Methods in Public Health Environmental Justice Research: a Scoping Review from 2018 to 2021

Purpose of Review The volume of public health environmental justice (EJ) research produced by academic institutions increased through 2022. However, the methods used for evaluating EJ in exposure science and epidemiologic studies have not been catalogued. Here, we completed a scoping review of EJ studies published in 19 environmental science and epidemiologic journals from 2018 to 2021 to summarize research types, frameworks, and methods. Recent Findings We identified 402 articles that included populations with health disparities as a part of EJ research question and met other inclusion criteria. Most studies (60%) evaluated EJ questions related to socioeconomic status (SES) or race/ethnicity. EJ studies took place in 69 countries, led by the US (n = 246 [61%]). Only 50% of studies explicitly described a theoretical EJ framework in the background, methods, or discussion and just 10% explicitly stated a framework in all three sections. Among exposure studies, the most common area-level exposure was air pollution (40%), whereas chemicals predominated personal exposure studies (35%). Overall, the most common method used for exposure-only EJ analyses was main effect regression modeling (50%); for epidemiologic studies the most common method was effect modification (58%), where an analysis evaluated a health disparity variable as an effect modifier. Summary Based on the results of this scoping review, current methods in public health EJ studies could be bolstered by integrating expertise from other fields (e.g., sociology), conducting community-based participatory research and intervention studies, and using more rigorous, theory-based, and solution-oriented statistical research methods. Supplementary Information The online version contains supplementary material available at 10.1007/s40572-023-00406-7.


Introduction
Environmental risk factors account for approximately one quarter of global deaths, with a higher burden among children under 5 and those in low-and middle-income countries (LMICs) [1].In addition, a consistent social gradient has been observed where persistently marginalized and disadvantaged communities bear disproportionately high environmental exposures compared to more advantaged groups [2][3][4].These environmental health disparities are produced by multi-level factors, including discriminatory practices at global, national, regional, and local levels in the distribution of neighborhood resources and environmental hazards to internal dose and individual psychosocial stress response [5].Correspondingly, addressing such disparities will likely require multi-level policy interventions [6].Heightened awareness of environmental health disparities in the United States (US) in recent years has pushed some policymakers and organizations to create working groups, funding opportunities, and policies aimed at identifying and mitigating environmental injustices.
The US Environmental Protection Agency (EPA) and the White House EJ Advisory Council (WHEJAC) define environmental justice (EJ) based on "fair [just] treatment and meaningful involvement of all people" in environmental law, regulation, and policy development, implementation, enforcement, practices, and activities related to human health and the environment" [7].During his first week in office, President Joe Biden issued an executive order on the climate crisis that established the Justice40 Initiative, which directs 40% of benefits from many federal investments to disadvantaged communities [8].The order also created the federal Office of Environmental Justice.In 2022, the US EPA established an office of Environmental Justice and External Civil Rights and signed a 5-year Memorandum of Understanding with the World Health Organization to cooperate on EJ issues [7,9].The 2018-2023 National Institutes of Environmental Health Sciences (NIEHS) Strategic Plan supported research in EJ and environmental health disparities across all priorities [10].Though this broad interest in EJ research is more recent, the field has benefitted from years of contributions (e.g., definitions, frameworks, and statistical methods) from scholars across multiple disciplines (e.g., sociology, history, geography, epidemiology, environmental health sciences) that can support further work.
Environmental injustice can be defined by focusing on the relationships (commensal, symbiotic, parasitic) between different groups as "the avoidance of hazards and acquisition of benefits [by certain, often more privileged groups] through relationships that negatively impact the environment of [other groups]" [11].This frame describes the processes through which disproportionate exposures arose rather than describing them as attributes of a disadvantaged community.As an example of such relationships, in the US, Dr. Robert Bullard conducted the first highly publicized EJ study in 1983, finding that toxic waste facilities in Houston, Texas, were disproportionately sited in predominately Black communities [12].Bullard cited racial discrimination, especially in the housing market, zoning, and decisions by public officials as the major drivers of the observed disparity.Since the 1980s, several authors have offered frameworks to conduct EJ research within.Examples include Gee and Payne-Sturges (2004) [13], Morello-Frosch and Lopez (2006) [14], Corburn (2017) [15], Van Horne et al. (2022) [16], Kreger et al. (2011) [17], Jones 2001 [18], and Bailey et al. 2021 [19] .These frameworks provided the backbone (either explicitly or implicitly) for an explosion of environmental justice research from 2010-2020.
Demonstrating this rise in EJ scholarship, a PubMed search of "environmental justice" found an average of 10 EJ articles published per year from 1992 to 2006, compared to 77 per year over the next 15-year period (2007-2022).In the context of environmental health sciences, EJ research typically seeks to determine the distribution of environmental exposures across different groups or within a disadvantaged population and to evaluate if disproportionate exposure is linked to adverse health effects.In general, this means an EJ study will consider the intersection of social disadvantage with environmental factors for the ultimate goal of achieving health equity.Studies may focus on exposure and sociodemographics alone (i.e., exposure science) or include both exposure and health outcomes (i.e., epidemiologic research) [2,[20][21][22][23].Studies have evaluated different types of environmental justice including distributive environmental injustice or the disproportionate exposure among certain disadvantaged groups.Some studies evaluate procedural or participatory injustice, or exclusion of certain groups from the decision-making process about policies that result in environmental exposure disparities [24].Environmental injustice occurs globally and most research has been conducted in high-income countries, but this research trend has begun to shift [25,26].
In this scoping review, we focused on the research process and asked the questions: what were the goals of the environmental justice studies and which methods did researchers use to achieve these goals?Prior reviews have covered specific methods and topics related to EJ, including: methods for EJ air pollution studies [27,28] and proximity-based studies [29]; participatory EJ research [30]; fine-scale spatio-temporal [31] and remote sensing [32] data for EJ; causal inference methods for EJ [33]; and methods for longitudinal EJ studies [34].However, to our knowledge, there has not been a comprehensive review of EJ methods as they have been applied across the diverse subdisciplines of environmental health sciences.
Here, we surveyed the scholarly literature published between January 2018 and December 2021.Our aim was to critically compare the diverse approaches to EJ research in the environmental health sciences and to make recommendations for approaches to designing effective, policy-relevant, and solution-oriented EJ research.Through this review, we seek to highlight commonly used methods and statistical approaches, as well as identify gaps and strategies for moving the field of EJ research forward.

