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A Nature-based Social Prescribing Impact Pathways Framework (NabSPIP): applying the One Health perspective

Published online by Cambridge University Press:  24 September 2024

A response to the following question: How can we operationalize the promotion and evaluation of nature-related ‘green’ health care within a One Health perspective?

Anna V. Kenyon*
Affiliation:
School of Medicine and Dentistry, University of Central Lancashire (UCLan), Preston, Lancashire, UK
*
Corresponding author: Anna V. Kenyon; Email: akenyon10@uclan.ac.uk
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Abstract

The need for a planetary approach to healthcare is widely recognised at national and international levels. Social prescribing is becoming an increasingly popular strategy for meeting contemporary social, physical and mental health needs as well as tackling health inequalities. As this is a relatively new and emerging healthcare intervention, a comprehensive and accurate understanding of its impact is essential to support continued improvements in care, develop strategies for scale-up and delivery and justify further funding and investment. Nature-based Social Prescribing (NBSP) has unique potential to affect animal and environmental outcomes as well as human health. The One Health perspective can be used to operationalise and evaluate NBSP. This article presents the Nature-based Social Prescribing Impact Pathways (NaBSPIP) framework, which can be used to guide NBSP design and evaluation to leverage maximum benefit for humans, animals and the environment that we share.

Type
Results
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press

What this article adds:

  1. 1. Identifying NBSP as a type of social prescribing that can support human health and sustainability goals.

  2. 2. Introducing the NaBSPIP framework to guide design and evaluation of NBSP.

  3. 3. Summary of evidence in relation to the NaBSPIP framework outcomes.

Introduction

Social prescribing and its importance

Social prescribing happens when a person is referred to a community project or group by a health or well-being professional. SP is high on the political healthcare agenda and incorporates the aims of the 2019 UK National Health Service (NHS) Long-Term Plan to deliver ‘personalised care’ (NHS, 2019) with professionals and patients working together to identify options that match patients’ interests and needs. The human health and social benefits of social prescribing include reducing health inequalities, engaging people at high risk and giving them a say in their care, as well as developing communities’ health infrastructure and resilience. The literature surrounding NBSP also typically focuses on these human-level impacts (Chatterjee et al., Reference Chatterjee, Camic, Lockyer and Thomson2018; Leavell et al., Reference Leavell, Leiferman, Gascon, Braddick, Gonzalez and Litt2019; Fixsen and Barrett, Reference Fixsen and Barrett2022; Wood et al., Reference Wood, Polley, Barton and Wicks2022). While development and investment in social prescribing gathers momentum, in some ways implementation is outpacing evidence, and we are left asking questions about how to maximise SP benefit (Husk et al., Reference Husk, Blockley, Lovell, Bethel, Lang, Byng and Garside2020).

Nature-based Social Prescribing and its importance

Nature-based Social Prescribing (NBSP) (also known as Green Social Prescribing) can be defined as any socially prescribed activity that involves nature or natural spaces. This engagement can take different forms such as direct contact through, for example, growing food, recreation in nature, for example, yoga or walking, nature-based arts and crafts or simply viewing, listening to or being in nature (Mughal et al., Reference Mughal, Seers, Polley, Sabey and Chatterjee2022; Kenyon et al., Reference Kenyon, Coventry, White, Montasem, Phukan and Ozols-Riding2023). The unique value of nature, and by extension, NBSP, for health and well-being is well-evidenced (Jackson et al., Reference Jackson, Stevenson, Larson, Peterson and Seekamp2021; Poortinga et al., Reference Poortinga, Bird, Hallingberg, Phillips and Williams2021; Jevtic et al., Reference Jevtic, Matkovic, Paut Kusturica and Bouland2022; Mughal et al., Reference Mughal, Seers, Polley, Sabey and Chatterjee2022; Lenda et al., Reference Lenda, Skórka, Jaźwa, Lin, Nęcka, Tryjanowski and Possingham2023) and includes benefits for more vulnerable groups (Darcy et al., Reference Darcy, Taylor, Mackay, Ellis and Gidlow2022). Moving beyond an anthropocentric perspective, NBSP offers multi-level benefit by contributing to wider environmental and healthcare sustainability goals and interlocking human health and ecological benefit.

Nature-based Social Prescribing (NBSP) and the One Health perspective

The One Health (OH) perspective is an interdisciplinary approach incorporating animal, ecological and human factors with the aim to protect and promote health, recognising that human health lies within the dynamic interconnections between humans, animals and the environment (Davis et al., Reference Davis, Rankin, Schurer, Cole, Conti and Rabinowitz2017; Rabinowitz et al., Reference Rabinowitz, Pappaioanou, Bardosh and Conti2018). A recent One Health expert-led panel defined One Health as ‘… 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’. (Adisasmito et al., Reference Adisasmito, Almuhairi, Behravesh, Bilivogui, Bukachi, Casas, Cediel, Charron, Chaudhary, Zanella, Cunningham, Dar, Debnath, Dungu, Farag, Gao, Hayman, Khaitsa, Koopmans, Machalaba, Mackenzie and Zhou2022, p. 2). As such, the OH perspective is ideally placed to guide NBSP.

Traditional OH approaches have been criticised for a tendency to view animals predominantly as a source of risk and zoonotic disease rather than a valuable and rightful part of the ecosystem, (Kingsley and Taylor, Reference Kingsley and Taylor2017; Felappi et al., Reference Felappi, Sommer, Falkenberg, Terlau and Kötter2020), with few studies measuring the functioning of ecosystems except as a risk to human health (Charron, Reference Charron2012). Similar to the anthropocentric perspectives described previously, this diminishing of the importance of animal and environmental health belies their importance for supporting human health and life, however, more recent OH perspectives recognise animal health as an independent outcome domain with potential to simultaneously augment human health (Lebov et al., Reference Lebov, Grieger, Womack, Zaccaro, Whitehead, Kowalcyk and MacDonald2017; Walton et al., Reference Walton, Hall, Guest, Butubu, Vinning, Black and Beardsley2020). This more inclusive approach that overcomes traditional anthropocentric perspectives, can further contribute to achieving wider sustainability goals while at the same time enhancing human health and well-being (Rüegg et al., Reference Rüegg, McMahon, Häsler, Esposito, Nielsen, Ifejika Speranza, Ehlinger, Peyre, Aragrande, Zinsstag, Davies, Mihalca, Buttigieg, Rushton, Carmo, De Meneghi, Canali, Filippitzi, Goutard, Ilieski, Milićević, O’Shea, Radeski, Kock, Staines and Lindberg2017).

This article presents the Nature-based Social Prescribing Impact Pathways (NaBSPIP) Framework which applies the OH perspective to outline multifaceted system of influence of NBSP. It explores the wider impact of these projects, and additional human benefits manifested through the animal-human-environmental interactions that transcend an anthropocentric perspective. The framework is used as a heuristic for elucidating the potential impact of NBSP projects. The NaBSPIP may be used to 1) support planners and policymakers in designing NBSP projects that deliver maximum benefit to animals, environments and humans and 2) to evaluate their holistic potential to support animal, environmental and human health and 3) how NBSP can support a sustainable public health agenda. To the author’s knowledge, this is the first published exploration of holistically applying the OH approach to NBSP.

Methods

This section shows how the OH perspective has been used to develop the NaBSPIP Framework. It considers how transdisciplinary and co-production, proclivities of the OH approach, can be used to inform NBSP. The OH perspective, alongside systems theory and an adapted version the causal pathways methods described by Greenland et al. (Reference Greenland, Pearl and Robins1999) has been applied to outline a framework of causal pathways outlined in the Nature-based Social Prescribing Impact Pathways (NaBSPIP) chart in Figure 1.

Figure 1. Nature-based Social Prescribing Impact Pathways (NaBSPIP) framework.

Methods: Overview

In their expert-led panel review of the One Health perspective, Adisasmito et al. (Reference Adisasmito, Almuhairi, Behravesh, Bilivogui, Bukachi, Casas, Cediel, Charron, Chaudhary, Zanella, Cunningham, Dar, Debnath, Dungu, Farag, Gao, Hayman, Khaitsa, Koopmans, Machalaba, Mackenzie and Zhou2022) identify its five key underlying principles:

  1. 1. Equity between different sectors and disciplines.

