Background
Wildfire smoke contributes substantially to the global disease burden, and it is getting worse with climate change [
1,
2]. The Pacific Northwest region of the United States (US) has seen an especially large increase in the quantity and scope of wildfires, and populations there already face increased risks of health harms attributable to smoke exposure [
3]. The region’s poor air quality due to wildfire smoke is a significant and growing public health challenge [
4].
Wildfire smoke contains several compounds hazardous to health, such as Fine Particulate Matter (PM
2.5), carbon monoxide, nitrogen oxides, methane, trace metals, and carcinogens like formaldehyde, polycycle aromatic hydrocarbons, and acrolein [
5]. Although adverse health impacts associated with wildfire smoke can affect all populations, sensitive groups like children, pregnant people, and those with existing respiratory and cardiovascular conditions are especially at risk [
6].
To prevent diseases attributable to wildfire smoke, public education and risk communication about smoke risks and exposure mitigation measures are needed [
7]. Smoke education and communication efforts require a variety of actors, each responsible for communicating specific types of information to particular audiences [
8]. Smoke travels across geographic boundaries following wind patterns, and thus, can impact air quality in places far from the original source [
9]. As a result, communications emerge from local, regional, and national sources. In addition, since air quality risks are both environmental
and public health issues, government agencies and communicators from both domains tend to undertake risk communication activities around wildfire smoke [
10].
During wildfire events, individuals have displayed a keen sense of place and seek region-specific updates concerning fire impact and wildfire smoke [
11,
12]. While conveying health risks across diverse geographic areas presents obstacles, populations gain from messages that highlight the unique conditions of an ongoing emergency, and from information that feels genuine and are useful to them [
13]. Some evidence also suggests that the public trusts local sources of wildfire smoke information more than state-level or federal-level sources [
14]. Despite large demand for hyper-local wildfire risk information in the US, effective communications that promote risk comprehension and awareness of exposure mitigation measures are lacking [
15].
Twitter (now “X”) is a popular social media platform used by government agencies and officials to disseminate information, providing citizens with a direct link to those leading the response to environmental hazards and public health emergencies [
16‐
18]. In the US, most federal government officials have had a Twitter account, and some sources indicate that about a quarter of the public used Twitter as recently as 2021 [
19,
20]. Twitter is a common tool for health promotion and risk communication [
21,
22], and in some areas of the US Pacific Northwest—a region that includes the states of Washington and Oregon—the platform has served as a popular means for citizens to express wildfire smoke concerns, seek updates on risks, and learn about intervention strategies [
23,
24]. In these states, the percentage of adults with a Twitter account was estimated to be 27% in 2021 [
25]. Van Deventer et al. found that the majority of government-authored communications about wildfire smoke in this region were disseminated via Twitter and other social media platforms [
10]. An active social media presence is increasingly viewed as important for officials to communicate smoke risks to communities proactively [
26]; however, in practice, advice from governments on smoke-protective actions is often reactive and/or comes too late after a smoke event [
10,
27,
28]. The US Environmental Protection Agency (EPA) recommends that officials communicate smoke risks and instruct households on what preparations to make during wildfire off-seasons [
29].
Prior research studying institutional health messaging on Twitter and communication best practices found that Tweets authored by public health organizations generally served at least one of three message functions [
30,
31]. These message functions, originally conceptualized by Lovejoy and Saxton, can be classified based on whether Tweets: (i) encourage members of the public to adopt an action or behavior (“action”); (ii) provide information to the public (“information”); or (iii) promote community-building, give recognition and thanks to community members, or otherwise signal community engagement (“community”) [
32].
Although limited studies have tied social media communications like Tweets directly to healthy behavior change [
33,
34], governments increasingly consider their communications to be key for motivating the public to take individual actions that reduce exposure to wildfire smoke [
35]. One way to encourage action-taking may be through application of constructs from Protection Motivation Theory, which is a model of disease prevention in social psychology and health promotion. The theory posits that people’s intentions to protect themselves from harm are influenced by four cognitions: risk severity, likelihood of experiencing harm, effectiveness of mitigative measures to protect from harm, and the belief, known as self-efficacy, that one can successfully execute these measures [
36]. Health agencies and officials have employed messaging based on these Protection Motivation Theory cognitions in public education campaigns [
37‐
39], and their use has been shown to increase people’s intentions to take action to avoid harm from a variety of environmental health hazards [
40‐
42]. Although the application of Protection Motivation Theory constructs in public health messaging on Twitter has not been studied directly, previous studies analyzing communications authored by public health agencies have found that “action” Tweets, which may bolster self-efficacy beliefs, and Tweets specifically referencing hazard severity, garner higher engagement from users [
17,
43].
