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Climate change and mental health: time for action and advocacy

Published online by Cambridge University Press:  24 January 2022

Emmet Power*
Affiliation:
Department of Psychiatry, RCSI University of Medicine and Health Sciences, Dublin, Ireland
Niamh McCarthy
Affiliation:
Psychiatry of Later Life Services, St. Camillus Hospital, Limerick, Ireland
Ina Kelly
Affiliation:
Department of Public Health, HSE Midlands, Central Office, Dublin, Ireland
Mary Cannon
Affiliation:
Department of Psychiatry, RCSI University of Medicine and Health Sciences, Dublin, Ireland
David Cotter
Affiliation:
Department of Psychiatry, RCSI University of Medicine and Health Sciences, Dublin, Ireland
*
Address for correspondence: Dr E. Power, Department of Psychiatry, Royal College of Surgeons in Ireland Education and Research Centre, Beaumont Hospital, Beaumont Road, Dublin 9, Ireland. (Email: [email protected])
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Abstract

Climate change poses an existential threat to our planet and our health. We explore the intersections of climate change and mental health which has been under-recognised to date. Climate change can affect mental health directly through the effects of extreme weather events such as heat, drought and flooding, and indirectly through increasing rates of migration and inequality. Vulnerable individuals with neuropsychiatric disorders will be particularly at risk. Emerging evidence is also showing effects of air pollution on brain development. Mitigation efforts related to reducing carbon emissions will have both direct and indirect effects on mental health. A further consideration demonstrated by the COVID-19 pandemic is that the spread of infectious disease can have substantial effects on the mental health of the population. With climate change and biodiversity loss, pandemics could recur in the future with increasing frequency. It is now essential that mental health professionals be equipped as agents for climate action.

Type
Editorial
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of The College of Psychiatrists of Ireland

Climate change is one of the greatest threats to human existence in the 21st century. If current climate action trajectories do not improve, children born now will experience more severe and frequent health threats than their predecessors (Watts et al. Reference Watts, Amann, Arnell, Ayeb-Karlsson, Belesova, Boykoff, Byass, Cai, Campbell-Lendrum, Capstick and Chambers2019). Food insecurity, increasing frequency of natural disasters, extreme weather events and spread of infectious diseases are predicted to be major future challenges to public health in the face of climate change. Health services already faced with growing demographic challenges will also encounter the additive effects of climate change on service demands (Watts et al. Reference Watts, Amann, Arnell, Ayeb-Karlsson, Belesova, Boykoff, Byass, Cai, Campbell-Lendrum, Capstick and Chambers2019). The existence of climate change is relatively undisputed, and the lack of progress to curtail its trajectory is concerning. In this editorial, we explore the possible effects of climate change on mental health.

Extreme weather events

A growing number of studies are contributing towards an understanding of human influences on climate change and extreme weather events (Zhai et al. Reference Zhai, Zhou and Chen2018). Berry et al. (Reference Berry, Bowen and Kjellstrom2010) characterise these climate change-related weather events as acute, sub-acute and chronic. Examples of acute events include extreme weather events or natural disasters such as flooding, storms and hurricanes. Sub-acute events include drought and climate change-related epidemics. Chronic events include desertification, changes in ambient air temperature and rising sea levels. The effects of natural disasters on mental health include increases in a range of mental health problems. Flooding, an event we are likely to experience in Ireland, comes with risks of chronic mental distress and Post Traumatic Stress Disorder (PTSD) (Jermacane et al. Reference Jermacane, Waite, Beck, Bone, Amlôt, Reacher, Kovats, Armstrong, Leonardi, Rubin and Oliver2018; Munro et al. Reference Munro, Kovats, Rubin, Waite, Bone, Armstrong, Beck, Amlôt, Leonardi and Oliver2017; Reacher et al. Reference Reacher, McKenzie, Lane, Nichols, Kedge, Iversen, Hepple, Walter, Laxton and Simpson2004).

