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The Mediterranean region and surrounding areas comprise the semi-enclosed sea, which shares a coastline of over 46,000 km, between the southern borders of mainland Europe (namely, Iberian, Italian, Balkan Peninsulas and France), Anatolian Peninsula, western Middle East region and northern Africa. The narrow Strait of Gibraltar connects the Mediterranean Sea to the Atlantic Ocean. It is also the crossroad over 480 million inhabitants living within three continents: Africa, Asia, and Europe. Nearly one-third of the Mediterranean population is concentrated along its coastal regions. In addition, about 250 million people live in coastal hydrological basins, increasing environmental pressures (EEA 2015; Allam et al. 2020). In addition, groundwater resources are the main source of water supply in several Mediterranean countries and are subject to anthropogenic pressures resulting from unequal distribution, uneven accessibility and quality issues (García-Ruiz et al. 2011; Calvache et al. 2018; Fader et al. 2020).
The Mediterranean and surrounding areas are considered a biogeographic region directly impacted by climate change and associated hydrological hazards and other human-induced environmental risks (e.g., Döll 2009; García-Ruiz et al. 2011; Milano et al. 2013; Leduc et al. 2017; Calvache et al. 2018; Cramer et al. 2018; Allam et al. 2020; Schilling et al. 2020, and references therein). Furthermore, according to UN-Water (2021), climate change is expected to increase seasonal variability, creating a more erratic and uncertain water supply. This will worsen problems in already water-stressed areas, potentially enlarging the geographical extent of water stress-prone areas. In addition, the effects of climate variability led to the increase of water stress levels because the water demand grew. Datta (2005) states that a critical issue is an imbalance between water demand and availability, and management approaches face various ethical issues and dilemmas. Consequently, a new approach is imperative to embrace ethics, eco-responsibility, and sound hydrological sense (Groenfeldt 2021).
In the context of the United Nations’ 2030 sustainability Agenda, an action plan to strengthen sustainable water development was adopted. The plan addresses several sustainable development goals (SDGs), contains targets and adopts an interlinkages approach. However, the strong relationship between water and ethics is challenging to recognise the groundwater value in resource management. The current trends on the valuation of water are based on five interlinkage perspectives (UN-Water 2021): (i) valuing water sources in the environment (in situ water resources and ecosystems); (ii) valuing water infrastructure (water storage, use, reuse or supply augmentation); (iii) valuing water services (mainly drinking water, sanitation and related human health aspects); (iv) valuing water as an input to production and socio-economic activity (food and agriculture, energy and industry, business and employment); (v) sociocultural values of water (recreational, cultural and spiritual attributes).
Currently, society demands a balanced groundwater footprint in sustainable resources management, eco-responsibility, and water ethics (e.g., Leopold 1990; Custodio 2000; Llamas 2004; Datta 2005; Llamas et al. 2009; Groenfeldt and Schmidt 2013; Ziegler and Groenfeldt 2017; Groenfeldt 2019, 2021). Therefore, protecting and valuing water is a shared societal responsibility (UN-Water 2021). In addition, the dissemination of geological information with the public shall be straightforward within a geoethical framework (Di Capua et al. 2021). Thus, sustainable water resources management, water conservation and water services encompass technical-scientific aspects and issues of social equity and intra- and intergenerational justice (Di Capua 2021). Hence, it is crucial to recall the powerful thought of Custodio (2021): “ethics is not a guide with rules and recommendations for action but a set of supporting concepts and principles for human behaviour.”. Because of that, water ethics depend on applying the precautionary and subsidiarity principles, as well as the understanding of the functioning and uncertainties of hydrological systems (Custodio 2021; Stewart et al. 2021).
Hydrogeoethics is an emergent transdisciplinary field in geosciences focused on ethical research and best practices related to responsible groundwater science and engineering, creating conditions for sustainable water resources management while respecting human needs and environmental dynamics (Abrunhosa et al. 2021). Also, it is grounded on the principle of responsibility (Jonas 1976, 1984), the ethical criterion that should guide any human action on socio-ecological systems (Peppoloni et al. 2019; Di Capua 2021). Moreover, like geoethics, it can be defined through the same characteristics (Peppoloni and Di Capua 2021a, b,c): geoscience knowledge-based, contextualised in time and space, human agent-centric, and shaped as virtue-ethics. Currently, the boundary of geoethical analysis has expanded to include the global issues of modern societies, above all anthropogenic and environmental changes, which redefine the possibilities and expectations of human life on the planet (Peppoloni and Di Capua 2021b, c). Therefore, its studying objects are related to transdisciplinary fields in geosciences, anthropological and social sciences, dealing with the relationship between humans and the water cycle, including cultural, aesthetic, and historic traditions linked to water uses, legal frameworks, best practices and governance, groundwater management-society-policy interface (Di Capua 2021). Or, straightforwardly, as stated by Groenfeldt (2019), “the ethical basis for our decisions about nature, development, and water is constantly evolving”. On the other hand, Custodio (2021) points out an impressive thought interrelated between the water ethics and moral principles must be highlighted in the availability and the preservation of water resources to maintain a healthy relationship with nature, the environment and all components that affect society in terms of values and practices (e.g., economy, health, energy, land use, employment, quality of life, cultural, spiritual and religious values).