Institutional health communications that primarily serve to inform users about a hazard also have an important function on Twitter [
44], particularly during wildfire events [
45]. Best practices in health risk communication point to using numeric information to promote accurate perceptions of risks, as people seem to prefer receiving risk information that contains numbers (especially the highly numerate) [
46‐
48], or that contain numbers in combination with verbal labels [
49,
50]. They also find messages with numbers more useful. In one study, participants found websites with numeric information clearer and more useful than a site without it, and they were also more motivated to use the information [
51]. This preference for numbers may be partly attributed to the imprecision of risk information when expressed verbally, for example, words like “significant” may lead to varying interpretations among individuals [
52].
Additionally, numerical risk information may increase intentions to act to reduce environmental risks [
53], as it increases other health-protective intentions [
54,
55]. Health risks attributable to poor air quality are generally communicated by referencing a specific hazard category from the US Environmental Protection Agency’s Air Quality Index (AQI), which helps the public evaluate how hazardous the air is on a scale from 0 (good) to 500+ (hazardous) [
56]. Importantly, using interpretative labels to denote different categories of risk on a scale has been found to aid people’s health decision making and their interpretation of numeric information [
57]. Some research also suggests health-based AQI risk labels like those used in the US (e.g., unhealthy, hazardous, etc.) are more effective at motivating protective action intentions than non-health-based air quality risk labels (e.g., poor, polluted, etc.) [
58]. However, to our knowledge, only one previous study has explored how institutions or officials inform the public about air quality health risks on Twitter during wildfire smoke events [
10].
Institutional use of social media like Twitter centers around engaging users and building (virtual) communities. It is generally viewed as an important way to promote public participation in health promotion and decision making [
59]. Some evidence suggests that encountering Tweets about community-building or social practices like care and compassion can influence the adoption of prosocial behaviors [
60]. Further, communications encouraging dialogue between community members and public engagement may increase trust and other favorable perceptions of institutions and government organizations [
61], which have been found to increase people’s intentions to adhere to public health recommendations during events like natural disasters [
62]. Despite this, health agencies appear to author fewer Tweets that focus on “community”, relative to the “action” and “information” functions [
30,
31].
The literature reviewed above suggests that extensive research points towards how to craft effective social media messages about a variety of health risks. However, our understanding of the actual communication practices of governments—especially as they pertain to wildfire smoke—remains limited. This study aimed to: [
1] analyze temporal Tweeting patterns in relation to potential wildfire smoke exposure in Washington and Oregon, and; [
2] evaluate and compare institutions’ use of three best practices for communicating on social media. Based on our findings, we generated practical recommendations for public health practitioners and researchers communicating about wildfire smoke risks on social media. Each Tweet in our dataset was coded for language that could encourage action-taking, its use of risk information, and for language that could promote community-building. The research questions we sought to answer were:
1.
Do temporal Tweeting patterns about wildfire and smoke align with daily average AQI values?
2.
Do institutional Tweets about wildfires and smoke apply social media communication best practices, which:
a)
Encourage the adoption of protective actions for reducing smoke exposure based on predictions from Protection Motivation Theory?
b)
Inform users about the health risks associated with smoke exposure by leveraging verbal cues, numeric information, and AQI risk labels?
c)
Promote community-building through references to social interactions and/or social behaviors?
3.
How does the use of health messaging across these dimensions compare by institutional characteristics including type, regional scale, and location?
Methods
An initial scoping review of online information sources identified key government institutions and agencies serving as official disseminators of air quality information to citizens residing in Oregon and Washington. Relevant institutions included national and state-level environmental and health agencies, as well as local health departments. Using the Twitter interface to manually search the names of these government organizations, 34 Twitter accounts were identified from which to draw the sample of Tweets from (See Supplemental Table
1). This study did not include Tweets from organizations related to wildfire emergency response, such as local fire departments, as these accounts tended to disseminate information about fire spread and evacuation notices as opposed to health-related information about wildfires and air quality. Of note, Twitter was renamed “X” in July 2023 several months after data collection for this study had taken place.
