Skip to main content

Occupational, physical, sexual and mental health and violence among migrant and trafficked commercial fishers and seafarers from the Greater Mekong Subregion (GMS): systematic review



Little is known about the health of GMS commercial fishers and seafarers, many of whom are migrants and some trafficked. This systematic review summarizes evidence on occupational, physical, sexual and mental health and violence among GMS commercial fishers/seafarers.


We searched 5 electronic databases and purposively searched grey literature. Quantitative or qualitative studies reporting prevalence or risk of relevant outcomes were included. Two reviewers independently screened articles. Data were extracted on nationality and long/short-haul fishing where available.


We identified 33 eligible papers from 27 studies. Trafficked fishers/seafarers were included in n=12/13 grey literature and n=1/20 peer-reviewed papers. Among peer-reviewed papers: 11 focused on HIV/AIDS/sexual health; nine on occupational/physical health; one study included mental health of trafficked fishers. Violence was quantitatively measured in eight papers with prevalence of: 11-26% in port convenience samples; 68-100% in post-trafficking service samples. Commercial fishers/seafarers whether trafficked or not worked extremely long hours; trafficked long-haul fishers had very limited access to care following injuries or illness. Lesser-known risks reported among fishers included penile oil injections and beriberi. We found just one work safety intervention study and inconclusive evidence for differences in the outcomes by nationality. Findings are limited by methodological weaknesses of primary studies.


Results show an absence of high-quality epidemiological studies beyond sexual health. Formative and pilot intervention research on occupational, physical and mental health among GMS commercial fishers and seafarers is needed. Future studies should include questions about violence and exploitation. Ethical and reporting standards of grey literature should be improved.

Trial Registration

Review registration number: PROSPERO 2014: CRD42014009656.



Commercial fishing at sea is among the world’s most dangerous occupations [1]. The Food and Agriculture Organization (FAO) estimates that Asians comprise 78% of 37.8 million working in capture fisheries globally [2], with China, the Philippines and Indonesia among the largest origin countries for an estimated 1.65 million seafarers worldwide [3]. Common occupational illnesses among seafarers include gastrointestinal, dental and dermatological conditions; and injuries to the extremities and back [4]. Accident risk is increased by inadequate use of protective gear, crew inexperience, and fatigue linked to insufficient manpower, long working hours and sleep deprivation, from noise and vibration of the boat, adverse weather conditions and night working or watch shifts [5]. However, most evidence on occupational health focuses on seafarers in or from developed regions in Europe, North America and Australasia. Fewer scientific studies have been conducted among Asian seafarers, whom may have different patterns of illness due to differences in work safety cultures, behaviours and diets [6].

Fishers and seafarers are vulnerable to exploitation and abuse, which is often exacerbated by their physical isolation in off-shore, mobile worksites. In recent years, the trafficking of fishers has emerged in the Greater Mekong Subregion (GMS) [7] as has the trafficking of seafarers in Central Asia [8]. GMS men and boys have been trafficked onto Thai fishing boats bound for Indonesian waters, from where large numbers of trafficked long-haul fishers have been repatriated reporting harsh working conditions, severe abuses and exploitation [7]. Because fishing transcends national borders, fishers face restrictions that require them to stay aboard vessels while in port, preventing escape and access to medical care [9].

Of existing systematic and non-systematic reviews on various health risks among commercial seafarers and fishers [5, 10,11,12]. none include studies on trafficked men. Furthermore, most reviews do not report the outcomes by nationality or migrant/citizen status, or by long or short-haul fishing, factors which may shape experiences of occupational hazards or health outcomes [13].


We sought to synthesize evidence on occupational health risks, physical, sexual and mental health problems and violence among fishers and seafarers from GMS countries (Cambodia, Laos, Myanmar, Thailand, Vietnam, China’s Yunnan province) working anywhere in the world, whom may be migrant/trafficked or working within their home country. While commercial fishing is the primary sector of interest in this review, seafaring is included because occupational health risks in seafaring can be considered similar to those in commercial fishing. Both sectors involve adverse working conditions in deep seas, with most work performed on open decks exposed to the elements, although fishing is more labour intensive, subject to less regulation than seafaring and has correspondingly higher mortality rates [11]. Long-haul fishing usually involves fishing trips lasting four weeks or more outside of territorial waters, whereas short-haul fishing refers to operations of four weeks or less within territorial waters [14].