The themed issue on “Hydrogeoethics in Sustainable Water Resources Management Facing Water Scarcity in Mediterranean and Surrounding Regions” includes selected contributions in hydrogeology, urban groundwater, rural hydrogeology, groundwater harvesting agroecosystems, environmental law, water resources, and water-related research and practice. The published article set is an impressive coherent sample of further investigation first presented mainly during the thematic sessions at the 1st Congress “Geoethics & Groundwater Management” that took place in Porto city (Portugal) in May 2020 (details in Abrunhosa et al. 2021). The main scope of the then proposed thematic sessions was the debate on integrating all aspects of geoethics in sustainable groundwater management theory and practice. As a result, the emergent scientific field called hydrogeoethics is found soundly grounded in hydrogeology and geoethical principles and values, including the engineering, socio-economic, legal, environmental, arts, and cultural dimensions. It is also considering a shift in the centrality of liquid freshwater from its already highlighted 1% surface water, to 99% groundwater, as a leitmotif to give visibility to groundwater, which is currently mostly invisible (Abrunhosa et al. 2021; Cherry 2021). The special issue presents interesting studies in model regions underlining sustainable groundwater resources management and geoethical dimensions. The articles published in this volume also illustrate hydrological systems under climate crisis, environmental and societal pressure. The urgent need for an ethos for long-term environmental sustainability, socio- and eco-responsibility, to live following geoethical principles and values is emphasised.
The themed issue highlights key emerging research topics that reshape the current disciplinary boundaries in hydrogeology, groundwater science and engineering, environmental law, social sciences to support a balanced, sustainable water resources management under a geoethical perspective. This is one of the methods in hydrogeoethics. Additionally, it offers in-depth insights from comprehensive studies that address several SDGs and interrelated targets in the scope of the UN ‘2030 goals and beyond. Currently, society has become aware and more demanding in the environmental practices of water resources management and actions. In fact, the fundamental issue centred on water quality as a human right and, in a broader overview, as vital to all ecosystems and nature (e.g., Gleick 1998; Falkenmark 2003; Llamas and Martínez-Cortina 2009; Groenfeldt and Schmidt 2013; Tortajada and Biswas 2017; Gleeson et al. 2020). Thus, nature-based solutions for water are water management strategies inspired and supported by nature and mimic natural processes (Kabisch et al. 2017; UN-Water 2018). According to Ribeiro (2021), “to live in an ethically responsible society, we need to modify water planning and management in order to achieve fairer access to drinking water, as well as providing effective social responses to public health concerns without jeopardising ecosystems.”. Furthermore, the design with natural solutions is a keen example of synergy between human beings and the Earth and environmental systems. Last but not least, hydrogeoethics addresses a conceptual and practical framework for a reliable people-centric approach in dialogue with ecocentric perspectives, underlining the connectivity, interlinkages, and interdependency of groundwater resources management, water conservation, environment, social and cultural activities.