Twitter data was downloaded in January 2023 from the 34 Twitter accounts selected for this study using a Twitter Application Programming Interface (API) accessed through R using the ‘rtweet’ package [
63]. An R script was developed to download the maximum number of Tweets from each account (i.e., the most recent 3,200 Tweets) permitted for account-specific searches required by Twitter’s API. The download yielded a dataset of 85,406 Tweets authored by the 34 accounts of interest published between April 2009 and January 2023. We limited our analysis to include only Tweets authored between January 1st, 2022, and December 31st, 2022, as this represented the most complete dataset; all but two Twitter accounts (out of 34) ‘Tweeted’ during this time, resulting in 24,430 Tweets authored by 32 accounts.
We further restricted our analysis to Tweets about wildfires and smoke, based on whether they contained the keywords “smoke” or “fire”, and excluded any Tweets containing the words “tobacco”, “cigarette” or “secondhand”. Tweets that did not contain any text (e.g., contained an image only), would have also been screened out at this stage. This step resulted in a sample of 1,879 Tweets. Next, two coders worked together to screen out any Tweets not about wildfires or smoke that remained in the dataset. The two coders engaged in discussions, deliberating on any coding discrepancies between individual Tweets until they reached a consensus. Tweets screened out at this stage included, for example, those discussing air pollution from household fireplaces or wood stoves, or air pollution due to fireworks (
N = 593). Wood-heating in homes is common across many regions of the US Pacific Northwest during the winter months and can account for the majority of smoke produced (and the PM
2.5 recorded) during that season [
64]. Tweets that referenced air pollution due to forest management fires (e.g., prescribed forest burns) were retained in our analysis, yielding a final dataset—authored by 30 different accounts—of 1,287 Tweets about wildfires and smoke.
The 30 Twitter accounts that authored the Tweets in our dataset were classified based on three categorical variables. First, an account’s location was either classified as Washington (WA) (N = 20 accounts, N = 830 Tweets), Oregon (OR) (N = 7 accounts, N = 323 Tweets) or USA-based (N = 3 accounts, N = 134 Tweets) based on whether the institution was located in one of the two states or belonged to an account attached to a national agency (e.g., the US EPA’s Office of Air and Radiation), respectively. Second, an account was classified by its regional scale as either local (N = 21 accounts, N = 384 Tweets) or as a state-level or national-level account (N = 9 accounts, N = 903 Tweets) based on whether the account served citizens from a county, or citizens across an entire state (or multiple states), respectively. For example, Twitter accounts classified as local would have included local public health departments (e.g., Seattle and King County’s @KCPubHealth account), while Twitter accounts classified as regional would have included both state agencies (e.g., Oregon’s Department of Environmental Quality @OregonDEQ) and national agencies (e.g., US EPA’s AirNow Program @AIRNow). Lastly, accounts were classified as either environmental (N = 10 accounts, N = 882 Tweets) or health (N = 20 accounts, N = 405 Tweets) based on their institutional mandate.
AQI data retrieval and analysis
This study used daily AQI values for PM
2.5 to indicate potential wildfire smoke exposure. Exposure to PM
2.5 from wildfire smoke has been associated with increased incidences of all-cause mortality and respiratory morbidity, including exacerbations to asthma and COPD, pneumonia and bronchitis [
65]. Further, Burke et al. previously found that wildfire smoke caused more than 75% of exceedances in daily PM
2.5 concentrations in Washington and Oregon between 2020 and 2022 [
66]. Thus, PM
2.5 is frequently used as an indicator of wildfire smoke exposure. Daily air quality summary statistics for PM
2.5 in Oregon and Washington states were downloaded from the US EPA for the year 2022 to examine temporal trends in both states’ levels of wildfire smoke [
67]. The data is based on the EPA’s Air Quality System, which leverages air quality measurements for various criteria pollutants from multiple state monitoring sites and undergoes validation. Daily maximum AQI values (ranging from 0 to 500 based on the US AQI) were aggregated by state and by month.