Methods
We searched PubMed for articles related to EJ published between January 2018 and December 2021 in 19 environmental science and epidemiology journals determined a priori by author team consensus (Table 1).Our goal was to provide an overview of EJ methods in the environmental health sciences and therefore our inclusion criteria allowed for articles that may not have explicitly self-declared as conducting EJ research.This approach allowed us to capture articles that would still fit EJ research within the context of environmental health sciences (e.g., research that investigates the distribution of environmental exposures across different groups or within a marginalized population).We imported all identified references into Covidence (N = 3014), an online tool for screening and extracting data for reviews [35], and our team of 10 reviewers assessed each for inclusion using the following steps [35].First, five reviewers screened the titles and abstracts of 3014 articles ( ~603 articles each), identifying 2522 articles as unrelated to our topic of interest (Fig. 1) based on a set of criteria determined as a study team (Table 2).Next, we conducted a full-text review of the remaining 491 articles to determine inclusion/ exclusion based on the same criteria used for title/abstract screening.For the full-text review, each article was screened by two reviewers with disagreements settled via discussion between the two reviewers.Our final sample included 402 articles (13% of the initial search).
We then used the Covidence platform to extract information from each article (one reviewer per article, see Supplemental Methods 1).This information included the relevant populations experiencing a health disparity, environmental factor(s), method(s) used for EJ analysis, EJ-specific finding(s), subjective study quality assessment (below average, average, top 25%, top 10%), and information on studies providing a framework or theory for their research.Populations experiencing a health disparity were defined by six non-mutually exclusive categories: global health, race/ ethnicity, SES, sexual/gender minority, underserved rural, or underserved urban [36].Global health studies were those conducted in LMIC, but we attempted to exclude studies in high-income areas of LMIC (e.g., Cape Town, South Africa).We searched the introduction, methods, and discussion for mention of a framework and subjectively categorized each study section as either explicitly stating a framework, providing some description of a framework (but not adequate), or not describing a framework.To qualify as "explicitly stating a framework," the section of the paper had to discuss a specific theory or framework (see examples in introduction) or provide a comprehensive summary of upstream factors linked to the relation studied.A study section with "some description of a framework, not adequate" may have cited prior EJ literature and provided 1-2 sentences of text, and a study section with "no description of framework" may have simply stated, for example, "we stratified analyses by race/ethnicity."We characterized the methods used by study authors to conduct EJ analyses (often a subset of the entire analyses).Following the review of the published articles, we broadly categorized methods as descriptive, qualitative, main effect regression modeling (hereafter, "regression"), effect modification, and mediation.We surveyed methods used for spatial analysis, causal inference, and EJ-specific summary measures (e.g., use of EPA's EJScreen).Post hoc, we extracted the affiliation and location of each paper's corresponding author and compared this to the study location country.2A).We also examined the proportion of articles published in each journal that examined EJ issues in an environmental health framework.Environmental Justice published the highest rate of articles (6.7 per 100), followed by the Journal of Exposure Science and Environmental Epidemiology (JESEE) (5.8 per 100) and Environmental Epidemiology (4.3 per 100).The proportion was comparatively low for IJERPH, which published 0.4 EJ articles per 100 (Fig. 2B).

Populations Experiencing a Health Disparity and Study Locations
In order to be included, articles could either (a) evaluate exposure science or epidemiologic questions in a population experiencing a health disparity [36] (e.g., chemical exposures among Black women [37]); or (b) consider a population experiencing a health disparity as an outcome, predictor, effect modifier, or mediator in the main analysis (e.g., the association between ambient temperature and stillbirth stratified by maternal race/ethnicity [38]).
Articles could qualify by including multiple populations experiencing a health disparity (e.g., SES and underserved rural).The most common way articles qualified was by studying race/ethnicity and SES together (N = 83 [21%]); however, many evaluated SES alone (N = 80 [20%]) or race/ ethnicity alone (N = 77 [19%]) (Fig. S1).The most popular categories were race/ethnicity and SES across all study publication years (Fig. 3).None of the EJ studies identified considered gender or sexual minorities.About 15% (N = 63) were classified as global health studies, with a total number We observed the opposite trend for studies including race/ ethnicity, which grew from 29% in 2018 to 36% in 2021; this trend was consistent among exposure-only and epidemiologic studies (Fig. S2).
Researchers characterized populations with health disparities in many ways, with some providing few and others providing more details that acknowledged the population as a marginalized group.However, a description of the population experiencing a health disparity was not always explicitly stated.High quality studies described populations experiencing health disparities in detail by doing at least one of the following: (a) providing schematics/conceptual frameworks to guide the reader as to the linkages between environmental and social variables [39,40]; (b) incorporating a strong theoretical underpinning for the chosen question/population pairing or comparison [41,42]; (c) including historical context as to the relevance of the selected population experiencing a health disparity [43,44]; (d) explicitly stating the relevance and meaning of proxy variables as they related to particular constructs [45,46] (e.g., voter turnout as a proxy for access to resources to mobilize political change [47]); and (e) describing who measured the health disparity population variables [48,49] (e.g., self-reported SES or race/ethnicity).Some researchers used participant race/ethnicity as a proxy for (unmeasured) differences in allele frequencies [50,51] or only provided biological explanations for differential associations observed by participant race/ethnicity [52,53].As discussed below, these practices are not recommended.