References
Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (2021) Preface—advances in geoethics and groundwater management: theory and practice for a sustainable development. In: Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (eds) Advances in geoethics and groundwater management: theory and practice for a sustainable development. Proceedings of the 1st congress on geoethics and groundwater management, Porto, Portugal 2020. Advances in science, technology & innovation series. Springer, Cham, pp xxi–xxvi
Allam A, Moussab R, Najema W, Bocquillon C (2020) Hydrological cycle, Mediterranean basins hydrology. In: Zribi M, Brocca L, Tramblay Y, Molle F (eds) Water resources in the Mediterranean region. Elsevier, Amsterdam, pp 1–21
Calvache ML, Duque C, Pulido-Velazquez D (eds) (2018) Groundwater and global change in the western Mediterranean area. Environmental earth sciences series, Springer, Cham
Cherry J (2021) Preamble. In: Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (eds) Advances in geoethics and groundwater management: theory and practice for a sustainable development. Proceedings of the 1st congress on geoethics and groundwater management, Porto, Portugal 2020. Advances in science, technology & innovation series. Springer, Cham, p xxix
Cramer W, Guiot J, Fader M, Garrabou J, Gattuso J-P, Iglésias A, Lange MA, Lionello P, Llasat MC, Paz S, Peñuelas J, Snoussi M, Toreti A, Tsimplis MN, Xoplaki E (2018) Climate change and interconnected risks to sustainable development in the Mediterranean. Nat Clim Change 8:972–980
Custodio E (2000) Some relevant ethical issues in relation to freshwater resources and groundwater. Bol Geol Min Madrid 111(6):121–130
Custodio E (2021) Ethical and moral issues relative to groundwater. In: Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (eds) Advances in geoethics and groundwater management: theory and practice for a sustainable development. Proceedings of the 1st congress on geoethics and groundwater management, Porto, Portugal 2020. Advances in science, technology & innovation series. Springer, Cham, pp 9–12
Datta PS (2005) Groundwater ethics for its sustainability. Curr Sci 89(5):1–6
Di Capua G (2021) Foreword. In: Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (eds) Advances in geoethics and groundwater management: theory and practice for a sustainable development. Proceedings of the 1st congress on geoethics and groundwater management, Porto, Portugal 2020. Advances in Science, technology & innovation series. Springer, Cham, pp xv–xvii
Di Capua G, Bobrowsky PT, Kieffer SW, Palinkas C (2021) Introduction: geoethics goes beyond the geoscience profession. In: Di Capua G, Bobrowsky PT, Kieffer SW, Palinkas C (eds) Geoethics: status and future perspectives, SP508. Geological Society, London, pp 1–11
Döll P (2009) Vulnerability to the impact of climate change on renewable groundwater resources: a global-scale assessment. Environ Res Lett 4:1–12
EEA—European Environment Agency (2015) Mediterranean sea region briefing—the European environment: state and outlook 2015. European Environment Agency. https://www.eea.europa.eu/soer/2015/countries/mediterranean. Accessed on September 2021
Fader M, Giupponi C, Burak S, Dakhlaoui H, Koutroulis A, Lange MA, Llasat MC, Pulido-Velazquez D, Sanz-Cobeña A (2020) Resources: water. In: Cramer W, Guiot J, Marini K (eds) Climate and environmental change in the Mediterranean basin: current situation and risks for the future. First Mediterranean assessment report, union for the Mediterranean, Plan Bleu, UNEP/MAP, Marseille, France, pp 181–236
Falkenmark M (2003) Water cycle and people: water for feeding humanity. Land Use Wat Resour Res 3:1–4
García-Ruiz JM, López-Moreno JI, Vicente-Serrano SM, Lasanta-Martínez T, Beguería S (2011) Mediterranean water resources in a global change scenario. Earth Sci Rev 105(3–4):121–139
Gleeson T, Wang-Erlandsson L, Porkka M, Zipper S, Jaramillo F, Gerten D, Fetzer I, Cornell S, Piemontese L, Gordon L, Rockström J, Oki T, Sivapalan M, Wada Y, Brauman K, Flörke M, Bierkens M, Lehner B, Keys P, Famiglietti J (2020) Illuminating water cycle modifications and earth system resilience in the anthropocene. Water Resour Res 56(4). https://doi.org/10.1029/2019WR024957
Gleick PH (1998) The human right to water. Water Policy 1(5):487–503
Groenfeldt D (2019) Water ethics: a values approach to solving the water crisis, 2nd edn. Routledge, London
Groenfeldt D (2021) Ethical considerations in managing the hydrosphere: an overview of water ethics. In: Di Capua G, Bobrowsky PT, Kieffer SW, Palinkas C (eds) Geoethics: status and future perspectives, SP508. Geological Society, London, pp 201–212
Groenfeldt D, Schmidt JJ (2013) Ethics and water governance. Ecol Soc 18(1):14
Jonas H (1976) Responsibility today: the ethics of an endangered future. Soc Res 43(1):77–97
