medicine. Successful recovery from surgical operations would be seldom and would last exponentially without their use. Yet, antimicrobial resistance (AMR) has increased globally threatening to render antibiotics useless. However, the “golden era” of novel antibiotics development, when many novel antibiotics were discovered in a few years, belongs to the past. The bacteria developed resistance mechanisms to every single one of the antibiotics and rendered them useless. This could be reflected to an increase in the death rates, but more importantly to the increased health-care costs, which might compromise the treatment for other diseases. The Covid-19 pandemic provided such a clear paradigm on the straining of health care systems during massive parallel hospitalisation of patients. While, the misuse of antibiotics for human and veterinary was the main contributor of the increased AMR levels, other anthropogenic activities greatly contributed to AMR spread as well. Specifically, the wastewater treatment plants are considered as hotspots for AMR and agricultural practices, such as manure amendment, have been show to clearly promote AMR. Thus, the scientific community across clinical settings, environmental and agricultural sectors intensively researches on AMR, in an attempt to fully understand the AMR phenomenon. Nevertheless, the AMR is not the only problem that currently occurs in our society. The climate change, the urbanisation and the ever increasing human population has caused an increasing freshwater scarcity. The demand for treated wastewater (TWW) irrigation has increased due to this freshwater scarcity, and is expected to increase more. Since the TWW contains a high load of antibiotics, antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARGs), the irrigation with TWW has raised concerns regarding AMR spread in the environment. Many studies have attempted to investigate the impact of TWW on AMR spread in crops and soil; however, the impact on deeper lying environments remains not yet elucidated. This should raise concerns, since groundwater remains the most valuable drinking water source globally. Here in this thesis, I attempted to gain further understanding on whether TWW irrigation promotes the AMR spread in the soil and the so-far neglected deeper-lying subsurface environments. My outmost desire is that the present work will contribute to a framework of minimising the potential risks during TWW irrigation, rendering TWW irrigation as a safe and sustainable alternative for freshwater resources depletion