EJ Frameworks
We summarized whether studies described an EJ framework in the introduction, methods, or discussion section in three levels: no discussion, some discussion (inadequate), or explicit (full) discussion.Often, authors did not describe an EJ framework in any section of the published paper (N = 76 [19%], Fig. 5).In 200 studies (50%), the authors did explicitly describe a framework in one of the three sections, and in 42 studies (10%) they explicitly stated a framework in all three sections.Authors explicitly discussed an EJ framework in 40% of introduction sections but only in 13% of methods sections and 35% of discussion sections.Over 50% of methods sections made no mention of an EJ framework.

Methods Used to Assess EJ Questions
We summarized study attributes and methods by two study types: environmental exposure-only and epidemiologic.We classified exposures as area-level (e.g., neighborhood) and personal-level (e.g., participant address or biospecimen) and summarized the exposures evaluated.We also characterized the methods used to conduct EJ analyses in 5 mutually exclusive categories based on common methods used in exposure science and epidemiologic research, as well as what was seen in these published articles: descriptive, qualitative methods, regression (main effect regression), effect modification, and mediation.We also touch on topics such as spatial analysis, causal inference methods, and measures somewhat unique to EJ studies.

Exposure-Only Study Statistical Methods
The majority (n = 105 [50%]) of exposure-only studies used main effect regression to evaluate the EJ question of interest (Fig. 7, Table S3).Examples of this include studies assessing the association between individual income and residential air pollution exposure [60], the association between individual race/ethnicity and volatile organic compound metabolite levels [150], or the association between block group level racial/ethnic composition and income and ambient temperature [118].Descriptive analyses were the next most common (32%) and included analyses such as calculating the prevalence of environmental tobacco smoke exposure by the racial/ethnic identity of the birthing person [151] or the correlation between neighborhood educational attainment and noise levels [83].Thirty (14%) exposure-only studies used effect modification methods, either stratification or statistical interaction to test for differential relationships by the health disparity population.Examples include stratifying the overall model evaluating the association between moving to a greener neighborhood and change in physical activity by area-based income [152], or as Buck Louis et al. [153] included, an interaction term between birthing person race/ethnicity and chemical plasma concentration in a model testing the main effect between chemical concentration and neonatal anthropometric measurements.Authors rarely used qualitative (n = 4 [2%] [41,57,65,154]) or mediation (n = 1 [< 1%] [64]) methods.
Fig. 5 Level of EJ framework description by article section.For a study to qualify as providing a "full" description of a framework, the section of the paper had to discuss a specific theory or framework (see examples in introduction) or provide a comprehensive summary of upstream factors linked to the relation studied.A study with "some (inadequate)" description of a framework may have cited prior EJ literature and provided 1-2 sentences of text, and a study with "no" description of framework may have simply stated, for example, "we stratified analyses by race/ethnicity" Fig. 6 Total number of epidemiology and exposure-only studies included with exposure measurement type among exposureonly studies In a sub-analysis, we compared the methods used in the most common area-level (air pollution; n = 38) and personal-exposure (chemicals; n = 38) studies (Fig. S5).Main effect regression was the most common EJ method in both study types (50% for air pollution and 61% for chemicals).Differences also emerged.No area-level air pollution studies used mediation methods and no personal chemical studies used qualitative methods as their main EJ method.
Descriptive statistics were common for area-level air pollution studies (45%) and effect modification was common for personal chemical studies (18%).Personal chemical exposure studies that used effect modification were representative of the body of exposure studies that evaluated effect modification by a health disparity metric and virtually all stratified main models or included one or more interaction terms without additional rationale in the methods section (e.g., [153,[155][156][157][158]).For additional description of methods used in air pollution EJ studies, please see a recent review by Gardner-Frolick et al. [27].
We now turn to community-based participatory research (CBPR) or community-engaged methods.The levels of community involvement used for strengthening research efforts vary from involvement only in the recruitment of participants to full integration as partners in the research process of exposure and environmental epidemiological studies [159].In this scoping review, we identified limited exposure studies utilizing CBPR or community-engaged methods.Only 10 of the 208 (3%) exposure studies in this scoping review acknowledged using a CBPR approach [57,66,67,130,145,154,[160][161][162][163].Among these 10 studies, seven [57,66,67,145,154,160,161] discussed the extensive community and partnership building process typical of CBPR studies.The main exposure medium of interest among exposure studies was water, with four studies focusing on this pathway [57,66,67,163], followed by two studies focusing on air pollution [154,161] and two on chemicals [160,162].While qualitative approaches were employed by some exposure studies utilizing CBPR [57,161], most relied on non-parametric methods such as Spearman correlations and Kruskal-Wallis test [66,130,145,160].Additionally, multivariate mixed effects regression models and advanced risk assessment modeling methods were also key statistical methods used [67,161,163].One of the standout CBPR exposure studies was a project based in Richmond, CA that was conducted in collaboration with the Center for Environmental Research and Children's Health (CERCH) and RYSE, a youth air quality justice organization [161].Together, they not only identified disparities in NO 2 , with census tracts with higher Black populations being disproportionally affected, but also identified that higher levels of greenspace were associated with lower NO 2 .The study employed univariate and linear regression methods for the air quality analysis and contextualized the findings by engaging the youth in workshops and photovoice.Their recommendations extended beyond a call for more research, as they interpreted findings of greenspace being associated with lower NO 2 as a call to action to plant more trees.

