Showing total 87 results

1. Assessment of Groundwater Vulnerability to Seawater Intrusion Using GALDIT, SITE and SIVI Methods in Laspias River Coastal Aquifer System, NE Greece.

Author

Pliaka, Christina, Gkiougkis, Ioannis, Karasogiannidis, Dimitrios, Angelidis, Panagiotis, Kallioras, Andreas, and Pliakas, Fotios-Konstantinos

Subjects

SALTWATER encroachment, HYDROGEOLOGY, AQUIFERS, GROUNDWATER, GROUNDWATER management, DATA analysis

Abstract

This paper presents the investigation of groundwater vulnerability to seawater intrusion of the aquifer system in the coastal area of Laspias River, NE Greece, for the year 2023, by applying the GALDIT, SITE and SIVI methods, in the context of the groundwater management of the area. The relevant research works include the collection and analysis of data and information regarding the geological and geomorphological environment, as well as the hydrogeological system of the area. The calculation of the GALDIT, SITE and SIVI indices values is described, and the results from the application of the methods are presented, as well as the design of relevant groundwater vulnerability maps of the study area. This paper concludes with findings and proposals useful for the reliable assessment of the hydrogeological regime of the wider study area. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Participatory Approach to Exploring Nexus Challenges: A Case Study on the Pinios River Basin, Greece.

Author

Malamataris, Dimitrios, Chatzi, Anna, Babakos, Konstantinos, Pisinaras, Vassilios, Hatzigiannakis, Evangelos, Willaarts, Barbara A., Bea, Manuel, Pagano, Alessandro, and Panagopoulos, Andreas

Subjects

THESSALY (Greece), WATERSHEDS, CONSERVATION of natural resources, NATURAL resources management, CROWDSOURCING

Abstract

The conservation of natural resources is indispensable for supporting sustainable development. Water–Energy–Food–Ecosystem (WEFE) nexus management is widely acknowledged as the utmost priority of our time. Considering the specificities of the different nexus sectors, conflicting views of sustainability may arise from different stakeholders. This paper presents and analyses an effective stakeholders' participation strategy aiming at identifying WEFE challenges in the Pinios River Basin (PRB), the most agriculturally productive and natural resource-stressed basin of Greece. The presented methodology was developed in the context of a Learning and Action Alliance (LAA) scheme adopted by the H2020 REXUS project, intended to support resilient nexus system management with the engagement of stakeholders. The proposed comprehensive methodology comprises multiple phases, including "framing", "mapping", "involvement", "co-production", and "sharing" phases. The involvement phase is the most interactive one, including the organisation and outputs of efficient crowdsourcing theme sessions organised in the framework of the first REXUS PRB stakeholders' workshop. This paper illustrates and analyses stakeholders' perceptions regarding nexus status in the PRB and reveals the most critical challenges in the pilot basin, along with their interdependencies and correlations. The determination of nexus challenges insights by stakeholders could significantly contribute to redefining policies so that they align with sustainable development aims. This methodology is proposed to form the baseline strategy in stakeholders' engagement for future nexus management studies. [ABSTRACT FROM AUTHOR]

Published

2023

3. Index-Based Groundwater Quality Assessment of Nestos River Deltaic Aquifer System, Northeastern Greece.

Author

Kampas, George, Panagopoulos, Andreas, Gkiougkis, Ioannis, Pouliaris, Christos, Pliakas, Fotios-Konstantinos, Kinigopoulou, Vasiliki, and Diamantis, Ioannis

Subjects

GROUNDWATER quality, WATER quality, WATER use, GROUNDWATER sampling, AQUIFERS, AGRICULTURAL productivity, GEOTHERMAL resources

Abstract

The Nestos River delta is one of the most important and sensitive basins in Greece and Europe due to its ecosystem functions, combining intensive agricultural production with low-enthalpy geothermal energy and important ecotopes. High water quality is of paramount importance to the sustainability of the system. Systematic and continuous assessment of water quality needs to be carried out in a way that is easy and quick for decision makers and non-expert societal partners to comprehend. In this way, decisions may be made more rapidly, and involved water users may be sensitized to rational water use. To this end, this paper presents the assessment of groundwater quality in the Nestos River's western delta with the use of Poseidon (PoS), a versatile, index-based method. Groundwater samples collected from 24 and 22 wells tapping the unconfined and the confined aquifers, respectively, in four time periods (May and October 2019 and 2020) were analyzed. Using the PoS index, groundwater samples were classified according to their quality status, highlighting the parameters driving quality degradation issues, thus assisting water managers in obtaining an overview of quality status and evolution through datasets that were often large. PoS index is applied in the study area for the first time and provides a groundwater quality assessment through a unique score representative of the overall water quality status regardless of processes (anthropogenic or natural) or any kind of pressures. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Chronology-Based Wave Input Reduction Technique for Simulations of Long-Term Coastal Morphological Changes: An Application to the Beach of Mastichari, Kos Island, Greece.

Author

Malliouri, Dimitra I., Petrakis, Stelios, Vandarakis, Dimitrios, Moraitis, Vyron, Goulas, Tatiana, Hatiris, Georgios-Angelos, Drakopoulou, Paraskevi, and Kapsimalis, Vasilios

Subjects

WIND waves, SHORELINES, COASTS, COASTAL engineering, MARINE engineering, BEACHES, BEACH erosion, SIMULATION methods & models

Abstract

The main objective of the present paper is to achieve the simulation of the long-term (e.g., annual) morphological evolution (bathymetry and shoreline) of a coastal area (Mastichari beach, Greece) due to wind-generated waves in an accurate and cost-effective way. For this purpose, wave climate schematization techniques are adopted in order to reduce the computational effort without losing or distorting the crucial information. Referring to the current practice, the wave chronology is not considered in detail in these acceleration techniques, and therefore, sea bottom and shoreline evolution are not estimated as a function of time. To fill this gap, a novel and easy-to-use chronology-based wave input reduction method is developed to produce representative wave time series of different intensities and durations. The performance of all the applied techniques in the present study is evaluated, and a comparative analysis is conducted. It is shown that the new chronology-based wave input reduction method can achieve a model run-time reduction of about 70%, while at the same time, it provides satisfactorily accurate results. In general, this research could be useful for coastal engineering studies and coastal zone monitoring, and thus, it would be a valuable tool for coastal engineers and marine scientists. [ABSTRACT FROM AUTHOR]

Published

2023

5. Groundwater Vulnerability and Delineation of Protection Zones in the Discharge Area of a Karstic Aquifer—Application in Agyia's Karst System (Crete, Greece).

Author

Steiakakis, Emmanouil, Vavadakis, Dionysios, and Mourkakou, Ourania

Subjects

AQUIFERS, KARST, GROUNDWATER flow, UNDERGROUND areas, HYDROGEOLOGICAL surveys, GROUNDWATER pollution, WATER pollution potential, AQUIFER pollution

Abstract

This work represents a contribution to the protection techniques of karst aquifers against groundwater pollution. The paper sets out the methodology being introduced for the protection of the karstic system that gives rise to five (5) major groups of springs and supplies fourteen (14) pumping wells near Agyia Chania (Crete, Greece). Starting from a geological and hydrogeological survey of the area, the work presents a vulnerability assessment of the karstic aquifer based on the application of three index-based methods (EPIK, PRESK and DRISTPI). The protection zones for the discharge area of the aquifer were delineated through an integrated geomorphological approach and groundwater flow modeling. At first, the risk of polluting substances migration from ground surface to groundwater was considered based on the spatial distribution of vulnerability. Following this, the vulnerability was evaluated in the saturated zone, where the attenuation mechanisms of contaminants were reducing due to the raised flow velocity. The groundwater flow and contaminant transport processes was considered using the MODFLOW code. Next, the data from the vulnerability mapping and the groundwater flow simulation were merged into an integrated assessment to delimit the protection zones for the water abstraction points. The vulnerability assessment outlines zones of high vulnerability in the SE part of the area, far away from the discharge zone of the aquifer and the water abstraction points. These zones are associated with an intensive infiltration process via carbonate formations. Protection Zone I was delineated 20 m around the water abstraction points, and it should be excluded from any anthropogenic activity. Protection Zone II coves part of the very high and high vulnerability zones defined by the DRISTPI method (located upwards of the water abstraction points), as well as an area downwards of springs and wells, where the flow path lines which demonstrate the subsurface travelling time of 50 days are projected to the ground surface. Protection Zone III extends outside Zone Ι and Zone ΙΙ, up to the limits of the hydrogeological or hydrological basin, whichever is larger. It includes the entire capture zone (i.e., the surface and underground catchment area) that feeds the water abstraction points. In this manner the protection zones include the entire contributing area to water abstraction points, not just the ground surface recharge zone. [ABSTRACT FROM AUTHOR]

Published

2023

6. Desalination Technologies: Hellenic Experience.

Author

Zotalis, Konstantinos, Dialynas, Emmanuel G., Mamassis, Nikolaos, and Angelakis, Andreas N.

Subjects

SALINE water conversion, BRACKISH waters, WATER supply, WATER purification costs, ENVIRONMENTAL impacts of hazardous waste sites

Abstract

Beyond doubt, desalination is growing rapidly worldwide. However, there arestill obstacles to its wider implementation and acceptance such as: (a) high costs andenergy use for fresh water production; (b) environmental impacts from concentrate disposal;(c) a complex, convoluted and time-consuming project permitting process; and (d) limitedpublic understanding of the role, importance, benefits and environmental challenges ofdesalination. In this paper, a short review of desalination in Greece is being made. Data onthe cost of desalination shows a decrease in the future and the potential of waterdesalination in Greece. The paper summarizes the current status in southeastern Greece(e.g., Aegean islands and Crete), and investigates the possibility of production ofdesalinated water from brackish water. [ABSTRACT FROM AUTHOR]

Published

2014

7. Desalination Technologies: Hellenic Experience.

Author

Zotalis, Konstantinos, Dialynas, Emmanuel G., Mamassis, Nikolaos, and Angelakis, Andreas N.