This review scopes broad health outcomes, risks and associated factors, to provide an overview of existing health-related studies for this population. We reviewed all primary studies that measured the outcomes, risk behaviours and other factors affecting the outcomes. We compared findings by nationality and by long or short-haul fishing where data were available.


Search strategy

The review protocol is registered with the PROSPERO database of systematic reviews, registration number CRD42014009656. This review followed PRISMA guidelines (Additional file 1) [15]. A multi-stage search strategy was employed, comprising an electronic search of five databases (Embase, MEDLINE, Global Health, PsychoINFO and Academic Search Complete), using keywords and MESH/exploded terms (Additional file 2) for studies published between 1 January 1980 and 25 May 2016. We hand searched the International Maritime Health journal, and purposively searched the grey literature (e.g. reports from United Nations agencies) based on authors’ knowledge of previous studies on GMS migrant and trafficked fishers and seafarers.

Selection criteria

Studies were eligible for inclusion if they: 1) included males or females from the GMS region working as commercial marine fishers/seafarers anywhere in the world; 2) measured the prevalence of any reported measure of occupational or physical health (e.g. risks/hazards, accidents/injuries/mortality, safety attitudes), sexual health (e.g. risk factors, diseases), mental health (e.g. disorders, suicide attempts), violence or treatment seeking behaviour for any health problem at either the workplace or individual level (method of assessing the outcomes is listed in Additional file 3); 3) presented results from peer or non-peer reviewed research based on either cross sectional surveys, cohort studies, experimental studies, qualitative studies or case studies (featuring interviews or focus groups). Grey literature, including technical reports and doctoral theses, were eligible. There were no language restrictions, or restrictions on methods used to measure the outcomes. When multiple eligible papers from the same study were identified, only the most definitive results were included for each relevant outcome. Each paper’s most definitive findings are reported separately in Tables S3-S6 in Additional file 4, but referenced in terms of the overall study in the discussion. The inclusion criteria initially included studies with fishers and seafarers of all Asia-Pacific nationalities and/or those fishing/seafaring anywhere in Asia-Pacific. Inclusion criteria were narrowed at the full-text screening stage to those above to yield a smaller number of regionally focused studies which would be more useful to service providers working with this population.

Studies were excluded if they: 1) did not include commercial marine GMS fishers/seafarers (e.g. studies with inland fishers, divers, traditional non-commercial fishers, leisure fishers were excluded); 2) did not present disaggregated data for the outcome measures where the eligible study population were included as a sub-group/data were unobtainable; 3) had study samples of fewer than five participants. Systematic and other reviews were not eligible for inclusion, although they were identified during title and abstract screening and used for the purposes of forwards/backwards citation tracking.

Data extraction

Two reviewers (NP and LHN) screened downloaded titles and abstracts for potential inclusion; the same reviewers then assessed the full-text of potentially eligible papers against the inclusion criteria. If studies collected data on the study population as part of a larger sample, authors were contacted for relevant disaggregated data. An online data extraction form was developed and piloted by NP. Data from all included papers were extracted by NP; LHN independently extracted data from a random sample of 33% of included studies as a check; disagreements were resolved by discussion. We contacted nine authors for further information, five responded and provided disaggregated data by nationality as requested (n=2/5 of these studies were later excluded, one because it had a sample size of fewer than five participants and the second for not including the study population).

Data were extracted on study design, sample characteristics, the outcomes and definition and method of assessing the outcomes. Sample characteristics included whether participants were trafficked or forced labourers, as defined by participants, providers or researchers: no restrictions were placed on the method by which trafficking/forced labour status was assessed.