Epidemiologic Study Statistical Methods
Most epidemiologic studies qualified as EJ research by evaluating effect modification by a health disparity factor (N = 112 [58%]) (Fig. 7, Table S3).These studies stratified their main models by the health disparity factor or included an interaction of the health disparity factor and the environmental exposure of interest.For example, Fong et al. evaluated the association between residential greenspace at the time of birth and adverse birth outcomes stratified by individual SES and found stronger associations for birthing people with higher education attainment for term low birth weight and small for gestational age birth [250].Many studies assessed effect modification without explanation, often stating in the methods section, "we tested for effect modification by stratifying models by a third variable" (e.g., race/ethnicity, SES) that indicated a population experiencing a health disparity.Some studies provided appropriate context and explained such testing.For example, Niehoff et al. evaluated effect modification by race/ethnicity of the overall association between toenail metal concentrations and risk of breast cancer and devoted a paragraph in the introduction to explaining why, stating that racial/ethnic minorities may live closer to industrial facilities and experience additional environmental and social stressors (including racism) that could amplify the effect of metal exposure [251].
Main effect regression was the next most common method (N = 58 [30%]) used for EJ analyses in epidemiologic studies, where studies evaluated associations between exposures and outcomes exclusively in health disparities populations.Chevier et al. [200] assessed the association between maternal serum and urine insecticide concentrations and adverse birth outcomes in a rural population in South Africa, which met our population experiencing a health disparity definition.In the US, Nozadi et al. evaluated prenatal exposure to metals among Navajo Nation pregnant people and childhood development [54].In comparison to exposure-only studies, a much smaller percent of epidemiologic studies used descriptive methods (N = 14 (7%) vs. 32% for exposure-only studies).For example, James-Todd et al. identified hair products commonly used among 359 Black women in New York City and identified a high prevalence of hormonal activity among these products [37].Five epidemiologic studies used qualitative methods [43,214,231,243,244], spanning topics from urban flooding in Detroit [244], industrial mining in Burkina Faso, Mozambique, and Tanzania [231], and environmental and reproductive justice on the Gulf Coast of the US [43].Finally, five epidemiologic studies used formal mediation analyses to determine if environmental factors mediated the observed relationship between health disparity factors (e.g., poverty) and adverse health outcomes [42,207,[252][253][254].In Bangladesh, Huang et al. considered serum metals as a mediator between childhood marriage and preterm birth, finding that elevated levels of zinc, arsenic, strontium, and barium appeared to mediate the association between childhood marriage and preterm birth [252].In the US, Song et al. used the Multi-ethnic Study of Atherosclerosis (MESA) and found that ambient PM 2.5 exposure mediated the association between participant race/ethnicity and higher systolic blood pressure, especially in men [254].
As in exposure-only studies, only 10 of 194 environmental epidemiology studies incorporated community-based participatory or community engagement methods [43,73,224,231,234,243,244,[255][256][257].Four [43,231,243,244] employed a qualitative approach (e.g., focus group, interviews), with the other six relying on regression methods [73,234,[255][256][257] and latent profile analysis combined with generalized estimating equations [224].Six studies were conducted in the US [43,73,224,243,244,255] and 4 in global settings: Lithuania [256]; Burkina Faso, Mozambique, and Tanzania [231]; Honduras [257]; and Peru [234].The main exposure of interest among epidemiological studies utilizing community-based methods were air pollution [255,257], greenspace [224,256], and fossil fuel production facilities [73,231].Respiratory health [73,224] and cardiovascular health outcomes [255][256][257] were the most studied outcomes for community-based environmental epidemiology studies.A majority of the studies discussed relying on partners or community members for participant recruitment, with only a few highlighting the utilization of CBPR methods through the whole design of the study.A key research to action environmental epidemiology article was led by Johnston (2021) [73], where academic researchers partnered with Esperanza Community Housing to train Promotores de Salud (community health workers) and recruit 961 residents near oil fields in Los Angeles County, USA. Utilizing generalized linear models, the team identified that distance to oil field was associated with lower lung function.Their research has now been cited as key scientific findings during public testimonies, reports, and organizing, which have collectively contributed to the banning of new oil and gas drilling and the phase out of existing operations in the Los Angeles County, USA [258].

Additional Methods in Exposure and Epidemiologic Studies
Causal Inference Methods In some instances, causal inference methods may assist researchers in identifying the potential causes for the observed associations [33].In this review, only one exposure study used causal inference methods [87].Chillrud et al. estimated changes in indoor air pollution using a difference-in-differences analysis after a randomized cookstove intervention in Ghana, finding improved air quality with use of a liquefied petroleum gas stove, but levels still exceeding recommended limits.More epidemiologic studies employed causal methods.In China, Han et al. used difference-in-differences analysis and found a stronger association between PM 2.5 concentration and all-cause mortality in low SES (low literacy, college attendance, gross domestic product) vs. higher SES counties [167].With marginal structural models and inverse-probability-of-treatment weights, Chevier et al. found insecticides were related to accelerated fetal growth in girls [200].In a final example, Iyer et al. used causal mediation methods to understand how Black-white prostate cancer disparities would change if they fixed greenness exposure to the 75th percentile experienced by white men [42].