Subjects

ENVIRONMENTAL impact analysis, FRESH water, SALINE water conversion, BRACKISH waters

Abstract

Beyond doubt, desalination is growing rapidly worldwide. However, there are still obstacles to its wider implementation and acceptance such as: (a) high costs and energy use for fresh water production; (b) environmental impacts from concentrate disposal; (c) a complex, convoluted and time-consuming project permitting process; and (d) limited public understanding of the role, importance, benefits and environmental challenges of desalination. In this paper, a short review of desalination in Greece is being made. Data on the cost of desalination shows a decrease in the future and the potential of water desalination in Greece. The paper summarizes the current status in southeastern Greece (e.g., Aegean islands and Crete), and investigates the possibility of production of desalinated water from brackish water. [ABSTRACT FROM AUTHOR]

Published

2014

8. Groundwater Depletion. Are Environmentally Friendly Energy Recharge Dams a Solution?

Author

Kazakis, Nerantzis, Karakatsanis, Diamantis, Ntona, Maria Margarita, Polydoropoulos, Konstantinos, Zavridou, Efthymia, Voudouri, Kalliopi Artemis, Busico, Gianluigi, Kalaitzidou, Kyriaki, Patsialis, Thomas, Perdikaki, Martha, Tsourlos, Panagiotis, Kallioras, Andreas, Theodossiou, Nicolaos, Pliakas, Fotios-Konstantinos, Angelidis, Panagiotis, Mavromatis, Theodoros, Patrikaki, Olga, and Voudouris, Konstantinos

Subjects

GROUNDWATER, DOWNSCALING (Climatology), DAMS, WATER table, FLOW simulations

Abstract

Groundwater is a primary source of drinking water; however, groundwater depletion constitutes a common phenomenon worldwide. The present research aims to quantify groundwater depletion in three aquifers in Greece, including the porous aquifers in the Eastern Thermaikos Gulf, Mouriki, and the Marathonas basin. The hypothesis is to reverse the phenomenon by adopting an environmentally acceptable methodology. The core of the suggested methodology was the simulation of groundwater using MODFLOW-NWT and the application of managed aquifer recharge (MAR) by using water from small dams after the generation of hydropower. Surface run-off and groundwater recharge values were obtained from the ArcSWAT simulation. The predicted future climatic data were obtained from the Coordinated Regional Climate Downscaling Experiment (CORDEX), considering the Representative Concentration Pathway (RCP) 4.5 and the climate model REMO2009. Groundwater flow simulations from 2010 to 2020 determined the existing status of the aquifers. The simulation was extended to the year 2030 to forecast the groundwater regime. In all three sites, groundwater depletion occurred in 2020, while the phenomenon will be exacerbated in 2030, as depicted in the GIS maps. During 2020, the depletion zones extended 11%, 28%, and 23% of the aquifers in Mouriki, the Eastern Thermaikos Gulf, and the Marathonas basin, respectively. During 2030, the depletion zones will increase to 50%, 42%, and 44% of the aquifers in Mouriki, the Eastern Thermaikos Gulf, and the Marathonas basin, respectively. The simulation was extended to 2040 by applying MAR with the water from the existing dams as well as from additional dams. In all sites, the application of MAR contributed to the reversal of groundwater depletion, with a significant amount of hydropower generated. Until 2040, the application of MAR will reduce the depletion zones to 0.5%, 9%, and 12% of the aquifers in Mouriki, the Eastern Thermaikos Gulf, and the Marathonas basin, respectively. Apart from over-pumping, climatic factors such as long periods of drought have exacerbated groundwater depletion. The transformation of dams to mini-scale hydropower facilities combined with MAR will benefit clean energy production, save CO2 emissions, and lead to an economically feasible strategy against groundwater depletion. [ABSTRACT FROM AUTHOR]

Published

2024

9. Water Governance for Climate-Resilient Agriculture in Mediterranean Countries.

Author

Sismani, Georgia, Pisinaras, Vassilios, and Arampatzis, Georgios

Subjects

CLIMATE change adaptation, WATER management, WATER efficiency

Abstract

Effective water governance is the key to achieving water security and sustainable water management. This study promotes water efficiency and supports the shift towards climate-resilient agriculture in Mediterranean countries through the development and implementation of water management adaptation strategies in three Farmers' Organizations (F.ORs) located in Mediterranean areas. An integrated water governance scheme is presented, which can be applied at the F.OR level for a more effective implementation of the water management adaptation strategy. The proposed water governance scheme has been adopted by three F.ORs (two in Crete, Greece, and one in Basilicata, Italy). The water management system that is developed as a tool for the implementation is presented, and the lessons learnt during the implementation are discussed. Experience from the pilot implementation of the proposed strategy in the three participating F.ORs indicated that systematic monitoring and evaluation of the strategy can increase the implementation efficiency and save resources. Moreover, the significance of internal dissemination and transparency was highlighted. The result of this study is the proposed integrated water governance scheme, which constitutes a valuable tool for F.ORs' adaptation to climate change in terms of water efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

10. Implications of Human Activities, Land Use Changes and Climate Variability in Mediterranean Lakes of Greece.

Author

Stefanidis, Konstantinos, Kostara, Aikaterini, and Papastergiadou, Eva

Subjects

LAND use, CLIMATE change, WATER quality, ANTHROPOGENIC effects on nature, LAKES

Abstract

Lakes in the Mediterranean climate zone experience high variation in rainfall and are vulnerable to changes in climate, land cover and anthropogenically induced effects on water level and salinity. This paper presents the results from the analyses of spatiotemporal changes of land cover/uses at catchment scale of two connected lakes in Greece that have recently exhibited a dramatic loss of water volume, and investigates the potential role of climate change as a main driver of the lake water loss. The classification of the historical land cover/uses was based on a series of LANDSAT images from 1972 to 2011. Changes in the landscape structure were assessed using landscape metrics that were calculated with FRAGSTATS software. Climate data and temporal series of water level, conductivity and chloride concentration, were analyzed to investigate the potential role of climate variability to the lake hydrology and water quality. The results showed that between 1972 and 2011 almost 28% of Lake Vegoritis and 13% of Lake Petron were replaced by cultivations and reed beds. Landscape metrics showed that the lake catchment's area is highly fragmented, indicating a heterogeneous spatial pattern and degradation of the rural habitats. Regarding the climatic factors, it appears that precipitation follows a declining trend correlating with water level fluctuations. The water level in Lake Vegoritis also correlated with the conductivity and chloride concentration, indicating a relationship between hydrological alteration and water quality. Overall, a combined effect of climate- and human-induced land cover changes appeared to be responsible for the drastic environmental changes that urge the need for implementing effective restoration and mitigation measures. [ABSTRACT FROM AUTHOR]

Published

2016

11. Assessing the Connection between Land Use Planning, Water Resources, and Global Climate Change.

Author

Kalfas, Dimitrios, Kalogiannidis, Stavros, Papaevangelou, Olympia, and Chatzitheodoridis, Fotios

Subjects

LAND use planning, WATER supply, WATER management, GREENHOUSE gases, FARM management, OCEAN zoning, DROUGHTS, CLIMATE change

Abstract

The complex interplay between land use planning, water resource management, and the effects of global climate change continues to attract global attention. This study assessed the connection between land use planning, water resources, and global climate change. Data were collected using an online questionnaire that was emailed to 320 professionals in the land and environmental sectors in Greece and Europe. The results showed a significant relationship between land use planning, water resources, and their policies with global climate change. It was also revealed that proper land use planning can guide the establishment of waste management systems that minimize methane emissions, and that land use planning influences agricultural practices, which, in turn, impact greenhouse gas emissions. It was also revealed that changes in precipitation patterns can lead to an increased frequency and severity of droughts, and that changes in water temperature and flow can lead to habitat loss. This study also confirmed that strong policy support helps in the conservation of land and water resources, and stakeholder engagement promotes a shared planning process, leading to commonly agreed-upon spatial measures. This study recommends that governments and policymakers should integrate climate change, land use, and water management policies to ensure a coherent and effective approach towards sustainable development. [ABSTRACT FROM AUTHOR]

Published

2024

12. Integrated Groundwater Resources Management Using the DPSIR Approach in a GIS Environment: A Case Study from the Gallikos River Basin, North Greece.

Author

Mattas, Christos, Voudouris, Konstantinos S., and Panagopoulos, Andreas

Subjects

GROUNDWATER, LAND use, WATER pollution, LAND economics, WATERSHEDS

Abstract

The Gallikos River basin is located in the northern part of Greece, and the coastal section is part of a deltaic system. The basin has been influenced by anthropogenic activities during the last decades, leading to continuous water resource degradation. The holistic approach of the Driver-Pressure-State-Impact-Response (DPSIR) framework was applied in order to investigate the main causes and origins of pressures and to optimize the measures for sustainable management of water resources. The major driving forces that affect the Gallikos River basin are urbanization, intensive agriculture, industry and the regional development strategy. The main pressures on water resources are the overexploitation of aquifers, water quality degradation, and decrease of river discharge. Recommended responses were based on the Water Framework Directive (WFD) 2000/60/EC, and sum up to rationalization of water resources, land use management and appropriate utilization of waste, especially so effluent. The application of the DPSIR analysis in this paper links the socioeconomic drivers to the water resource pressures, the responses based on the WFD and the national legislation and is as a useful tool for land-use planning and decision making in the area of water protection. [ABSTRACT FROM AUTHOR]

Published

2014

13. Uncoupled Precipitation and Water Availability: The Case Study of Municipality of Sfakia, Crete, Greece.

Author

Tzanakakis, Vasileios A., Pavlaki, Aikaterini, Lekkas, Emmanouil, Varouchakis, Emmanouil A., Paranychianakis, Nikolaos V., Fasarakis, Giorgos, and Angelakis, Andreas N.

Subjects

WATER supply, WATER management, CARBONATE rocks, CITIES & towns, SEA level

Abstract

Sfakia is a mountainous municipality located in the southwestern area of the island of Crete, including the southern part of the Lefka Ori Mountain, with an elevation ranging from sea level to over 2400 m. The mountainous massif mainly consists of carbonate rocks and intense karstic phenomena can be observed. The part of the area exceeding over the elevation of 600 m is characterized by high amounts of precipitation (1500 mm). Despite this high precipitation, the water availability in the area is low. This work aims to identify the factors that affect the water-resources availability in this area. In addition, issues related to proper water management are presented and discussed that will allow areas with similar characteristics to adapt to climate change. Our study identified the complex geological setting of the area that redirects water away of the hydrological basin (karsts) and the geomorphology that favors precipitation loss through runoff as the most important factors for the low availability of water resources. This paper attempts to create a base of discussion for similar cases worldwide by providing a framework of approaching scientifically analogous problems. [ABSTRACT FROM AUTHOR]

Published

2022

14. Integrated Ecological Assessment of Heavily Polluted Sedimentary Basin within the Broader Industrialized Area of Thriassion Plain (Western Attica, Greece).

