A new environmental public health practice to manage current and future global health challenges through education, training, and capacity building

Unsustainable globalisation of economic activities, lifestyles and social structures has contributed to environmental degradation, posing major threats to human health at the local and global levels. All these problems including climate change, pollution, and biodiversity loss represent challenges that are unlikely to be met with existing approaches, capabilities and tools. This article acknowledges the need for well-prepared practitioners from many walks of life to contribute to environmental public health (EPH) functions thus strengthening society’s capacity and capability to respond effectively and in a timely manner to such complex situations and multiple challenges. It envisions a new EPH practice addressing questions on: Why do this? What needs to be addressed? Who will do it? How can it be implemented? This article focuses on the main challenging EPH issues worldwide and how they could be addressed using a conceptual framework for training. A companion article shows how they have been tackled in practice, providing ideas and experiences.

1 Challenges for environmental public health

Population health problems are complex, as they are determined by environmental, social, economic, and political factors at the local through global levels [e.g., climate crisis (1), obesity (2)]. This requires an integrated and holistic approach for public health science and policy formulation which is also reflected in the WHO social determinants of health framework (3, 4). This paradigm takes into account the distal and structural determinants of health (e.g., economic or employment policies, access to quality housing, healthy food and sustainable transport) as fundamental in determining the unequal distribution of the proximal risk factors (e.g., air pollution, unhealthy diet, sedentary lifestyle, and smoking), and the health status and disease within and across populations (5). Furthermore, policies and actions outside the health sector (e.g., traffic regulations, urban planning and availability of green spaces, obesogenic environment, and food quality) (6) are known to contribute to adverse health outcomes.

The globalisation of economic activities, lifestyles and social structures have contributed to both local and global environmental degradation and change. The collective consequence of the greenhouse gases emissions by individual societies worldwide is perhaps the best-known example of this. At the same time, greater awareness of environmental impacts has been enabled by global linkages, thus resulting in changes at the local (e.g., urban planning) and at the global level (e.g., international agreements), starting with the recognition by the Rio Earth Summit 1992 (6). Several countries have integrated in their legislation the notion of sustainability, the right to health and the right to a healthy environment, and more recently, the UN declared access to a healthy environment a Human Right (7).

The current ‘triple planetary crisis’ including climate change, environmental pollution, and biodiversity loss, pose major threats to human health both at the local and global level. The impact of these complex challenges is affecting populations worldwide, often unequally distributed with many populations having less or no access to adequate housing, health services, and basic resources such as clean air, water, energy, and healthy foods. These challenges require new approaches and tools in addressing impacts of complex drivers and exposures (8), incorporating concepts such as cumulative impacts of environmental decisions (9), with multiple dimensions from social indicators, living and working conditions, behavioural indicators, or infrastructure such as green space and transport. Environmental Public Health (EPH) (10) is the discipline that addresses and studies such complexity from a multilevel perspective and is increasingly implemented by public health services and environmental protection agencies.

Therefore, the challenge of making a skills transition is urgent, and the poor integration between skills initiatives and the needs of the green transition needs addressing (11).

This article acknowledges the need for well-prepared practitioners from many walks of life to contribute to environmental public health functions thus strengthening society’s capacity and capability to respond effectively to such complex situations and multiple challenges. In particular, it will focus on the capacity and capability building required to plan and implement renewed roles for EPH practitioners at local, national, and potentially international levels. The idea for this new role emerged via experiences of multi-disciplinary work beyond the health professions, with practitioners from many sectors including agriculture, town and country planning, engineering, energy, and transport. This type of work often contributed to or accompanied multi-disciplinary interventions (chemical, heat, and flood-related) that supported ‘primordial prevention’. The framework for achieving this objective revolves around two interconnected concepts: the ‘Common Home’, representing the Earth as a shared habitat for all populations, and the ‘Common House’, symbolising a collaborative space where diverse disciplines come together, from the local level to global.

2 Paradigms for addressing new challenges in EPH

Several frameworks facilitate the task to reinforce EPH services. The Driving force-Pressure-State-Exposure-Effect-Action (DPSEEA) framework approach, initially promoted by WHO, has been further adapted to seek population wellbeing within an ecosystem perspective (e-DPSEEA) (12). The framework allows practitioners to describe, heuristically, a logical conceptual sequence of events that leads to an environmental health problem (13). It is intended to highlight the important links between different aspects of development, environment, and health and to help identify effective policies and actions to control and prevent health effects (14). Adopting this framework requires multi-disciplinarily education and training theories and tools, including knowledge of exposure analysis, environmental epidemiology, and health impact assessment tools.

The Ecological Public Health approach can help address the challenges faced by public health today, by its aims to integrate complexity, multiple interactions and change of societal systems. By doing so, the approach has the ability to understand the ecosystem processes and the system as a whole, and the way it determines population health. Ecological public health provides a framework for considering a holistic approach from public health science to public health actions (10). The ecological approach to public health has been compared to four different conceptual models recognisable in public health: health-environmental, biomedical, behaviouristic-social, and technological-economic. Each of these models has led to successes but has also been characterised by limitations. Both, the successes and limitations have been evaluated in detail elsewhere (15), and within the constraints of the present article one can conclude that the ecological public health model complements and has the potential to integrate other models of public health practice. Prevention services that ignore the conclusions identified in risk assessments at the local community and global level risk being seriously insufficient. Building prevention services based on a shared culture, values and behaviours would make the public health practice work more valid and solid. This is illustrated for example in the case of obesity by recognising that interventions to reduce this problem may be identified more holistically if social and cultural dimensions are considered as deserving to be addressed in themselves alongside physical and biological ones (2).

The ‘Health in All Policies’ (HiAP) approach, promoted by WHO and adopted by the European Union (EU) in 2006 (16), recommends collaborations through development of intersectoral policy and governance (17). HiAP outlines the adoption of a political overarching vision for a healthier and more sustainable society where all public policy areas can have, directly or indirectly, an impact on health and socioeconomic equity (18). It emphasises the consequences of public policies on health systems, determinants of health and wellbeing, and it enhances the accountability of policymakers for health impacts at all levels of policymaking (19).

However, the ability to respond to such conceptual frameworks for EPH service or the policy recommendations, will be highly dependent on the local context, history, culture, organisational arrangements, capacities and needs, and on who can afford to implement these (20). This recalls the distinction between global and local, as acting within the dimensions of space and time, which is an essential issue for EPH. During the COVID-19 pandemic (21), all the local and global actions, were inextricably linked, being essential to manage the pandemic in many parts of the world.

Currently, there is not an international reference for improving capacity and capability building of EPH functions at national levels. The present form of the WHO-International Health Regulations (22) does not acknowledge environmental factors as determinants of health. Public participation is also an essential force in promoting environmental health quality (23). Supportive policies, regulations, and planning tools would encourage citizens to engage in climate change adaptation and local environmentally friendly planning, and effective and meaningful participation is crucial to ensuring socially just policies (24).

The globalisation of economic activities, social structures, and lifestyle has contributed to both local and global environmental degradation and change. The refore, the role of democracy in pursuing health as the ‘common good’ (25) may counterbalance the powerful financial and economic pressures on governments. An example is the Erasmus Generation in Europe a term that describes young people who participate in mobility programmes, giving them the opportunity to spend part of their studies abroad, do internships, or work. Through their cultural openness and interconnectedness, they show ability to contribute to building knowledge and the capacity to respond to climate change (26). The EU Erasmus programme contributes to a share of knowledge and understanding, democratisation of accessibility to science and to building a generational capacity for understanding common good. Although a regional only example, the model offers excellent insight on the benefits in lack of boundaries in knowledge transfer and the cultural shift in what community responsibility and response means.

The concept of Planetary Health focuses on analysing and addressing the impacts of human disruptions to Earth’s natural systems on human health and all life on Earth (27). Planetary health education across all levels and disciplines will allow transdisciplinary and mutually reinforcing actions to protect and restore planetary health and achieve the Sustainable Development Goals (SDGs) (28).¹

A simplified set of essential public health functions may be defined based on experience from national public health institutes internationally: (i) preparedness and response; (ii) public health surveillance; (iii) evidence gathering/impact analysis/evaluation of interventions; (iv) effective communication with multiple stakeholders; and (v) advocacy for public health (29). These may be adapted to provide Environmental Public Health (EPH) functions. Table 1 shows how the key EPH functions are mapped and motivated with relevance to each SDG. Some examples of such functions are provided in Reid, 2015 (30) and WHO, 2018 (31). The current status of implementation of these functions varies by country, and so does the role of agencies in delivering them (see section 5). Unless success is built for Goal 13 ‘CIimate Actions’, all the other SDGs will become unattainable (32, 33). Since 2016, the UN has moved from giving highest priority to economic development in a country, to geographic groupings as the highest level of aggregation for SDG statistics (34, 35). This is consistent with the priority advocated in the present paper to consider a country’s history and culture (36) as essential context for designing ecologically sustainable communities.