Spatial Statistics
Many EJ studies involve the use of spatial data, including exposure, outcome, or measure of disadvantage.One issue that arises in regression modeling is residual spatial autocorrelation, or non-independence of error terms.This can impact confidence interval coverage.Methods for handling this data ranged from ignoring it to a range of spatial models.In their paper on neighborhood racial composition, concentrated disadvantage, and air pollution, Liévanos used Moran's I to test residuals for spatial autocorrelation and then applied a spatial lag model [259].Other exposure studies used spatial error or spatial lag models (e.g., [102,115,260,261]).Others treated the residual correlation as a nuisance, for example, including unstructured [262] and spatially structured [227] random intercepts or using generalized estimating equations [127].Wheeler et al. included a random intercept at the census tract level when evaluating the association between neighborhood deprivation and blood lead levels in Maryland [262].
A second class of spatial methods sought to identify clusters or "hot spots."Elford et al. used Moran's I local indicators of spatial autocorrelation (LISA) to identify areas in Toronto with high ultrafine particulate matter exposure and low income, high percentages of immigrants, high government transfer income dependence, and low education rates [114].Chakraborty similarly applied the local bivariate Moran's I statistic to first identify counties with high hazardous air pollution burdens and high COVID-19 incidence rates and then compared sociodemographics among the high-high counties, finding higher percentages of Black residents and other socially vulnerable groups [78].

Metrics for EJ Research
Much of this review focused on environmental exposures and health outcomes.Equally important for EJ research are measures of social factors.In this final section, we describe several perhaps less-familiar concepts often used in EJ research: EJ screening tools, segregation, and gentrification.
Several studies used EJ screening tools [70,80,[263][264][265][266][267], which identify communities facing dual environmental and socioeconomic burdens based on a numerical summary of many spatiotemporal variables.Examples of such indices include California's CalEnviroScreen [268], the Whitehouse Council on Environmental Quality's Climate and Environmental Justice Screening Tool [269], and the US EPA's EJScreen [270].In California, Mousavi et al. used CalEnviroScreen and found that census tracts with a higher overall score had higher background PM 2.5 concentrations and also higher 4th of July fireworks-related PM 2.5 compared to other communities [265].Rather than use the entire score, many studies evaluated score components [70,80,264].For example, Padula et al. evaluated the association between components of CalEnviroScreen 2.0 and preterm birth, finding a significant association between the pollution burden score [e.g., air and water pollution] and increased preterm birth risk (other components include population characteristics [e.g., prevalence of children], environmental effects [e.g., hazardous waste], and social factors [e.g., poverty]) [70].Reliance on score components speak to some of the disadvantages of full scores: interpretability, weighting, and intervention.While useful for identifying EJ communities to allocate government spending, full EJ scores make assumptions about how to weigh different components (e.g., should air pollution count the same as poverty and the same as hazardous waste sites?).Full scores also beg the question: what drives the association?Therefore, many researchers opt to focus on score components.Existing EJ screening tools also may not fit every circumstance, and different tools may prioritize different marginalized populations [271].For example, Zhao et al. built an updated EJ tool for Allegheny County, PA based on EJScreen which that also included labor market access [267].
Racial residential and economic segregation and gentrification also emerged as key social factors in EJ research [71,125,237,[272][273][274].Segregation-spatial social inequality-has been linked to worse environmental quality via concentration of power in the hands of a few, increased commute distances and increased traffic-related air pollution, limited diffusion of green technology, and erosion of trust and cooperation that undermines environmental protection [275].Gentrification, where low SES communities experience investment and an influx of higher SES residents [276], may occur disproportionately in communities with higher baseline environmental quality or possibly result in improved environmental quality [277].Ekinga et al. used an index of Black isolation [278] in St. Louis, MO, and in spatial analyses found that census tracts with the highest levels of Black racial isolation compared to low racial/economic isolation were more likely to be located in air toxic hotspots [237].In Barcelona, Zayas-Costa et al. evaluated gentrification as an effect modifier of the relationship between greenways and reduced depression/anxiety [274].They found that the relationship was confined to gentrifiable communities (i.e., low-income communities not yet gentrifying) and was not present in gentrifying or wealthy communities [274].A related and emerging topic is "climate gentrification," where disadvantaged communities are being displaced by green climate infrastructure [279,280].Aune et al. identified this phenomenon in New Orleans after Hurricane Katrina where higher ground elevation census tracts were more likely to gentrify between 2000 to 2015 [125].