Protection motivation theory scoring and analysis of tweets
We searched for keywords associated with each of the four dimensions of Protection Motivation Theory [
36] to devise a total score out of 7 for each Tweet (see Table
1). The first dimension, “severity”, was assessed using three sub-dimensions. For the first sub-dimension, “consequences”, a Tweet would receive a score of 1 if it mentioned any health consequence or health effect associated with wildfire smoke exposure (e.g., asthma, coughing, etc.). For the second sub-dimension, “threat”, a Tweet would receive a score of 1 if it mentioned words associated with wildfire smoke threats to health (e.g., PM
2.5, pollution, etc.). For the third sub-dimension, “magnitude”, a Tweet would receive a score of 1 if it mentioned how severe the threat to health was (e.g., severe, serious, etc.). Thus, a Tweet could receive a maximum score of 3 for the “severity” Protection Motivation Theory dimension if it used messaging satisfying all three of the sub-dimensions.
The second Protection Motivation Theory dimension, “likelihood”, was assessed using two sub-dimensions. For the first sub-dimension, “probability”, a Tweet would receive a score of 1 if it mentioned how likely the threat to health was (e.g., uncertain, predicted, etc.). For the second sub-dimension, “vulnerability”, a Tweet would receive a score of 1 if it mentioned any vulnerable groups more likely to experience health consequences from smoke exposure (e.g., children, pregnant people, etc.). Thus, a Tweet could receive a maximum score of 2 for the “likelihood” Protection Motivation Theory dimension if it used messaging satisfying both of sub-dimensions.
For the third Protection Motivation Theory dimension, “mitigation”, a Tweet would receive a score of 1 if it mentioned any mitigation measures from smoke exposure (e.g., air purifier, staying indoors, etc.). Lastly, for the fourth Protection Motivation Theory dimension, “self-efficacy”, a keyword search for the terms “protect”, “safe” and “can” was carried out; Tweets containing one or more of these words were read to examine the context surrounding the use of the words and whether they were used to describe people’s ability to protect themselves, stay safe or execute some specific action (e.g., “Learn how you can protect your health from wildfire smoke…”). The “self-efficacy” dimension of the Protection Motivation Theory score was also scored as a binary variable out of 1, denoting a presence or absence of self-efficacy language.
Protection Motivation Theory scores were created for each Tweet by tallying up the presence of each Protection Motivation Theory dimension/sub-dimension. We followed a similar approach to one adopted by Zhang et al., who also linked keywords from Tweets to specific constructs of a health behavior theory in order to examine the usage of these constructs in health-related Twitter discussions [
68]. In this study, each Tweet obtained a Protection Motivation Theory score ranging from 0 (no Protection Motivation Theory dimensions present) to 7 (all Protection Motivation Theory dimensions and sub-dimensions present).
In addition to Protection Motivation Theory scores, Tweets were also coded based on the presence or absence of different types of risk information and specifically whether: (i) verbal cues were used; (ii) numeric information was used; and/or (iii) AQI risk labels were referenced. Table
1 highlights which words were used to create a verbal risk information score, where the presence of any single word would lead to a score of 1 for that category. A Tweet received a score of 1 in the numeric category if it contained a number (i.e., any Arabic integer) in reference to a risk quantity relevant to wildfires and/or smoke, for example, describing a percent likelihood of fire spread or the number of acres burning. Finally, a Tweet received a score of 1 for the AQI risk label category if it referenced any one of the six AQI hazard categories commonly used to quantify risks from poor air quality in the US.