Table 1

Table 1. Relationship between sustainable development goals and environmental public health functions.^b

3 The concept of the new EPH practice

3.1 Interdomain partnerships and collaboration

This section introduces a novel environmental public health model for healthcare leaders to comprehend the intricacies of climate change, pollution and Planetary-One Health. Having a deep understanding of the scientific aspects and potential solutions, whilst acknowledging the remaining uncertainties, may be highly beneficial. Health practitioners at various levels have shown it is possible to overcome unique challenges influenced by geography, population vulnerabilities, and socio-economic contexts by evaluating emerging knowledge, from individual health guidance to community-wide adaptation planning. A comprehensive health system response that merges medicine and public health, could help address issues at the intersection of the environment and climate. With the unfolding climate crisis, healthcare professionals are encouraged to take a coordinated, proactive measures encompassing primordial, primary, secondary, and tertiary health prevention (37).

A pivotal experience unfolded in Georgia through a Twinning project, a European Union instrument for institutional cooperation between Public Administrations of EU Member States and of beneficiary or partner countries,² involving institutions from Italy, Poland, and the United Kingdom. The project aimed to transfer EU environmental health regulations (38) to the Georgian National Centre for Disease Control (NCDC), focusing on laws, organisational enhancement, and workforce competence. This provided a context for exploration of novel approaches to public health interventions addressing environmental factors for health across a country. A pressing concern emerged: a surge in lead (Pb) poisoning cases across Georgia. Alongside a monitoring programme, preventive measures were deployed and led to a notable reduction in children’s blood lead levels. This progress was achieved in a multi-disciplinary collaboration including health care practitioners, epidemiologists, and natural scientists across existing institutional divisions, and indicates the feasibility of co-ordinated effort to face a novel environmental challenge (39).

3.2 What is the new EPH practice?

An approach for identifying essential competencies in public health is extended to pinpoint valued skills and competencies by current employers (40).

The new competencies for EPH may be applied to the ‘three domains’ of existing public health practice, described in terms of three interrelated but distinct dimensions: (1) health promotion, which draws heavily on the local government roots of the profession, socioeconomic influences and health promotion, and tackling the underlying determinants of health; (2) health protection, which incorporates communicable disease control; environmental, chemical, radiation and nuclear threats; and occupational health; (3) health service quality improvement, which incorporates healthcare systems, service quality, evidence-based practice, clinical effectiveness and health economics (41). This provides a robust operational framework that includes the areas of practice, the services to be delivered, and the roles and responsibilities of those delivering them. This is particularly important in describing the core skills, knowledge, and competencies needed so that the respective workforce can carry out their respective roles. As such, this framework has the potential for adaptation to underpin educational and training provisions (42).

The overlap of the three domains of public health practice also helps inform the development of education and training addressing planetary health from the perspective of environmental public health service. In this context, skills and competencies related to dealing with health impacts of the climate crisis are integrated in the curriculum of public health schools and are now a required competency for a health practitioner in some locations (43).

The skills mentioned apply to the advancement of public health across all fields, extending beyond healthcare services. This approach is justified as healthcare systems are responsible, as estimated previously, for approximately 4% of global greenhouse gas emissions. Thus, broad societal changes, and not purely clinical health care of individuals, are required to safeguard public health. There is a growing call for closer collaboration between clinical medicine and public health. The COVID-19 crisis underscored the pivotal role of primary and community healthcare (P&CHC) in both short-term and long-term healthcare. It highlighted the necessity for P&CHC to collaborate in contact tracing efforts, aligning with various healthcare organisations including local and national public health institutions, as well as community-level groups and health workers.

3.3 Scoping the tiers/levels of the new EPH practice

Recognising the central role of the development of social change towards sustainability (44), the role of public health education and training is essential. The public health workforce can be defined as ‘a diverse workforce whose main responsibility is the provision of the main health activities for the public, regardless of their organisational basis’, emphasising the broad and diverse nature of public health. Public health increasingly includes the role of the ‘wider’ workforce: people who are indirectly involved in activities but whose work can contribute to improving population health (45).

Practitioners of that broader public health can be divided into three groups: (1) public health specialists; (2) people indirectly involved in public health activities through their work; and (3) people who should be aware of the implications for public health in their professional life (46). To this end, practitioners of all three groups require knowledge and skills in similar fields but on a different level. This holds for general public health, and similar considerations can be made first and foremost for environmental public health (EPH). The evaluation of which disciplines and knowledge are relevant to forming a category of professionals could be conducted by scientific societies and professionals to whom this task was relegated by the State or other parts of civil society (47).

Practitioners in each of these group share the same mission to develop capacity towards achievement of the SDGs as outlined in section 1.3, and according to the roles outlined in section 5. The proposal for this role is considered within the context of community, history, culture, economic and social dimensions. The practitioner originates from the community and works across the disciplines, knowledge and resources available. The proposal, based on experiences from many communities, also offers integration of knowledge beyond the community boundaries, for regional and global sharing of such experiences. Also, the values of justice, culture, and relationships highlighted by consensus statements of Indigenous communities on the theme of planetary health are best served by choice of governance that are inclusive of representatives of indigenous communities proposing their specific perspectives, methods, and topics (36, 48). This is expected to benefit all communities and individuals within them, as it communicates that the key step towards ecological sustainability is not the provision of a new institutional service, but the recognition of the value, wealth, and health already present in each community and individual, and that can be re-oriented to take a new course when faced with challenges related to climate change. In any case, stakeholder engagement needs to consider those affected by climate and environmental change and set out a clear strategy for communication and engagement, ideally extending to a role in the design and monitoring of any research or intervention.

3.4 How and why does the public health practitioner advocate and assume custodianship?

Health status is a synthesis or ‘super-indicator’ of the social impact of multiple influences from all sectors of human decision and activity. Therefore, health integrates all other activities (49). Indicators are key to awareness of changes in health status in time and space, and to inform activities to take custody of public health by interventions addressing preventable factors.

Acceptance of the value of health information as a series of indicators of relevance for decisions beyond the health sector is key to the development of ecologically sustainable communities.

In the context of addressing the climate crisis, practical initiatives exemplified by the efforts of Santé Publique France and the International Association of National Public Health Institutes (IANPHI) highlight the use of health as a catalyst for action (50). Recent discussions within WHO Europe underscore the pressing challenge posed by the ‘triple crisis’, arising from the interconnected issues of climate change, environmental pollution, and biodiversity loss (51).

Within this framework, a public health practitioner actively engaged in EPH, whether within the healthcare sector or other sectors, can play a crucial role in spearheading the development, design, analysis, and evaluation of systems aimed at incorporating ecological sustainability into various programmes and projects. The EPH practitioner may assume diverse roles, from advocating and motivating cross-sectoral collaborative efforts to challenging the status quo. Communication with those impacted by environmental issues is key as part of consultation and possible collaboration with agencies and groups responsible or affected. Such a role might initially be met with resistance, but it has the potential to prompt alternative, environmentally resilient infrastructure and service solutions.

Simultaneously, any healthcare practitioner, including those in clinical and social care settings unrelated to prevention services, can act as an advocate for the inclusion of health and social assessments in infrastructure and service planning. When such plans are positioned as steps towards sustainability, the consideration of health, well-being, and social impacts offers a tangible contribution to intervention selection, complementing the customary technical and financial criteria mandated by law and tradition.

4 How does the new environmental public health practice operate?

4.1 Practising environmental public health within the health work force

4.1.1 EPH as a public health task

First, a few assumptions are made regarding public health:

1. Protection and promotion of healthy lives in their social, economic, and environmental context.

2. The overall approach is analytical and systemic at the same time, i.e., observing reality from two different but complementary perspectives: the analytical (reductionist) perspective and the systemic one (since the problems are all interconnected and interdependent), each of which makes use of a broad heritage of methods, knowledge and skills.

3. An interdisciplinarity and cooperative approach is required. Specialisation always must follow the integration of knowledge and cooperation between the parties, so that exaggerated attention to detail does not produce deleterious effects on the general economy of the system. To be successful, therefore, it is necessary to develop one’s professional profile but also to share knowledge, learn from each other and channel creativity towards cooperation and the realisation of common and shared objectives.

The public health workforce encompasses a diverse collective responsible for executing essential public health tasks, irrespective of their institutional affiliations. These workforce members fall into three primary categories (as outlined in section 4.3) and require varied levels of knowledge and skills in related areas. This principle holds true for public health in general and must be transferred to environmental public health. The determination of the relevant disciplines and expertise needed to categorise professionals can be delegated to scientific and professional societies, either by the State or other civil society segments.

For example, the Netherlands, at the request of several ministries, created a category of environmental health specialists characterised as public health physicians with additional training in toxicology, environmental sciences and epidemiology (52). In England, the Faculty of Public Health, comprised of specialised public health professionals, including physicians and other experts, established the necessary competencies in environmental public health (52, 53). Besides general organisational competencies in research, teaching, and service management, five areas of specialised expertise are identified for public health practitioners in this field (54): toxicology, natural sciences, environmental epidemiology, risk assessment, and environmental public health.