Severe storms also increase population-level mental health risks. After Hurricane Katrina, 16% of survivors sought treatment for mental health problems in the 8 months following the hurricane and this represented just one in three of the individuals whom reported significantly elevated psychological symptoms in that same period (Wang et al. Reference Wang, Gruber, Powers, Schoenbaum, Speier, Wells and Kessler2007). Almost one in four Hurricane Katrina survivors who were undergoing mental health treatment prior to the hurricane reduced or discontinued their treatment because of the disruption they experienced (Wang et al. Reference Wang, Gruber, Powers, Schoenbaum, Speier, Wells and Kessler2007).

Effects of heat

Extreme heat and drought are known consequences of climate change (Dai, Reference Dai2013; Di Lorenzo et al. Reference Di Lorenzo, Cobb, Furtado, Schneider, Anderson, Bracco, Alexander and Vimont2010). Potential impacts may have already been seen in suicide rates in middle-aged males in rural areas of Australia that have experienced unprecedented periods of drought since the millennium (Hanigan et al. Reference Hanigan, Butler, Kokic and Hutchinson2012). More broadly, extreme temperatures tend to have dose–response effects associated with a variety of population-level indicators of mental health including emergency presentations, mortality associated with neuropsychiatric disorders and mental health admissions (Page et al. Reference Page, Hajat and Kovats2007; Wang et al. Reference Wang, Lavigne, Ouellette-Kuntz and Chen2014; Page et al. Reference Page, Hajat, Kovats and Howard2012). These effects are replicated across different social contexts and continents (Shiloh et al. Reference Shiloh, Shapira, Potchter, Hermesh, Popper and Weizman2005; Sung et al. Reference Sung, Chen, Lin, Lung and Su2011; Wang et al. Reference Wang, Zhang, Xie, Zhao, Zhang, Zhang, Cheng, Bai and Su2018; Wang et al. Reference Wang, Lavigne, Ouellette-Kuntz and Chen2014). There is limited understanding of the factors influencing why air temperatures are associated with increased mortality, admissions and emergency presentations of individuals living with severe mental illness. Comorbid physical illness, awareness of self-care, social isolation and inadequate housing are potential factors that could explain this relationship. There is a need for mental health professionals, particularly in heatwave prone countries to include this aspect of patient care in their risk assessments.

Inequalities and migration

Climate change will disproportionately affect those experiencing disadvantage whom are likely to have higher pre-existing prevalence of mental disorder. The disproportionate effects of climate change will also occur on a variety of scales, both between and within countries. Climate change will mean fewer resources in already vulnerable areas experiencing biocapacity strain, such as the Sahel region of Africa, and this is likely to lead to further armed conflict. We may expect estimated population transfers of at least 200 million people from regions with high climate change susceptibility and low climate change adaptability, such as African and South Asian river deltas (Myers, Reference Myers2005). These future climate change-related migrants will have high levels of vulnerability, facing many cultural, economic and linguistic barriers (Bhugra, Reference Bhugra2004). In Ireland, asylum seekers have 5–6 fold higher risks of mental health disorders such as depression and PTSD, compared to the general population (McMahon et al. Reference McMahon, MacFarlane, Avalos, Cantillon and Murphy2007; Toar et al. Reference Toar, OʼBrien and Fahey2009). Migrant status and specifically cultural distance have also been associated with increased risks of psychotic disorders (Selten et al. Reference Selten, Van Der Ven and Termorshuizen2020). Despite known health risks associated with migration, few countries in the developed world have developed migrant reception procedures and services that promote optimal health and well-being. This is an area of pressing need where mental health professionals need to advocate further.