Author

Makri, Panayota, Hermides, Demetrios, Kontakiotis, George, Zarkogiannis, Stergios D., Besiou, Evangelia, Janjuhah, Hammad Tariq, and Antonarakou, Assimina

Subjects

ECOLOGICAL assessment, SEDIMENTARY basins, LAGOONS, COASTAL sediments, COASTAL plains, MARINE sediments

Abstract

The Thriassion Plain, the Saronikos Gulf and Eleusis Bay, Western Attica in Greece, receive pressures from the enormous industrial activity, as well as the Athens metropolitan area and the Piraeus port. Therefore, it is considered as brownfield in the Eastern Mediterranean Sea. The multi-component industrial activity has impacted the soil, the groundwater of Thriassion Plain and the coastal marine sediments of the adjacent Eleusis Bay, part of Saronikos Gulf as well as a brackish lagoon, Koumoundourou Lake. The industrial activity is expressed by high contents of metals, and oil products. This study presents the pollution record of selected published papers that indicate the temporal evolution of legislated polluting compounds, supporting researchers to provide solutions and policy makers to focus on the whole spectrum of potential policy alternatives. [ABSTRACT FROM AUTHOR]

Published

2022

15. Wastewater Reuse Planning in Agriculture: The Case of Aitoloakarnania, Western Greece.

Author

Kalavrouziotis, Ioannis K., Arambatzis, Christos, Kalfountzos, Dimitrios, and Varnavas, Soterios P.

Subjects

INDUSTRIAL waste management, WATER reuse, AGRICULTURE, SOIL protection, ENVIRONMENTAL protection

Abstract

In the present paper, the possibility of the treated municipal wastewater (TMWW) reuse in agriculture, produced by the Wastewater Treatment Plants of Aitoloakarnania prefecture, one of the greatest agricultural regions of Greece, has been investigated. The boundaries of agricultural soils and the irrigated crops were defined, and the water requirements of crops were calculated. Also the chemical characteristics of the TMWW were determined for the safe reuse in crop production, and for the protection of soils from potential pollution. The research conducted in this area is expected to constitute the basis for an integrated TMWW reuse planning in soils and crops, in the context of sustainable agriculture, and environmental protection. It must be mentioned that the Messolongion-Aitolikon lagoon is in the area under investigation, one of the largest wetland ecosystem of Mediterranean region, which makes the area ecologically sensitive. The ultimate scope of this study is to describe the planning of the TMWW reuse on the basis of soil characteristics, climatic factors, and irrigation water requirements of the crops, grown in this ecologically sensitive area. The volume of the effluents produced by the wastewater treatment plants of Messolonghion, Agrinion, Nafpaktos, Aitoliko and Thermo could cover 19.3%, 25.14%, >100%, 17.18 and 87.84% of the irrigation water requirements, respectively. [ABSTRACT FROM AUTHOR]

Published

2011

16. Deep Learning in Water Resources Management: Τhe Case Study of Kastoria Lake in Greece.

Author

Karamoutsou, Lina and Psilovikos, Aris

Subjects

WATER supply, WATER management, DECISION support systems, RESOURCE management, DEEP learning, CHEMICAL processes

Abstract

The effects of climate change on water resources management have drawn worldwide attention. Water quality predictions that are both reliable and precise are critical for an effective water resources management. Although nonlinear biological and chemical processes occurring in a lake make prediction complex, advanced techniques are needed to develop reliable models and effective management systems. Artificial intelligence (AI) is one of the most recent methods for modeling complex structures. The applications of machine learning (ML), as a part of AI, in hydrology and water resources management have been increasing in recent years. In this paper, the ability of deep neural networks (DNNs) to predict the quality parameter of dissolved oxygen (DO), in Lake Kastoria, Greece, is tested. The available dataset from 11 November 2015, to 15 March 2018, on an hourly basis, from four telemetric stations located in the study area consists of (1) Chl-a (μg/L), (2) pH, (3) temperature—Tw (°C), (4) conductivity (μS/cm), (5) turbidity (NTU), (6) ammonia (NH4, mg/L), (7) nitrate nitrogen (N–NO3, mg/L), and (8) dissolved oxygen (DO) (mg/L). Feed-forward deep neural networks (FF-DNNs) of DO, with different structures, are tested for all stations. All the well-trained DNNs give satisfactory results. The optimal selected FF-DNNs of DO for each station with a high efficiency (NSE > 0.89 for optimal selected structures/station) constitute a good choice for modeling dissolved oxygen. Moreover, they provide information in real time and comprise a powerful decision support system (DSS) for preventing accidental and emergency conditions that may arise from both natural and anthropogenic hazards. [ABSTRACT FROM AUTHOR]

Published

2021

17. Development of a Fish-Based Multimetric Index for the Assessment of Lagoons' Ecological Quality in Northern Greece.

Author

Sapounidis, Argyrios S. and Koutrakis, Emmanuil T.

Subjects

LAGOONS, WATER management, WATER quality, FISH populations, FISH communities, FRESHWATER biodiversity

Abstract

Maintaining and improving the aquatic ecosystems in the community is the aim of the Water Framework Directive (WFD) 2000/60/EC. The WFD requires the water quality to be classified into five categories. Lagoons are dynamic ecosystems. The fish communities inhabiting them are highly affected by the environmental conditions prevailing both in the freshwater systems and in the marine environment. The current paper presented the first effort to develop a fish-based index (Lagoon Fish-based Index—LFI) for the assessment of the Mediterranean shallow lagoons, as almost all indices produced to date refer to freshwater or estuarine systems. For the development and calibration of the index, data were collected from nine lagoons situated in three estuarine systems in the East Macedonia and Thrace regions. The development of the LFI was based on the principles of the Indices of Biological Integrity (IBIs) that were primary used for the assessment of aquatic ecosystems in the USA. A total number of 25 metrics were selected as potential metrics for the LFI. These metrics describe attributes such as the abundance and composition of the fish fauna, the feeding strategies of the species, and the presence of sentinel species. Finally, eight metrics were included in the LFI. [ABSTRACT FROM AUTHOR]

Published

2021

18. OpenHi.net: A Synergistically Built, National-Scale Infrastructure for Monitoring the Surface Waters of Greece.

Author

Mamassis, Nikos, Mazi, Katerina, Dimitriou, Elias, Kalogeras, Demetris, Malamos, Nikolaos, Lykoudis, Spyridon, Koukouvinos, Antonis, Tsirogiannis, Ioannis, Papageorgaki, Ino, Papadopoulos, Anastasios, Panagopoulos, Yiannis, Koutsoyiannis, Demetris, Christofides, Antonis, Efstratiadis, Andreas, Vitantzakis, Georgios, Kappos, Nikos, Katsanos, Dimitrios, Psiloglou, Basil, Rozos, Evangelos, and Kopania, Theodora

Subjects

DOWNLOADING, WEB 2.0, WATER quality, STREAM measurements, BODIES of water, STREAM-gauging stations

Abstract

The large-scale surface-water monitoring infrastructure for Greece Open Hydrosystem Information Network (Openhi.net) is presented in this paper. Openhi.net provides free access to water data, incorporating existing networks that manage their own databases. In its pilot phase, Openhi.net operates three telemetric networks for monitoring the quantity and the quality of surface waters, as well as meteorological and soil variables. Aspiring members must also offer their data for public access. A web-platform was developed for on-line visualization, processing and managing telemetric data. A notification system was also designed and implemented for inspecting the current values of variables. The platform is built upon the web 2.0 technology that exploits the ever-increasing capabilities of browsers to handle dynamic data as a time series. A GIS component offers web-services relevant to geo-information for water bodies. Accessing, querying and downloading geographical data for watercourses (segment length, slope, name, stream order) and for water basins (area, mean elevation, mean slope, basin order, slope, mean CN-curve number) are provided by Web Map Services and Web Feature Services. A new method for estimating the streamflow from measurements of the surface velocity has been advanced as well to reduce hardware expenditures, a low-cost 'prototype' hydro-telemetry system (at about half the cost of a comparable commercial system) was designed, constructed and installed at six monitoring stations of Openhi.net. [ABSTRACT FROM AUTHOR]

Published

2021

19. Quantifying the Long-Term Performance of Rainwater Harvesting in Cyclades, Greece.

Author

Zarikos, Ioannis, Politi, Nadia, Gounaris, Nikolaos, Karozis, Stelios, Vlachogiannis, Diamando, and Sfetsos, Athanasios

Subjects

WATER management, WATER supply, ECOLOGICAL impact, WATER shortages, WATER harvesting

Abstract

South European and Mediterranean countries traditionally suffer from water scarcity, especially the regions around the Mediterranean. In Cyclades, the effects of drought have historically been observed and tackled with small-scale applications, with the most efficient method being rainwater harvesting (RWH). RWH is an inherent aspect of the local population's culture and architecture, since most houses have built-in water tanks and flat roofs to harvest as much rainwater as possible. In recent decades, the increase in local population and tourism have added additional stress to the limited water resources of the Cycladic islands. To overcome water shortages, most of the islands are equipped with desalination plants. Despite the use of these plants, RWH is still a vital source of water that is free and has zero carbon footprint. Thus, it is important to compare, assess and quantify the performance of this traditional water conserving method as a key water source for the islands' water resources management, today and for the coming decades. In this research, we investigate and quantify the future performance of rainwater harvesting applications and their contribution to continuous, sustainable, and climate-resilient water supply. The results show a decrease in rainwater harvesting potential in most of the islands, as well as the negative effect of touristic activity on per capita water availability on the islands. [ABSTRACT FROM AUTHOR]

Published

2023

20. Supporting Participatory Management Planning for Catchment Operationalization with Intuitionistic Fuzzy Sets—A Study in Laspias River, Thrace, Greece.