4.1.2 EPH as a task for clinical health care workers

Second, EPH has a role within clinical health care professionals. Healthcare primarily concentrates on diagnosis and treatment. Practical knowledge, gained from everyday hands-on experiences, complements procedural knowledge, which deals with how to perform specific tasks in clinical, public, environmental health, or management. Health professionals can drive social and policy change (55) as they are generally highly trusted (56) and have influence at all levels of society. With trust comes the responsibility to influence wisely and lead effectively, which requires collaborative engagement beyond individual actions (47), thus ‘Health professionals will be called on to engage as humble, informed, and trusted partners in the collective, boundary-crossing effort of transforming practises and structures to better sustain the health and wellbeing of all life, including our own’ (57).

Training of professionals in sustainable development and the green economy with a focus on public health management and risk assessment would be beneficial to protection and promotion of healthy lives by prevention of causes of ill-health. They should also be familiar with urban health and pollution-related issues to address various diseases and ensure healthier urban environments (58).

4.1.3 EPH as a task for practitioners in many disciplines

Third, EPH covers contributions from both public health and clinical health care (15). Typically, clinical and public health knowledge often do not integrate knowledge on the health determinants related to environmental health, which include population impacts of pollution, biodiversity loss or climate change—therefore defining boundaries between the two services (59). It is encouraged for medical and health knowledge to recognise one identical set of values and criteria with prevention as an essential focus for clinicians, healthcare practitioners, and public health professionals (60).

Public health services worldwide are increasingly fostering interventions that aim to protect and promote health and the environment (61) as described in Table 2.

Table 2

Table 2. Public health services.

There is growing recognition that health care professionals require further training about EPH. The Association for Medical Education in Europe for example, emphasises the importance of equipping health professionals with the knowledge, skills, and values that promote sustainable health, and advocate for environmental and social change whilst protecting the planet (47).

Health care professionals are encouraged to engage with environmental concerns both in their role as clinicians, environmental and public health practitioners, regardless of the national organisation. This applies to undergraduate students, as declared by teachers (63, 64) and students eager to stimulate their institutions in this direction (65). It is also relevant to clinicians in training and those already practising, particularly those defined as Family Doctors (FDs) (21) and Family Paediatricians (FPs) (66). EPH training of physicians (as well as for non-physicians, see below) should include knowledge and skills in recognising, diagnosing and treating health problems caused by environmental risk factors (ERFs) (see Table 3).

Table 3

Table 3. Fields of knowledge relevant to disease prevention, with particular attention to key areas for environmental health.

4.2 Practising environmental public health outside of the health work force

Environmental health, environmental public health and prevention are matters that involve many disciplines and competencies.

Over 70 professional categories relevant to environmental health in Europe were identified in a review published in 1998, including academics, medical specialists, environmental scientists (e.g., epidemiologists, natural scientists, social scientists and experts in occupational hygiene) and professionals (such as environmental health workers, technicians, and architects) (67). Yet, few of these professions have increased their involvement in environmental health and prevention in the past two decades. Prevention requires a continuous updating of knowledge in multiple disciplines to be translated into actions to protect and promote health. That knowledge concerns particularly the environmental factors (Table 3).

Close collaboration between a wide range of thematic areas and scientific disciplines may be helpful given the great diversity of professional categories involved in prevention in general and environmental health in particular. There also is a clear need for intersectoral collaboration, as recognised by the WHO with the ‘Health in All Policies’ approach (68). In practice, a limited number of agencies and groups may be required for any specific project or programme, and consultation with scientific and professional societies may allow to identify appropriate individuals.

Attention must also be paid to those working in environmental management/sustainability professions to enhance their knowledge of health/PH/EPH—focusing on the health impacts of their efforts, to align to the EPH goals (57).

4.3 How do these roles integrate, collaborate, and co-function?

The overarching objective of this approach is to realise the full health potential for all individuals, with a dual focus: firstly, to promote and safeguard health within the context of the environment and life transitions, and secondly, to curtail the prevalence of major diseases and injuries whilst mitigating their associated suffering.

Its ethical foundation rests on three fundamental dimensions and principles:

1. Healthy Environment as a Fundamental Human Right: Recognising access to a healthy environment as an inherent human right (7).

2. Equity in Health and Solidarity: Emphasising health equity and collective responsibility (69).

3. Participation and Responsibility: Promoting active involvement and shared responsibility in health development (70, 71).

Despite the extensive promotion of action strategies grounded in scientific, economic, social, and political sustainability, their full implementation remains unrealized.

The earliest codification of intersectoral action is exemplified in Harris et al. (72), where elements of the health sector and other sectors, including environment, transportation, energy, urban planning, and social care, collaboratively address health issues to achieve more effective, efficient, and sustainable outcomes. Such intersectoral action necessitates involvement of policy authorities and national and local practitioners, being multidisciplinary, transdisciplinary, and inclusive of various agencies and stakeholders. It is an ongoing dynamic process.

The importance of improving the relationship between public and private research and science was confirmed in a WHO conference (73).

Preventive services are encouraged to integrate scientific advancements through collaborations with entities such as civil protection and public health institutions. To enhance prevention services, individuals from diverse educational backgrounds may participate, with training programmes blending scientific and professional competencies. This can be achieved through curriculum development, integration, and cross-institutional training experiences. Training duration may vary to accommodate different needs, ranging from a few days for structural managers to three to 6 months for specialisation in fields like medicine or public health. Integration into specialisation programmes is a viable approach when mutual recognition of segments of professional training can be agreed between those responsible in different scientific and professional societies.

Regarding the economic feasibility of these proposals, there are three aspects: (1) costs to individual practitioners undertaking the training; (2) costs to employers and professional societies currently responsible for funding training programmes; (3) costs of implementing ecologically sustainable options for human activity when such options emerge from the work of practitioners and cost more than the alternative. There is a close relation between these aspects, so that addressing one will facilitate addressing the others. For example, if an employer provides a position with a clear role in EPH, the employer would bear the cost and then the individual could shape their own training whilst employed, making it viable for their own personal career. Decision analysis has aided the reallocation of funding to public health objectives in the case of health services, and in principle such methods could be applied to activities that produce climate and other environmental change with a known effect on health.

4.4 Leadership and governance

The scope of EPH across health and non-health sectors indicates that a single source of leadership is not realistic or fruitful. Leadership and governance in this enterprise are inspired by the concept of the conductor and the orchestra. Sharing of fundamental values underlying movement towards ecological sustainability represents the surest foundation for several ‘orchestras and conductors’ to work in harmony. Accordingly, governance, which refers to the tangible framework and operational activities, facilitates the implementation of EPH through collaborative efforts across multiple sectors (transdisciplinary) requiring intersectoral collaborations. For example, when nature-based solutions in agroforestry are implemented with a view to improve planetary health and human health as part of that, it was appropriate for agronomy and forestry specialists to assume leadership (74). Conversely, when an effort was made to characterise the impacts on health and sustainability of alternative choices in pollution-generating activities in urban areas, the leadership was taken by specialists in engineering with input of natural scientists and public health professionals (75).

4.4.1 Role of policy makers

Policy makers can facilitate development and application of promising new approaches, in particular when they permit experimentation in key sectors of the economy at least in a few dedicated geographic areas, to support design and testing of bold proof of concept activities. This would provide an element of dynamic exploration and selection of the most effective solutions alongside policies to support system-wide changes, such as re-design of building codes and agroforestry practises towards ecological sustainability, or introduction of a national skilling wage. Modes of inclusion and dialogue between agencies responsible and groups impacted responsible for or promoting alternative solutions may be reviewed regularly as part of governance arrangements. In any case, a policy framework that can support the new EPH practices would rest on cross-ministry coordination, to clarify that a ministry or department responsible for production of emissions or pollution has a responsibility for EPH alongside the Ministry of Health and the Ministry of Education. This could be as simple as a cross-departmental group with this function or be an element of an integrated technical agency such as in the case of the RIVM in the Netherlands, a multidisciplinary agency funded by four different ministries.

4.4.2 Role of public health practitioners

Health practitioners can play a role in creating sustainable communities by integrating health and social well-being data into decision-making across various sectors. To provide valuable health information for decision-makers outside the health sector, EPH functions are crucial. It may be beneficial for EPH to be led by experts experienced in considering population-wide health effects within specific cultural and historical contexts. They may be invited to act as ‘conductors’ of EPH, offering feedback to decision-makers in other sectors in a transparent manner. This transparency fosters consensus on recommended interventions. For instance, Turin engaged local communities in siting waste treatment facilities through a ‘deliberative democracy process’. Protection within the public health economy is necessary for sustained employment and independence from healthcare sector reforms (76).

This can also refer back to ethics. If intersectoral inclusiveness in informing EPH practice, ethics and legal agreements (or mandates) can be the mechanisms to ensure a running infrastructure.