  2. 2. Stewardship & Responsibility of humans to protect and preserve animals, biodiversity and ecosystems.

  3. 3. Transdisciplinarity & Collaboration, including multiple perspectives and forms of knowledge

  4. 4. Parity between people, including sociopolitical and cultural groups, and proactive consideration of marginalised communities and voices.

  5. 5. Equilibrium in the interactions between animals, environment and humans. Recognition of the intrinsic value of living things.

Adapted from Adisasmito et al., (Reference Adisasmito, Almuhairi, Behravesh, Bilivogui, Bukachi, Casas, Cediel, Charron, Chaudhary, Zanella, Cunningham, Dar, Debnath, Dungu, Farag, Gao, Hayman, Khaitsa, Koopmans, Machalaba, Mackenzie and Zhou2022, p. 3).

Impact pathways 1–3 show the potential of NBSP to influence the three OH domains of animal environmental and human health. The cyclic loops in Pathways 4–6 show interactions between these domains which are typically included in depictions of OH domains as using overlapping Venn diagram segments, interlocking jigsaw pieces, or connecting lines or as bidirectional arrows (Amuasi et al., Reference Amuasi, Lucas, Horton and Winkler2020).

Ecological justice and transdisciplinary

Research at the intersection of nature and health typically adopts an anthropocentric approach, in which nature is a tool to support human health rather than an interconnected part of a wider system (Rabinowitz et al., Reference Rabinowitz, Pappaioanou, Bardosh and Conti2018). This risks ‘missing the wood for the trees’ in terms of the role of nature in maintaining human health and well-being outcomes. However, more recently there have been calls to recognise that firstly, our survival depends on natural environments and other living organisms, so human health and well-being should be regarded as integral to, rather than separate from, environment and other species’ health (Rupprecht et al., Reference Rupprecht, Vervoort, Berthelsen, Mangnus, Osborne, Thompson and Cristiano2020). Secondly, after the COVID-19 pandemic, ecosystem restoration is increasingly recognised as a public health imperative (J. M. Robinson et al., Reference Robinson, Aronson, Daniels, Goodwin, Liddicoat, Orlando, Phillips, Stanhope, Weinstein, Cross and Breed2022; T. Robinson et al., Reference Robinson, Robertson, Curtis, Darko and Jones2022). This approach is in line with an ecological justice framework that recognises equity of the value, role and agency of non-human organisms and the moral, as well as practical, importance of equitable distribution of benefits among human and non-human entities (Pineda-Pinto et al., Reference Pineda-Pinto, Frantzeskaki and Nygaard2021). The NaBSPIP circumvents anthropocentric approaches to health interventions by recognising the equity between the different domains within the OH perspective and stewardship as well as our responsibility to protect animals, biodiversity and ecosystems (Principles 1 and 2 outlined in the summary of OH principles above).

The OH perspective values transdisciplinary research that enhances knowledge by examining issues through multiple perspectives, transcending traditional disciplinary and professional silos to augment understanding and leverage innovative solutions (Lebov et al., Reference Lebov, Grieger, Womack, Zaccaro, Whitehead, Kowalcyk and MacDonald2017; Rüegg et al., Reference Rüegg, McMahon, Häsler, Esposito, Nielsen, Ifejika Speranza, Ehlinger, Peyre, Aragrande, Zinsstag, Davies, Mihalca, Buttigieg, Rushton, Carmo, De Meneghi, Canali, Filippitzi, Goutard, Ilieski, Milićević, O’Shea, Radeski, Kock, Staines and Lindberg2017; Amuasi et al., Reference Amuasi, Lucas, Horton and Winkler2020; Walton et al., Reference Walton, Hall, Guest, Butubu, Vinning, Black and Beardsley2020; Willems et al., Reference Willems, Kenyon, Sharp and Molenveld2021) in line with principle 3 in the summary of OH principles mentioned above. Due to the diverse nature of outcomes considered within the NaBSPIP framework, transdisciplinary approaches and teams should be involved in NBSP design and evaluation and may include disciplines such as psychology, medicine, public health, environmental management, landscape design, agriculture, zoology, epidemiology, engineering and policy development as well as professionals delivering and designing NBSP the services, healthcare practitioners and the participants themselves. Different subcategories of impact can be measured within the three OH domains. In their exposition of the contemporary One Health model, Rabinowitz et al. (Reference Rabinowitz, Pappaioanou, Bardosh and Conti2018) describe how the OH model can be viewed as a continuum from Engel’s biopsychosocial model; however, where Engel focused on human health as a series of incremental steps of increasing complexity (Engel, Reference Engel1977), the authors describe how all three One Health influences in human, animal and environmental spheres can be conceptualised as increasing levels of complexity. Animal health can be measured, for example at individual, herd and population levels and environmental levels including habitat and ecosystems. Human health outcomes can be measured at personal, family and community levels. NBSP projects should include design and evaluation expertise from across relevant sectors to ensure that adequate data within each of these domains is collected. This article has used cross-disciplinary resources to inform the section on Results and considers outcomes at multiple scales of influence.

As well as embedded in transdisciplinarity, an OH perspective challenges traditional power structures and is aligned with feminist and post-colonial approaches (reflected in principle 4 of the summary of OH principles). OH, research typically involves participatory research design and stakeholder involvement from inception to completion (Lebov et al., Reference Lebov, Grieger, Womack, Zaccaro, Whitehead, Kowalcyk and MacDonald2017; Rüegg et al., Reference Rüegg, McMahon, Häsler, Esposito, Nielsen, Ifejika Speranza, Ehlinger, Peyre, Aragrande, Zinsstag, Davies, Mihalca, Buttigieg, Rushton, Carmo, De Meneghi, Canali, Filippitzi, Goutard, Ilieski, Milićević, O’Shea, Radeski, Kock, Staines and Lindberg2017; Walton et al., Reference Walton, Hall, Guest, Butubu, Vinning, Black and Beardsley2020). The importance of co-production in health services is increasingly recognised as essential for service design, delivery and improvement (CQC, 2018; Fusco et al., Reference Fusco, Marsilio and Guglielmetti2023; Redman et al., Reference Redman, Greenhalgh, Adedokun, Staniszewska and Denegri2021; Smith et al., Reference Smith, Budworth, Grindey, Hague, Hamer, Kislov and Langley2022) and evaluation (Fusco et al., Reference Fusco, Marsilio and Guglielmetti2023). Incorporating a service user perspective into assessing value is an essential part of understanding whether that service was appropriate and valuable for the participants as the value of outcomes are contextually dependent. The diversity of socially prescribed activities and their ability to be adapted for local contexts is part of what makes social prescribing projects flexible to local contexts and needs. However, this means there is no one-size-fits-all which underscores the need for stakeholder engagement. However, a recent review of co-creation in healthcare found that multi-stakeholder perspectives in healthcare intervention evaluations are rare despite being a key for successful service development (Fusco et al., Reference Fusco, Marsilio and Guglielmetti2023). NBSP projects should include a proactive approach to including voices that are heard less often, or have a legacy of being overlooked (Van Patter et al., Reference Van Patter, Linares-Roake and Breen2023).

A key tenet of the One Health approach is interactions between and within the domains of animals, environments and human health (Adisasmito et al., Reference Adisasmito, Almuhairi, Behravesh, Bilivogui, Bukachi, Casas, Cediel, Charron, Chaudhary, Zanella, Cunningham, Dar, Debnath, Dungu, Farag, Gao, Hayman, Khaitsa, Koopmans, Machalaba, Mackenzie and Zhou2022) and endorsement of the intrinsic value of living things (principle 5 of the OH Principles outlined earlier). The interactions between these domains form a complex system of reciprocal influences between animals, environments and humans (Amuasi et al., Reference Amuasi, Lucas, Horton and Winkler2020). Variables can influence and be influenced by one another in ‘feedback loops’ and there are multiple levels of interactions within a system. Each pathway of influence can be termed a pathway of impact, or causal pathway, as it can be understood as one factor contributing to or causing the outcome. Such systems are evolving and contingent, it’s not possible to predict exact outcomes because the subtleties of the multiple interactions are variable and contingent upon contexts (Plsek, Reference Plsek2001). The NaBSPIP shows these interrelations and the potential of causal feedback loops as part of a systemic approach to the multiple, nonlinear and interacting chains of influence and cause and effect.

