Digital Mental Health Innovations in the Face of Climate Change: Navigating a Sustainable Future
Abstract
Climate change poses substantial challenges to mental health, with increased frequency of extreme weather events and environmental degradation exacerbating stress, anxiety, trauma, and existential concerns. Digital innovations, particularly artificial intelligence and digital phenotyping, offer promising avenues to mitigate climate-related mental health burdens. The integration of digital tools into climate-related mental health care necessitates careful consideration of issues of access to and adoption of solutions. Future research should evaluate the effectiveness and scalability of digital interventions to address the mental health impacts of climate change through collaborative efforts involving clinicians, environmental health specialists, bioethicists, policy makers, and technology developers.
HIGHLIGHTS
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Digital innovations, such as artificial intelligence and digital phenotyping, offer versatile solutions to mitigate climate-related mental health challenges.
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Integrating digital solutions into care for climate-related mental health burdens requires addressing ethical concerns to ensure the development of inclusive and sustainable digital interventions that benefit all communities equitably.
In recent years, the intersecting challenges of climate change and mental health have emerged as critical issues facing global society. As temperatures rise and extreme weather events become more frequent, so too does the toll on people’s mental health. Climate change affects mental health in both direct and indirect ways. Exposure to severe weather events (e.g., hurricanes, tornadoes, or wildfires) can lead to stress, anxiety, and trauma, whereas the deterioration of the environment worldwide can contribute to feelings of stress, grief, and worry about the future. For example, shifting climate patterns increase the severity of droughts and floods, thereby disrupting agriculture and food security, which may lead to social unrest and conflict. Associations between extreme temperatures and adverse mental health consequences have also been noted, including increased rates of suicide, violence, and aggression (1, 2).
Climate change compounds issues of inequity, interacting with social and economic drivers of health to create cumulative mental health risks. The individuals most vulnerable to these mental health risks—including children, older adults, climate migrants, low-income communities, and communities of color (particularly Indigenous communities)—are disproportionately affected (1, 2). Research has also started documenting a new category of climate-specific psychological responses, including ecoanxiety, ecoparalysis, and solastalgia, that is, distress that is attributed to environmental changes occurring close to one’s home environment. Both the direct and indirect impacts of climate change can exacerbate people’s preexisting mental health conditions, disrupt communities, and increase social isolation and maladaptive coping behaviors (1).
In response to these growing concerns, digital tools have emerged as a promising approach to reduce the mental health toll of climate change. Digital tools represent a versatile and effective means of supporting mental health promotion and symptom prevention, and they offer numerous benefits that enhance availability, effectiveness, and convenience in mental health care. Such digital innovations include tools with which patients and clinicians may interact. Although various resources and models exist regarding how to use technology in the provision of mental health care during or following disasters, further exploration is needed on how digital tools can play a transformative role in supporting mental health amid a changing climate.
In this column, we explore the intersection of climate change, digital tools, and mental health, describing innovative approaches for leveraging technology to mitigate climate-related psychological consequences and foster resilience among affected communities. We discuss specific types of interventions and innovations with regard to using artificial intelligence (AI) to identify and assess climate-related mental health problems and to then conduct treatment planning and effect behavior change.
Digital Solutions to Climate-Related Mental Health Consequences
Early Detection and Prevention
Public knowledge of the intersection of climate change and mental health remains low, and medical providers feel ill equipped to discuss this intersection with patients, partly because of a lack of education, resources, and time (3). Digital technologies may support the early detection of climate-related mental health challenges or prevent them from increasing in severity (4). For example, sensors in smartphones have the capacity to monitor environmental properties, including temperature, humidity, smoke levels, and air quality (5), as well as digital biomarkers of health and functioning (6).
Some digital health apps can link information on environmental hazards and health to support patient education about the impacts of climate change on health, awareness of triggers, and symptom monitoring (4, 5, 7). Building on this technology, future digital apps could integrate the tracking of environmental conditions and mental health symptoms nearly in real time, which will be particularly important as such conditions worsen with climate change. Social and environmental conditions, including those where individuals are born, live, learn, work, and play, have direct effects on mental health and well-being (8). Geographic information systems paired with AI can enable more effective predictions of climate risk by, for example, detecting subtle environmental changes, guiding decision making about when to evacuate before or during a disaster, and identifying determinants of climate-related mental health risk, accounting for factors such as urbanicity and affluence to inform targeted mental health prevention efforts (9).
AI and Personalized Care
Digital phenotyping and just-in-time interventions.