4.4.3 Obstacles and ways to address them

Obstacles and objections that can be expected in this area are recognised, and concern cultural/disciplinary and institutional barriers, academic competition, and economic/financial resources. The experiences conducted so far highlight the value of moving from agreements in principle to the role of practical arrangements, such as joint supervision by staff in separate organisations of projects by practitioners, secondments with tasks according to a previously agreed joint agenda, professional doctorates where the student is embedded in an organisation where their development of new knowledge is co-designed by business supervisors alongside researchers in academia, and immediately used in the business operations. Such arrangements would support individual career progression whilst also facilitating development of new institutional and inter-agency functions and capacity. The latter would be enhanced by active recognition of the macro-areas or settings, such as school, hospital, shipyard, food production facility as well as the broad function such as data collation, development of guidelines, safety protocol implementation, comparison with operation in similar districts, communication and prevention services. Any specific activity would need to consider a specific setting and function and may benefit from awareness of its implications for environmental public health. Overall, the experiences reviewed confirm that in many cases detailed actionable steps to implementation may be identified that allow institutional and economic barriers as well as academic competition to be overcome, rendering the activity feasible.

In sum, these arrangements would enable any output from EPH to be co-designed and delivered effectively to decision makers and those who advocate certain interventions or courses of action. It would be the responsibility of these non-health sector roles to reflect, question, amplify the conclusions and recommendation with explicit processes that would be specific to each sector.

4.5 What should the new practitioner look like?

Various professionals from public and private sectors (health, environment, architecture, etc.) have been identified to contribute to ecologically sustainable health and well-being. Each profession may need to review the design of the competencies of the new Environmental Public Health Practitioner. These practitioners will operate at different levels, from early career to decision-makers. The research component of their professional profile will vary depending on whether they work in academic or service/professional settings in which research is conducted. A European Commission-funded project (DG SANTE) established a network for environmental public health specialist training (77). This initiative identified various approaches within European countries regarding profiles, university courses, training, and registration requirements for health specialists in environmental expertise. Similar efforts exist in other continents. Common elements include the importance of social and natural sciences, epidemiology, and toxicology as foundational knowledge for environmental public health specialists (52, 54). A similar approach could be applied to biologists, geologists, sociologists, architects, and other disciplines involved in environmental public health. Considering the importance of different contexts (e.g. historic, religious, cultural) that affect all sectors of human decision making, the practitioner may benefit from referring to this context when declaring the values underlying the design, analysis, and interpretation of any EPH task. Statements are available from a variety of cultural and religious leaders (78).

It is important for public health agencies to strengthen the visibility and legitimacy of Community-Based Participatory Research (CBPR) approach. This approach will help to enhance the credibility of public health practitioners and improve the preparedness activities of public health boards (79). As mentioned earlier, this approach must be based on a clear and authoritative scientific basis.

To address the needs of such varied collection of practitioners and their interaction and co-operation, a few examples of training scenarios are provided below:

4.5.1 Training integration amongst family medicine practitioners and prevention bodies

An example of training experience in another speciality is clinicians’ experience in preventive services. If a General Practitioner (GP) in training can attend an internship in the specialisation course in Public Health on topics that are part of the training curriculum (for example, organisation, epidemiology, health promotion…), this would allow the student to know the purposes, methods and possibilities of integration with GPs activity.

This training exchange is to be seen as a training enrichment both for individual practitioners and the departments they are attending. The positive result is the training of practitioners to be better able to develop and operate in inter-agency collaborations.

4.5.2 Training integration amongst researchers—prevention officials

An integrated training approach involves exchanges between research institutes, especially epidemiological ones, and specialists in hygiene and preventive medicine. This approach should also include young researchers from various disciplines gaining experience in prevention services. These exchanges allow research and public service institutions to benefit from each other’s expertise and contribute to different projects, promoting mutual learning.

4.5.3 Training integration amongst environmental protection agencies and prevention facilities staff

If such a model could be fruitful for primary prevention in general, it might be even more in the case of environmental prevention. The agencies could ‘exchange’ trainees in the health sector and sectors other than health. In this case, the benefits could be even more significant. It would be a training experience for public health specialists in epidemiology services or Environmental Protection Agencies (EPAs) and, vice versa, by EPA workers with degrees in physics, chemistry, geography, environmental science or other disciplines employed as environmental specialists in an epidemiological research institute or an epidemiology or environmental prevention service, or in a public health laboratory, or food hygiene service, or a veterinary service of a health agency.

The examples provided clearly show that working together leads to familiarity with laws and methods relevant to the professional practice of colleagues active on shared objectives. This familiarity will also take place on a practical level. Hearing a worker on the phone whose context is understood creates the best conditions for creating an effective network aimed at prevention.

4.5.4 From training to practice

In general, the training of officials or consultants with experience in different agencies facilitates the implementation of multi-disciplinary interventions with the skills of various agencies. This integration depends on the awareness that the objectives are achievable only if activities requiring complementary skills are shared.

However, it may be fruitful to arrange accreditation of some roles in environmental public health supported by some legal statements, which recognise that training is linked to a specific integrated training path, which is necessary for the achievement of the speciality, for registration in a professional register and the practice of a legally recognised role in public health.

In addition to training specialists with multi-disciplinary sensitivity and direct knowledge of practitioners ‘in the other field’, it also is advisable to consider a training course of the prevention worker’s career. Placement in other sectors in the post-speciality years or the preparatory phase to managerial positions in public health services or EPAs is essential to achieve multi-disciplinary and inter-institutional communication skills.

Such knowledge sharing might be helpful also to raise awareness of steps needed for sustainable development and to reduce the environmental footprint of health services.

5 EPH organisational synergies for education and training

There is a traditional distinction between ‘education’, the development of fundamental cultural and scientific knowledge, and ‘training’, referred to concepts, skills and competencies that constitute the ability to apply knowledge to reality as part of professional or practical roles in society. The tasks of providing education and training even though closely related, are distinct and have several differences; a key one is that training is focused chiefly to ‘practitioners’, people who are already employed and who would like to develop their role, whereas education is mainly focused on ‘students’ who may or may not go on to be professionally involved in applying their knowledge.

The following comments and proposals are addressed to different targets with different objectives, addressing various challenges and modes of action.

The WHO is developing different sets of environmental health tools and training materials for health professionals, such as the air pollution and health training toolkit. A mapping of other air pollution and health training opportunities has also been published (80), presenting courses from different geographical regions whilst providing some good practices for creating new training programmes. WHO has developed various products to educate healthcare professionals on climate change, children’s health, environmental risk factors, and more. They have developed a comprehensive collection of WHO and UN guidance for creating healthier environments, consisting of 500 actions and interventions. This resource is valuable for decision-makers including mayors, public health officers, and ministry staff involved in health and environmental matters (81).

The World Organisation of National Colleges, Academies and Academic Associations of General Practitioners/Family Physicians, the World Organisation of Family Doctors (WONCA), and Environment and Telessaúderes-UFRGS launched the Planetary Health course for Primary Care. With a focus on clinical practice and the reality of health professionals, the course is designed to introduce family doctors and other primary health care professionals and students to planetary health; and to inspire and guide them to educate others or become advocates in various ways (82, 83).

The Global Consortium on Climate and Health Education (GCCHE) was created at Columbia University in 2017. With the aim to develop core competencies for climate and health education and equip healthcare professionals worldwide with the knowledge and skills to address climate-related health challenges, it has an input from over 300 member schools across 50+ countries. They are central to the Climate Change and Public Health Toolkit by the Association of Schools and Programmes of Public Health (84, 85).

As per the Statement of Planetary Health Principles (87), as detailed in Annex, the in vivo Planetary Health group affiliated with the Worldwide Universities Network (WUN) contemplates the following:

‘Advocacy: We should actively promote the increased integration of a planetary health perspective into the education of healthcare professionals. Additionally, we should advocate for early-life education in scientific disciplines that serve two critical purposes: first, to demonstrate the intricate interconnectedness of human life with Earth’s biodiversity and natural systems; and second, to illustrate how individual well-being is intricately linked to our coexistence with fellow humans and other life forms’.

Such discourse is encouraged in the education of caring and teaching professionals (and widely throughout society). Individuals will strive to lead by example, reduce primacy, and encourage unity.

6 Conclusion

To support conversion of human societies to ecological sustainability before climate and other environmental change produce impacts that threaten the resilience of social fabric catastrophically, it is important to empower practitioners of all disciplines relevant to environmental public health. Supporting the education of future generations to move in this direction, as well as the current generation of decision makers, can help ensure justifications and plans for the more sustainable options within the available spectrum of the workforce making use of their current roles.

Training and enabling practitioners in multiple disciplines for the EPH task is highly encouraged. Practitioners of health and other disciplines may play a role within consortia directed at the overall goal of practical re-orientation of activities with human health impacts and related decision making.

This paper provides a reflection on the overall path of environmental health prevention training and education, focusing on conceptual frameworks of reference that can inform the overall perspective for implementing environmental public health on the ground. A companion paper (86) summarises some experiences and proposals from around the world. These confirm that the call has already been heard and produced several results in the real world; hence, the companion paper presents recommendations for those who arrange training activities in this field. The main point that has been raised is the need for and feasibility of integration, and re-orientation of current practice by on-the-job training inspired by experiences already completed, as well as influence of future practice by re-directed educational frameworks.