Table 1
Keyword search strategies for Protection Motivation Theory and risk language scoring by dimension/sub-dimension
Protection Motivation Theory dimensions | Sub-dimensions (if present) | |
Severity | Consequences | Asthma; breath*; cardiovascular; chest pain; condition; cough; damag*; disease; effect; eye; headache; health problem; heart; illness; lung; respirat*; throat; wheez* |
| Threat | Air quality; AQI; degraded; hazard; partic*; PM; pollut*; risk; threat |
| Magnitude | Danger*; extreme; harm*; serious; severe; unhealthy |
Likelihood | Probability | Canǂ; chance; could; expect; forecast; frequent; likel*; may; might; possib*; potential; predict; probab*; uncertain; will |
| Vulnerability | Asthma; cardiovascular; child; elderly; kid; old; pregnant; respiratory; sensitive; worker |
Mitigation | NA | HEPA; indoor; inside; mask; MERV; monitor; outdoor; outside; purifier; respirator; sensors; shelter; space; window |
Self-efficacy | NA | Canǂ; protect; safe |
Risk information dimensions | | |
Verbal cues | NA | Big; decline; decrease; elevated; fewer; heavy; high; increase; large; less; low; many; more; most; reduce; rise; rising; small; tiny |
Numeric information | NA | [number]; %; percent* |
Air Quality Index Risk Labels | NA | Good; hazardous; moderate; unhealthy† |
Assessment and analysis of tweets about community-building
Further, this study used a dictionary-based approach with Linguistic Inquiry and Word Count software (LIWC-22) to assess linguistic differences in word use about community-building across the Twitter accounts studied. Boyd et al. provides an overview of the development of the LIWC dictionary and the reliability and validity of the various dimensions the software generates [
69]. In essence, each LIWC dimension is composed of a select list of dictionary words that have been found to capture its meaning based on an extensive text corpus of approximately 31 million words from various sources (including thousands of Tweets). We selected two dimensions from LIWC-22 relevant to community-building, and ran all Tweets in our sample through the software to give each Tweet two LIWC scores, representing percentages of total words within a text for two dimensions of interest: “social behavior” and “prosocial behavior”. Prior research has found that the social dimensions LIWC uses are a reliable indicator of social connections and closeness [
70]. The “social behavior” dimension captures words associated with social interactions and includes terms like “said” and “share”; The “prosocial behavior” dimension captures a subset of words from the “social behavior” category, but specifically targets terms associated with social behaviors that benefit society or promote caring about others, for example, “care” and “thank” [
69].
Statistical analysis
Descriptive statistics were performed for the Protection Motivation Theory scores and the individual dimensions used to describe the presence/absence of these scores across different groupings of interest (i.e., by institution type [environmental vs. health], regional scale [local vs. state-level or national-level], and location [OR vs. WA vs. USA]). Descriptive statistics were also performed to describe the presence/absence of different risk language in the Tweets, as well as differences in the LIWC dimensions, across institution type, regional scale and location.
Models were constructed to test differences between institution types, regional scales, and locations on the outcomes of interest including the Protection Motivation Theory score, risk language, and LIWC score. For the Protection Motivation Theory and LIWC scores, preliminary analyses revealed potential violations of homogeneity of variance and normality of residuals. Therefore, non-parametric statistical tests were employed for the Protection Motivation Theory and LIWC models. To test for differences between institution type and regional scale, Mann-Whitney Wilcoxon tests—the non-parametric equivalent of independent samples t-tests—were used. The results of these models were accompanied by Vargha and Delaney’s ‘A’ as an effect size measure, for which benchmarks recommended by the developers were provided [
71].
For differences across the three locations, the Kruskal-Wallis test (i.e., non-parametric one-way analysis of variance) was used, accompanied by post-hoc tests to compare each location using Dunn’s method and the Benjamini-Hochberg
p-value adjustment for multiple comparisons [
72,
73]. Epsilon-squared (
E2) was reported as an effect size measure for the Kruskal-Wallis test. As the outcomes were binary for the models of risk language, logistic regression models were employed. Standard logistic regression results with odds ratios as an indicator of effect size were reported. For the model of location, post-hoc pairwise comparison results were reported based on the marginal means, again using the Benjamini-Hochberg
p-value adjustment for multiple comparisons.
Discussion
Wildfire smoke is and likely will continue to be a major cause of air pollution in Oregon and Washington [
4,
66]. In these regions, environmental and public health agencies are advised to communicate to the public about air quality issues, provide advice on strategies to limit exposure to wildfire smoke, and generally view public education as an important part of their institutional mandate [
14,
29,
74]. This research evaluated wildfire and smoke communications authored by Oregon, Washington and USA-based accounts on the social media platform Twitter and examined how health messaging varied by institutions. First, we explored temporal Tweeting patterns in relation to potential smoke exposure. We found that more than half of all Tweets authored by accounts in Oregon and Washington were Tweeted during peak smoke levels (58% and 54% of annual total Tweets, respectively). These results indicated that institutions in Oregon and Washington took a responsive approach to communicate to citizens about wildfire smoke when the risk of exposure was highest. In comparison, the three USA-based accounts Tweeted a smaller proportion of Tweets during peak smoke levels (44% of annual total Tweets). This result may be attributed to the fact that these three accounts represent national agencies that communicate about air quality issues across the USA, and thus, one might expect these accounts to Tweet less frequently in response to specific wildfire and smoke events occurring in a particular region. Still, the findings from this analysis indicate that communicators in Oregon and Washington are generally following the US EPA’s recommendations around communicating about wildfire smoke even during wildfire off-seasons [
29]; in both states, each Twitter account authored, on average, the same number of Tweets (18 Tweets) during the period prior to peak smoke levels.