With increasing mental health challenges related to existential concerns about climate change, real-time processing of biometric and personal data can have substantial impacts on patient care. For example, AI could support the identification of a mental health risk, provide an early warning, and offer adaptive interventions that provide the needed type and amount of support at the right time. This type of detection and intervention may be particularly beneficial for youths, who are vulnerable to experiencing some of the greatest climate-related mental health burdens. A global study of youths’ climate change concerns noted that 84% of young people reported being at least moderately worried about climate change (2). This approach to individualized care, known as digital phenotyping, has been used to gather data from multiple streams, including social media, smartphones, wearable devices, and electronic health records (4, 6). Social media and smartphone data are rich sources to inform approaches to care for youths.
Of note, young people are seeing more climate change content online, and nearly 70% of Gen Z and 60% of millennial social media users report feeling anxious about the future when viewing online information about climate change (10). Machine learning, deep learning, and natural language processing techniques can be used to identify young people at risk for mental health challenges who share negative emotions or climate-related psychiatric stressors via social media. Passive collection of smartphone data can provide more precise measurements of digital behavior and social signals, such as the times when youths are looking at negative content on social media, changes in social interaction patterns, and activity levels (11). Such data could be combined with ecological momentary assessment data (i.e., repeated measurements of reported stress and well-being) (6), as well as geospatial data indicative of hot spots of potential climate change, thereby creating a digital biomarker of climate-related mental health risk. For example, youths living in areas with more severe weather events may spend more time on their smartphones and may be more likely to engage with climate-related content on social media to validate their lived experience. Digital health platforms that leverage AI algorithms to analyze passive and active data can identify patterns of social media use, mood fluctuations, and stress levels, as well as how these patterns vary among youths who live in areas at high risk for adverse impacts of climate change. In response to the data, just-in-time adaptive mechanisms can then send push notifications with personalized, actionable feedback to promote behavior change (e.g., a suggestion to go for a walk or to spend time in nature to interrupt climate change doomscrolling behaviors, encouragement to connect with peers or to seek support if a severe weather event is approaching, or brief cognitive-behavioral exercises to manage climate anxiety).
Evidence-based interventions that are effective in providing mental health support to disaster-affected communities (e.g., Problem Management Plus [12] or Skills for Life Adjustment and Resilience [13]) could also be integrated into digital technologies to enhance the speed and personalization of care for climate-related distress. One such climate-related digital health intervention is the Text4Hope cognitive-behavioral therapy text messaging intervention. This subscription-based program delivers daily affirming messages at a regular time to encourage mental health and well-being, with proven effectiveness in providing support to individuals during wildfires (7). Integrating AI into this program or similar text-based mental health interventions can enhance their effectiveness by providing real-time support that is tailored to individual needs. For example, rather than having a message sent at the same time each day, push notifications to encourage behavior change could be sent when an individual is engaging in behaviors linked to poor climate-related mental health or before a predicted severe weather event to encourage planning.
Support for clinical decision making.
AI can also be used to enhance clinical decision making and promote personalized care approaches via electronic health record data. Predictive models could draw on electronic health record data to identify patients with preexisting conditions who live in high-risk areas and who may be more susceptible to climate-related mental health burdens or consequences. In such cases, medical providers could plan to incorporate into patient visits education on the intersection of climate change and mental health, discuss strategies for planning and preparedness, and provide referrals to climate-aware clinicians or support groups as needed. This personalized care approach could also have considerable implications for neonatal and pediatric health, because child learning and cognitive development are particularly vulnerable to climate change impacts, with dire implications for mental and general medical health later in life if these issues are not addressed (1).
Future Directions
With so much potential for digital solutions to promote community resilience and reduce climate-related health burdens, more research is needed that explores the implementation and effectiveness of such strategies. Research on the implementation of climate-related digital solutions has documented several unique challenges. Climate stressors affect the effectiveness and accessibility of digital solutions, because disparities in digital access, adoption, and literacy are intensified in the context of severe weather events and natural disasters. Disparities in access to and adoption of these technologies will be even greater for individuals from low-resourced communities who experience the worst consequences of climate change. Moreover, although emerging technologies have the potential to enhance climate resilience, uncertainties in climate prediction and failures from unplanned disruptions must be accounted for in technological infrastructure design and monitored (14). Thus, research is needed to develop efficient adaptive technologies that can respond to changing climate conditions and increase ease of user engagement in order to provide support and encourage resilience amid disasters. Ethical issues regarding the use of technology to address climate-specific mental health problems are likely the same as those that arise when technology is used to address any mental health problem, and these issues must also be accounted for to ensure that these technologies do not contribute to greater harm.