Combining this component of the OH paradigm, and causal diagrams (Greenland et al., Reference Greenland, Pearl and Robins1999), the Nature-based Social Prescribing Impact Pathways (NaBSPIP) Framework is a conceptual model of the interactions between the three One Health domains and NBSP. In the NaBSPIP, these show the recursive properties of the system; the relationships between the domains are dynamic and interactive and so the impact of NBSP can also be recursive, evolving and dynamic. Causal feedback loops and multidirectional cause-effect relationships are considered to better represent the ‘messy’ reality of cause-effect relationships, in health research (Borrell-Carrió et al., Reference Borrell-Carrió, Suchman and Epstein2004; Law, Reference Law2004). However, as noted by Greenland et al. (Reference Greenland, Pearl and Robins1999) cyclic loops are not logically meaningful in causal relationships because cause must precede effect and the cyclic loop implies simultaneous cause and effect. For the purposes of research, linear approximations of causality can be used to measure causal pathways within complex systems (Borrell-Carrió et al., Reference Borrell-Carrió, Suchman and Epstein2004), and the recursive properties of a whole system can then be considered using multiple individual causal pathways. Causal DAGS (Directed Acyclic Graphs) can also be used to explicitly model causal feedback loops on a smaller scale using multiple nodes to represent the same variable at different points in time (Igelström et al., Reference Igelström, Craig, Lewsey, Lynch, Pearce and Katikireddi2022). This could be effectively used to show influences on and from a particular variable or multiple variables in future research within a specific NBSP project. In this article, the different pathways of impact are structured according to the impact pathways outlined in the NaBSPIP framework and discussed in the Results section.

Results: Applying the One Health Perspective to NBSP

Using the NaBSPIP Framework can elucidate pathways, co-benefits and interacting influences of NBSP. The following section synthesises evidence of impact pathways in accordance with the NaBSPIP framework.

Pathway 1 – NBSP impact on human health

There is wide recognition that NBSP can support human health and well-being (Pathway 1 in the NaBSPIP framework). These form five broad categories; mental health and well-being; physical health; social and community health, healthcare systems and health inequalities. The mental and well-being benefits of accessing and engaging with nature are well recognised. Previous work in NBSP has identified benefits in improvements for common mental health conditions such as anxiety (Tester-Jones et al., Reference Tester-Jones, White, Elliott, Weinstein, Grellier, Economou, Bratman, Cleary, Gascon, Korpela, Nieuwenhuijsen, O’Connor, Ojala, van den Bosch and Fleming2020) and improvements in overall well-being. Participation in NBSP taking place in natural environments or simply ‘being’ in nature can support feelings of restoration, peace and replenishment, a sense of purpose, ‘spark’ and self-determination (Kenyon et al., Reference Kenyon, Coventry, White, Montasem, Phukan and Ozols-Riding2023). These improvements in mental health and well-being are supported by the biophilia hypothesis which is the idea of humans have an innate affinity and connection with nature (Wilson, Reference Wilson1984; Barbiero and Berto, Reference Barbiero and Berto2021). However, it is important to recognise that outcomes are not all positive, for example a study into experiences of nature for people with common mental health conditions found that perceived social pressure to visit nature was associated with higher visit likelihood, but also lower motivation to visit and when visits occurred, lower visit happiness and higher anxiety (Tester-Jones et al., Reference Tester-Jones, White, Elliott, Weinstein, Grellier, Economou, Bratman, Cleary, Gascon, Korpela, Nieuwenhuijsen, O’Connor, Ojala, van den Bosch and Fleming2020).

Nature-based Social Prescribing has been associated with positive physical health outcomes. Outdoor-based activities such as walking, gardening and yoga can increase physical activity levels and associated improvements in mortality and morbidity, particularly for chronic conditions such as diabetes and cardiovascular diseases (J. M. Robinson et al., Reference Robinson, Aronson, Daniels, Goodwin, Liddicoat, Orlando, Phillips, Stanhope, Weinstein, Cross and Breed2022) and positive associations between exposure to nature and immunoregulation (J. M. Robinson et al., Reference Robinson, Aronson, Daniels, Goodwin, Liddicoat, Orlando, Phillips, Stanhope, Weinstein, Cross and Breed2022; Roviello et al., Reference Roviello, Gilhen-Baker, Roviello and Lichtfouse2022). Furthermore, simply being in natural spaces also seems to confer benefit, for example, there is evidence that physical activity that takes place outside has greater health impact that indoor activities (Rogerson et al., Reference Rogerson, Gladwell, Gallagher and Barton2016). Interventions that include an element of food growing can improve mental and physical well-being by increasing perceived self-efficacy, improving physical activity levels as well as supporting healthy eating through accessing and learning about healthy food and eating and supporting food security (Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021; Kenyon et al., Reference Kenyon, Coventry, White, Montasem, Phukan and Ozols-Riding2023; Ghogomu et al., Reference Ghogomu, Welch, Yaqubi, Dewidar, Barbeau, Biswas, Card, Hsiung, Muhl, Nelson, Salzwedel, Saragosa, Yu, Mulligan and Hébert2024).

The literature also evidences the protective effect of exposure to nature natural environments suggesting that exposure to microbial diversity of environmental and animal microbes such as house dust mites, cat antigens and pollen can improve human health outcomes by boosting immune systems and offering a protective effect for certain conditions such as allergies and asthma, particularly when exposure occurs in childhood (Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018).

As well as benefit, projects that involve increased human-animal interactions or changing habitat boundaries may pose increased risk of transmission of zoonoses, posing risks to humans and wildlife health (Cox and Gaston, Reference Cox and Gaston2018; Nyhus, Reference Nyhus2016). Zoonotic diseases remain an ongoing threat; 60% of emerging infectious diseases are zoonotic and 72% of these originate in wildlife making this risk an important consideration. Increasing biodiversity has been associated with increased risk of certain zoonoses and allergies (Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018; Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021).

NBSP projects have potential to foster improvements in community cohesion, community engagement and trust and support opportunities for social interaction and reduced social isolation which further leads to improvements in well-being (Leavell et al., Reference Leavell, Leiferman, Gascon, Braddick, Gonzalez and Litt2019; Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021). NBSP can complement exiting healthcare services and potentially reducing the need for pharmacological and surgical interventions and reduce General Practitioner and Accident and Emergency (A&E) demands (Kimberlee et al., Reference Kimberlee, Polley, Bertotti, Pilkington and Refsum2017). Natural spaces can also provide a protective space and barrier between humans and animals reducing the risks of transmission of zoonoses (J. M. Robinson et al., Reference Robinson, Aronson, Daniels, Goodwin, Liddicoat, Orlando, Phillips, Stanhope, Weinstein, Cross and Breed2022). Restoration, however, also carries risks to humans, such as increased risks of exposure to zoonoses and increased allergens from vegetation and so should be evaluated and managed carefully (J. M. Robinson et al., Reference Robinson, Aronson, Daniels, Goodwin, Liddicoat, Orlando, Phillips, Stanhope, Weinstein, Cross and Breed2022), this is discussed in more detail under Pathway 1.

Ecosystem restoration can improve human social equity by providing access to nature for groups who are less likely to frequent natural spaces including people living in areas of high deprivation and minority ethnic groups (T. Robinson et al., Reference Robinson, Robertson, Curtis, Darko and Jones2022). There is also evidence to suggest these groups may disproportionately benefit from accessing natural spaces (Mitchell and Popham, Reference Mitchell and Popham2008). As such NBSP can provide a mechanism to reduce health inequalities in line with the equigenesis theory, where time spent in nature is associated with smaller socioeconomic inequalities in well-being (Garrett et al., Reference Garrett, Rowney, White, Lovell, Fry, Akbari, Geary, Lyons, Mizen, Nieuwenhuijsen, Parker, Song, Stratton, Thompson, Watkins, White, Williams, Rodgers and Wheeler2023). Incorporating this approach can further contribute to reducing inequalities through upskilling and education of participants which may support future employment opportunities. However, SP or NBSP is not a panacea and such individualised approaches to health such as SP have the potential to exacerbate inequalities since people from better-off backgrounds typically have greater resources to engage with health opportunities. A study of social prescribing in the North of England found that possession of capital shaped peoples’ investment in SP interventions and their capacity to engage with it (Gibson et al., Reference Gibson, Pollard and Moffatt2021). As such, SP runs the risk of benefiting only those with greater personal resources while leaving those with limited resources behind. SP must be accompanied by physical and cultural structural changes to support a holistic societal-level change rather than focus on individuals. Supporting the needs of the human population and an ecosystem requires effort at all levels. A single intervention to improve mental health and physical activity will not work in a community that is not perceived as safe or in a social and physical environment that is unsustainable and does not meet the needs of those living within it. NBSP has the capacity to contribute to this aim through community-level interventions that are visible and accessible to whole communities thus ‘normalising’ health behaviours and contributing to local cultural norms. At the same time, interventions must ensure that people are protected from potentially harmful social effects of ‘greening’ such as gentrification and displacement, through the creation of spaces that favour more affluent populations (T. Robinson et al., Reference Robinson, Robertson, Curtis, Darko and Jones2022).