Jonas H (1984) The imperative of responsibility: in search of an ethics for the technological age. University of Chicago Press, Chicago
Kabisch N, Korn H, Stadler J, Bonn A (2017) Nature-based solutions to climate change adaptation in urban areas: linkages between science, policy and practice. Springer Open, Cham
Leduc C, Pulido-Bosch A, Remini B (2017) Anthropisation of groundwater resources in the Mediterranean region: processes and challenges. Hydrogeol J 25:1529–1547
Leopold LB (1990) Ethos, equity and the water resources. Environ Sci Policy Sustain 32(2):16–41
Llamas MR (2004) Water and ethics: use of groundwater. UNESCO series on water and ethics, essay 7. UNESCO, New York
Llamas MR, Martínez-Cortina L (2009) Specific aspects of groundwater use in water ethics. In: Llamas MR, Martínez-Cortina L, Mukherji A (eds) Water ethics. 3rd Marcelino Botín Foundation Water Workshop. CRC Press, Boca Raton, pp 187–203
Llamas MR, Martínez-Cortina L, Mukherji A (eds) (2009) Water ethics, 3rd Marcelino Botín Foundation Water Workshop. CRC Press, Boca Raton
Milano M, Ruelland D, Fernandez S, Dezetter A, Fabre J, Servat E, Fritsch J-M, Ardoin-Bardin S, Thivet G (2013) Current state of Mediterranean water resources and future trends under climatic and anthropogenic changes. Hydrol Sci J 58(3):498–518
Peppoloni S, Di Capua G (2021a) Current definition and vision of geoethics. In: Bohle M, Marone E (eds) Geo-societal narratives. Palgrave Macmillan, Cham, pp 17–28
Peppoloni S, Di Capua G (2021b) Geoethics as global ethics to face grand challenges for humanity. In: Di Capua G, Bobrowsky PT, Kieffer SW, Palinkas C (eds) Geoethics: status and future perspectives. Geoethics: status and future perspectives, SP508. Geological Society, London, pp 13–29
Peppoloni S, Di Capua G (2021c) Geoethics to start up a pedagogical and political path towards future sustainable societies. Sustainability 13(18):10024
Peppoloni S, Bilham N, Di Capua G (2019) Contemporary geoethics within geosciences. In: Bohle M (ed) Exploring geoethics: ethical implications, societal contexts, and professional obligations of the geosciences. Palgrave Pivot, Cham, pp 25–70
Ribeiro L (2021) Revisiting ancestral groundwater techniques as nature based solutions for managing water. In: Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (eds) Advances in geoethics and groundwater management: theory and practice for a sustainable development. Advances in science, technology & innovation. Springer, Cham, pp 483–487
Schilling J, Hertig E, Tramblay Y, Scheffran J (2020) Climate change vulnerability, water resources and social implications in North Africa. Reg Environ Change 20:15
Stewart IG, Cherry J, Harding M (2021) Groundwater contamination science and the precautionary principle. In: Abrunhosa M, Chambel A, Peppoloni S, Chaminé HI (eds) Advances in geoethics and groundwater management: theory and practice for a sustainable development. Proceedings of the 1st congress on geoethics and groundwater management, Porto, Portugal 2020. Advances in science, technology & innovation series. Springer, Cham, pp 17–21
Tortajada C, Biswas AK (2017) Water as a human right. Int J Water Res Dev 33:509–511
UN-Water (2018) The united nations world water development report: nature-based solutions for water. UNESCO, Paris
UN-Water (2021) The United Nations world water development report 2021: valuing water. UNESCO, Paris
Ziegler R, Groenfeldt D (2017) Global water ethics: towards a global ethics charter. Routledge, London
Acknowledgements
The guest editors are grateful for the impressive support of the Editor-in-Chief, Professor Attila Çiner, at all the stages of preparing this themed issue. A word of appreciation for the enthusiastic support of the Managing Editor, Dr. Nabil Khélifi and the Springer production team for their efforts in concluding this special issue. Thanks for all support and encouragement to the International Association for Promoting Geoethics, Secretary-General Dr. Silvia Peppoloni, and International Association of Hydrogeologists, Past President Professor António Chambel. Our thanks to the reviewers for their significant inputs during the peer-reviewing process to improve the overall quality of the manuscripts. The special issue gained remarkably from their critical feedback. Finally, our gratitude to all authors for their valuable and original contributions to strengthening the path linking groundwater science and geoethics on the common ground called hydrogeoethics.
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Chaminé, H.I., Abrunhosa, M., Barbieri, M. et al. Hydrogeoethics in sustainable water resources management facing water scarcity in Mediterranean and surrounding regions. Med. Geosc. Rev. 3, 289–292 (2021). https://doi.org/10.1007/s42990-021-00069-2
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DOI: https://doi.org/10.1007/s42990-021-00069-2