Author contributions

GL: Conceptualization, Supervision, Writing – original draft, Writing – review & editing, Formal analysis. AZ: Conceptualization, Supervision, Writing – original draft, Writing – review & editing, Formal analysis, Funding acquisition. MA: Writing – review & editing. CB: Writing – review & editing. HC: Writing – review & editing. RD-D: Writing – review & editing. RE: Conceptualization, Writing – review & editing. NG: Writing – review & editing. OG: Writing – review & editing. WH: Writing – review & editing. PJ: Conceptualization, Writing – review & editing. EK: Writing – review & editing. PMO: Writing – review & editing. JP: Writing – review & editing. PH: Writing – review & editing. ER: Writing – review & editing. MS: Writing – review & editing. JS: Writing – review & editing. CS: Writing – review & editing. SV: Writing – review & editing. FY: Writing – review & editing. PL: Conceptualization, Formal analysis, Supervision, Writing – original draft, Writing – review & editing.

Funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. The publication of this study is part funded by the National Institute for Health and Care Research (NIHR) Health Protection Research Unit in Environmental Change and Health (NIHR 200909), a partnership between UK Health Security Agency (UKHSA) and the London School of Hygiene and Tropical Medicine (LSHTM), in collaboration with University College London and the Met Office. The views expressed are those of the author(s) and not necessarily those of the NIHR, UK Health Security Agency, London School of Hygiene and Tropical Medicine, University College London, the Met Office or the Department of Health and Social Care. SV acknowledges the HEAL (Healthy Environments And Lives) National Research Network, which receives funding from the National Health and Medical Research Council (NHMRC) Special Initiative in Human Health and Environmental Change (Grant No. 2008937).

Conflict of interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

PL declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision.

Publisher’s note

The findings and conclusions of this paper are solely the responsibility of the authors and do not necessarily represent the official position of the authors’ agencies or organisations (e.g., the Centers for Disease Control and Prevention).

Footnotes

1. ^Adopted by the General Assembly of the United Nations in 2015, the 17 “Sustainable Development Goals” (SDGs) are the layout to achieve a better and more sustainable world for all by 2030. These goals are a call for action to address a series of global challenges, such as: poverty, inequality, climate, environmental degradation, and justice Essentially for sustainable development to be achieved, it is crucial to harmonise three core elements: economic growth, social inclusion and environmental protection. These elements are interconnected, and all are crucial for the well–being of individuals and societies. From an EPH point of view, all 17 SDGs are different facets of an integrated and systematic approach towards a sustainable and healthy planet.

2. ^https://neighbourhood-enlargement.ec.europa.eu/funding-and-technical-assistance/twinning_en

References

1. Romanello, M, Di Napoli, C, Drummond, P, Green, C, Kennard, H, Lampard, P, et al. The 2022 report of the lancet countdown on health and climate change: health at the mercy of fossil fuels. Lancet. (2022) 400:1619–54. doi: 10.1016/S0140-6736(22)01540-9

Crossref Full Text | Google Scholar

2. Lauriola, P, Zeka, A, and Leonardi, GS. Obesity as an ecological public health issue: from public health science to public health actions In: D Soysal, editor. Obesity. 1st ed. Ankara: Türkiye Klinikleri (2022). 69–78.

Google Scholar

3. Zeka, A, Leonardi, G, and Lauriola, P In: C Guerriero, editor. Climate Change and Ecological Public Health: An Integrated Framework in Cost-Benefit Analysis of Environmental Health Interventions. San Diego, California: Elsevier (2019)

Google Scholar

4. McMichael, AJ, and Beaglehole, R. The changing global context of public health. Lancet. (2000) 356:495–9. doi: 10.1016/S0140-6736(00)02564-2

Crossref Full Text | Google Scholar

5. Martin-Olmedo, P, and Mekel, O. Risk assessment, impact assessment and evaluation In: G Guliš, O Mekel, B Ádám, and L Cori, editors. Assessment of Population Health Risks of Policies. New York: Springer Science+ Business Media (2014). 13–35.

Google Scholar

6. Kickbusch, I. The political determinants of health – 10 years on. BMJ. (2015) 350:h81. doi: 10.1136/bmj.h81

PubMed Abstract | Crossref Full Text | Google Scholar

7. UN (2021). Access to a healthy environment, declared a human right by UN rights council, UN News. Available at: https://news.un.org/en/story/2021/10/1102582

Google Scholar

8. Solar, O., and Irwin, A. (2003). A conceptual framework for action on the social determinants of health. Social determinants of health. Discussion. Paper 2 (Policy and Practice). World Health Organization 2010. ISBN: 9789241500852a U.S. EPA. Framework for Cumulative Risk Assessment. U.S. Environmental Protection Agency, Office of Research and Development, Center for Public Health and Environmental Assessment (CPHEA), formerly known as the National Center for Environmental Assessment (NCEA), Washington Office, Washington, DC, EPA/600/P-02/001F.

Google Scholar

9. IJERPH (2022). Special issue: Cumulative impacts for permits and real-world decision-making. Available at: mdpi.com

Google Scholar

10. Rayner, G, and Lang, T. Ecological Public Health: Reshaping the Conditions for Good Health. Abingdon: Routledge (2012).

Google Scholar

11. Chapman, A, Kumar, C, and Yunda, P. (2024). Solving the UK’s skills shortage. How a national skilling wage would future-proof our economy. New Economics Foundation. Available at: https://neweconomics.org/2023/02/skills-for-a-new-economy

Google Scholar

12. Reis, S, Morris, G, Fleming, LE, Beck, S, Taylor, T, White, M, et al. Integrating health and environmental impact analysis. Public Health. (2015) 129:1383–9. doi: 10.1016/j.puhe.2013.07.006

Crossref Full Text | Google Scholar

13. Morris, GP, Beck, SA, Hanlon, P, and Robertson, R. Getting strategic about the environment and health. Public Health. (2006) 120:889–903. doi: 10.1016/j.puhe.2006.05.022

PubMed Abstract | Crossref Full Text | Google Scholar

14. Morris, G, Staatsen, B, and van der Vliet, N. Using conceptual models to shape healthy sustainable cities In: M Nieuwenhuijsen and H Khreis, editors. Integrating Human Health into Urban and Transport Planning. Cham: Springer (2019)

Google Scholar

15. Leonardi, GS, Lauriola, P, Martorelli, S, and Semenza, JC (2022). E dopo il covid? Proteggere la salute e l’ambiente per prevenire le pandemie e altri disastri. Edizioni Intra Srls, Collana Politicamente.

Google Scholar

16. Ståhl, T., Wismar, M., Ollila, E., Lahtinen, E., and Leppo, K. (eds.) (2006). Health in all policies. Prospects and potentials. Finland: Ministry of Social Affairs and Health. Available at: https://www.euro.who.int/__data/assets/pdf_file/0003/109146/E89260.pdf (Accessed May 31, 2022).

Google Scholar

17. Costumato, L. Collaboration among public organizations: a systematic literature review on determinants of interinstitutional performance. Int J Public Sec Manag. (2021) 34:247–73. doi: 10.1108/IJPSM-03-2020-0069

Crossref Full Text | Google Scholar

18. Martin-Olmedo, P. Health in all policies: key driver for better health still awaiting of greater governing stewardship. Eur J Pub Health. (2022) 32:ckac129.575. doi: 10.1093/eurpub/ckac129.575

Crossref Full Text | Google Scholar

19. Tang, KC, Stahl, T, Bettcher, D, and de Leeuw, E. The eighth global conference on health promotion: health in all policies: from rhetoric to action. Health Promot Int. (2014) 29:i1–8. doi: 10.1093/heapro/dau051

PubMed Abstract | Crossref Full Text | Google Scholar

20. Redvers, N, Faerron Guzmán, CA, and Parkes, MW. Towards an educational praxis for planetary health: a call for transformative, inclusive, and integrative approaches for learning and relearning in the Anthropocene. Lancet Planet Health. (2023) 7:e77–85. doi: 10.1016/S2542-5196(22)00332-1

PubMed Abstract | Crossref Full Text | Google Scholar

21. Lauriola, P, Martín-Olmedo, P, Leonardi, GS, Bouland, C, Verheij, R, Dückers, MLA, et al. On the importance of primary and community healthcare in relation to global health and environmental threats: lessons from the COVID-19 crisis BMJ. Glob Health. (2021) 6:e004111. doi: 10.1136/bmjgh-2020-004111

PubMed Abstract | Crossref Full Text | Google Scholar

22. WHO (2005). International Health Regulations (IHR). Available at: https://www.who.int/health-topics/international-health-regulations#tab=tab_1

Google Scholar

23. Eit Climate Kic (2020). Five ways of meaningfully involving citizens in climate action. Available at: https://www.climate-kic.org/opinion/five-ways-of-meaningfully-involving-citizens-in-climate-action/