This section has summarised the pathways of influence of NBSP projects on human health and those involved in designing and evaluating NBSP should consider physical, mental, social, economic health, health systems and health inequalities. Consideration should be given to the voices of those involved in NBSP planning and participation as it is important to capture stakeholder opinions at all stages through, for example co-production or participant evaluation (Alford, Reference Alford2024).

Pathways 2 and 3 NBSP impact on animal and environmental health

Interventions that enhance, develop, manage, maintain, or renovate natural spaces may enhance environments by supporting or increasing the existing vegetation and increasing biodiversity (Pathway 2). This can affect animal health by supporting and/or preserving habitats, food sources and enhancing species richness, abundance and biodiversity (Ghofrani et al., Reference Ghofrani, Sposito and Faggian2017; Felappi et al., Reference Felappi, Sommer, Falkenberg, Terlau and Kötter2020; Kenyon et al., Reference Kenyon, Coventry, White, Montasem, Phukan and Ozols-Riding2023). Animal health measures may include special richness, abundance, parameters, behaviours and diversity indices (Felappi et al., Reference Felappi, Sommer, Falkenberg, Terlau and Kötter2020). However, these associations can also work in the opposite direction, where human interventions can deplete environments through damage or change to existing vegetation and associated impacts on animals. The effects of NBSP on environmental health can be measured through considering the health, percentage coverage and diversity of plants and health. The use of citizen science is expanding rapidly in the measurement of biodiversity and environmental monitoring (Pocock et al., Reference Pocock, Tweddle, Savage, Robinson and Roy2017). Examples include the ‘observatree’ treehealth survey (Gupta et al., Reference Gupta, Slawson and Moffat2022) and Imperial College London Open Air Laboratories citizen science surveys (which include water, air, biodiversity, ‘bugs’, tree health, soil and earthworm and Polli:Nation) (Welden et al., Reference Welden, Wolseley and Ashmore2018; Slawson and Moffat, Reference Slawson and Moffat2020). Engaging in citizen science may contribute towards enhancing a sense of environmental stewardship discussed in more detail in subsequent sections.

There are feedback loops between the domains and these interrelationships are presented in more detail in the section below and summarised in Figure 2. which shows an enlarged view of impact pathways 4–6 with main outcomes from these pathways.

Figure 2. Enlarged detail view: Nature-based Social Prescribing Impact Pathways (NaBSPIP) framework pathways 4–6 showing measurable outcomes.

Pathway 4 (environment-human)

Enhancement of natural environments leads to further feedback loops supporting human health outcomes through its impact on ecological systems. Green infrastructure, such as constructed wetlands and vegetated buffer strips, can effectively filter pollutants from stormwater runoff. These systems can improve quality of water bodies, rivers and streams (Ghofrani et al., Reference Ghofrani, Sposito and Faggian2017; Liao et al., Reference Liao, Deng and Tan2017; Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021). Greenery and water bodies can reduce urban heat stress (Doick et al., 2014) which is an increasing priority in the face of predicted increases in temperature and a shifting demographic with an increasing proportion of older adults who are most vulnerable to high temperatures (Meade et al., Reference Meade, Akerman, Notley, McGinn, Poirier, Gosselin and Kenny2020; Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021). Green and blue infrastructure, including increased vegetation that absorbs water and reduces surface runoff, the restoration of natural floodplains and creation of floodplain storage areas, can help to mitigate the increasing the risk of flooding in urban areas (Ghofrani et al., Reference Ghofrani, Sposito and Faggian2017). The carbon sequestration potential of green infrastructure is well known and can mitigate against climate change. The presence and diversity of plants can improve air quality (Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018; Choe et al., Reference Choe, Kenyon and Sharp2020; Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021) and associated health outcomes such as reduction in allergies, asthma, cardiovascular disease and premature mortality (Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018). Ecological factors such as air pollution and, carbon sequestration and heat stress reduction can be measured quantitatively (Epelde et al., Reference Epelde, Mendizabal, Gutiérrez, Artetxe, Garbisu and Feliu2022) and the associated human health benefits inferred through these measures changes (see, for example, Choe et al. (Reference Choe, Kenyon and Sharp2020).

By providing natural settings that support recreation and social health, participation in NBSP has been found to be associated with a sense of ‘environmental stewardship’, or pro-environmental behaviour, where people become more aware of the importance of and methods of preserving natural habitats, reducing pollution and conserving biodiversity and behave in ways that they feel will support these values (Krasny and Delia, Reference Krasny and Delia2015; Hahn, Reference Hahn2021; Capstick et al., Reference Capstick, Nash, Whitmarsh, Poortinga, Haggar and Brügger2022; Kiss et al., Reference Kiss, Sekulova, Hörschelmann, Salk, Takahashi and Wamsler2022). and measured through, for example, attitudes and intentions or reported stewardship behaviour (Turnbull et al., Reference Turnbull, Johnston and Clark2020). Reference Turnbull, Johnston and Clark Learning about nature has also been found to be associated with environmental stewardship behaviours in humans (Otto and Pensini, Reference Otto and Pensini2017). These behaviours may result in a positive feedback loop by further enhancing and protecting environments.

A life course approach understands health outcomes as a cumulative process of exposure to positive and negative health events throughout the life course (Jones et al., Reference Jones, Gilman, Cheng, Drury, Hill and Geronimus2019). Exposure to greenspace from the inter-utero period into childhood has been found to be protective for physical and mental health outcomes showing potential feedback loops throughout life and across generations. Early engagement with nature has been to be associated with increased likelihood of seeking nature and experiencing benefit from nature in adulthood. (Dzhambov et al., Reference Dzhambov, Dimitrova and Dimitrakova2014; Grazuleviciene et al., Reference Grazuleviciene, Danileviciute, Dedele, Vencloviene, Andrusaityte, Uždanaviciute and Nieuwenhuijsen2015; Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018; Yin, Reference Yin2019). However, not all feedback loops will be positive, for example an experience of nature at a young age that was not positive may reduce, rather than encourage future participation. Consideration of the potential life course impact of NBSP interventions should form part of their planning and evaluation.

Pathway 5 (animal-human)

As mentioned in the discussion of Pathways 2 and 3, NBSP activities can increase the number and diversity of animal species whereby wildlife-friendly habitats and food sources has been associated with increased numbers and diversity of animals (Cox and Gaston, Reference Cox and Gaston2018). This can lead to a positive cycle for animal health and resilience, for example, an increase in food sources for birds is associated with increased over-winter survival rates and egg and clutch sizes (Cox and Gaston, Reference Cox and Gaston2018). However, well-intentioned but clumsy restoration can at best be futile and at worst have unintentional negative consequences and feedback loops for animal health. Animal habitats are dynamic systems operating at multiple temporal and spatial scales and supporting animal health through restoration is more complicated than provision of habitat alone. Projects that involve changing habitat boundaries or patterns of interaction with wildlife may result in changes in animal populations that can disrupt ecosystem chains, for example, increases in predatory species which then impacts on other species population and disrupt existing symbiotic relationship between animals and habitas (see Pathway 6). Surroundings can also impact the success of rehabilitation for example, bird nest predation has been found to be higher in areas with higher density of surrounding human dwellings. Factors such as surrounding road density may affect the success of recolonisation projects and external patterns of nest predation and parasitism can be affected by surroundings, such as the area of forest cover at a far larger scale than individual restoration projects (up to 10,000 km2) (George and Zack, Reference George and Zack2001). To be successful, restoration attempts should take account of the complex and dynamic nature of animal habitats that operate at multiple scales.