Author

Bakas, Thomas, Papadopoulos, Christopher, Latinopoulos, Dionissis, Kagalou, Ifigenia, Akratos, Christos, Angelidis, Panagiotis, Pliakas, Fotios-Konstantinos, and Spiliotis, Mike

Subjects

FUZZY sets, EMPLOYEE participation in management, WATER use, WATERSHEDS, WATER management, TOPSIS method

Abstract

Bottom-up management in a catchment scale is deemed the optimal way to avoid conflicts among water users through the participation of stakeholders, strategy co-shaping, and solutions co-creation. Water management cannot be one-dimensional; it demands cross sectoral cooperation. Usually, the difficulty lies in proper stakeholder training and inclusion of their opinions, which should be used in a quantifiable manner in water management. The Laspias River watershed occupies an area of 221.8 km2 that includes the River Basin District of Thrace; it is characterized by intense agricultural and industrial activity. To comply with the augmented water needs and pollution loads this research aims to utilize a hybrid intuitionistic fuzzy multi-criteria-based methodology to address respectfully stakeholders' opinion, this research aims to utilize a hybrid intuitionistic fuzzy multi-criteria-based methodology. It is often difficult to manage planning water management measures as the problems include multiple (conflicting) criteria that are based on stakeholder's opinions, which are usually imprecise and in a rather qualitative form. This study provides the mathematical tools to reach comprehensive decisions with the public involvement offering a practical solution in an existing problem, that is the proper inclusion of stakeholders' opinion. The weights are produced based on a stakeholder's opinion. The alternatives' ranking is achieved based on the fuzzified intuitionistic version of the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS), and a hierarchy of mitigation problems is achieved via this novel approach. [ABSTRACT FROM AUTHOR]

Published

2023

21. Water Renewal Simulation in Two Flow-Through Water Bodies in Western Greece.

Author

Fourniotis, Nikolaos Th. and Leftheriotis, Georgios A.

Subjects

BODIES of water, TOPOGRAPHY, LAKES, COMPUTER simulation

Abstract

The basic hydrodynamic characteristics and water renewal of two flow-through water bodies in Western Greece, the Gulf of Patras and Lysimachia Lake, are studied via numerical simulations. The currents on the northern coasts of the Gulf are much stronger compared with the southern region, and rapid water renewal is achieved in the area of the Rio–Antirio strait (<1 month). In the northern part of the Gulf, the residence time varies from 1 to 4 months, while in the central and southern parts, it is estimated to exceed 6 months. Regarding the water renewal of deep waters (>60 m), which are enclosed between sills, the same pattern was observed, with residence times exceeding 6 months. In Lysimachia Lake, the effect of inflow waters from surrounding water bodies was analyzed over a time period of approximately 2 months. Gyres formation was observed due to local topography, and the numerically predicted results for water renewal were found to be in good agreement with those in the literature. Specifically, Lysimachia Lake seems to be replenished approximately 13 times per year. [ABSTRACT FROM AUTHOR]

Published

2023

22. Carrying Capacity and Assessment of the Tourism Sector in the South Aegean Region, Greece.

Author

Vandarakis, Dimitrios, Malliouri, Dimitra, Petrakis, Stelios, Kapsimalis, Vasilios, Moraitis, Vyron, Hatiris, Georgios-Angelos, and Panagiotopoulos, Ioannis

Subjects

TOURISM, ENVIRONMENTAL degradation, SUSTAINABLE development, ARCHIPELAGOES, ARCHAEOLOGICAL excavations, BEACHES, GOVERNMENT agencies

Abstract

Since the early 1950s, Greece has been a popular travel destination providing high-quality tourism services. This was amplified by its diverse landscape, extended sandy beaches, scattered archaeological sites, people's mentality, and adequate infrastructure. In particular, the south Aegean Archipelago attracts more than six million (6,000,000) visitors annually, approximately 27% of tourist arrivals in Greece. The carrying capacity assessment of the South Aegean region aims to improve the already high standards of the offered tourist services. Seventeen appropriate variables were analyzed to assess and increase tourism attractiveness by alternative products for long-term and sustainable management. Furthermore, the outcomes of the carrying capacity indicators application provide specialized solutions to control the over-tourism impact, mitigate the natural environmental degradation, and establish a roadmap for sustainable development in the study area. The required data were interpreted based on the PAP/RAC 1997 and WTO, enriched with more suitable variables from national and international literature to determine the carrying capacity. Therefore, the selection of seventeen (17) most representative indicators was unavoidable. Finally, the calculation of the different indexes showed that Mykonos and Thira are far above the indicator scale limits and are facing over-tourism issues. Additionally, the numbers of tourists concentrated in the abovementioned islands may accelerate the environmental degradation and, as a result, the tourist product will be downgraded. The set of these seventeen indicators works best since low, obfuscated, or no environmental data are available for the South Aegean region from the official state agency. Alternative tourist development and the extension of the tourist season based on local climatic conditions must be applied to ease the over-concentration and, consequently, the degradation of the tourist product. The large islands do not seem to face significant problems. However, the calculation of CCA will contribute to the decongestion of tourism concentration together with environmental decompression, leading to sustainable development in the South Aegean region. [ABSTRACT FROM AUTHOR]

Published

2023

23. A Critical Review of Water Reuse: Lessons from Prehistoric Greece for Present and Future Challenges.

Author

Angelakis, Andreas N., Tzanakakis, Vasileios A., Capodaglio, Andrea G., and Dercas, Nicholas

Subjects

WATER reuse, EFFLUENT quality, WATER shortages, SEWAGE disposal plants, WATER management, WASTEWATER treatment

Abstract

Wastewater treatment and reuse has passed through different development stages with time. This study reviews the most essential changes in water reclamation and reuses over millennia, focusing on initial approaches in the Hellenic world and discussing the current situation. Based on archeological evidence and time records, the awareness of the Greeks regarding land disposal, irrigation, and water reuse is highlighted. The latter has evolved into a plethora of applications, with Direct Potable Reuse (DPR) representing one of the last modern frontiers. Currently, advances in wastewater treatment and the spreading of wastewater treatment plants producing large amounts of treated effluents increase the potential for water reuse. This is regarded as a critical option for the continuing protection of water resources and human health, while concurrently satisfying water demand, particularly in areas subject to increased water scarcity. The main constraints in the expansion of water reuse practices are discussed, focusing on wastewater treatment efficiency and quality effluent standards issues, as well as on the lack of motivations related to the acceptability of this practice by final users. Against these challenges, the need for a transition from an "issue-by-issue" approach to a broader integrated water management framework is highlighted. [ABSTRACT FROM AUTHOR]

Published

2023

24. Assessing the Impact of DMAs and the Use of Boosters on Chlorination in a Water Distribution Network in Greece.

Author

Tsitsifli, Stavroula and Kanakoudis, Vasilis

Subjects

WATER chlorination, WATER distribution, WATER purification, WATER pressure, DRINKING water quality, WATER quality

Abstract

Disinfection is one of the most important water treatment processes as it inactivates pathogens providing safe drinking water to the consumers. A fresh-water distribution network is a complex system where constant monitoring of several parameters and related managerial decisions take place in order for the network to operate in the most efficient way. However, there are cases where some of the decisions made to improve the network's performance level, such as reduction of water losses, may have negative impacts on other significant operational processes such as the disinfection. In particular, the division of a water distribution network into district metered areas (DMAs) and the application of various pressure management measures may impact the effectiveness of the water chlorination process. Two operational measures are assessed in this paper: (a) the use of inline chlorination boosters to achieve more efficient chlorination; and (b) how the DMAs formation impacts the chlorination process. To achieve this, the water distribution network of a Greek town is chosen as a case study where several scenarios are being thoroughly analyzed. The assessment process utilizes the network's hydraulic simulation model, which is set up in Watergems V8i software, forming the baseline to develop the network's water quality model. The results proved that inline chlorination boosters ensure a more efficient disinfection, especially at the most remote parts/nodes of the network, compared to conventional chlorination processes (e.g., at the water tanks), achieving 100% safe water volume and consuming almost 50% less chlorine mass. DMAs' formation results in increased water age values up to 8.27%, especially at the remote parts/nodes of the network and require more time to achieve the necessary minimum effective chlorine concentration of 0.2 mg/L. However, DMAs formation and pressure management measures do not threaten the chlorination's efficiency. It is important to include water age and residual chlorine as criteria when optimizing water pressure and the division of DMAs. [ABSTRACT FROM AUTHOR]

Published

2021

25. Mapping of Coastline Changes in Athens Riviera over the Past 76 Year's Measurements.

Author

Skilodimou, Hariklia D., Antoniou, Vasileios, Bathrellos, George D., and Tsami, Eleni

Subjects

COASTAL changes, COASTAL mapping, GEOGRAPHIC information systems, COASTAL zone management, AERIAL photographs, COASTS

Abstract

Mapping of coastline changes assists in coastal development and monitoring. Athens Riviera, located in the southwestern coastal zone in Attica in central Greece, has undergone major and radical changes generated by human interference during the last decades. The aim of this paper is to map record and measure the coastline changes in Athens Riviera over the past 76 years. Aerial photographs and satellite images from 1945 to 2021 as well as geographic information system (GIS) techniques were used to depict the spatial and temporal variations of the coastline. The results show that 60% of the total length of the coastline is artificial coast, while 29% is rocky coast and 12% beach. The study of seven subareas showed that human interventions caused significant coastline changes in Faliro Bay, Alimos and Glyfada. The adjacent coastal regions to Athens metropolitan area illustrate the highest modifications in the coastline. The main changes in the coastlines are recorded from 1960 to 1987, while the rate of changes in coastline slowed down from 1987 to 2021. The total changes in the coastline of Athens Riviera demonstrate that, during the past 76 years, the coastline was enhanced by 40% while land reclaimed to the sea area approaches 2.67 km2. The applied method is effective and rapid and may utilize in the coastal monitoring and management. [ABSTRACT FROM AUTHOR]

Published

2021

26. LCA-Based Environmental Performance of Olive Cultivation in Northwestern Greece: From Rainfed to Irrigated through Conventional and Smart Crop Management Practices.