Natural and built environments

Unhealthy, air-polluted urban environments are increasingly being shown to have a negative impact on mental health (Braithwaite et al. Reference Braithwaite, Zhang, Kirkbride, Osborn and Hayes2019; Newbury et al. Reference Newbury, Arseneault, Beevers, Kitwiroon, Roberts, Pariante, Kelly and Fisher2019). Potential mechanisms for this association such as effects of air pollution on brain inflammation and oxidative stress have been investigated in both human cohort studies and experimental animal models (Hajipour et al. Reference Hajipour, Farbood, Gharib-Naseri, Goudarzi, Rashno, Maleki, Bakhtiari, Nesari, Khoshnam, Dianat and Sarkaki2020; Peters et al. Reference Peters, Ee, Peters, Booth, Mudwa and Anstey2019). Access to green spaces has been repeatedly associated with better mental and physical health and reduced all-cause mortality (Callaghan et al. Reference Callaghan, McCombe, Harrold, McMeel, Mills, Moore-Cherry and Cullen2021; Rojas-Rueda et al. Reference Rojas-Rueda, Nieuwenhuijsen, Gascon, Perez-Leon and Mudu2019). Investments in creating safe and effective modes of active travel and mass transit and promoting increased physical exercise will help to reduce carbon emissions, particulate matter and toxin exposure and improve mental health. Active travel is an evidence-based health imperative and the medical community needs to be more effective in advancing it.

Pandemics and biodiversity

In discussing the climate crisis, we must remember that we are facing a dual crisis in the environment. We are not just faced with the threat of a warming atmosphere but also that of biodiversity loss. As humans encroach further and further into remote places of the natural world, we face increasing risks of more spill-over events from more phylogenetically distant, and therefore more potentially virulent and transmissible micro-organisms (Johnson et al. Reference Johnson, Hitchens, Pandit, Rushmore, Evans, Young and Doyle2020). Indeed climate change is suspected to play a role in increasing bat diversity in the Chinese province of Yunnan that has been associated with the emergence of both SARS COVID 1 and 2 (Beyer et al. Reference Beyer, Manica and Mora2021). We have recently experienced the mental health impacts of the COVID-19 pandemic (Moreno et al. Reference Moreno, Wykes, Galderisi, Nordentoft, Crossley, Jones, Cannon, Correll, Byrne, Carr and Chen2020). These effects have been substantial and are likely to persist for many years to come. Preventing the next pandemic by increasing early warning response systems through public health infrastructure investment is an urgent and absolute priority.

Building capacity

Mental health and public health professionals are experienced in understanding science, communicating it effectively and enabling behaviour change. Therefore, they are uniquely valuable to the climate crisis. Our role should be twofold: Reducing the impact of our activities on the environment and providing trusted, hopeful leadership to prepare for the effects of climate change on the population’s mental health. The carbon footprint of healthcare accounts for 4.4% of worldwide emissions. Ireland is a major emitter and there is much we must do to reduce the impact in our domestic health sector (Karliner et al. Reference Karliner, Slotterback, Boyd, Ashby and Steele2019). To prepare and strengthen the healthcare system to serve the population, the focus of care must shift from an individual, illness-based model to a whole community, health-based approach including prevention and fostering of social capital, community resilience and personal empowerment (Maughan et al. Reference Maughan, Berry and Davison2014). Our medical and psychiatric training and curricula must also be climate proofed (Maughan et al. Reference Maughan, Berry and Davison2014). COVID-19 has witnessed the world looking to healthcare professionals for leadership; our clinicians must be equipped to manage this effectively. Framing the climate crisis as a health crisis is both true and necessary, with the added benefit of increasing public engagement which is crucial in building momentum to avert catastrophic climate breakdown (Myers et al. Reference Myers, Nisbet, Maibach and Leiserowitz2012).