Some NBSP projects can directly involve animal-assisted interventions in nature (Garside et al., Reference Garside, Orr, Short, Lovell, Husk, McEachan and Ainsworth2020). People who take part in these can experience positive effects from animal interaction (Garside et al., Reference Garside, Orr, Short, Lovell, Husk, McEachan and Ainsworth2020; Thomas et al., Reference Thomas, Aggar, Baker, Massey, Thomas, D’Appio and Brymer2022), and also learn about animal welfare, animal care and the connections between animal and human health (Garside et al., Reference Garside, Orr, Short, Lovell, Husk, McEachan and Ainsworth2020). In a similar way to that described in Pathway 4, this type of engagement can support the development of environmental stewardship, or pro-environmental behaviour, and positive impact on animal health such as the importance of and methods of preserving natural habitats and conserving biodiversity (Krasny and Delia, Reference Krasny and Delia2015; Hahn, Reference Hahn2021; Capstick et al., Reference Capstick, Nash, Whitmarsh, Poortinga, Haggar and Brügger2022; Kiss et al., Reference Kiss, Sekulova, Hörschelmann, Salk, Takahashi and Wamsler2022). In a continuum of the cycle, more species biodiversity is generally associated with subjective health and well-being outcomes such as improved perceived health and lower risk of depression and mortality in humans (Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018; Marselle et al., Reference Marselle, Hartig, Cox, De Bell, Knapp, Lindley and Cook2021). However, these effects are not uniform and are likely to be mediated by interpersonal factors such as personal and cultural beliefs and values; if people have negative preconceptions about exposure to animals they may not experience these benefits (Aerts et al., Reference Aerts, Honnay and Van Nieuwenhuyse2018) and humans may fear and avoid areas where there are animals. Human-animal interactions are complex, and species abundance alone is not necessarily sufficient to leverage human health and well-being benefits (Cox and Gaston, Reference Cox and Gaston2018).

Human presence in natural spaces can discourage wildlife, for example, in areas such as mountainous trails or forests, human activities such as hiking or cycling has been associated with a reduction in wildlife (Taylor and Knight, Reference Taylor and Knight2003; Kays et al., Reference Kays, Parsons, Baker, Kalies, Forrester, Costello, Rota, Millspaugh, McShea and du Toit2017). This avoidance may also be temporal; a large global meta-analysis found a marked increase in nocturnal activity in areas of high human disturbance compared with areas of low human presence. This behavioural shift can affect predators’ ability to hunt and cause changes along the food chain which may increase other animals’ exposure to and risk from nocturnal predators. (Gaynor et al., Reference Gaynor, Hojnowski, Carter and Brashares2018). Other evidence suggests that animals who have invested in settling in a given area may be less likely to abandon it but human presence may increase stress levels and aggression causing increases in energy expenditure and decreases in food intake and reproduction which may result in lower numbers, health and survival rates (Tablado and Jenni, Reference Tablado and Jenni2017).

NBSP projects that may influence other aspects of animals’ health should consider these types of pathways and consider measuring, for example, attitudes and responses to interactions with animals, changes in the frequency and type of human-animal interactions and consider impacts on animal territories and spatial, social, reproductive and temporal behaviours.

Pathway 6 (animal-environment)

The symbiotic relationship between environments and animals results from the mutual unplanned system of reciprocal provision and species support. Animals, in turn, play a vital role in maintaining the balance and health of natural environments and can be measured through outcomes and activities such as pollination, nutrient cycling, habitat modification, seed dispersal and species species biodiversity (Methorst et al., Reference Methorst, Bonn, Marselle, Böhning-Gaese and Rehdanz2021). Human activity, however, can lead to a breakdown of this system as described earlier, for example through the introduction of species that do not support the existing wildlife or damage to the existing balance of food supply and demand.

Conclusions

The world is currently facing unprecedented ecological, social, economic and health challenges. COVID-19 brought to light the imperative to treat increasing levels of mental health conditions, while loneliness and social isolation are increasingly recognised as having a negative impact on health. Meanwhile as global temperatures rise, we face depleting species diversity and reduced vegetation cover. To pave the way to repair, we urgently need to develop strategies to support the changing health needs of populations whilst persevering and protecting ecosystems in line with the United Nation’s Sustainable Development Goals. Reference Rabinowitz, Pappaioanou, Bardosh and Conti

The value of the NaBSPIP lies in its amalgamation of the ideas in the context of NBSP informed by the One Health perspective. The value of engaging with nature has potential mental, physical, social and economic benefit and according to the biophilia hypothesis, nature has unique ability to support human health potentially through our innate connection to and feeling for nature which engenders feelings of rest, relaxation and well-being. This article posits that the value of NBSP is further augmented by its capacity for holistically supporting animal and environmental health as well as human health and well-being. This framework aims to support healthcare practice by demonstrating the multiple pathways of benefit, as well as risk, from NBSP and is intended to be a heuristic and a catalyst to support ground-level approaches to sustainable healthcare through recognition of the multiple co-benefits of NBSP. This approach would require multi-stakeholder and multidisciplinary engagement in the design and delivery of projects.

The concept of valuing mutual human and ecological benefit from nature-based health interventions is not new, and the mechanisms and outcomes explored in this article are not an exhaustive list and do not account for the multiple intricacies and contingencies of individual NBSP projects. Nor does it address the challenges and barriers involved in recruiting people into schemes and sustaining their involvement nor the theoretical and practical challenges of behaviour change which are important for successful social prescribing yet beyond the remit of this article. This is not intended as a comprehensive checklist of impacts of NBSP projects, which would be impossible due to the diverse nature of NBSP projects and the contingency and complexity of the interacting influences. Social prescribing is not a magic bullet; and supporting holistic planetary animal, human and environmental health outcomes will require fundamental shifts at global and political level (Rabinowitz et al., Reference Rabinowitz, Pappaioanou, Bardosh and Conti2018) and unprecedented change in the way that the majority of humans live and perceive their role in the world. However, Nature-based Social Prescribing is uniquely placed to support human and other species’ health simultaneously, but this must be carefully planned, executed and evaluated.

Future research could apply the NaBSPIP framework to support the design and delivery of an NBSP project to facilitate more detailed empirical consideration of the pathways of impact and outcomes so that the framework can be refined and validated. NBSP is likely to be contextually and temporarily specific so future work should consider the local conditions that may facilitate maximum success of the projects. Detailing specific measures that can be used in conjunction with the NaBSPIP was beyond the scope of this paper, however, future research should develop a toolkit for measuring NBSP impact in line with the NaBSPIP Framework. Some toolkits already exist, for example the National Academy for Social Prescribing Green Social Prescribing toolkit (Alford, Reference Alford2024) and NHS England’s Nature-based Social Prescribing Evaluation toolkit which includes consideration of human outcomes (NHS, 2020). A toolkit based on the NaBSPIP would enable consideration of further impact and outcomes informed by the One Health perspective and could take the form of a database of data collection techniques and tools that can be applied within each of the domains and the potential impact pathways described above. Additionally, future work might employ the use of DAGs to understand the recurrent factors at play more precisely to augment the broad framework outlined here. Applying lessons learned and scaling up to continue to support the development of projects that value non-human outcomes and transitioning from theory to practice and policy would be the ideal trajectory from this framework.

Data availability statement

Data availability is not applicable to this article as no new data were created or analysed in this study.

Acknowledgements

No other individuals or institutions have provided advice or support of any kind.

Author contribution

Anna Kenyon is the only author who has made any contribution to this submission.

Funding statement

This research received no specific grant from any funding agency, commercial or not-for-profit sectors.

Competing interests

None.

Ethics statement

Ethical approval was not sought for this paper as the only data referred to are published studies and no new or individual data or information was used.