As researchers and designers continue to develop responsive digital mental health tools, they must integrate climate-related factors into the design, such as local environmental conditions, unique stressors associated with climate change, and cultural responses to these climate stressors. This work necessitates collaborations between mental health professionals, climate and environmental health specialists, engineers, bioethicists, and policy makers to create equitable, ethical, and evidence-based solutions. Increased funding and investment in digital solutions to the mental health consequences of climate change are necessary to support research and development as well as innovation and scaling of existing initiatives (4, 7).
Conclusions
The intersection of climate change and mental health presents profound challenges that necessitate innovative solutions. Digital interventions, particularly those leveraging AI and digital phenotyping, offer promising avenues to mitigate the mental health impacts of climate change. However, there are challenges to overcome to ensure accessibility, cultural relevance, and long-term effectiveness. Addressing these challenges will require interdisciplinary collaboration to ensure that these technologies promote health equity and do not exacerbate existing disparities. As climate change intensifies, investment in research, development, and ethical guidelines for digital interventions remains paramount to safeguarding mental health in an increasingly uncertain world.
References
1.
White BP, Breakey S, Brown MJ, et al: Mental health impacts of climate change among vulnerable populations globally: an integrative review. Ann Glob Health 2023; 89:66
2.
Hickman C, Marks E, Pihkala P, et al: Climate anxiety in children and young people and their beliefs about government responses to climate change: a global survey. Lancet Planet Health 2021; 5:e863–e873
3.
den Boer ACL, Teherani A, de Hoop E: Discussing climate change and other forms of global environmental change during the clinical encounter: exploring US physicians’ perspectives. J Clim Chang Health 2021; 4:100058
4.
Vaidyam A, Roux S, Torous J: Patient innovation in investigating the effects of environmental pollution in schizophrenia: case report of digital phenotyping beyond apps. JMIR Ment Health 2020; 7:e19778
5.
Johnston FH, Wheeler AJ, Williamson GJ, et al: Using smartphone technology to reduce health impacts from atmospheric environmental hazards. Environ Res Lett 2018; 13:044019
6.
Campbell CI, Chen CH, Adams SR, et al: Patient engagement in a multimodal digital phenotyping study of opioid use disorder. J Med Internet Res 2023; 25:e45556
7.
Obuobi-Donkor G, Shalaby R, Agyapong B, et al: Mitigating psychological problems associated with the 2023 wildfires in Alberta and Nova Scotia: six-week outcomes from the Text4Hope program. J Clin Med 2024; 13:865
8.
De Maio F, Mazzeo J, Ritchie D: Social determinants of health: a view on theory and measurement. R I Med J 2013; 96:15–19
9.
Kamel Boulos MN, Wilson JP: Geospatial techniques for monitoring and mitigating climate change and its effects on human health. Int J Health Geogr 2023; 22:2
10.
Tyson A, Kennedy B, Funk C, et al: Gen Z, Millennials Stand Out for Climate Change Activism, Social Media Engagement With Issue. Washington, DC, Pew Research Center, 2021. https://www.pewresearch.org/science/wp-content/uploads/sites/16/2021/05/PS_2021.05.26_climate-and-generations_REPORT.pdf
11.
Nisenson M, Lin V, Gansner M: Digital phenotyping in child and adolescent psychiatry: a perspective. Harv Rev Psychiatry 2021; 29:401–408
12.
Dawson KS, Bryant RA, Harper M, et al: Problem Management Plus (PM+): a WHO transdiagnostic psychological intervention for common mental health problems. World Psychiatry 2015; 14:354–357
13.
Gibson K, Little J, Cowlishaw S, et al: Piloting a scalable, post-trauma psychosocial intervention in Tuvalu: the Skills for Life Adjustment and Resilience (SOLAR) program. Eur J Psychotraumatol 2021; 12:1948253
14.
Argyroudis SA, Mitoulis SA, Chatzi E, et al: Digital technologies can enhance climate resilience of critical infrastructure. Clim Risk Manag 2022; 35:100387
Information & Authors
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Published In
Psychiatric Services
History
Received: 15 July 2024
Revision received: 5 September 2024
Accepted: 1 October 2024
Published online: 12 November 2024
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The authors report no financial relationships with commercial interests.
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