We also examined whether institutions followed best practices for communicating on social media by leveraging three message functions: (i) encouraging the adoption of smoke-protective actions; (ii) informing the public about health risks using verbal cues, numeric information and AQI risk labels; and (iii) promoting community-building. Use of these message functions has been associated with advancing numerous public health goals. For example, messaging encouraging the adoption of protective actions and community-building can lead to changes to behavior that help mitigate health risks associated with exposure to environmental hazards [
41,
42,
62], and leveraging numeric, verbal, and AQI risk information appears to aid individuals’ health decision making and understanding of risks [
49,
57]. Our findings indicated that institutional accounts used Twitter to promote smoke-related behavior change (as indexed through dimensions of Protection Motivation Theory) more often than they used it to disseminate wildfire smoke risk information or promote community-building.
Specifically, the majority of Tweets we analyzed (82%) included some form of protection motivation constructs—messaging that has been found to generate greater willingness to adopt actions to reduce exposure to hazards [
42]. However, less than half of the Tweets in our sample used language associated with community-building (47%), and only a quarter reported any kind of risk information (25% verbal, 5% numeric, 17% AQI). Furthermore, we found differences in institutions’ use of action-, information- and community-based messaging across account types, highlighting the challenges for institutions to communicate about wildfire smoke consistently.
Individuals are increasingly turning to online sources for information about wildfire smoke [
23,
24,
27]. Given the limited research evaluating official online wildfire smoke communications [
10,
12,
45], our study addressed an important knowledge gap by shedding light on how institutions communicate about wildfire smoke to highly exposed populations through social media. This research also offers lessons for how institutions can improve health messaging about wildfire smoke in the future by leveraging messaging that is evidence-based, timely and theory-driven. As exposures to environmental risks like wildfire smoke become more frequent and more intense with climate change [
1], reducing the burden of disease attributable to these hazards will require that health officials not only effectively leverage popular communication channels and distribute relevant communications rapidly,
but also get the message right. We make four recommendations.
1. Institutional messaging requires more integration with protection motivation theory constructs
Individuals and communities can adopt several measures to minimize and mitigate exposure to wildfire smoke, for example, by using respirators and at-home air purifiers, reducing time outdoors during smoke events, and upgrading building ventilation [
75]. Since applying constructs from Protection Motivation Theory in health communications has previously been found to encourage action-taking [
42], the high frequency of Tweets in our sample containing Protection Motivation Theory messaging indicates that institutions appeared to use language promoting behavior change to reduce the threat of smoke exposure and health harms. This was the case especially among local accounts serving county-level populations, which used this type of messaging more frequently in their Tweets compared to state-level or national-level accounts that serve larger populations. This finding may reflect local health departments being better positioned to implement health promotion interventions and drive behavior change at the community level compared to state and national institutions [
31], for example, in organizing clean air spaces during smoke events and encouraging local community members to access them.
Out of the seven Protection Motivation Theory constructs we studied, “threat” and “probability” were most used in Tweets, appearing in nearly half of all Tweets in our sample (48% and 46%, respectively). Thus, institutions appeared to be effective at leveraging certain elements from the Protection Motivation Theory to describe the hazard that smoke poses and the probability of individuals encountering it.
Only 15 Tweets used messaging to satisfy at least some elements from each of the four main Protection Motivation Theory cognitions (i.e., severity, likelihood, mitigation, self-efficacy). Consistent with research by Marfori et al. [
27], only 7% of Tweets discussed the health consequences of smoke exposure, which may have impacts on individuals’ abilities to make informed decisions about smoke risks and taking appropriate precautions. Further, the small proportion of total Tweets discussing populations vulnerable to smoke-related health effects and specific mitigation measures (10% and 14%, respectively) represents an important area where health messaging could improve—especially since individuals in vulnerable groups seem to seek-out information about wildfire smoke more frequently and could benefit from tailored messaging [
6,
12]. Moreover, increasing people’s perceived vulnerability to wildfire risks, and providing them with actionable solutions to reduce smoke exposure, appear to be important motivators for undertaking risk-mitigating actions [
39‐
41].