References

Connections references

Charron, D.F. Ecosystem Approaches to Health for a Global Sustainability Agenda. EcoHealth 9, 256266 (2012) https://doi.org/10.1007/s10393-012-0791-5 CrossRefGoogle ScholarPubMed
Keune, H. (2023) How can we operationalise the promotion and evaluation of nature-related ‘green’ health care within a One Health perspective? Research Directions: One Health, 1, e7, https://doi.org/10.1017/one.2022.8 Google Scholar
Nyhus, P. J. (2016) Human–wildlife conflict and coexistence. Annual Review of Environment and Resources, 41(1), 143171.CrossRefGoogle Scholar

References

Adisasmito, WB, Almuhairi, S, Behravesh, CB, Bilivogui, P, Bukachi, SA, Casas, N, …Cediel, BN, Charron, DF, Chaudhary, A, Zanella, JRC, Cunningham, AA, Dar, O, Debnath, N, Dungu, B, Farag, E, Gao, GF, Hayman, DTS, Khaitsa, M, Koopmans, MPG, Machalaba, C, Mackenzie, JS and Zhou, L (2022) One Health: a new definition for a sustainable and healthy future. PLoS Pathogens 18(6), e1010537.Google ScholarPubMed
Aerts, R, Honnay, O and Van Nieuwenhuyse, A (2018) Biodiversity and human health: mechanisms and evidence of the positive health effects of diversity in nature and green spaces. British Medical Bulletin 127(1), 522.CrossRefGoogle ScholarPubMed
Alford, S. Green social prescribing toolkit, N. A. f. S. Prescribing, 2024. https://socialprescribingacademy.org.uk/media/3ozd3tv2/nhs-green-social-prescribing-toolkit.pdf Google Scholar
Amuasi, JH, Lucas, T, Horton, R and Winkler, AS (2020) Reconnecting for our future: The Lancet One Health Commission. Lancet 395(10235), 10271028.CrossRefGoogle ScholarPubMed
Barbiero, G and Berto, R (2021) Biophilia as evolutionary adaptation: an onto- and phylogenetic framework for biophilic design [review]. Frontiers in Psychology 12. 700709. https://doi.org/10.3389/fpsyg.2021.700709 CrossRefGoogle ScholarPubMed
Borrell-Carrió, F, Suchman, AL and Epstein, RM (2004) The biopsychosocial model 25 years later: principles, practice, and scientific inquiry. Annals of Family Medicine 2(6), 576582. https://doi.org/10.1370/afm.245.CrossRefGoogle ScholarPubMed
Capstick, S, Nash, N, Whitmarsh, L, Poortinga, W, Haggar, P and Brügger, A (2022) The connection between subjective well-being and pro-environmental behaviour: individual and cross-national characteristics in a seven-country study. Environmental Science & Policy 133, 6373. https://doi.org/10.1016/j.envsci.2022.02.025.CrossRefGoogle Scholar
Chatterjee, HJ, Camic, PM, Lockyer, B and Thomson, LJM (2018) Non-clinical community interventions: a systematised review of social prescribing schemes. Arts & Health 10(2), 97123. https://doi.org/10.1080/17533015.2017.1334002.CrossRefGoogle Scholar
Choe, EY, Kenyon, A and Sharp, L (2020) Designing blue green infrastructure (BGI) for water management, human health, and well-being: summary of evidence and principles for design.Google Scholar
Cox, DTC and Gaston, KJ (2018) Human-nature interactions and the consequences and drivers of provisioning wildlife. Philosophical Transactions of the Royal Society B: Biological Sciences 373(1745), 20170092. https://doi.org/10.1098/rstb.2017.0092.CrossRefGoogle ScholarPubMed
CQC (2018) Quality improvement in hospital trusts: sharing learning from trusts on a journey of QI.Google Scholar
Darcy, PM, Taylor, J, Mackay, L, Ellis, NJ and Gidlow, CJ (2022) Understanding the role of nature engagement in supporting health and well-being during COVID-19. International Journal of Environmental Research and Public Health 19(7), 3908.CrossRefGoogle Scholar
Davis, MF, Rankin, SC, Schurer, JM, Cole, S, Conti, L and Rabinowitz, P (2017) Checklist for One Health epidemiological reporting of evidence (COHERE). One Health 4, 1421. https://doi.org/10.1016/j.onehlt.2017.07.001.CrossRefGoogle ScholarPubMed
Doick, KJ, Peace, A and Hutchings, TR (2014) The role of one large greenspace in mitigating London’s nocturnal urban heat island. Science of the Total Environment 493, 662671. https://doi.org/10.1016/j.scitotenv.2014.06.048.CrossRefGoogle ScholarPubMed
Dzhambov, AM, Dimitrova, DD and Dimitrakova, ED (2014) Association between residential greenness and birth weight: systematic review and meta-analysis. Urban Forestry & Urban Greening 13(4), 621629. https://doi.org/10.1016/j.ufug.2014.09.004.CrossRefGoogle Scholar
Engel, GL (1977) The need for a new medical model: a challenge for biomedicine. Science 196(4286), 129136. https://doi.org/10.1126/science.847460.CrossRefGoogle Scholar
Epelde, L, Mendizabal, M, Gutiérrez, L, Artetxe, A, Garbisu, C and Feliu, E (2022) Quantification of the environmental effectiveness of nature-based solutions for increasing the resilience of cities under climate change. Urban Forestry & Urban Greening 67, 127433. https://doi.org/10.1016/j.ufug.2021.127433.CrossRefGoogle Scholar
Felappi, JF, Sommer, JH, Falkenberg, T, Terlau, W and Kötter, T (2020) Green infrastructure through the lens of “One health”: a systematic review and integrative framework uncovering synergies and trade-offs between mental health and wildlife support in cities. Science of the Total Environment 748, 141589.https://doi.org/10.1016/j.scitotenv.2020.14. https://doi.org/10.1016/j.scitotenv.2020.141589.CrossRefGoogle ScholarPubMed
Fixsen, A and Barrett, S (2022) Challenges and approaches to green social prescribing during and in the aftermath of COVID-19: a qualitative study. Frontiers in Psychology 13, 861107. https://doi.org/10.3389/fpsyg.2022.861107.CrossRefGoogle ScholarPubMed
Fusco, F, Marsilio, M and Guglielmetti, C (2023) Co-creation in healthcare: framing the outcomes and their determinants. Journal of Service Management 34(6), 126. https://doi.org/10.1108/JOSM-06-2021-0212.CrossRefGoogle Scholar
Garrett, J K, Rowney, F M, White, M P, Lovell, R, Fry, R J, Akbari, A, Geary, R, Lyons, R A, Mizen, A, Nieuwenhuijsen, M, Parker, C, Song, J, Stratton, G, Thompson, D A, Watkins, A, White, J, Williams, S A, Rodgers, S E and Wheeler, B W (2023) Visiting nature is associated with lower socioeconomic inequalities in well-being in Wales. Scientific Reports 13(1), 113. https://doi.org/10.1038/s41598-023-35427-7.CrossRefGoogle ScholarPubMed
Garside, R., Orr, N., Short, R., Lovell, B., Husk, K., McEachan, R., … Ainsworth, H. (2020). Therapeutic nature: Nature-based social prescribing for diagnosed mental health conditions in the UK. Final Report for DEFRA.Google Scholar
Gaynor, KM, Hojnowski, CE, Carter, NH and Brashares, JS (2018) The influence of human disturbance on wildlife nocturnality. Science 360(6394), 12321235. https://doi.org/10.1126/science.aar7121.CrossRefGoogle ScholarPubMed
George, TL and Zack, S (2001) Spatial and temporal considerations in restoring habitat for wildlife. Restoration Ecology 9(3), 272279. https://doi.org/10.1046/j.1526-100x.2001.009003272.x.CrossRefGoogle Scholar
Ghofrani, Z, Sposito, V and Faggian, R (2017) A comprehensive review of blue-green infrastructure concepts. International Journal of Environment and Sustainability 6(1), 15–36. https://doi.org/10.24102/ijes.v6i1.728.CrossRefGoogle Scholar
Ghogomu, E T, Welch, V, Yaqubi, M, Dewidar, O, Barbeau, V I, Biswas, S, Card, K, Hsiung, S, Muhl, C, Nelson, M, Salzwedel, D M, Saragosa, M, Yu, C, Mulligan, K and Hébert, P (2024) PROTOCOL: effects of social prescribing for older adults: an evidence and gap map. Campbell Systematic Reviews 20(2), e1382. https://doi.org/10.1002/cl2.1382.CrossRefGoogle ScholarPubMed