Google Scholar

24. Center for International Environmental law (CIEL) (2018). Promoting public participation in climate action: Not just good practice, but a legal duty of European governments. Available at: https://www.ciel.org/promoting-public-participation-climate-action-legal-duty/

Google Scholar

25. Horton, R. Offline: is democracy good for your health? Lancet. (2021). 398(10316):2060. dOI: doi: 10.1016/S0140-6736(21)02747-1

Crossref Full Text | Google Scholar

26. Nogueiro, T, and Saraiva, M. TQM and SDGs for Erasmus+ Programme—quality education, reducing inequalities, climate change, peace and justice. Sociol Sci. (2023) 12:123. doi: 10.3390/socsci12030123

Crossref Full Text | Google Scholar

27. Planetary Health Alliance (2024). Planetary Health. Available at: https://www.planetaryhealthalliance.org/planetary-health

Google Scholar

28. Faerron Guzmán, CA, Aguirre, AA, Astle, B, Barros, E, Bayles, B, Chimbari, M, et al. A framework to guide planetary health education. Lancet Planet Health. (2021) 5:E253–5. doi: 10.1016/S2542-5196(21)00110-8

Crossref Full Text | Google Scholar

29. IANPHI (2024). Framework for the creation and development of National Public Health Institutes. Available at: https://www.ianphi.org/tools-resources/nphi-framework.html

Google Scholar

30. Reid, AJ, Brooks, JL, Dolgova, L, Laurich, B, Sullivan, BG, Szekeres, P, et al. Post-2015 sustainable development goals still neglecting their environmental roots in the Anthropocene. Environ Sci Pol. (2017) 77:179–84. doi: 10.1016/j.envsci.2017.07.006

Crossref Full Text | Google Scholar

31. World Health Organization. Regional Office for Europe (2018). Facing the future: Opportunities and challenges for 21st-century public health in implementing the sustainable development goals and the health 2020 policy framework. World Health Organization. Regional Office for Europe. Available at: https://iris.who.int/handle/10665/340350

Google Scholar

32. Coscieme, L, Mortensen, LF, and Donohue, I. Enhance environmental policy coherence to meet the sustainable development goals. J Clean Prod. (2021) 296:126502. doi: 10.1016/j.jclepro.2021.126502

Crossref Full Text | Google Scholar

33. McMichael, P, and Schneider, M. Food security politics and the millennium development goals. Third World Q. (2011) 32:119–39. doi: 10.1080/01436597.2011.543818

PubMed Abstract | Crossref Full Text | Google Scholar

34. Sustainable Development Goals (2023). The sustainable development goals report 2023: Special edition. Available at: https://unstats.un.org/sdgs/report/2023/

Google Scholar

35. UN Statistics Division (2024). Methodology, Standard country or area codes for statistical use (M49). Available at: https://unstats.un.org/unsd/methodology/m49

Google Scholar

36. Matthews, V, Atkinson, A-R, Grace, L, Jo, L, Vardoulakis, S, and Mohamed, J. Justice, culture, and relationships: Australian indigenous prescription for planetary health. Science. (2023) 381:636–41. doi: 10.1126/science.adh9949

PubMed Abstract | Crossref Full Text | Google Scholar

37. Brown, RB. Transdisciplinary model for environmental protection and primordial prevention of disease. J Environ Stud Sci. (2022) 12:898–904. doi: 10.1007/s13412-022-00751-3

Crossref Full Text | Google Scholar

38. EU (2020). Acquis Communautaire. Available at: https://eur-lex.europa.eu/EN/legal-content/glossary/acquis.html

Google Scholar

39. Ruadze, E, Leonardi, GS, Saei, A, Khonelidze, I, Sturua, L, Getia, V, et al. Reduction in blood lead concentration in children across the republic of georgia following interventions to address widespread exceedance of reference value in 2019. Int J Environ Res Public Health. (2021) 18:11903. doi: 10.3390/ijerph182211903

PubMed Abstract | Crossref Full Text | Google Scholar

40. Krasna, H, Czabanowska, K, Jiang, S, Khadka, S, Morita, H, Kornfeld, J, et al. The future of careers at the intersection of climate change and public health: what can job postings and an employer survey tell us? Int J Environ Res Public Health. (2020) 17:1310. doi: 10.3390/ijerph17041310

PubMed Abstract | Crossref Full Text | Google Scholar

41. Griffiths, S, Jewell, T, and Donnelly, P. Public health in practice: the three domains of public health. Public Health. (2005) 119:907–13. doi: 10.1016/j.puhe.2005.01.010

PubMed Abstract | Crossref Full Text | Google Scholar

42. Thorpe, A, Griffiths, S, Jewell, T, and Adshead, F. The three domains of public health: an internationally relevant basis for public health education? Public Health. (2008) 122:201–10. doi: 10.1016/j.puhe.2007.05.013

PubMed Abstract | Crossref Full Text | Google Scholar

43. Orhan, R, Middleton, J, Krafft, T, and Czabanowska, K. Climate action at public health schools in the European region. Int J Environ Res Public Health. (2021) 18:1518. doi: 10.3390/ijerph18041518

PubMed Abstract | Crossref Full Text | Google Scholar

44. UN Sustainable Development goals (2020). Football for the Goals. Available at: https://www.un.org/en/footballforthegoals?gclid=CjwKCAjw-eKpBhAbEiwAqFL0mj3renWdNkKFgR7C3G20aZVf57DTwjM_shSZEVaSE7tTXpE6JlgAshoCBLgQAvD_BwE

Google Scholar

45. Sim, F, Lock, K, and McKee, M. Maximizing the contribution of the public health workforce: the English experience. Bull World Health Organ. (2007) 85:935–40. doi: 10.2471/BLT.07.044289

Crossref Full Text | Google Scholar

46. Bjegovic-Mikanovic, V., Czabanowska, K, Flahault, A, Otok, R, Shortell, S, Wisbaum, W, et al. (2014). Addressing needs in the public health workforce in Europe. World Health Organization. Available at: https://www.researchgate.net/publication/233757028_Adressing_needs_in_the_public_health_workforce_in_Europe.

Google Scholar

47. Shaw, EWS, Walpole, S, McLean, M, Alvarez-Nieto, C, Barna, S, Bazin, K, et al. AMEE consensus statement: planetary health and education for sustainable healthcare. Med Teach. (2021) 43:272–86. doi: 10.1080/0142159X.2020.1860207

PubMed Abstract | Crossref Full Text | Google Scholar

48. Redvers, N, Celidwen, Y, Schultz, C, Horn, O, Githaiga, C, Vera, M, et al. The determinants of planetary health: an indigenous consensus perspective. Lancet Planet Health. (2022) 6:e156–63. doi: 10.1016/S2542-5196(21)00354-5

PubMed Abstract | Crossref Full Text | Google Scholar

49. Greer, SL, Falkenbach, M, Siciliani, L, McKee, M, Wismar, M, and Figueras, J. Health in all policies to health for all policies Scott L Greer, Michelle Falkenbach, Luigi Siciliani, Martin McKee, Matthias Wismar, Josep Figueras lancet. Public Health. (2022) 7:e718–20. doi: 10.1016/S2468-2667(22)00155-4

PubMed Abstract | Crossref Full Text | Google Scholar

50. Sante Publique France (2022). Health as a lever for action on climate change. Available at: https://www.santepubliquefrance.fr/en/health-as-a-lever-for-action-on-climate-change#block-425748

Google Scholar

51. WHO Europe (2023). Declaration of the seventh ministerial conference on environment and health: Budapest, Hungary. Available at: https://www.who.int/europe/publications/i/item/EURO-Budapest2023-6

Google Scholar

52. van den Hazel, P., Kreis, IA, Murray, V, and Leonardi, G (2010). PHEEDUNET Document 4 (47 pages): Registration (procedures for registration as specialist in environmental public health). A European Network for the Training and development of public health (environment) physicians. European Union Public Health Executive Agency. Available at: https://www.researchgate.net/publication/336217728_PHEEDUNET_Document_4_47_pages_Registration_procedures_for_registration_as_specialist_in_environmental_public_health_European_Union_Public_Health_Executive_Agency.

Google Scholar

53. Faculty of Public Health of the Royal College of Physicians of the UK (2022). “Public Health Specialty Training Curriculum 2022.” Available at: https://www.fph.org.uk/media/3537/public-health-training-curriculum-2022-final.pdf

Google Scholar

54. Spiby, J. (2006). “Developing competencies in environmental public health.” Chemical Hazards and Poisons Report. Available at: https://assets.publishing.service.gov.uk/media/5a7c9b2aed915d12ab4bbea4/rep_Chapr6Feb2006.pdf

Google Scholar

55. Haines, A, and Ebi, K. The imperative for climate action to protect health. N Engl J Med. (2019) 380:263–73. doi: 10.1056/NEJMra1807873

PubMed Abstract | Crossref Full Text | Google Scholar

56. Gallup, U.S. (2020) Ethics Ratings Rise for Medical Workers and Teachers. Available at: https://news.gallup.com/poll/328136/ethics-ratings-rise-medical-workers-teachers.aspx

Google Scholar

57. Parkes, MW, Poland, B, Allison, S, Cole, DC, Culbert, I, Gislason, MK, et al. Preparing for the future of public health: ecological determinants of health and the call for an eco-social approach to public health education. Can J Public Health. (2020) 111:60–4. doi: 10.17269/s41997-019-00263-8

PubMed Abstract | Crossref Full Text | Google Scholar

58. Planetary Health Alliance. (2024) Climate change. Available at: https://www.planetaryhealthalliance.org/climate-change.