Author

Fotia, Konstantina, Mehmeti, Andi, Tsirogiannis, Ioannis, Nanos, George, Mamolos, Andreas P., Malamos, Nikolaos, Barouchas, Pantelis, and Todorovic, Mladen

Subjects

CROP management, IRRIGATION farming, DECISION support systems, ORCHARDS, WATER shortages, AGRICULTURAL intensification, OLIVE, IRRIGATION management

Abstract

Olive cultivation is expanding rapidly in the northwestern part of Greece, under both rainfed and irrigated practices. Irrigation can result in larger yields and economic returns, but trade-offs in the water–energy–pollution nexus remain a controversial and challenging issue. This study presents an environmental Life Cycle Assessment (LCA) of Greek olive orchard systems in the plain of Arta (Epirus), comparing rainfed (baseline), Decision Support System (DSS)-based (smart) irrigation practices and farmer experience-based (conventional) irrigation practices. The contributions in this paper are, first, to provide a first quantitative indication of the environmental performance of Greek olive growing systems under different management strategies, and second, to detail the advantages that can be achieved using smart irrigation in olive cultivation in the Greek and Mediterranean contexts. Eighteen midpoints (e.g., climate change, water scarcity, acidification, freshwater eutrophication, etc.), two endpoints (damages on human health and ecosystem quality), and a single score (overall environmental impact) were quantified using the IMPACT World+ life cycle impact assessment method. The LCA model was set up using the OpenLCA software v1.10.3. The functional units were 1 ton of product (mass-based) and 1 ha of cultivated area (area-based) on a cradle-to-farm gate perspective. Irrigated systems had the lowest impacts per mass unit due to higher yields, but showed the highest impacts per cultivated area. The DSS-based irrigation management could reduce water and energy use by 42.1% compared to conventional practices. This is translated into a reduction of 5.3% per 1 ton and 10.4% per 1 ha of the total environmental impact. A sensitivity analysis of impact assessment models demonstrated that the benefits could be up to 18% for 1 ton of product or 22.6% for 1 ha of cultivated land. These results outline that DSS-based irrigation is a promising option to support less resource-intensive and sustainable intensification of irrigated agriculture systems in the plain of Arta. [ABSTRACT FROM AUTHOR]

Published

2021

27. Mining Transition and Hydropower Energy in Greece—Sustainable Governance of Water Resources Management in a Post-Lignite Era: The Case of Western Macedonia, Greece.

Author

Farmaki, Polytimi, Tranoulidis, Apostolos, Kouletsos, Thanos, Giourka, Paraskevi, and Katarachia, Androniki

Subjects

LIGNITE, WATER supply, WATER management, RESOURCE management, WATER power, MINES & mineral resources

Abstract

The present study explores the process of Greece's current decarbonisation transition and its energy policy regarding the country's two coal-mining areas. Using the Region of Western Macedonia as a case study, we aimed at providing a holistic approach—as until now only few attempts have been made to systematise the 'Just Transition Plans' in European Union (EU)—for raising awareness on issues related to water resource management in post-lignite areas and analysing the use of hydropower in Greece. Our research draws on a flexible method approach, serving as a tool to identify gaps in current knowledge and practices, based on two stages—first the analysis of existing literature, reviews, and sources from government's core strategies, as well as policy and decision-making papers, and then formulating research questions by synthesising relevant data. In Greece, both 'Just Transition Development Plan of Lignite Areas' and hydropower production practices overlook water resources management. By summarising our findings and identifying gaps that remain in current approaches, this work indicates future directions by suggesting processes necessary for addressing the complex issue of adoption of sustainable water resources management measures in post-lignite eras in accordance with EU's water policy. [ABSTRACT FROM AUTHOR]

Published

2021

28. Roman Aqueducts in Crete, Greece: Learning from the Past.

Author

Angelakis, Andreas N., Christodoulakos, Yannis, and Tzanakakis, Vasileios A.

Subjects

AQUEDUCTS, ANCIENT civilization, WATER supply, DEVELOPING countries, ROMANS

Abstract

The Romans were well aware of the strategic importance of Crete and tried, by any means possible, its final conquest. The island was under Roman rule over four centuries (ca 67 BC–330 AD). Under Roman rule, Crete witnessed a growth of its population and prosperity and an increase in its connectivity with other parts of the Empire. In addition, Gortys, Chersonisos, Elyros, Lyttos, Kissamos and other cities flourished under their rule. At that prosperous time, several luxurious infrastructures, such as hydraulic works, were developed. In this paper, we wish to examine the principles and the technical characteristics of major aqueducts built at that time. They constructed impressive hydro-works, such as aqueducts, by using the knowledge gained from earlier Greek civilizations in Minoan and Classical and Hellenistic times. However, they mainly increased the scale of applied technologies to support the increased population water demand. Water is a common need of humankind and several ancient civilizations developed simple but practical techniques, such as the aqueduct, especially during Roman times. We can gain from their experience and knowledge to develop a sustainable water supply, presently and in the future, both in developed and developing countries. [ABSTRACT FROM AUTHOR]

Published

2021

29. Spatial or Random Cross-Validation? The Effect of Resampling Methods in Predicting Groundwater Salinity with Machine Learning in Mediterranean Region.

Author

Tziachris, Panagiotis, Nikou, Melpomeni, Aschonitis, Vassilis, Kallioras, Andreas, Sachsamanoglou, Katerina, Fidelibus, Maria Dolores, and Tziritis, Evangelos

Subjects

MACHINE learning, GROUNDWATER, SALINITY, ELECTRIC conductivity, FORECASTING, CARBONACEOUS aerosols

Abstract

Machine learning (ML) algorithms are extensively used with outstanding prediction accuracy. However, in some cases, their overfitting capabilities, along with inadvertent biases, might produce overly optimistic results. Spatial data are a special kind of data that could introduce biases to ML due to their intrinsic spatial autocorrelation. To address this issue, a special resampling method has emerged called spatial cross-validation (SCV). The purpose of this study was to evaluate the performance of SCV compared with conventional random cross-validation (CCV) used in most ML studies. Multiple ML models were created with CCV and SCV to predict groundwater electrical conductivity (EC) with data (A) from Rhodope, Greece, in the summer of 2020; (B) from the same area but at a different time (summer 2019); and (C) from a new area (the Salento peninsula, Italy). The results showed that the SCV provides ML models with superior generalization capabilities and, hence, better prediction results in new unknown data. The SCV seems to be able to capture the spatial patterns in the data while also reducing the over-optimism bias that is often associated with CCV methods. Based on the results, SCV could be applied with ML in studies that use spatial data. [ABSTRACT FROM AUTHOR]

Published

2023

30. In Search of Climate Crisis in Greece Using Hydrological Data: 404 Not Found.

Author

Koutsoyiannis, Demetris, Iliopoulou, Theano, Koukouvinos, Antonis, Malamos, Nikolaos, Mamassis, Nikos, Dimitriadis, Panayiotis, Tepetidis, Nikos, and Markantonis, David

Subjects

CLIMATE change, DROUGHTS, RAINFALL, MONTE Carlo method

Abstract

In the context of implementing the European Flood Directive in Greece, a large set of rainfall data was compiled with the principal aim of constructing rainfall intensity–timescale–return period relationships for the entire country. This set included ground rainfall data as well as non-conventional data from reanalyses and satellites. Given the European declaration of climate emergency, along with the establishment of a ministry of climate crisis in Greece, this dataset was also investigated from a climatic perspective using the longest of the data records to assess whether or not they support the climate crisis doctrine. Monte Carlo simulations, along with stationary Hurst–Kolmogorov (HK) stochastic dynamics, were also employed to compare data with theoretical expectations. Rainfall extremes are proven to conform with the statistical expectations under stationarity. The only notable climatic events found are the clustering (reflecting HK dynamics) of water abundance in the 1960s and dry years around 1990, followed by a recovery from drought conditions in recent years. [ABSTRACT FROM AUTHOR]

Published

2023

31. Hydrogeological Hazards in Open Pit Coal Mines–Investigating Triggering Mechanisms by Validating the European Ground Motion Service Product with Ground Truth Data.

Author

Tzampoglou, Ploutarchos and Loupasakis, Constantinos

Subjects

GROUND motion, HYDROGEOLOGY, LAND subsidence, STRIP mining, GROUNDWATER management, COAL, HAZARDS

Abstract

This research focuses on the investigation of hydrogeological hazards in open pit coal mines. The study area is the Amyntaio sub-basin area, located in West Macedonia prefecture, Greece. A major part of the SE of this area is occupied by the Amyntaio open pit coal mine. In recent decades, the Amyntaio basin's aquifer has been overexploited both by dewatering wells of the open pit coal mine and irrigation wells, triggering extensive land subsidence in an area that extends 3 km around the mine. Additionally, one of the biggest mining landslides worldwide occurred on the South-West slopes of the open pit on 10 June 2017. The current study investigates the land subsidence phenomenon and the landslide, highlighting the influence and the interaction of their causal factors which were strongly affected by the groundwater management. To estimate ground surface movement, Earth Observation data from the European Ground Motion Service, of the Copernicus European Union′s Earth observation program, were used for the period 1 January 2016–31 December 2020. The geologic, geotechnical and hydrogeologic data coming from the extensive ground truth survey have been incorporated with the Earth Observation data, highlighting the opposing mechanisms of the interacting geohazards. [ABSTRACT FROM AUTHOR]

Published

2023

32. The Status of Arsenic Pollution in the Greek and Cyprus Environment: An Overview.

Author

Golfinopoulos, Spyros K., Varnavas, Soterios P., and Alexakis, Dimitrios E.

Subjects

WATER, SEAWATER, ECOSYSTEM health, GEOLOGY, BOTTLED water, ARSENIC, ARSENIC in water

Abstract

This study presents an overview about the arsenic (As) contamination and its sources in two European countries. Arsenic is a highly toxic element in its inorganic form and it is carcinogenic to human seven in low concentrations. The occurrence of As in surface water, stream and marine waters, groundwater, bottled water, sediment, soil, mines, and seafood, its environmental origin, and its impacts on human health are discussed. The classes of Geoaccumulation Index for As in Greece ranges from practically uncontaminated to extremely contaminated, and in Cyprus varies between practically uncontaminated and heavily contaminated. In many cases, the As contamination reaches very high concentrations and the impacts may be crucial for the human health and ecosystems. Physicochemical properties, regional climate and geological setting are controlling the occurrence and transport of As. In Greece and Cyprus, the geology, lithology, and ore-deposits are the most important factors for the variation of As contents in water, soil, and sediment. The dominant As species are also determined by the location and the redox conditions. The findings of this paper may be useful for scientists and stakeholders monitoring the studied areas and applying measures for protection of the human and terrestrial ecological receptors (plants, avian, mammals). [ABSTRACT FROM AUTHOR]

Published

2021

33. Battery of In Vitro Bioassays: A Case Study for the Cost-Effective and Effect-Based Evaluation of Wastewater Effluent Quality.