Our analysis also found that terms instructing people to stay indoors or limit time outdoors were more frequently mentioned than terms related to other mitigation measures like air purifier use or ventilation systems to improve air quality. This finding was consistent with Van Deventer and colleagues’ research on health messaging in Washington state during a 2018 smoke event [
10], suggesting that officials instructed individuals to stay inside without necessarily providing guidance on how to make indoor spaces safer. Since the prevalence of residential heating, ventilation, and air conditioning systems in cities like Seattle, Washington and Portland, Oregon consistently rank lower than many other major US cities [
76], and smoke particles can approach 70–100% of the outdoor concentrations in homes without air conditioning [
29], staying indoors may not always offer people substantial health benefits and may not be feasible for everyone.
The percentage of Tweets in our sample that informed users about
how much wildfire smoke risk was present using verbal and numeric risk terms (25% and 5%, respectively) was smaller than the percentage of Tweets containing Protection Motivation Theory constructs described above. This finding presents two challenges to risk communicators in Oregon and Washington. First, messaging promoting behavior change appears to be most effective when supplied with information about levels of risk [
42], suggesting the frequency of “action” and “information” Tweets should be more similar. Second, since many people appear to prefer to receive risk information containing numbers alone or numbers with verbal cues [
49,
50]. The large discrepancy between verbal and numeric risk information reported by institutions in our sample should be addressed by institutions going forward.
Nearly a fifth of Tweets in our sample referenced AQI risk labels to inform audiences about how clean or polluted the air was. As prior research has indicated that risk labels may improve individuals’ health-related judgments and even improve use of numeric information in decisions [
57,
77], the use of AQI risk labels in health messaging on wildfire smoke should be continued. Our results indicated that local organizations were more likely to reference AQI risk labels (e.g., “hazardous”) compared to state-level or national-level accounts. This finding can be explained by the fact that AQI information is obtained using local monitors to reflect hazard levels, and thus, Twitter accounts representing individual counties more often report local AQI levels while state-level or national-level accounts likely report broader regional trends in air quality. Since the public generally expects to have access to locally-relevant information about smoke levels in their community [
11,
12] and tends to report higher levels of trust in local sources of information [
14], local accounts should continue to report local AQI risks in their health messaging when disseminating information about smoke risks. On the other hand, state- or national-level accounts could play a role in re-directing their online audiences to follow local accounts for risk information [
31].
3. Engaging, bi-directional smoke communications are needed
Our study examined whether institutions encouraged community-building through references to social interactions and/or social behaviors, which may have implications for encouraging public participation in health promotion and trust in government institutions [
60,
61]. On average, less than 2% of words in each Tweet in our sample constituted community language. Nearly half the Tweets in our sample (47%) contained at least one word associated with community-building. This proportion of Tweets containing community language is relatively higher than the 22–35% reported in other studies examining public health Twitter communications; however, previous studies relied on manual thematic coding of Tweets, and consequently, direct comparisons are difficult to draw [
30,
31]. To assess community language use across various accounts, we used the percentage of words per Tweet containing social behavior words as a more conservative metric summarizing
how much each Tweet met the community language criteria, rather than only relying on the presence or absence of themes in a text.
Our analysis of community-building messaging by institution did not reveal any significant differences in how various accounts used language about prosocial behavior. However, it did reveal that terms associated with
any social behavior appeared more in Tweets authored by health institutions compared to environmental institutions. This finding could be explained by the fact that health institutions, focused on community health, appear to leverage more human-centered messaging compared to environmental institutions, which primarily prioritize environmental protection. Since citizens with less knowledge about wildfire risks appear to rely more on community cues as motivation for engaging in wildfire-protective behaviors [
41], our finding suggests environmental institutions may benefit from the use of more community language to promote the uptake of AQI messaging. The public’s desire for smoke messaging that engages community members [
26] further demonstrates that this is an important message function that officials should prioritize.
4. Take advantage of smoke “off-seasons” to implement a proactive approach to wildfire and smoke health messaging
Large-scale wildfires (and wildfire smoke) are not unprecedented in the US Pacific Northwest, and both Oregon and Washington have amassed considerable experience managing public health risks attributable to this hazard [
78]. In fact, our analyses indicated that, on average, populations in both states appeared to experience similar levels of smoke exposure in 2022 based on maximum daily AQI values, which was also corroborated by research from Burke et al. [
66]. Yet, our study suggests that institutions in both states took slightly different approaches to communicate about wildfire and smoke on social media.