Google Scholar

59. Unger, JP, Morales, I, De Paepe, P, and Roland, M. Integrating clinical and public health knowledge in support of joint medical practice. BMC Health Serv Res. (2020) 20:1073. doi: 10.1186/s12913-020-05886-z

Crossref Full Text | Google Scholar

60. Di Ciaula, A, Moshammer, H, Lauriola, P, and Portincasa, P. Environmental health, COVID-19, and the syndemic: internal medicine facing the challenge. Intern Emerg Med. (2022) 17:2187–98. doi: 10.1007/s11739-022-03107-5

PubMed Abstract | Crossref Full Text | Google Scholar

61. Kisling, LA, and Das, JM. Prevention strategies [Updated 2023 Aug 1]. In: StatPearls. [Internet] Treasure Island (FL): StatPearls Publishing. (2024). Available from: https://www.ncbi.nlm.nih.gov/books/NBK537222/.

Google Scholar

62. Echeverry, O. The fiction of health services. Colomb Med. (2012) 43:185–8. doi: 10.25100/cm.v43i2.1148

PubMed Abstract | Crossref Full Text | Google Scholar

63. Maxwell, J, and Blashki, G. Teaching about climate change in medical education: an opportunity. J Public Health Res. (2016) 5:673. doi: 10.4081/jphr.2016.673

PubMed Abstract | Crossref Full Text | Google Scholar

64. Tun, S. Fulfilling a new obligation: teaching and learning of sustainable healthcare in the medical education curriculum. Med Teach. (2019) 41:1168–77. doi: 10.1080/0142159X.2019.1623870

PubMed Abstract | Crossref Full Text | Google Scholar

65. Feliciano, T., France, S., Larsen, S., and Meyer, M. (2022). The planetary health report card: Literature Review by Metric. Available at: https://phreportcard.org/wp-content/uploads/2022/04/PHRC-Literature-Review.pdf

Google Scholar

66. Eskenazi, B, Etzel, RA, Sripada, K, Cairns, MR, Hertz-Picciotto, I, Kordas, K, et al. The International Society for Children's health and the environment commits to reduce its carbon footprint to safeguard Children's health. Environ Health Perspect. (2020) 128:14501. doi: 10.1289/EHP6578

PubMed Abstract | Crossref Full Text | Google Scholar

67. Fitzpatrick, M., and Bonnefoy, X. (1998). Environmental health Services in Europe 3: professional profiles. WHO Regional Publications, European Series, No 82 Copenhagen, WHO Regional Office for Europe.

Google Scholar

68. WHO (1999). Health21: The health for all policy framework for the WHO European region (European Health for All Series; No. 6). Available at: https://www.euro.who.int/en/publications/abstracts/health21-the-health-for-all-policy-framework-for-the-who-european-region

Google Scholar

69. WHO (2018). Health Systems for Prosperity and Solidarity: Leaving no one behind, Tallin. Available at: https://www.euro.who.int/en/media-centre/events/events/2018/06/health-systems-for-prosperity-and-solidarity-leaving-no-one-behind

Google Scholar

70. WHO (2019). Participation as a driver of health equity. Available at: https://apps.who.int/iris/bitstream/handle/10665/324909/9789289054126-eng.pdf?sequence=1&isAllowed=y

Google Scholar

71. Resnik, DB. Responsibility for health: personal, social, and environmental. J Med Ethics. (2007) 33:444–5. doi: 10.1136/jme.2006.017574

PubMed Abstract | Crossref Full Text | Google Scholar

72. Harris, E, Wise, M, and Hawe, P. Working Together: Intersectoral Action for Health. Canberra: Australian Government Publishing Service (1995).

Google Scholar

73. Kreisel, W, and von Schirnding, Y. Intersectoral action for health: a cornerstone for health for all in the 21st century. World Health Stat Q. (1998) 51:75–8.

Google Scholar

74. Rosenstock, TS, Dawson, IK, Aynekulu, E, Chomba, S, Degrande, A, Fornace, K, et al. A planetary health perspective on agroforestry in sub-Saharan Africa. One Earth. (2019) 1:330–44. doi: 10.1016/j.oneear.2019.10.017

Crossref Full Text | Google Scholar

75. Azapagic, A, Chalabi, Z, Vardoulakis, S, Grundy, C, Jones, M, Leonardi, G, et al. An integrated approach to assessing the environmental and health impacts of pollution in the urban environment: methodology and a case study. Process Saf Environ Prot. (2013) 91:508–20. doi: 10.1016/j.psep.2012.11.004

Crossref Full Text | Google Scholar

76. Bobbio, L. Come Smaltire i Rifiuti. Un Esperimento Di Democrazia Deliberativa. Stato Merc. (2002) 64:101–41. Available at: http://www.jstor.org/stable/45276102 (Italian).

Google Scholar

77. Kreis, IA, Murray, V, Leonardi, G, and van den Hazel, P (2010). PHEEDUNET document 3: Curricula for registration. A European network for the training and development of public health (environment) physicians. EU Public Health Executive Agency Project No: 2006335. Available at: https://www.researchgate.net/publication/336217222_PHEEDUNET_Document_3_609_pages_Curricula_A_European_Network_for_the_Training_and_development_of_Public_Health_Environment_Physicians (Accessed October 23, 2023).

Google Scholar

78. Salter, J, and Wilkinson, O. Faith framing climate: a review of faith actors’ definitions and usage of climate change. Clim Dev. (2023) 16:97–108. doi: 10.1080/17565529.2023.2183073

Crossref Full Text | Google Scholar

79. Marks, L, Smith, BJ, Mitchell, J, Laird, Y, and Rowbotham, S. The case for citizen science in public health policy and practice: a mixed methods study of policymaker and practitioner perspectives and experiences. Health Res Policy Sys. 21:31. doi: 10.1186/s12961-023-00978-8

PubMed Abstract | Crossref Full Text | Google Scholar

80. World Health Organization (2021). Mapping opportunities for training in air pollution and health for the health workforce. World health Organization. Available at: https://apps.who.int/iris/handle/10665/351042

Google Scholar

81. World Health Organization (2021). Compendium of WHO and other UN guidance on health and environment. World Health Organization. Available at: https://apps.who.int/iris/handle/10665/344476

Google Scholar

82. World Organisation of Family Doctors, WONCA. (2024). Manual for Planetary Health Course. Coordinator Roberto Nunes. Available at: https://www.ufrgs.br/telessauders/noticias/wonca-environment-launches-planetary-health-course/.

Google Scholar

83. Saude Planetaria, Curso EAD de Saúde Planetária: lançamento internacional. (2020). Available at: http://saudeplanetaria.iea.usp.br/en/curso-ead-internacional/.

Google Scholar

84. Climate Change and Health—A Public Health Education Toolkit (2022). Association of Schools and Programs of Public Health. Available at: https://s3.amazonaws.com/ASPPH_Media_Files/Climate_Change_and_Health_Education_Toolkit.pdf (Accessed July 17, 2022).

Google Scholar

85. ASPHER (2022). Climate and health competencies for public health professionals in Europe. Available at: https://www.aspher.org/download/882/25-10-2021-final_aspher-climate-and-health-competencies-for-public-health-professionals-in-europe.pdf (Accessed June 1, 2024).

Google Scholar

86. Leonardi, GS, Zeka, A, Ashworth, M, Bouland, C, Crabbe, H, Duarte-Davidson, R, et al. Building competency to deal with environmental health challenges: experiences and a proposal. Front Public Health. (2024). doi: 10.3389/fpubh.2024.1373530

Crossref Full Text | Google Scholar

87. Prescott, SL, Logan, AC, Albrecht, G, Campbell, D, Crane, J, Cunsolo, A, et al. The canmore declaration: statement of principles for planetary health. Challenges. (2018) 9:31. doi: 10.3390/challe9020031

Crossref Full Text | Google Scholar

88. Spiegel, JB, and Yassi, A. Theatre of alliances? Role-play, representation, and ecosystem health in Ecuador. Theatr Top. (2007) 17:129–40. doi: 10.1353/tt.2008.0009

Crossref Full Text | Google Scholar

89. National Academies of Sciences, Engineering, and Medicine (2022). Systematizing the one health approach in preparedness and response efforts for infectious disease outbreaks: Proceedings of a workshop. The National Academies Press, Washington, DC. p.64.