Author

Alygizakis, Nikiforos, Ng, Kelsey, Maragou, Niki, Alirai, Sylvana, Behnisch, Peter, Besselink, Harrie, Oswald, Peter, Čirka, Ľuboš, Thomaidis, Nikolaos S., and Slobodnik, Jaroslav

Subjects

EFFLUENT quality, SEWAGE disposal plants, BIOLOGICAL assay, SEWAGE, WATERSHEDS

Abstract

Wastewater treatment plants (WWTPs) represent an important input of contaminants in the environment. Therefore, it is critical to continuously monitor the performance of WWTPs to take appropriate action and avoid an influx of contaminants in the environment. In this study, a battery of seven in vitro bioassays covering a selected spectrum of toxicity effects is proposed for quality control of wastewater effluents. The bioassays address mixture toxicity, which is the combined adverse effect of multiple contaminants and can act as an early warning system. The proposed battery was applied to samples from 11 WWTPs of representative technology from the Danube River Basin (DRB). The order of toxic effects in terms of extent of exceedance of effect-based trigger values (EBTs) was PAH (PAH activity) > PXR (xenobiotic metabolism) > ERα (estrogenic activity) > PPARγ > Nrf2 (oxidative stress) > anti-AR > GR. A mitigation plan for WWTP operators based on EBT exceedance is proposed. This study demonstrates that the proposed effect-based monitoring battery is a complementary tool to the chemical analysis approach. A regular application of such time- and cost-effective bioanalytical tools in the WWTPs of the DRB is proposed to provide a 'safety net' for aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

34. Wastewater Management: From Ancient Greece to Modern Times and Future.

Author

Angelakis, Andreas N., Capodaglio, Andrea G., and Dialynas, Emmanuel G.

Subjects

SEWAGE purification, HYDROLOGIC cycle, GREEK antiquities, CAPITAL costs, WATER transfer

Abstract

Current wastewater management paradigms favor centralized solutions, as taught in traditional engineering schools, which imply high capital costs, long-range water transfer, long and disruptive construction and highly trained operators. On the other hand, small decentralized systems are seldom considered even though they require lower capital costs, less disruptive infrastructure construction and allow for the maintenance of a closer, more sustainable water cycle. This manuscript starts with an extensive review of the long history of wastewater systems, from the Greek antiquity to the modern era. The use of natural and physical systems in history and their evolution into modern technology is also analyzed. Finally, future trends are considered with emphasis on technological adaptation and sustainability of decentralized systems, with a view that lessons that can be learned from history and past practices. The manuscript aims to provide a critical overview of water and wastewater management in view of the oncoming challenges of this sector. [ABSTRACT FROM AUTHOR]

Published

2023

35. History of Hygiene Focusing on the Crucial Role of Water in the Hellenic Asclepieia (i.e., Ancient Hospitals).

Author

Angelakis, Andreas N., Antoniou, Georgios P., Yapijakis, Christos, and Tchobanoglous, George

Subjects

PHILOSOPHY of science, HYGIENE, MEDICAL terminology, BRONZE Age, MEDICAL practice, SANITATION

Abstract

Prehistoric Hellenic civilizations like many other civilizations believed in gods and thought they had influence on the everyday life of the people. During the Bronze Ages the explanations of illness and health problems were based on mythological, divine, or religious (i.e., theocratic) reasoning or explanations. However, during the Classical and the Hellenistic periods, the Greeks clearly differentiated their thinking from all other civilizations by inventing philosophy and empirical science. Drains/sewers, baths and toilets and other sanitary installations reflect the high cultural and technological level of the period; they are also associated with hygienic and medical studies and practical applications. At that time, medicine was mainly based on clinical observations and scientific investigations. Prior to that time, in the Bronze Age, medicine was entirely confined to religious rituals and beliefs. In ancient Greece, medicine was practiced in Asclepieia (or Asklepieia), which were healing sanctuaries which also functioned as medical schools and hospitals. In the Classical Greece period, more than 400 Asclepieia were operating offering their medical services. The basic elements of each Asclepieia included a clean source of water and related infrastructure. At that time Hippocrates, the father of medicine, and his successors wrote a large number of medical texts in which the crucial role of water and sanitation is documented. They also identified numerous medical terms, many of which remain in use today. The Hippocratic treatises also contributed to the scientific evolution which occurred in later centuries, because they sought to explain the causes of observed natural phenomena in a deterministic way rather than on theocratic explanations in use at the time. In this paper, the evolution of hygiene, focusing on water use in ancient Greece is examined. [ABSTRACT FROM AUTHOR]

Published

2020

36. Estimating Current and Future Rainfall Erosivity in Greece Using Regional Climate Models and Spatial Quantile Regression Forests.

Author

Vantas, Konstantinos, Sidiropoulos, Epaminondas, and Loukas, Athanasios

Subjects

QUANTILE regression, CLIMATE change models, ATMOSPHERIC models, RAINFALL, SOIL erosion

Abstract

A future variation of precipitation characteristics, due to climate change, will affect the ability of rainfall to precipitate soil loss. In this paper, the monthly and annual values of rainfall erosivity (R) in Greece are calculated, for the historical period 1971–2000, using precipitation records that suffer from a significant volume of missing values. In order to overcome the data limitations, an intermediate step is applied using the calculation of monthly erosivity density, which is more robust to the presence of missing values. Spatial Quantile Regression Forests, a data driven algorithm that imitates kriging without the need of strict statistical assumptions, was utilized and validated, in order to create maps of R and its uncertainty using error propagation. The monthly average precipitation for the historical period 1971–2000 estimated by five (5) Global Circulation Models-Regional Climatic Models were validated against observed values and the one with the best performance was used to estimate projected changes of R in Greece for the future time period 2011–2100 and two different greenhouse gases concentration scenarios. The main findings of this study are: (a) the mean annual R in Greece is 1039 MJ·mm/ha/h/y, with a range between 405.1 and 3160.2 MJ·mm/ha/h/y. The highest values are calculated at the mountain range of Pindos and the lowest at central Greece; (b) the monthly R maps adhere to the spatiotemporal characteristics of precipitation depth and intensities over the country; (c) the projected R values, as an average over Greece, follow the projected changes of precipitation of climatic models, but not in a spatially homogenous way. [ABSTRACT FROM AUTHOR]

Published

2020

37. Unraveling Aquatic Quality Controls of a Nearly Undisturbed Mediterranean Island (Samothraki, Greece).

Author

Skoulikidis, Nikolaos T., Lampou, Anastasia, and Laschou, Sofia

Subjects

QUALITY control, HUMIDITY, WATER, STREAMFLOW, SEDIMENTARY rocks, AQUIFER pollution, HYDROGEOLOGY, STREAM chemistry

Abstract

Due to its rough, mountainous relief, Samothraki remains one of the last minimally disturbed islands in the Mediterranean. This paper examines the hydrogeochemical regime of the island's surface waters as it results from geological, morphological, and hydro(geo)logical controls within a frame of minimally disturbed environmental conditions. Shallow, fractured groundwater aquifers, in combination with steep slopes and predominant weathering resistant rocks, bring about flashy stream regimes with remarkably low solute concentrations. Streams and springs revealed hydrochemical similarities. Contrary to streams chiefly draining sedimentary rocks, streams underlined by granite and ophiolite rocks do not respond hydrochemically to geochemical differences. Using ion proportions instead of concentrations, geochemical fingertips of magmatic stream basins were detected. Atmospheric inputs largely affect stream and spring composition, e.g., by 75% regarding sodium. Only 20% of dissolved oxygen and pH variance was assigned to biological activity, while nutrient levels were consistent with the undisturbed conditions of the island, except nitrate. Small mountainous springs and brooks fed by restricted, fractured groundwater aquifers with perennial flow, despite scarce summer rainfalls, may be fueled by cloud and fog condensation. High night-day stream flow differences, high atmospheric humidity predominately occurring during the night, and low stream water travel times point out toward this phenomenon. [ABSTRACT FROM AUTHOR]

Published

2020

38. Mapping Flood-Related Mortality in the Mediterranean Basin. Results from the MEFF v2.0 DB.

Author

Vinet, Freddy, Bigot, Victoria, Petrucci, Olga, Papagiannaki, Katerina, Llasat, Maria Carmen, Kotroni, Vassiliki, Boissier, Laurent, Aceto, Luigi, Grimalt, Miquel, Llasat-Botija, Montserrat, Pasqua, Angela A., Rossello, Joan, Kılıç, Özgenur, Kahraman, Abdullah, and Tramblay, Yves

Subjects

FLOOD risk, GEOGRAPHIC information systems, RAINFALL frequencies, CRISIS management, MORTALITY, WATERSHEDS

Abstract

Recent events in Western Attica in Greece (24 deaths in November 2017), in the Balearic Islands (13 deaths in October 2018), and in southern France (15 deaths in October 2018) show that flood-related mortality remains a major concern in Mediterranean countries facing flash floods. Over the past several years, many initiatives have arisen to create databases on flood-related mortality. An international initiative started in 2011 pooling regional and national databases on flood mortality from region and/or countries bordering the Mediterranean Sea. The MEditerranean Flood Fatality Database (MEFF DB) brings together, in 2018, six Mediterranean regions/countries: Catalonia (Spain), Balearic Islands (Spain), Southern France, Calabria (Italy), Greece, and Turkey, and covers the period 1980–2018. MEFF DB is on progress and, every year, new data are included, but for this study, we kept only the preliminary data that were geolocated and validated on 31st of December 2018. This research introduces a new step in the analysis of flood-related mortality and follows the statistical description of the MEFF DB already published. The goals of this paper are to draw the spatial distribution of flood mortality through a geographical information system (GIS) at different spatial scales: country, NUTS 3 (Nomenclature of Territorial Units for Statistics. Level 3) regions, catchment areas, and grid. A fatality rate (F: number of deaths/year/million of inhabitants) is created to help this analysis. Then, we try to relate mortality to basic (human or physical) drivers such as population density, rainfall seasonality, or rainfall frequency across the Mediterranean Basin. The mapping of F shows a negative mortality gradient between the western and the eastern parts of the Mediterranean Sea. The south of France appears to be the most affected region. The maps also highlight the seasonality of flood-related deaths with the same west–east gradient. It confirms that flood mortality follows the climatological seasonal patterns across the Mediterranean Basin. Flood-related fatalities mainly occur during the early fall season in the western part of the Mediterranean area, while the Easter Basin is affected later, in November or during the winter season. Eastern Turkey introduces another pattern, as mortality is more severe in summer. Mortality maps are then compared with factors that potentially contribute to the occurrence of flood fatalities, such as precipitation intensity (rainfall hazard), to explain geographical differences in the fatality rate. The density of a fatal event is correlated to the population density and the rainfall frequency. Conversely, the average number of deaths per event depends on other factors such as prevention or crisis management. [ABSTRACT FROM AUTHOR]