Discussion
In this scoping review, we found that two major types of studies-exposure science and environmental epidemiology-were represented in environmental health EJ research.In assessing a number of metrics for rigor of these studies, we found that authors of area-level exposure science studies more commonly stated a theoretical EJ framework in the background, methods, or discussion compared to individual-level exposure science or epidemiology studies.Across study types, frameworks infrequently appeared in method sections.The most common analytic tool used across all studies was the evaluation of differences between population subgroups by assessing effect measure modification.For this, few studies provided rationale for this method, or goal of the analysis, beyond simple documentation of difference.Exposure science studies more commonly evaluated health disparities-related variables as predictors of exposure, with some rationale based in environmental frameworks compared to epidemiologic studies.Overall, solution-oriented methods, including intervention-based studies and CBPR studies were less commonly employed, as were statistical methods that evaluated interventions (real or hypothetical), using approaches such as g-computation.Utilizing solution-oriented methods may provide more interpretable and actionable evidence for policymakers and affected communities.
Given the variability in the rigor of studies and the need to move toward more solution-oriented approaches for achieving health equity, we provide several recommendations for improving EJ environmental health: Recommendation #1: Recognize that EJ, as an evolving field, confronts diverse and intersecting structural problems, which requires the careful contextualized application of the best available theory and methods.Environmental health researchers are increasingly updating their theories and integrating emerging methods to interrogate socially constructed variables including race, SES, and gender.Poorly applying methods and theories or failing to consider the complexities of these variables across space, time, and cultures can constrain the internal and external validity of EJ work.So can less accurate measurement of key variables, which can lead to issues of selection bias and measurement error.When examining underlying drivers of structural environmental health disparities, it is important to define the rationale for the inclusion of specific variables, particularly those that were socially constructed, just as we do in the investigation of other health determinants.Beyond selecting, collecting, and measuring EJ-related variables, accurately discussing these key variables is essential.Authors can use background and methods sections to explain how the chosen data and study design elements fit an EJ-relevant research question or framework [15][16][17][18].Further, EJ researchers should push themselves to collect novel variables and work with alternative datasets (i.e., look outside the streetlight) that may extend beyond traditional environmental health risk factors.
Relevant constructs, variable selection, and measurement are context-dependent and may vary across and/or within countries.Thus, providing relevant background and discussion is key to contextualizing study variables and design.Reviewed racial/ethnic studies in the US frequently compared non-Hispanic Black and non-Hispanic White populations, a relevant comparison given the US's longstanding, multi-level disparate treatment of these groups.However, such a comparison may not be as relevant in other countries; for example, in a Netherlands-based study investigating racial/ethnic disparities in road traffic noise exposure and depressed mood, authors opted to compare across Dutch, Moroccan, Turkish, and Surinamese ethnicity, which reflected more the country's own socio-historic past.In the US, one study about inequitable park access in Miami accounted for the heterogeneity within the broad "Hispanic" racial/ethnic category by incorporating national origin.The authors go on to outline how the unique migration histories (e.g., Cuban Adjustment Act of 1966) across subcategories of "Hispanic" were crucial in informing their research question and variable construct [241].We identified only 42 (10%) studies that similarly included detailed framework discussions in their introduction, methods, and discussion sections.These authors provide relevant context that shapes why they conducted the study, how they constructed variables, and what the study findings mean.However, many of the reviewed studies lacked the appropriate context, and in 76 (19%) studies, an EJ framework (e.g., [13][14][15][16][17][18][19]) was not discussed at all.Future studies should provide relevant context to ground the EJ research questions throughout [51].
The challenge of dealing with multiple levels of data (e.g., individual, community) and intersecting dimensions of marginalization (e.g., misogynoir) and ensuring that we report out our research results and triangulate our research questions to address the multiple factors at play in EJ research will be key to providing rigorous research studies in this field.
Recommendation #2: Make EJ questions central in environmental health studies and use appropriate methods to answer them.Many studies relegated EJ questions as a secondary analysis (e.g., stratifying main models by health disparity variable) without providing a rationale for conducting such an analysis.Further, an EJ framework or construct likely includes several analyses due to the presence of multiple pathways and numerous variables (e.g., studies assessing effect modification by SES variables may evaluate the interaction for income and education).Testing several hypotheses or pathways can lead to multiple testing problems.While methods exist for addressing this issue (Bonferroni adjustment or less stringent adjustments like the false discovery rate), as a field we have not fully identified a gold standard for addressing issues of multiple comparison, which may impact EJ studies just as much as other studies leading to error, misinterpretation, or the overlooking of study results.Many fields have begun to shift away from solely relying on arbitrary p-value thresholds or statistical significance to inform scientific, environmental, social, political, or practical importance [242], and EJ researchers too may want to consider different metrics or approaches.Also worth noting, spatial studies may have unique circumstances; for instance, in calculating local indicators of spatial association (LISA), which are often employed in spatial analyses as screens for distributional injustices, the method conducts statistical tests for each spatial unit (e.g., in a US county analysis, there would be 3100+ tests).This can result in spurious findings, and often overidentifies "hot spots."However, only some studies applied any sort of p-value adjustment (e.g., Bonferroni, false discovery rate) or sensitivity analyses, as recommended [281].For example, in an analysis of the convergence of COVID-19 and chronic air pollution, the authors did not apply any adjustment and thus over-identified vulnerable counties [77].Results from such unadjusted analyses may not be as useful or be misleading to policymakers interested in targeted interventions.
Recommendation #3: Limit the mischaracterization, misspecification, and/or omission of nuanced social constructs such as race, ethnicity, sex, and gender.EJ studies tend to heavily rely on social constructs to account for historical or contemporary processes, which carries two risks: (1) the use of inappropriately defined constructs can lead to erroneous attribution of disparities to these constructs and (2) the omission of key constructs can prevent identification of root causes.Here, we focus on race and sex/gender to illustrate this recommendation.
Race is commonly used in US-based EJ studies as a proxy for historically racist policies (e.g., redlining, housing segregation), social disadvantage, inequitable processes (e.g., gentrification), and experiences of racism [282].Not only did we find that authors did not comment on the limitations of race to act as a proxy for these complex processes, but we also found that most studies used race with inaccurate justifications and model misspecifications, typically treating race as a biological feature rather than a socially constructed characteristic [282,283].Further, some studies centered Whiteness and othered individuals of other races, with one study using the term "something other than White" when distinguishing between individual study subjects [96].Inaccurate justifications, model misspecification, and White-centering framing can perpetuate unproductive interpretations and atheoretical discourse [284][285][286][287][288]. Some recommendations for discussing race and other constructs (e.g., SES [237], urbanicity) include clearly (a) justifying the reason for using the variable, (b) describing how the variable was measured/operationalized, (c) outlining the limitations of its use, and (d) discussing mechanisms for variabledriven disparities outside of biological mechanisms (e.g., social determinants of health) [238,239,289].Following such recommendations will be key for providing interpretable EJ studies.
There has recently been attention to the sexual and gender minorities in the context of environmental health and environmental justice, though none of the studies on these topics met our inclusion criteria.Gender, sex, and sexual orientation are interrelated and complex constructs with substantial sociocultural diversity [290].Individuals may be marginalized due to gender identity or expression that do not match expectations from dominant social groups, due to sex traits that do not conform to the phenotype of a single sex (e.g., intersex individuals), and/or due to sexual orientations that include homosexual, gay, lesbian, bisexual, queer, pansexual, questioning, same gender loving, and Two Spirit [290].In a 2022 review [291], Goldsmith and Bell discussed community and structural discrimination for sexual and gender minorities not typically considered by environmental health scientists, including denial of access to housing loans and employment opportunities, as well as individual factors such as disproportionate burdens of certain underlying conditions (e.g., HIV and respiratory issues associated with chest binding) and psychosocial stress, all of which could contribute to health disparities.Environmental health researchers, working with relevant communities and subject area experts, can address critical unanswered questions at the intersections of environmental justice and the experiences of sexual and gender minorities.