Climate grief to climate action

Capturing the intersection of environmental change and mental health, Albrecht et al. (Reference Albrecht, Sartore, Connor, Higginbotham, Freeman, Kelly, Stain, Tonna and Pollard2007) described ‘Solastalgia’ (synonymous with eco-anxiety, ecological grief, climate grief and climate anxiety). This phenomenon is defined as personal distress associated with environmental change and destruction. Albrecht et al. (Reference Albrecht, Sartore, Connor, Higginbotham, Freeman, Kelly, Stain, Tonna and Pollard2007) first described this phenomenon in the drought-stricken Hunter Valley region in Australia. MacSuibhne (Reference MacSuibhne2009) argued that ‘Solastalgia’ is not yet a mental illness as it is not part of the diagnostic armamentarium of psychiatrists. Nevertheless, concepts such as climate grief have captured the public imagination through the activism of young people and, it is likely to be a term we will increasingly encounter. Climate anxiety in young people can be viewed as a response to an impending major crisis in which those most affected by threat have the least agency to enforce change. Beyond recognising the threat, health professionals should promote acceptance of the seriousness of climate change and endorse value-based actions to help everyone in society live more sustainable lives (Wu et al. Reference Wu, Snell and Samji2020). The existence of organisations such as Irish Doctors for the Environment (www.ide.ie) and leadership from the World Health Organisation are hopeful signs that the medical profession is mobilising to address the climate crisis (WHO, 2017). There is little time to waste in promoting action. Every degree of warming counts.

Conflicts of interest

The authors have no conflicts of interest to declare.

Ethical standards

The author asserts that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committee on human experimentation with the Helsinki Declaration of 1975, as revised in 2008.

Financial support

Health Research Board ‘YouLead’ Collaborative Doctoral Award (grant code 18210A01) supports EP. European Research Council Consolidator Award (Grant code 724809 iHEAR) supports MC. Health Research Board ILP POR 2017-039 and Health Research Board ILP POR 2019-0005 support DC.