Gibson, K, Pollard, TM and Moffatt, S (2021) Social prescribing and classed inequality: a journey of upward health mobility? Social Science & Medicine 280, 114037. https://doi.org/10.1016/j.socscimed.2021.114037.CrossRefGoogle ScholarPubMed
Grazuleviciene, R, Danileviciute, A, Dedele, A, Vencloviene, J, Andrusaityte, S, Uždanaviciute, I and Nieuwenhuijsen, MJ (2015) Surrounding greenness, proximity to city parks and pregnancy outcomes in Kaunas cohort study. International Journal of Hygiene and Environmental Health 218(3), 358365. https://doi.org/10.1016/j.ijheh.2015.02.004.CrossRefGoogle ScholarPubMed
Greenland, S, Pearl, J and Robins, JM (1999) Causal diagrams for epidemiologic research. Epidemiology 10(1), 3748. https://doi.org/10.1097/00001648-199901000-00008.CrossRefGoogle ScholarPubMed
Gupta, N, Slawson, DD and Moffat, AJ (2022) Using citizen science for early detection of tree pests and diseases: perceptions of professional and public participants. Biological Invasions 24(1), 123138. https://doi.org/10.1007/s10530-021-02631-3.CrossRefGoogle Scholar
Hahn, ER (2021) The developmental roots of environmental stewardship: childhood and the climate change crisis. Current Opinion in Psychology 42, 1924. https://doi.org/10.1016/j.copsyc.2021.01.006.CrossRefGoogle ScholarPubMed
Husk, K, Blockley, K, Lovell, R, Bethel, A, Lang, I, Byng, R and Garside, R (2020) What approaches to social prescribing work, for whom, and in what circumstances? A realist review. Health & Social Care in the Community 28(2), 309324. https://doi.org/10.1111/hsc.v28.2.CrossRefGoogle ScholarPubMed
Igelström, E, Craig, P, Lewsey, J, Lynch, J, Pearce, A and Katikireddi, SV (2022) Causal inference and effect estimation using observational data. Journal of Epidemiology and Community Health 76, 960966, https://doi.org/10.1136/jech-2022-219267.CrossRefGoogle Scholar
Jackson, SB, Stevenson, KT, Larson, LR, Peterson, MN and Seekamp, E (2021) Outdoor activity participation improves adolescents’ mental health and well-being during the COVID-19 pandemic. International Journal of Environmental Research and Public Health 18(5), 2506. https://doi.org/10.3390/ijerph18052506.CrossRefGoogle ScholarPubMed
Jevtic, M, Matkovic, V, Paut Kusturica, M and Bouland, C (2022) Build healthier: post-COVID-19 urban requirements for healthy and sustainable living. Sustainability 14(15), 9274. https://doi.org/10.3390/su14159274.CrossRefGoogle Scholar
Jones, NL, Gilman, SE, Cheng, TL, Drury, SS, Hill, CV and Geronimus, AT (2019) Life course approaches to the causes of health disparities. American Journal of Public Health 109(S1), S48s55. https://doi.org/10.2105/ajph.2018.304738.CrossRefGoogle Scholar
Kays, R, Parsons, A W, Baker, M C, Kalies, E L, Forrester, T, Costello, R, Rota, C T, Millspaugh, J J, McShea, W J and du Toit, J (2017) Does hunting or hiking affect wildlife communities in protected areas? Journal of Applied Ecology 54(1), 242252. https://doi.org/10.1111/jpe.2017.54.issue-1.CrossRefGoogle Scholar
Kenyon, AV, Coventry, P, White, P, Montasem, A, Phukan, S and Ozols-Riding, J (2023) Evaluation of the West Yorkshire Health and Care Partnership Green Social Prescribing Funding Programme.Google Scholar
Kimberlee, R, Polley, M, Bertotti, M, Pilkington, K and Refsum, C (2017) A review of the evidence assessing impact of social prescribing on healthcare demand and cost implications.Google Scholar
Kingsley, P and Taylor, EM (2017) One Health: competing perspectives in an emerging field. Parasitology 144(1), 714. https://doi.org/10.1017/S0031182015001845.CrossRefGoogle Scholar
Kiss, B, Sekulova, F, Hörschelmann, K, Salk, CF, Takahashi, W and Wamsler, C (2022) Citizen participation in the governance of nature-based solutions. Environmental Policy and Governance 32(3), 247272. https://doi.org/10.1002/eet.1987.CrossRefGoogle Scholar
Krasny, ME and Delia, J (2015) Natural area stewardship as part of campus sustainability. Journal of Cleaner Production 106, 8796. https://doi.org/10.1016/j.jclepro.2014.04.019.CrossRefGoogle Scholar
Law, J (2004) After Method: Mess in Social Science Research. Routledge, Abington, Oxon.CrossRefGoogle Scholar
Leavell, MA, Leiferman, JA, Gascon, M, Braddick, F, Gonzalez, JC and Litt, JS (2019) Nature-based social prescribing in urban settings to improve social connectedness and mental well-being: a review. Current Environmental Health Reports 6(4), 297308. https://doi.org/10.1007/s40572-019-00251-7.CrossRefGoogle ScholarPubMed
Lebov, J, Grieger, K, Womack, D, Zaccaro, D, Whitehead, N, Kowalcyk, B and MacDonald, PDM (2017) A framework for one health research. One Health 3, 4450. https://doi.org/10.1016/j.onehlt.2017.03.004.CrossRefGoogle ScholarPubMed
Lenda, ML, Skórka, P, Jaźwa, M, Lin, H-Y, Nęcka, E, Tryjanowski, P and Possingham, HP (2023) Recognizing the importance of near-home contact with nature for mental well-being based on the COVID-19 lockdown experience. Ecology and Society 28(3), 13. https://doi.org/10.5751/ES-14374-280313.CrossRefGoogle Scholar
Liao, K-H, Deng, S and Tan, PY (2017) Blue-green infrastructure: new frontier for sustainable urban stormwater management, In Greening Cities: Forms and Functions. Springer, pp. 203226.CrossRefGoogle Scholar
Marselle, MR, Hartig, T, Cox, DTC, De Bell, S, Knapp, S, Lindley, S and Cook, PA (2021) Pathways linking biodiversity to human health: a conceptual framework. Environment International 150, 106420. https://doi.org/10.1016/j.envint.2021.106420.CrossRefGoogle ScholarPubMed
Meade, RD, Akerman, AP, Notley, SR, McGinn, R, Poirier, P, Gosselin, P and Kenny, GP (2020) Physiological factors characterizing heat-vulnerable older adults: a narrative review. Environment International 144, 105909. https://doi.org/10.1016/j.envint.2020.105909.CrossRefGoogle ScholarPubMed
Methorst, J, Bonn, A, Marselle, M, Böhning-Gaese, K and Rehdanz, K (2021) Species richness is positively related to mental health – a study for Germany. Landscape and Urban Planning 211, 104084. https://doi.org/10.1016/j.landurbplan.2021.104084.CrossRefGoogle Scholar
Mitchell, R and Popham, F (2008) Effect of exposure to natural environment on health inequalities: an observational population study. The Lancet 372(9650), 1689X. https://doi.org/10.1016/S0140-6736(08)61689-X.CrossRefGoogle ScholarPubMed
Mughal, R, Seers, H, Polley, M, Sabey, A and Chatterjee, HJ (2022) How the natural environment can support health and well-being through social prescribing (Evidence for social prescribing, issue). Available at https://socialprescribingacademy.org.uk/media/zakn0rng/how-the-natural-environment-can-support-health-and-well-being-through-social-prescribing_.pdf.Google Scholar
NHS (2020) Social prescribing and community-based support summary guide. N. England, https://www.england.nhs.uk/wp-content/uploads/2020/06/social-prescribing-summary-guide-updated-june-20.pdf.Google Scholar
Otto, S and Pensini, P (2017) Nature-based environmental education of children: environmental knowledge and connectedness to nature, together, are related to ecological behaviour. Global Environmental Change 47, 8894. https://doi.org/10.1016/j.gloenvcha.2017.09.009.CrossRefGoogle Scholar
Pineda-Pinto, M, Frantzeskaki, N and Nygaard, CA (2021) The potential of nature-based solutions to deliver ecologically just cities: lessons for research and urban planning from a systematic literature review. Ambio 51, 167–182. https://doi.org/10.1007/s13280-021-01553-7 Google Scholar