Recommendation #4: Obtain expertise from sociology and other fields in the design and implementation of EJ research.Environmental health is a field that relies on multiple fields ranging from environmental exposure science to specific subdisciplines of medicine, as well as statistics.When considering research questions about environmental justice and health disparities, environmental health must rely on expertise from varying fields including sociology, history, law, urban design, public policy, and implementation science.For instance, a study focusing on the historical determinants of the distribution of traffic-related air pollution would greatly benefit from a historian's knowledge of the drivers of road infrastructure siting and associated demographic changes.As in many scientific disciplines, training in or inclusion of other fields may be somewhat limited, which may lead to use of less effective study design, data collection, analytic approaches that could ultimately affect the scientific rigor, study quality and impact.Multiand transdisciplinary EJ work is an opportunity to expand our training of students and postdoctoral fellows to integrate concepts of social determinants, macro-and micro-level processes (e.g., historical, legal, or political processes driving environmental exposures), and appropriate statistical approaches.Training can occur through university coursework, as well as through career development within professional societies and government organizations.Valuing the rigor of training needed to conduct EJ research will bolster the effectiveness of this research moving forward, as well as providing grounding for EJ research as its own course of study rather than a secondary, afterthought, or fringe research area.
Recommendation #5: Recognize the importance of community-engaged, community-based participatory, and community-relevant research.The EJ movement has a long history of being led by communities.From the activist in Warren County resisting infiltration of a waste facility [292] to the recent banning of new oil and gas drilling in the Los Angeles Community [293].While not all EJ studies will incorporate community-engaged practices it is still important to acknowledge the role and value of being in community [294,295].Particularly when it comes to advancing meaningful change, participatory research with EJ communities is more likely to result in structural level change [30].Full integration of community members into the design, implementation, and action level decisions is recommended to advance EJ.
It is important to mention that as recognition of the critical need for community-based research programs has grown so has the need for institutional support.One of the primary mechanisms of support has been through NIEHS funded Research Centers, which requires a Community Engagement Core [296].Recently, the U.S EPA has announced the availability of over $100 million dollars in support of EJ grants [270].With this new influx of support, it will be more important than ever for researchers to integrate participatory methods with communities that are working towards achieving environmental justice [297].In addition, it will be important for the academy to recognize the timelines and publication requirements to conduct community-based research when considering productivity and tenure cases [298].
Recommendation #6: Utilize more solution-oriented study design and statistical methods to address environmental justice, given the underlying goal of achieving health equity.With the goal of achieving health equity, EJ research should increasingly seek to design and conduct solution-oriented research [299].The vast majority of EJ research focuses on identifying disproportionate burdens using methods such as effect measure modification, the most common analytic approach among our reviewed epidemiology studies and the second most common in environmental exposure sciences studies.Yet, this approach only documents differences between populations without necessarily evaluating the reason for the differences.Documenting this difference is necessary, but is not sufficient, if the goal of EJ research is to achieve health equity.With this in mind, our research questions and the statistical methods must become more solutionoriented by taking the next step-identifying drivers of the observed disparities, finding strategies for intervening, and reducing disparities.This will allow us to move from a fixed research approach to a solution-oriented approach to achieve our EJ and health equity goals.Examples of solution-oriented work include the use of g-computation to evaluate how reducing chemical exposures could reduce the risk of chemical-associated health outcomes, such as preterm birth [300].We must also assess past and present policies as they impact EJ.For example, in some U.S. cities, historical racist policies such as redlining have been found to be associated with higher exposure to environmental hazards and worse health outcomes [301].When conducting studies on historical policies such as redlining, it is important to additionally design studies that evaluate the related present-day mechanisms on which we could intervene (e.g., green gentrification, current neighborhood racial segregation, presence of health-promoting environmental attributes).Similar processes are present in other settings across the world, though prior research may be limited or absent.Finally, the use of more qualitative or descriptive studies to identify reasons for disparities might be warranted [302,303], especially when novel risk factors within health disparities populations are less well-known.
Recommendation #7: Rigorously design and evaluate interventions with a focus on health equity.Environmental health disparities cannot be addressed without multilevel and structural interventions that center EJ throughout the research and implementation process.As such, the field of implementation science can play a tremendous role in improving health equity; interventions ranging from increased access to greenspace for inner city children, to adoption of cleaner cooking methods by primary cooks in low-and middleincome countries [304], to reducing contaminants levels from drinking water in correctional facilities [305] all have the potential to improve health outcomes for underserved groups.Ensuring that this objective is met requires that researchers actively seek to both identify and dismantle structural sources of inequity [306].To do so, researchers should apply social determinants of health lenses to key implementation steps including but not limited to the definition of conceptual frameworks and the prioritization of evidence-based practices, programs, or policies [307].Concretely, this might entail the following considerations: (1) the potential role of socio-economic and contextual factors in modifying barriers and facilitators of adoption is incorporated in the model or (2) the intervention or policy's effectiveness among populations experiencing inequities [307].Similarly, it is crucial to acknowledge the role that previously implemented interventions might unintendedly play in maintaining and/or exacerbating environmental health disparities.When such programs are identified, de-implementation (defined as discontinuing or abandoning practices that are not proven to be effective or are potentially harmful) should be considered [307].Though relatively new as an area of inquiry, de-implementation research offers frameworks targeting the system to halt environmentally inequitable practices to ultimately achieve environmental justice.Finally, dissemination strategies can support the adoption and sustainability of health equity initiatives.This warrants that the framing of messages and the selection of communication channels occurs in authentic partnership with community members.
Recommendation #8: Expand the scope of EJ research to include Global South populations.The majority of the environmental justice literature has focused on the US despite researchers documenting environmental inequities in other Global North [308] and in Global South countries [309].Addressing this research gap requires first, recognizing that it exists, and second, developing systematic approaches that will allow for a context-dependent adaptation of the EJ frameworks, that have been predominantly used in the US, while limiting bias.On the one hand, extending to the Global South a framework developed in the Global North can be a tactical strategy, allowing research to be conducted within an established paradigm.Using accepted concepts, constructs, and methods can allow studies conducted in the Global South to contribute to knowledge production and support advocacy for change more easily [310].On the other hand, the health disparity variables in places outside of the US can differ widely from those within; this applies to both the types of markers but also to how they intersect with one another.Foreign frameworks that do not center important historical forces (e.g., the legacy of colonialism, genocides) and contemporary dynamics (e.g., transnational waste disposal, globalization, natural resource extraction) may overlook, attenuate, and prevent the identification of context-specific EJ issues as well as restrain creativity [2].Researchers eager to conduct EJ research in settings where environmental disparities are not currently studied should familiarize themselves with both the sociohistorical processes and modern-day potential drivers of inequities specific to that regions [311].This requires acquiring sufficient training and experience to analyze and incorporate insights from archival documents, interviews and ethnographies, and longitudinal data [312].Importantly, the identification of context-specific markers of inequality and discrimination may point to a paucity of data needed to rigorously evaluate alongside environmental burdens.Indeed, absence of adequate data to measure and analyze environmental injustice is a major problem faced by countries across the Global South [313].While this challenge may complicate the research process, it also represents a tremendous opportunity to work with governmental entities to co-generate comprehensive datasets at the appropriate temporal and spatial resolution.Such collaborations and initial documentations can pave the way for rigorous and meaningful EJ analyses from the Global South in the future.Further, we found that for 37% of non-US studies, the corresponding author institution was not located in the country where the research was carried out.Leadership by local researchers can improve study quality via place-based knowledge, access to data sets, and action after the study concludes.Further work can build an understanding about the working dynamics and effectiveness of multinational teams conducting EJ research in low-and middle-income country settings.