References

Albrecht, G, Sartore, GM, Connor, L, Higginbotham, N, Freeman, S, Kelly, B, Stain, H, Tonna, A, Pollard, G (2007). Solastalgia: the distress caused by environmental change. Australasian Psychiatry 15, S95S98.CrossRefGoogle ScholarPubMed
Berry, HL, Bowen, K, Kjellstrom, T (2010). Climate change and mental health: a causal pathways framework. International Journal of Public Health 55, 123132.CrossRefGoogle ScholarPubMed
Beyer, RM, Manica, A, Mora, C (2021). Shifts in global bat diversity suggest a possible role of climate change in the emergence of SARS-CoV-1 and SARS-CoV-2. The Science of the Total Environment 767, 145413.CrossRefGoogle ScholarPubMed
Bhugra, D (2004). Migration and mental health. Acta Psychiatrica Scandinavica 109, 243258.CrossRefGoogle ScholarPubMed
Braithwaite, I, Zhang, S, Kirkbride, JB, Osborn, DP, Hayes, JF (2019). Air pollution (particulate matter) exposure and associations with depression, anxiety, bipolar, psychosis and suicide risk: a systematic review and meta-analysis. Environmental Health Perspectives 127, 126002.CrossRefGoogle Scholar
Callaghan, A, McCombe, G, Harrold, A, McMeel, C, Mills, G, Moore-Cherry, N, Cullen, W (2021). The impact of green spaces on mental health in urban settings: a scoping review. Journal of Mental Health 30, 179193.CrossRefGoogle ScholarPubMed
Dai, A (2013). Increasing drought under global warming in observations and models. Nature Climate Change 3, 5258.CrossRefGoogle Scholar
Di Lorenzo, E, Cobb, KM, Furtado, JC, Schneider, N, Anderson, BT, Bracco, A, Alexander, MA, Vimont, DJ (2010). Central Pacific El Niño and decadal climate change in the North Pacific Ocean. Nature Geoscience 3, 762765.CrossRefGoogle Scholar
Hajipour, S, Farbood, Y, Gharib-Naseri, MK, Goudarzi, G, Rashno, M, Maleki, H, Bakhtiari, N, Nesari, A, Khoshnam, SE, Dianat, M, Sarkaki, A (2020). Exposure to ambient dusty particulate matter impairs spatial memory and hippocampal LTP by increasing brain inflammation and oxidative stress in rats. Life Sciences 242, 117210.CrossRefGoogle ScholarPubMed
Hanigan, IC, Butler, CD, Kokic, PN, Hutchinson, MF (2012). Suicide and drought in New South Wales, Australia, 1970-2007. Proceedings of the National Academy of Sciences of the United States of America 109, 1395013955.CrossRefGoogle ScholarPubMed
Jermacane, D, Waite, TD, Beck, CR, Bone, A, Amlôt, R, Reacher, M, Kovats, S, Armstrong, B, Leonardi, G, Rubin, GJ, Oliver, I (2018). The English National Cohort Study of Flooding and Health: the change in the prevalence of psychological morbidity at year two. BMC Public Health 18, 330.CrossRefGoogle ScholarPubMed
Johnson, CK, Hitchens, PL, Pandit, PS, Rushmore, J, Evans, TS, Young, CC, Doyle, MM (2020). Global shifts in mammalian population trends reveal key predictors of virus spillover risk. Proceedings of the Royal Society B 287, 20192736.CrossRefGoogle ScholarPubMed
Karliner, J, Slotterback, S, Boyd, R, Ashby, B, Steele, K (2019). Health Care’s Climate Footprint. How the Health Sector Contributes to the Global Climate Crisis and Opportunities for Action . Health Care Without Harm: Reston, VA (https://noharm-global.org/sites/default/files/documents-files/5961/HealthCaresClimateFootprint_092319.pdf). Accessed 24 September 2021.Google Scholar
MacSuibhne, SP (2009). What makes “a mental illness”? What makes “a new mental illness”?: The cases of solastalgia and hubris syndrome. Cosmos and History: The Journal of Natural and Social Philosophy 5, 210225.Google Scholar
Maughan, D, Berry, H, Davison, P (2014). What psychiatrists should know about environmental sustainability and what they should be doing about it. International Psychiatry 11, 2730.CrossRefGoogle Scholar
McMahon, J, MacFarlane, AE, Avalos, G, Cantillon, P, Murphy, AW (2007). A survey of asylum seekers’ general practice service utilisation and morbidity patterns. Irish Medical Journal 100, 461464.Google ScholarPubMed
Moreno, C, Wykes, T, Galderisi, S, Nordentoft, M, Crossley, N, Jones, N, Cannon, M, Correll, CU, Byrne, L, Carr, S, Chen, EY (2020). How mental health care should change as a consequence of the COVID-19 pandemic. The Lancet Psychiatry 7, 813824.CrossRefGoogle ScholarPubMed
Munro, A, Kovats, RS, Rubin, GJ, Waite, TD, Bone, A, Armstrong, B, Beck, CR, Amlôt, R, Leonardi, G, Oliver, I (2017). Effect of evacuation and displacement on the association between flooding and mental health outcomes: a cross-sectional analysis of UK survey data. The Lancet Planetary Health 1, e134e141.CrossRefGoogle ScholarPubMed