Published

2019

39. The Effect of Flood Protection Works on Flood Risk.

Author

Mitsopoulos, Georgios, Diakakis, Michalis, Bloutsos, Aristeides, Lekkas, Efthymios, Baltas, Evangelos, and Stamou, Anastasios

Subjects

FLOOD control, FLOOD risk, FLOODS, FLOOD damage prevention, FLOOD warning systems, RAINFALL, WATER depth, FLOW velocity

Abstract

We pose the following research question: "what is the effect of flood protection works on flood risk?" To answer this question, we developed a flood risk assessment method that combines the typical hazard assessment via integrated hydrological and hydrodynamic calculations using HEC-HMS and 1D/2D HEC-RAS, respectively, and an original procedure for vulnerability assessment at the building level, which we applied in the town of Mandra in Attica, Greece. We performed calculations for 15 scenarios—combinations of return periods (T = 20, 50, 100, 150, and 200 y) and rain durations (t = 6, 12, and 18 h)—for the conditions of the year 2017, when there were no flood protection works, and today with these works in place. We identified the regions with high flood risk and concluded that the presence of the works caused a decrease in the inundation areas by 53–89%, along with reductions in the maximum water depths, the maximum flow velocities, and the average flood risk in Koropouli Street—the main street of Mandra, which suffered severe damage during the 2017 flood—by 38–62%, 18–52%, and 27–74%, respectively. The effect of the flood protection works increased with the increases in the return period and rain duration, while for the same return period the effect of the rain duration was more pronounced for the smaller return periods. [ABSTRACT FROM AUTHOR]

Published

2022

40. A Modified GALDIT Method to Assess Groundwater Vulnerability to Salinization—Application to Rhodope Coastal Aquifer (North Greece).

Author

Chronidou, Despina, Tziritis, Evangelos, Panagopoulos, Andreas, Oikonomou, Efstathios K., and Loukas, Athanasios

Subjects

SALTWATER encroachment, SALINIZATION, AQUIFERS, GROUNDWATER, GROUNDWATER management

Abstract

Aquifer overexploitation in coastal aquifers has led to seawater intrusion that causes severe salinization effects on the groundwater system. The most widespread method for assessing groundwater vulnerability to seawater intrusion, the dominant cause of salinization in coastal aquifers, is the GALDIT method, with numerous applications globally. The present study proposes a modified version of the GALDIT method (GALDIT-Ι) to evaluate the vulnerability of salinization, including its potential additional sources. Both methods have been applied to Rhodope coastal aquifer, an intensively cultivated agricultural area subject to multiple salinization sources. The basic modifications of the proposed GALDIT-I method include different weighting factors and modification of classes for critical parameters, the use of a different indicator (TDS) for the estimation of the Impact factor and, overall, the address of the concept of groundwater salinization instead of seawater intrusion only. The differences in the results of the two methods were significant, as the modified version exhibited a more finite and realistic vulnerability capture, according to the area's existing hydrogeological and hydrogeochemical knowledge. The original GALDIT method showed an area of nearly 80% as medium vulnerable with very limited spatial deviations. On the other hand, the proposed modified GALDIT method depicted high vulnerability hotspots away from the shoreline, indicating various salinity sources. The validation of the modified method showed that nearly 80% of the sampling points present very good to perfect match between the salinity assessment and the concentration of Cl−, indicating the successful validation of the method. Overall, the GALDIT-I method facilitated groundwater vulnerability assessment to salinization more accurately and exhibited a more discrete spatial assessment, thus, it could be regarded as a promising proactive tool for groundwater management and decision-making. [ABSTRACT FROM AUTHOR]

Published

2022

41. Repurposing of a Closed Surface Coal Mine with Respect to Pit Lake Development.

Author

Louloudis, Georgios, Roumpos, Christos, Louloudis, Emmanouil, Mertiri, Eleni, and Kasfikis, Georgios

Subjects

COAL mining, MINE closures, LIGNITE mining, LIGNITE, RENEWABLE energy sources, WATER levels, MOVING average process

Abstract

In the coal phase-out era, achieving sustainable mine closure is significant and prioritizes targets for the mining industry. In this study, the already closed lignite mine of Kardia, North Greece, is investigated, where the mine void left is naturally filled with water. The viability of different repurposing land uses is evaluated, and the natural water level development inside the mine pit is investigated concerning its future uses. The potential for solar photovoltaic (PV) panels developed on mining land and its surrounding area is evaluated in combination with the application of pumped hydro storage (PHS) technology, utilizing pit lake water. Except for electricity system planning, other end-uses that offer multiple, mutually reinforcing and lasting benefits are investigated, such as recreation parks, terrestrial wildlife, aquaculture and agriculture. All repurposing scenarios are evaluated with regard to the spatiotemporal evolution of the lake, by generating forecasts of the dependent variables (rainfall and temperature) via linear (autoregressive integrated moving average) and non-linear (artificial neural network) models. The prediction of pit lake natural development redefines the new land use layout and the land repurposing decisions. This is essential for strategic planning, considering the Greek lignite mining industry's priority regarding transitioning from the current coal-based electricity to renewable energy sources (RES) technology. [ABSTRACT FROM AUTHOR]

Published

2022

42. Water for Tomorrow: A Living Lab on the Creation of the Science-Policy-Stakeholder Interface.

Author

Alamanos, Angelos, Koundouri, Phoebe, Papadaki, Lydia, Pliakou, Tatiana, and Toli, Eleni

Subjects

WATER management, THESSALY (Greece), TECHNOLOGICAL innovations, CAPACITY building, RENEWABLE energy sources, SUPPLY & demand, WATERSHEDS

Abstract

The proactive sustainable management of scarce water across vulnerable agricultural areas of South Europe is a timely issue of major importance, especially under the recent challenges affecting complex water systems. The Basin District of Thessaly, Greece's driest rural region, has a long history of multiple issues of an environmental, planning, economic or administrative nature, as well as a history of conflict. For the first time, the region's key-stakeholders, including scientists and policymakers, participated in tactical meetings during the 19-month project "Water For Tomorrow". The goal was to establish a common and holistic understanding of the problems, assess the lessons learned from the failures of the past and co-develop a list of policy recommendations, placing them in the broader context of sustainability. These refer to enhanced and transparent information, data, accountability, cooperation/communication among authorities and stakeholders, capacity building, new technologies and modernization of current practices, reasonable demand and supply management, flexible renewable energy portfolios and circular approaches, among others. This work has significant implications for the integrated water resources management of similar south-European cases, including the Third-Cycle of the River Basin Management Plans and the International Sustainability Agendas. [ABSTRACT FROM AUTHOR]

Published

2022

43. Ecological Quality Assessment of Greek Lowland Rivers with Aquatic Macrophytes in Compliance with the EU Water Framework Directive.

Author

Stefanidis, Konstantinos, Dimitrellos, Georgios, Sarika, Maria, Tsoukalas, Dionysios, and Papastergiadou, Eva

Subjects

WATER management, ECOLOGICAL assessment, ENVIRONMENTAL monitoring, MACROPHYTES, AQUATIC plants, MULTIVARIATE analysis

Abstract

Aquatic macrophytes are one of the four biological quality elements (BQE) used for assessing the ecological status of inland waters according to the EU Water Framework Directive (WFD 2000/60). With this article, we present the methodological approach for the implementation of a WFD compliant macrophyte index to the riverine systems of Greece. In addition to the definition and harmonization of the ecological quality class boundaries, the results from the pilot application of the index and the ecological classification of the monitored river reaches are also presented. Aquatic plants and environmental parameters were sampled from 93 river reaches between 2012 and 2015. A multivariate analysis with optimal scaling (MVAOS) was conducted to define the main stressor gradient and to identify the least disturbed sites and the reference conditions that are required for the derivation of the ecological quality classes. The Macrophyte Biological Index IBMR for Greek rivers (IBMRGR) was calculated for all the sites and the boundaries for the five quality classes were derived according to the methodology proposed by the Mediterranean Geographic Intercalibration Group (MedGIG). The main findings showed that the hydromorphological modifications were the main environmental stressors that correlated strongly with the IBMRGR, whereas physicochemical stressors were of lesser importance. More specifically, the first principal component explained 51% of the total variance of the data, representing a moderately strong gradient of hydromorphological stress, whereas the second component explained 22.5%, representing a weaker gradient of physicochemical stress. In addition, the ecological assessment showed that almost 60% of the sites failed the WFD target of the "Good" ecological quality class, which agrees with classification assessments based on other BQEs for Greece and many Mediterranean countries. Overall, this work provides a first assessment of the ecological classification of Greek rivers with the BQE of aquatic macrophytes with significant implications for ecological monitoring and decision making within the frame of the WFD implementation. [ABSTRACT FROM AUTHOR]

Published

2022

44. Implementing the CCME Water Quality Index for the Evaluation of the Physicochemical Quality of Greek Rivers.

Author

Panagopoulos, Yiannis, Alexakis, Dimitrios E., Skoulikidis, Nikolaos Theodor, Laschou, Sofia, Papadopoulos, Anastasios, and Dimitriou, Elias

Subjects

WATER quality, BODIES of water, ENVIRONMENTAL quality, DISSOLVED oxygen in water, INDEX numbers (Economics)

Abstract

Water quality indices (WQIs) are efficient tools, globally used for the determination of the quality status of water bodies. In Greece, for almost a decade, the physicochemical quality of water in rivers has been determined by a rigorous, biologically-based, national classification system, developed by the Hellenic Centre for Marine Research (HCMR), through the calculation of a simple water quality index (HWQI) that takes into account six water parameters: five nutrient species and dissolved oxygen. Taking the HWQI as a reference, the present study attempts to implement the Canadian Council of Ministers of Environment Water Quality Index (CCME WQI), which is globally applied and flexible in the number of parameters used, to investigate its possible suitability for Greek rivers, which are characterized by a variety of climatic, geologic, and hydrological conditions and have experienced anthropogenic impact. A large dataset consisting of 111 river sites and multiple sampling campaigns for each site in 2018–2020 were used in the analysis, giving rise to a representative application of the CCME WQI on a national scale. Furthermore, the physicochemical quality results were compared with those derived by the HWQI. Apart from the original equation of the CCME WQI for calculating the classification score, a modified version from the literature was used as well. Moreover, apart from the six conventional parameters, which offered a direct comparison with the output values of the HWQI, the CCME WQI and its modified version were recalculated based on a larger dataset, including four additional physicochemical water parameters. The comparative results from all calculations revealed the conservative behavior of the CCME WQI and confirmed the indications from several other Greek studies. Estimated water quality represented a status that consistently belonged to at least a two-class inferior category than the HWQI, while adequate reductions in this deviation could not be achieved with the modified index or with the increase in the number of parameters used in the analysis. It is thus concluded that the first calculation factor and the class boundaries of the CCME WQI are the limiting factors for successful implementation in Greek rivers, independent of the hydroclimatic, geomorphological, and anthropogenic impact variability across the country. [ABSTRACT FROM AUTHOR]