Conclusion
Environmental health research necessarily involves complex physical and social contexts that are shaped by structural factors, including racism, classism, sexism, ableism, heteronormativity, and discrimination based on religious belief [5].These factors vary across time and place, necessitating the appropriate application of relevant EJ theory and selection of effective methods.
This scoping review highlighted the types of public health EJ research and analytic methods used from 2018 to 2021, a period of dramatic increase in research studies in this area.We focused the scoping review on exposure science and epidemiologic studies and observed high variability study rigor.Some of the most dramatic differences in studies were whether studies explicitly stated an EJ framework for addressing the research question and whether they used a solution-oriented approach.In addition, studies showed limited use of other disciplines, such as sociology, which could have better informed the EJ-related work.Of importance, CBPR and intervention study design and methods were not commonly used in either exposure science or epidemiologic studies, with somewhat greater use in the latter.Finally, we note the need to improve methods in EJ research to incorporate not only descriptive methodologies, but also solution-driven analytic approaches in both exposure science and epidemiologic studies.Finally, science communication, research translation, and dissemination studies are needed to evaluate the best ways in which we might be able to reduce environmental health disparities.Importantly, theory and methods from EJ should be carefully considered by all researchers across the environmental health sciences given that the definitions of EJ discussed in this review encompass much, if not all, of the work we do as environmental health scientists.Through asking more informed questions based on current and new EJ frameworks, integrating methods that allow for the identification and implementation of solutions, and incorporating more community-based approaches, we can continue pushing EJ research forward toward achieving health equity.

Fig. 2
Fig. 2 The number of articles identified as including environmental justice (EJ) in 19 environmental health journals from 2018 to 2021.Displayed as A absolute count of articles including EJ and B rate of articles including EJ per 100 articles published at the journal.AJE, American Journal of Epidemiology; AJPH, American Journal of Public Health; Environ Int, Environment International; Environ Epi, Environmental Epidemiology; Environ Health, Environmental Health; EHP, Environmental Health Perspectives; Environ Justice; Environmental Justice; Environ Res, Environmental Research; Envi-

Fig. 3
Fig. 3 Categories of populations experiencing a health disparity by which articles qualified as environmental justice studies for inclusion in the review.Studies could qualify via multiple categories and the figure categories are not mutually exclusive.SES, socioeconomic status

Fig.
Fig.4 Locations where EJ studies were conducted, 2018-2021.A Spatial distribution of EJ studies globally.If studies were conducted in multiple countries, they contributed counts to each country's total.B Spatial distribution of EJ studies within the US.Fifty studies were conducted nationwide (often just continental US) or were nationally representative (dark green nationwide count)

Table 1
Search strategy for the scoping review on methods for EJ research