Accounts based in Washington Tweeted a higher percentage of annual total Tweets (44% vs. 39% for Oregon-based accounts) between January-August, suggesting these accounts may have taken a more proactive communication approach prior to the two-month peak period in wildfire smoke compared to Oregon-based accounts. Proactive communication is viewed as critical for helping households prepare for wildfire smoke and effectively mitigate health harms associated with smoke exposure [
29]. Washington-based accounts also appeared to prioritize wildfire and smoke messaging that encouraged the adoption of protective actions and informed people about risks using verbal, numeric and AQI formats. On the other hand, accounts in Oregon seemed to prioritize messaging that focused more on community-building by using more community language per Tweet. These differences in communication strategies could be intentionally tailored to their respective populations, or they may simply reflect differences in resources (e.g., trained communications staff) allocated to communications and smoke information dissemination. Future research could offer significant insights into these state-by-state differences by conducting interviews with communications staff and personnel to gather more information.
Practical implications for public health
The findings of this study can provide numerous lessons to public health practitioners and researchers regarding communication strategies for environmental health hazards like wildfires and smoke. First, our work points to the importance of proactive and sustained communications informing the public about wildfires and smoke before they are likely to encounter these hazards. Timely communications are key for educating and empowering individuals to make informed decisions about protecting themselves from harmful exposures. This research also demonstrates how theories of health promotion like the Protection Motivation Theory can be leveraged to craft more effective messages for behavior change. Additionally, we highlight the need for communicators to employ numeric information, verbal cues, and AQI risk labels, to help individuals quantify and compare risk levels across time and space and mitigate impacts on health. Finally, we call attention to the need for communications to increase engagement with communities and for social media to generate more interaction between public health stakeholders and citizens. Although this paper focuses on health messaging related to wildfire and smoke, insights can be drawn for communicating risks associated with exposure to many other environmental hazards.
Limitations
This research’s main limitations stem from its reliance on Twitter data. In this study, we analyzed Tweets by various governmental institutions in the US that Tweeted in 2022; however, the public likely receives information from numerous other sources (both offline and online), and likely also encounters wildfire and smoke communications on Twitter from accounts that were not captured in our sample. Although similarities likely exist between what an agency Tweets and what they communicate on other channels, our research cannot draw conclusions about all wildfire and smoke communications that the public may view in the US Pacific Northwest; research on other information sources is needed.
It is also important to note that not all individuals use Twitter, and its future as a key governmental communication platform remains uncertain as it has transitioned into a new platform called “X”. Our results may not reflect the current social media landscape and our analysis only captured a limited number of accounts that Tweeted about wildfire and smoke events in the Pacific Northwest region of the US during the study period (2022). Thus, this study examines smoke communication practices on Twitter at a particular snapshot in place and time and future research should be extended to other regions and time periods. We could have used a portion of the total dataset of 85,406 Tweets published between April 2009 and December 31st 2021 and compared these to the January 1st 2022 through December 31st 2022 Tweets that were selected and analyzed for this study to measure changes in messaging from the earlier time period to the time period we selected. However, since earlier time periods did not contain a complete Tweeting history from some accounts, we selected only Tweets from a single year (i.e., 2022) in order to conduct a more in-depth analysis of wildfire smoke communications.
Additionally, we relied on select keywords to score institutions’ use of Protection Motivation Theory dimensions and risk language. Although this approach was informed by prior literature and based on an initial scan of the Tweets, the list of keywords selected likely did not capture an exhaustive list of words that could be associated with the dimensions (or sub-dimensions) scored. We also did not quantify the public’s engagement to Tweets in this research, nor did we measure real behavior change in response to health messaging. Future work could expand on this research considerably by measuring the effectiveness of wildfire smoke communications on behavioral intentions through experimental research. More research is also needed to compare the impacts of communications disseminated during smoke off-seasons versus during peak smoke levels on citizens’ smoke preparedness. Such research on the effectiveness of proactive versus reactive health communications in motivating behavior change would guide health officials in determining the most strategic approach to safeguarding public health during wildfire smoke events. Still, our work offers valuable insights that public health stakeholders can apply to other means of communication that dominate the media landscape going forward.
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