Myers, N (2005). Environmental refugees: An emergent security issue; Documents from the 13th Economic Forum. In: Proceedings of the 13th Meeting of the Organization for Security and Co-operation in Europe (OSCE) Economic Forum, Session III (Environment and Migration) (https://www.osce.org/eea/14851). Accessed 24 September 2021.Google Scholar
Myers, TA, Nisbet, MC, Maibach, EW, Leiserowitz, AA (2012). A public health frame arouses hopeful emotions about climate change. Climatic Change 113, 11051112.CrossRefGoogle Scholar
Newbury, JB, Arseneault, L, Beevers, S, Kitwiroon, N, Roberts, S, Pariante, CM, Kelly, FJ, Fisher, HL (2019). Association of air pollution exposure with psychotic experiences during adolescence. JAMA Psychiatry 76, 614623.CrossRefGoogle ScholarPubMed
Page, LA, Hajat, S, Kovats, RS (2007). Relationship between daily suicide counts and temperature in England and Wales. The British Journal of Psychiatry 191, 106112.CrossRefGoogle ScholarPubMed
Page, LA, Hajat, S, Kovats, RS, Howard, LM (2012). Temperature-related deaths in people with psychosis, dementia and substance misuse. The British Journal of Psychiatry 200, 485490.CrossRefGoogle ScholarPubMed
Peters, R, Ee, N, Peters, J, Booth, A, Mudwa, I, Anstey, KJ (2019). Air pollution and dementia: a systematic review. Journal of Alzheimer’s Disease 70, S145S163.CrossRefGoogle ScholarPubMed
Reacher, M, McKenzie, K, Lane, C, Nichols, T, Kedge, I, Iversen, A, Hepple, P, Walter, T, Laxton, C, Simpson, J (2004). Health impacts of flooding in Lewes: a comparison of reported gastrointestinal and other illness and mental health in flooded and non-flooded households. Communicable Disease and Public Health 7, 3946.Google ScholarPubMed
Rojas-Rueda, D, Nieuwenhuijsen, MJ, Gascon, M, Perez-Leon, D, Mudu, P (2019). Green spaces and mortality: a systematic review and meta-analysis of cohort studies. The Lancet Planetary Health 3, e469e477.CrossRefGoogle ScholarPubMed
Selten, JP, Van Der Ven, E, Termorshuizen, F (2020). Migration and psychosis: a meta-analysis of incidence studies. Psychological Medicine 50, 303313.CrossRefGoogle ScholarPubMed
Shiloh, R, Shapira, A, Potchter, O, Hermesh, H, Popper, M, Weizman, A (2005). Effects of climate on admission rates of schizophrenia patients to psychiatric hospitals. European Psychiatry 20, 6164.CrossRefGoogle ScholarPubMed
Sung, TI, Chen, MJ, Lin, CY, Lung, SC, Su, HJ (2011). Relationship between mean daily ambient temperature range and hospital admissions for schizophrenia: results from a national cohort of psychiatric inpatients. Science of The Total Environment 410-411, 4146.CrossRefGoogle ScholarPubMed
Toar, M, OʼBrien, KK, Fahey, T (2009). Comparison of self-reported health & healthcare utilisation between asylum seekers and refugees: an observational study. BMC Public Health 9, 214.CrossRefGoogle ScholarPubMed
Wang, PS, Gruber, MJ, Powers, RE, Schoenbaum, M, Speier, AH, Wells, KB, Kessler, RC (2007). Mental health service use among Hurricane Katrina survivors in the eight months after the disaster. Psychiatric Services 58, 14031411.CrossRefGoogle ScholarPubMed
Wang, S, Zhang, X, Xie, M, Zhao, D, Zhang, H, Zhang, Y, Cheng, Q, Bai, L, Su, H (2018). Effect of increasing temperature on daily hospital admissions for schizophrenia in Hefei, China: a time-series analysis. Public Health 159, 7077.CrossRefGoogle Scholar
Wang, X, Lavigne, E, Ouellette-Kuntz, H, Chen, BE (2014). Acute impacts of extreme temperature exposure on emergency room admissions related to mental and behavior disorders in Toronto. Canada Journal of Affective Disorders 155, 154161.CrossRefGoogle ScholarPubMed
Watts, N, Amann, M, Arnell, N, Ayeb-Karlsson, S, Belesova, K, Boykoff, M, Byass, P, Cai, W, Campbell-Lendrum, D, Capstick, S, Chambers, J (2019). The 2019 report of The Lancet Countdown on Health and Climate Change. The Lancet 394, 18361878.CrossRefGoogle ScholarPubMed
World Health Organization (2017). Environmentally sustainable health systems: a strategic document (No. WHO/EURO:2017-2241-41996-57723). World Health Organization. Regional Office for Europe (https://apps.who.int/iris/handle/10665/340375) Accessed 24 September 2021.Google Scholar
Wu, J, Snell, G, Samji, H (2020). Climate anxiety in young people: a call to action. The Lancet Planetary Health 4, e435e436.CrossRefGoogle ScholarPubMed
Zhai, P, Zhou, B, Chen, Y (2018). A review of climate change attribution studies. Journal of Meteorological Research 32, 671692.CrossRefGoogle Scholar