Plsek, P (2001) Appendix B: redesigning health care with insights from the science of complex adaptive systems, In IOM Committee on Quality of Health Care in America(ed.), Crossing the Quality Chasm: A New Health Care System for the 21st Century, 322, pp. 35.Google Scholar
Pocock, MJO, Tweddle, JC, Savage, J, Robinson, LD and Roy, HE (2017) The diversity and evolution of ecological and environmental citizen science. PloS One 12(4), e0172579. https://doi.org/10.1371/journal.pone.0172579.CrossRefGoogle ScholarPubMed
Poortinga, W, Bird, N, Hallingberg, B, Phillips, R and Williams, D (2021) The role of perceived public and private green space in subjective health and well-being during and after the first peak of the COVID-19 outbreak. Landscape and Urban Planning 211, 104092. https://doi.org/10.1016/j.landurbplan.2021.104092.CrossRefGoogle ScholarPubMed
Rabinowitz, PM, Pappaioanou, M, Bardosh, KL and Conti, L (2018) A planetary vision for one health. BMJ Global Health 3(5), e001137. https://doi.org/10.1136/bmjgh-2018-001137.CrossRefGoogle ScholarPubMed
Redman, S, Greenhalgh, T, Adedokun, L, Staniszewska, S, Denegri, S, Co-production of Knowledge Collection Steering C (2021) Co-production of knowledge: the future, vol. 372, British Medical Journal Publishing Group.Google ScholarPubMed
Robinson, J M, Aronson, J, Daniels, C B, Goodwin, N, Liddicoat, C, Orlando, L, Phillips, D, Stanhope, J, Weinstein, P, Cross, A T and Breed, M F (2022) Ecosystem restoration is integral to humanity’s recovery from COVID-19. The Lancet Planetary Health 6(9), S. 2542–5196(22)00171-1. https://doi.org/10.1016/S2542-5196(22)00171-1.CrossRefGoogle ScholarPubMed
Robinson, T, Robertson, N, Curtis, F, Darko, N and Jones, CR (2022) Examining psychosocial and economic barriers to green space access for racialised individuals and families: a narrative literature review of the evidence to date. International Journal of Environmental Research and Public Health 20(1), 745. https://doi.org/10.3390/ijerph20010745.CrossRefGoogle ScholarPubMed
Rogerson, M, Gladwell, VF, Gallagher, DJ and Barton, JL (2016) Influences of green outdoors versus indoors environmental settings on psychological and social outcomes of controlled exercise. International Journal of Environmental Research and Public Health 13(4), 363. https://doi.org/10.3390/ijerph13040363.CrossRefGoogle ScholarPubMed
Roviello, V, Gilhen-Baker, M, Roviello, GN and Lichtfouse, E (2022) River therapy. Environmental Chemistry Letters 20(5), 27292734. https://doi.org/10.1007/s10311-021-01373-x.CrossRefGoogle ScholarPubMed
Rüegg, SR, McMahon, BJ, Häsler, B, Esposito, R, Nielsen, LR, Ifejika Speranza, C, Ehlinger, T, Peyre, M, Aragrande, M, Zinsstag, J, Davies, P, Mihalca, AD, Buttigieg, S C, Rushton, J, Carmo, LDP, De Meneghi, D, Canali, M, Filippitzi, ME, Goutard, FL, Ilieski, V, Milićević, D, O’Shea, H, Radeski, M, Kock, R, Staines, A and Lindberg, A (2017) A blueprint to evaluate One Health. Frontiers in Public Health 5, 20. https://doi.org/10.3389/fpubh.2017.00020.CrossRefGoogle ScholarPubMed
Rupprecht, CDD, Vervoort, J, Berthelsen, C, Mangnus, A, Osborne, N, Thompson, K and Cristiano, S (2020) Multispecies sustainability. Global Sustainability 3, e34. https://doi.org/10.1017/sus.2020.28.CrossRefGoogle Scholar
Slawson, DD and Moffat, AJ (2020) How effective are citizen scientists at contributing to government tree health public engagement and surveillance needs—an analysis of the UK Open Air Laboratories (OPAL) survey model. Insects 11(9), 550. https://doi.org/10.3390/insects11090550.CrossRefGoogle Scholar
Smith, H, Budworth, L, Grindey, C, Hague, I, Hamer, N, Kislov, R and Langley, J (2022) Co-production practice and future research priorities in United Kingdom-funded applied health research: a scoping review. Health Research Policy and Systems 20(1), 143. https://doi.org/10.1186/s12961-022-00838-x.CrossRefGoogle ScholarPubMed
Tablado, Z and Jenni, L (2017) Determinants of uncertainty in wildlife responses to human disturbance. Biological Reviews 92(1), 216233. https://doi.org/10.1111/brv.12224.CrossRefGoogle ScholarPubMed
Taylor, AR and Knight, RL (2003) Wildlife responses to recreation and associated visitor perceptions. Ecological Applications 13(4), 951963. https://doi.org/10.1890/1051-0761(2003)13[951:WRTRAA]2.0.CO;2.CrossRefGoogle Scholar
Tester-Jones, M, White, MP, Elliott, LR, Weinstein, N, Grellier, J, Economou, T, Bratman, GN, Cleary, A, Gascon, M, Korpela, KM, Nieuwenhuijsen, M, O’Connor, A, Ojala, A, van den Bosch, M and Fleming, LE (2020) Results from an 18 country cross-sectional study examining experiences of nature for people with common mental health disorders. Scientific Reports 10(1), 19408. https://doi.org/10.1038/s41598-020-75825-9.CrossRefGoogle ScholarPubMed
Thomas, T, Aggar, C, Baker, J, Massey, D, Thomas, M, D’Appio, D and Brymer, E (2022) Social prescribing of nature therapy for adults with mental illness living in the community: a scoping review of peer-reviewed international evidence. Frontiers in Psychology 13, 1041675. https://doi.org/10.3389/fpsyg.2022.1041675.CrossRefGoogle ScholarPubMed
Turnbull, JW, Johnston, EL and Clark, GF (2020) LESI: a quantitative indicator to measure local environmental stewardship. MethodsX 7, 101141. https://doi.org/10.1016/j.mex.2020.101141.CrossRefGoogle Scholar
Van Patter, LE, Linares-Roake, J and Breen, AV (2023) What does One Health want? Feminist, posthuman, and anti-colonial possibilities. One Health Outlook 5(1), 4. https://doi.org/10.1186/s42522-022-00076-9.CrossRefGoogle ScholarPubMed
Walton, M, Hall, J, Guest, D, Butubu, J, Vinning, G, Black, K and Beardsley, J (2020) Applying one health methods to improve cocoa production in Bougainville: a case study. One Health 10, 100143. https://doi.org/10.1016/j.onehlt.2020.100143.CrossRefGoogle ScholarPubMed
Welden, NA, Wolseley, PA and Ashmore, MR (2018) Citizen science identifies the effects of nitrogen deposition, climate and tree species on epiphytic lichens across the UK. Environmental Pollution 232, 8089. https://doi.org/10.1016/j.envpol.2017.09.020.CrossRefGoogle ScholarPubMed
Willems, JJ, Kenyon, AV, Sharp, L and Molenveld, A (2021) How actors are (dis) integrating policy agendas for multi-functional blue and green infrastructure projects on the ground. Journal of Environmental Policy & Planning 23(1), 8496. https://doi.org/10.1080/1523908X.2020.1798750.CrossRefGoogle Scholar
Wilson, EO (1984) Biophilia. Harvard University Press, Cambridge, MA.CrossRefGoogle Scholar
Wood, CJ, Polley, M, Barton, JL and Wicks, CL (2022) Therapeutic community gardening as a green social prescription for mental ill-health: impact, barriers, and facilitators from the perspective of multiple stakeholders. International Journal of Environmental Research and Public Health 19(20), 13612. https://doi.org/10.3390/ijerph192013612.CrossRefGoogle Scholar
Yin, P (2019) Comparison of greenness measures in assessing the association between urban residential greenness and birth weight. Urban Forestry & Urban Greening 46, 126519. https://doi.org/10.1016/j.ufug.2019.126519.CrossRefGoogle Scholar
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Figure 1. Nature-based Social Prescribing Impact Pathways (NaBSPIP) framework.

Figure 1

Figure 2. Enlarged detail view: Nature-based Social Prescribing Impact Pathways (NaBSPIP) framework pathways 4–6 showing measurable outcomes.