Google Scholar

90. Wikipedia, Community Health Definition (2024). Available at: https://en.wikipedia.org/wiki/Community_health

Google Scholar

91. World Health Organization, Regional Office for Europe (1984). Health promotion: A discussion document on the concept and principles: Summary report of the working group on concept and principles of health promotion, Copenhagen, 1984. Copenhagen: WHO Regional Office for Europe. Available at: https://apps.who.int/iris/handle/10665/107835

Google Scholar

92. Parkes, M, Waltner-Toews, D, and Horwitz, P. Ecohealth In: AC Michalos, editor. Encyclopedia of Quality of Life and Well-Being Research. Dordrecht: Springer (2014)

Google Scholar

93. Lang, T, and Rayner, G. Ecological public health: the 21st century's big idea? An essay by Tim Lang and Geof Rayner. BMJ. (2012) 345:e5466. doi: 10.1136/bmj.e5466

PubMed Abstract | Crossref Full Text | Google Scholar

94. Wikipedia, Ecosystem Health Definition (2024). Available at: https://en.wikipedia.org/wiki/Ecosystem_health#cite_note-rapport1998-1

Google Scholar

95. WHO, Environmental health (2024). Definition. Available at: https://www.who.int/health-topics/environmental-health#tab=tab_1.

Google Scholar

96. US EPA (2024). Learn About Environmental Justice. (updated: April, 26 2024) Available at: https://www.epa.gov/environmentaljustice/learn-about-environmental-justice#:~:text=Environmental%20justice%20(EJ)%20is%20the,environmental%20laws%2C%20regulations%20and%20policies

Google Scholar

97. Kreis, IA, Leonardi, GS, Murray, VSG, Ortega Garcia, JA, van Loenhout, J, and Ohnsorge, P (2009). PHEEDUNET document 1 (16 pages). Definitions. A European network for the training and development of public health (environment) physicians. EU Public Health Executive Agency Project No: 2006335.

Google Scholar

98. Goldman, L (2007). Environmental Public Health Impacts of Disasters: Hurricane Katrina: Workshop Summary. Institute of Medicine (US) Roundtable on Environmental Health Sciences, Research, and Medicine. Washington (DC): National Academies Press (US).

Google Scholar

99. McGeehin, MA, Qualters, JR, and Niskar, AS. National Environmental Public Health Tracking Program: bridging the information gap. Environ Health Perspect. (2004) 112:1409–13. doi: 10.1289/ehp.7144

PubMed Abstract | Crossref Full Text | Google Scholar

100. Cousins, T, Pentecost, M, Alvergne, A, Chandler, C, Chigudu, S, Herrick, C, et al. The changing climates of global health. BMJ Glob Health. (2021) 6:e005442. doi: 10.1136/bmjgh-2021-005442

PubMed Abstract | Crossref Full Text | Google Scholar

101. WHO (2021). Joint tripartite (FAO, OIE, WHO) and UNEP statement definition of "one health. Available at: https://www.who.int/news/item/01-12-2021-tripartite-and-unep-support-ohhlep-s-definition-of-one-health

Google Scholar

102. Whitmee, S, Haines, A, Beyrer, C, Boltz, F, Capon, AG, de Souza Dias, BF, et al. Safeguarding human health in the Anthropocene epoch: report of the Rockefeller Foundation–lancet commission on planetary health. Lancet. (2015) 386:1973–2028. doi: 10.1016/S0140-6736(15)60901-1

PubMed Abstract | Crossref Full Text | Google Scholar

103. WHO (2023). Primary health Care. Available at: https://www.who.int/news-room/fact-sheets/detail/primary-health-care

Google Scholar

Annex

Glossary

Capacity-building: the capacity of individuals and groups to solve problems requires more than training—it also requires networks, supports, and infrastructure. Thus the term encompasses much more than ‘training’ to include team-building, communication skills, and networks (88).

Competence/Skill: ‘competencies’ and ‘skills’ are not interchangeable terms. Competencies integrate knowledge, skills, values, and attitudes for effective performance. Skills, on the other hand, are specific abilities that lead to predetermined results in a particular setting, categorised as technical or interpersonal. (‘soft’ skills) (89).

Community Health: is a major field of study within the medical and clinical sciences which focuses on the maintenance, protection, and improvement of the health status of population groups and communities (90). The WHO defines community health as environmental, social, and economic resources to sustain emotional and physical wellbeing amongst people in ways that advance their aspirations and satisfy their needs in their unique environment (91).

Eco-health: is a field of research, education, and practice that adopts systems approaches to promote the health of people, animals, and ecosystems in the context of social and ecological interactions (92).

Ecological public health: focuses on interactions, with one strand focusing on the biological world—in concerns about increasing strains on biodiversity or antimicrobial resistance, for example. Another strand centres on material issues such as links between industrial pollution, energy use and toxicity, and the impact on human species and nature. The advantage of ecological thinking is that it theorises complexity, a key feature facing modern conceptions of health (93).

Ecosystem health: Not to be confused with Ecological health or Environmental health Ecosystem health is a metaphor used to describe the condition of an ecosystem. This term is often used in portraying the state of ecosystems worldwide and in conservation and management. For example, scientific journals and the UN often use the terms planetary and ecosystem health, such as the recent journal The Lancet Planetary Health (94).

Environmental health: Clean air, stable climate, adequate water, sanitation and hygiene, safe use of chemicals, protection from radiation, healthy and safe workplaces, sound agricultural practices, health-supportive cities and built environments, and a preserved nature are all prerequisites for good health (95).

Environmental Justice: is the fair treatment and meaningful involvement of all people regardless of race, colour, national origin, or income with respect to the development, implementation and enforcement of environmental laws, regulations and policies (96).

Environmental Public Health: can be defined as ‘The science and art of preventing disease, prolonging life, and promoting health, where environmental risks are an important factor, through the organised efforts of society’ (97). It addresses aspects of health that are determined by interactions with the environment and occurs on many scales: genetic, cellular, individual, family, community, regional, national, and global (99).

Environmental public health tracking/surveillance: systematic, ongoing collection and analysis of information related to disease and environment, and its dissemination to individuals and institutions (99).

Global Health: The ‘global in global health has in practice referred to the reach of a small set of non-state actors—non-governmental organisations, pharmaceutical companies, philanthropies and universities—capable of defining new health agendas for the planet. The peculiar epistemology of global health emerged in the post-Cold War period from the widely shared belief that the transnational nature of contemporary threats to health—the propagation of infections through air travel, or the rise of chronic diseases associated with trade liberalisation and multinational corporations—could not be addressed through the old international health system, built around nation-states, but required new global solutions able to work across political and geographical borders (100).

Health Equity: Equity is the absence of unfair, avoidable or remediable differences among groups of people, whether those groups are defined socially, economically, demographically, or geographically or by other dimensions of inequality (e.g. sex, gender, ethnicity, disability, or sexual orientation). Health is a fundamental human right. Health equity is achieved when everyone can attain their full potential for health and well-being. (https://www.who.int/health-topics/health-equity#tab=tab_1).

Health Inequalities: are unfair and avoidable differences in health across the population, and between different groups within society. (https://www.england.nhs.uk/about/equality/equality-hub/national-healthcare-inequalities-improvement-programme/what-are-healthcare-inequalities/).

One Health: is an integrated, unifying approach that aims to sustainably balance and optimise the health of people, animals and ecosystems. It recognises the health of humans, domestic and wild animals, plants, and the wider environment (including ecosystems) are closely linked and interdependent. The approach mobilises multiple sectors, disciplines and communities at varying levels of society to work together to foster wellbeing and tackle threats to health and ecosystems whilst addressing the collective need for clean water, energy and air, safe and nutritious food, taking action on climate change, and contributing to sustainable development (101).

Planetary health: The definition published by The Lancet: ‘the achievement of the highest attainable standard of health, wellbeing, and equity worldwide through judicious attention to the human systems—political, economic, and social -that shape the future of humanity and the Earth’s natural systems that define the safe environmental limits within which humanity can flourish. Simply put, planetary health is the health of human civilisation and the state of the natural systems on which it depends’ (102). Planetary health is the interdependence of all ecosystems, natural and human-made, promoting health equity and wellness. It requires integrated approaches, breaking down conventional boundaries to foster science and cultural collaborations (87).

Primary health care: is a whole-of-society approach to health and wellbeing centred on the needs and preferences of individuals, families and communities. It addresses the broader determinants of health and focuses on the comprehensive and interrelated aspects of physical, mental and social health and wellbeing. It provides whole-person care for health needs throughout the lifespan, not just for a set of specific diseases. Primary health care ensures people receive comprehensive care—ranging from promotion and prevention to treatment, rehabilitation and palliative care—as close as feasible to people’s everyday environment (103).

Primary and Community health care: could play in managing health emergencies, addressing key environmental and social aspects, and assisting in designing the interventions to control them. P&CHC is important locally and globally. Societies are ageing, health spending is rising, and it is imperative to redesign health systems that contribute to community health by addressing environmental factors (21).