Published

2022

45. Optimizing the Performance of Coupled 1D/2D Hydrodynamic Models for Early Warning of Flash Floods.

Author

Mitsopoulos, Georgios, Panagiotatou, Elpida, Sant, Vasiliki, Baltas, Evangelos, Diakakis, Michalis, Lekkas, Efthymios, and Stamou, Anastasios

Subjects

SHALLOW-water equations, WAVE equation, FLOODS, HEAT equation

Abstract

We pose the following research question, "what are (i) the minimum required computation grid and (ii) the required form of hydrodynamic equations, i.e., shallow water equations (SWE) or diffusion wave equations (DWE), in 2D modeling to minimize the computational time while maintaining an acceptable level of error in the prediction of water depths and the extent of flood inundated areas?". To answer this question, we apply the HEC-RAS 1D/2D model to simulate a disastrous flash flood in the town of Mandra, in Attica, Greece, in November 2017. HEC-RAS 1D/2D combines 1D modeling in the cross-sections of the two main streams of Mandra with 2D modeling in the rest of the potentially flooded area of the computational domain which has an area equal to 18.36 km2. We perform calculations for 8 scenarios that combined various grid sizes (with approximately 44,000–95,000 control volumes) with the use of the SWE or DWE. We derive the following conclusions: (i) calculated maximum water depths using DWE were equal to 60–65% of the corresponding water depths using SWE, i.e., the DWE significantly underestimated water depths; (ii) calculated total inundation areas using the SWE were approximately 4.9–7.9% larger than the corresponding inundation areas using the DWE; these differences can be considered as acceptable; and (iii) the total computation times using SWE, which ranged from 67 to 127 min, were 60–70% longer than the computation times using DWE. [ABSTRACT FROM AUTHOR]

Published

2022

46. Artificial Neural Networks for the Prediction of the Reference Evapotranspiration of the Peloponnese Peninsula, Greece.

Author

Dimitriadou, Stavroula and Nikolakopoulos, Konstantinos G.

Subjects

RADIAL basis functions, EVAPOTRANSPIRATION, METEOROLOGICAL stations, ARTIFICIAL neural networks, PENINSULAS, SOLAR radiation

Abstract

The aim of the study was to investigate the utility of artificial neural networks (ANNs) for the estimation of reference evapotranspiration (ETo) on the Peloponnese Peninsula in Greece for two representative months of wintertime and summertime during 2016–2019 and to test if using fewer inputs could lead to satisfactory predictions. Datasets from sixty-two meteorological stations were employed. The available inputs were mean temperature (Tmean), sunshine (N), solar radiation (Rs), net radiation (Rn), vapour pressure deficit (es-ea), wind speed (u2) and altitude (Z). Nineteen Multi-layer Perceptron (MLP) and Radial Basis Function (RBF) models were tested and compared against the corresponding FAO-56 Penman Monteith (FAO PM) estimates of a previous study, via statistical indices. The MLP1 7-2 model with all the variables as inputs outperformed the rest of the models (RMSE = 0.290 mm d−1, R2 = 98%). The results indicate that even ANNs with simple architecture can be very good predictive models of ETo for the Peloponnese, based on the literature standards. The MLP1 model determined Tmean, followed by u2, as the two most influential factors for ETo. Moreover, when one input was used (Tmean, Rn), RBFs slightly outperformed MLPs (RMSE < 0.385 mm d−1, R2 ≥ 96%), which means that even a sole-input ANN resulted in satisfactory predictions of ETo. [ABSTRACT FROM AUTHOR]

Published

2022

47. The Role of Sea State to the Morphological Changes of Prasonisi Tombolo, Rhodes Island, Greece.

Author

Malliouri, Dimitra I., Petrakis, Stelios, Vandarakis, Dimitris, Kikaki, Katerina, Hatiris, Georgios-Angelos, Gad, Fragkiska-Karmela, Panagiotopoulos, Ioannis P., and Kapsimalis, Vasilios

Subjects

COASTAL engineering, WATER waves, IMAGE analysis, REMOTE-sensing images, NUMERICAL analysis, OCEAN waves

Abstract

Wave-induced morphodynamic processes that cause formation, preservation, and destruction of the Prasonisi tombolo in Rhodes Island are investigated, based on satellite image analysis and numerical modeling. A new method is developed for extracting wave events that consist of successive wave data of similar characteristics. The wave events refer either to wind seas or swell seas. This process combined with the satellite image analysis is then utilized for the derivation of the most representative wave scenarios that affect tombolo and salient formation. In particular, the main factors that play a significant role in tombolo and salient evolution are the offshore wave conditions, the location and width of the surf zone, the maximum value of the wave breaking index in the study area, and the initial bottom bathymetry before the study area is exposed to a new sea state. In general, the proposed method provides a realistic insight into tombolo morphodynamics and can be used to provide a cost-effective approach and a wave data-reduction technique for coastal engineering studies. [ABSTRACT FROM AUTHOR]

Published

2022

48. Water Quality Focusing on the Hellenic World: From Ancient to Modern Times and the Future.

Author

Angelakis, Andreas N., Dercas, Nicholas, and Tzanakakis, Vasileios A.

Subjects

WATER quality, PLASTIC marine debris, WATER quality management, SANITATION, WATER pollution, WATER supply, WATER filtration

Abstract

Water quality is a fundamental issue for the survival of a city, especially on dry land. In ancient times, water availability determined the location and size of villages and cities. Water supply and treatment methods were developed and perfected along with the evolution of urbanization. In Europe, after the fall of the Roman Empire, water supply and sewage systems went through fundamental changes. However, in medieval times, the lack of proper sanitation and low water quality increased the spreading and effects of epidemics. The importance of potable water quality was established during modern times. In Greece, the significance of water filtration and disinfection was not understood until the beginning of the 20th century. Moreover, the beneficial effects of water quality and sanitation on human health and especially on life expectancy are considered. In Greece and other countries, a dramatic increase in life expectancy mainly after the 2nd World War is probably due to the improvement of potable water quality and hygiene conditions. However, since the mid-20th century, new water quality issues have emerged, such as eutrophication, the improvement of water treatment technologies, as well as chemical and microbiological water pollution problems. This study, in addition to the historical evolution of water quality, highlights and discusses the current issues and challenges with regard to the management and protection of water quality, including global changes in population and urbanization, lack of infrastructure, use of nonconventional water resources, spreading of emerging pollutants and contaminants (e.g., antibiotics and microplastics), and climatic variability impacts. Against these, a review of the main proposed strategies and measures is presented and discussed to protect water quality and maintain water supplies for the future. Understanding the practices and solutions of the past provides a lens with which to view the present and future. [ABSTRACT FROM AUTHOR]

Published

2022

49. Modeling Groundwater Nitrate Contamination Using Artificial Neural Networks.

Author

Stylianoudaki, Christina, Trichakis, Ioannis, and Karatzas, George P.

Subjects

ARTIFICIAL neural networks, FEEDFORWARD neural networks, STANDARD deviations, GROUNDWATER, GROUNDWATER management

Abstract

The scope of the present study is the estimation of the concentration of nitrates (N O 3 −) in groundwater using artificial neural networks (ANNs) based on easily measurable in situ data. For the purpose of the current study, two feedforward neural networks were developed to determine whether including land use variables would improve the model results. In the first network, easily measurable field data were used, i.e., pH, electrical conductivity, water temperature, air temperature, and aquifer level. This model achieved a fairly good simulation based on the root mean squared error (RMSE in mg/L) and the Nash–Sutcliffe Model Efficiency (NSE) indicators (RMSE = 26.18, NSE = 0.54). In the second model, the percentages of different land uses in a radius of 1000 m from each well was included in an attempt to obtain a better description of nitrate transport in the aquifer system. When these variables were used, the performance of the model increased significantly (RMSE = 15.95, NSE = 0.70). For the development of the models, data from chemical and physical analyses of groundwater samples from wells located in the Kopaidian Plain and the wider area of the Asopos River Basin, both in Greece, were used. The simulation that the models achieved indicates that they are a potentially useful tools for the estimation of groundwater contamination by nitrates and may therefore constitute a basis for the development of groundwater management plans. [ABSTRACT FROM AUTHOR]

Published

2022

50. Trophic Patterns of Freshwater Fish across the Balkan Biodiversity Hotspot.

Author

Vagenas, Georgios, Oikonomou, Anthi, Karachle, Paraskevi K., Petriki, Olga, and Stoumboudi, Maria Th.

Subjects

FRESHWATER fishes, FRESHWATER biodiversity, TOP predators, FISH conservation, FISHERY management, ECOLOGICAL regions

Abstract

Ecological information regarding trophic patterns and the inherent structure of freshwater aquatic communities is considered fundamental in ecological research. In this study, the trophic patterns of the Greek freshwater fish fauna, belonging to the Balkan biodiversity hotspot, were investigated, and comparisons of freshwater fish species feeding habits among the Greek freshwater ecoregions were performed. The analyses based on the widely used trophic level index and the available composition feeding datasets, along with the utilization of clustering methods, indicated seven major distinct trophic guilds in the Greek ecoregions. The trophic level of the studied fish species ranged from 2.0 to 4.5, thus being within the expected values for freshwater ecosystems, revealing the presence of both top predators and primary consumers. The highest trophic level values were found in the ecoregions of northern Greece. The results also exhibited considerable predominance of higher-trophic-level zooplanktivorous and insectivorous freshwater fish species in the mainland, compared to lower-trophic-level opportunist species in the island-isolated ecoregions. These results could be used for the application of ecosystem-based models and the formulation of conservation and fishery management schemes. [ABSTRACT FROM AUTHOR]

Published

2022