Data analysis

We reported mainly prevalence, odds ratios and risk ratios for quantitative studies, focusing on adjusted analyses where available. Where possible, outcome measures were extracted separately by nationality and/or by long or short-haul fishing. Pooled estimates were not calculated for the outcomes due to heterogeneity in study sample selection, definitions, methods of assessing the outcomes and predominance of non-representative/convenience samples. Instead, we focused on describing the study results, limitations and implications. We did not use qualitative synthesis methods for qualitative studies. Instead, for qualitative studies on trafficked fishers of non-GMS nationalities, results were summarized for the whole sample with nationality/long or short-haul distinctions made clear where available in that study. Similarly, all results relevant to the outcomes of interest for this review were summarized for qualitative studies that included key informants.

Quality appraisal

Methodological quality of studies was appraised independently by two reviewers; NP appraised all studies, while LHN appraised a randomly selected 33% of studies (n=11, the same studies for which data were extracted by LHN). We used the National Heart Lung and Brain Institute (NHLBI) quality assessment tool for quantitative studies [16] and the Critical Appraisal Skills Programme (CASP) for qualitative and mixed methods studies [17] (listed in Additional file 5). The NHLBI tool included 14 questions about study quality and the CASP tool included ten items. Reviewers were then asked to rate the study as Good, Fair or Poor based on their answers and to report the study’s limitations, as per guidance accompanying the NHLBI quality assessment tool. Reviewers were asked to make an overall qualitative judgement for these quality ratings, i.e. the ratings are not based on summary scores. We took this approach with the CASP checklist as well. Questions in both tools focus on sampling methods, sample characteristics, the participation rate and analysis method. Quality ratings (see Tables 1 and 2) and limitations were not used to exclude studies, but are referred to in the discussion. With predominantly cross-sectional studies included and considering the limitations of this study design, we use the term “quality” rather than risk of bias to indicate that studies/papers were assessed based on the best methodology the authors could offer for a cross-sectional study, rather than theoretical grounds for risk of bias [15]. We did not assign overall quality ratings for two grey literature reports where conducting a research study was not the explicit aim (i.e. investigative reports), but for which qualitative information was useful when discussing the remaining studies.

Table 1 Peer-reviewed papers on health from database searches (n=20)
Table 2 Papers from grey/non-health literature from purposive search (n=13)


The study selection process is presented in Fig. 1. Including grey literature, our searches returned 5725 unique records, of which 5228 were excluded following title and abstract screening. Full-text copies of the remaining 528 papers that met or potentially met the inclusion criteria were retrieved. After full-text screening, 33 papers were retained for inclusion in the review. Of 33 papers, 20 were identified from database searches (Table 1) and 13 papers were identified from the purposive search of grey literature (Table 2). All of the included papers were published in English.

Fig. 1
figure 1

Flowchart of primary study selection

Characteristics of included papers

Tables 1 and 2 summarize key features of the 33 included papers. Papers that report on the same studies are grouped together. The 33 papers reported on 27 studies, which were based in Thailand (n=14), Vietnam, Myanmar and Cambodia (n=2 respectively), the USA, Denmark and South Africa (n=1 respectively); four studies were conducted in multiple regions. Papers from peer reviewed literature (Table 1, n=20) examined health among citizen or migrant fishers/seafarers; 11 papers focused on sexual health, nine on occupational and physical health; one paper included mental health (Tables S3-S5 in Additional file 4). Thirteen grey literature papers focused on adverse conditions and exploitation in smaller samples (Table 2), twelve of which included trafficked or forced fishers/seafarers; eight papers (seven grey literature, one peer-reviewed) quantitatively measured violence among trafficked fishers/seafarers.

HIV/AIDS/sexual health

Eight of 11 papers on HIV/AIDS/sexual health were of good quality and focused on risk factors for HIV (Additional file 4: Table S3). Six papers discussed migrant fishers’ risk behaviours in Thailand [18,19,20,21,22,23], while five papers discussed domestic fishers in Cambodia [24, 25], Thailand [26] and Vietnam [27, 28]. Among men who visited sex workers, condom use ranged from 75.6% [18] to 57% [24] although different timescales and populations hinder comparability. More frequent condom use with sex workers than with regular partners was linked to trust and 100% condom use policies in brothels among migrant fishers in Thailand [21]. Similarly, condom use with brothel-based sex workers (91.5%) was higher than with non-brothel based sex workers (70.0%) among fishers in Cambodia [25]. Ohnmar et al. found that younger age, low education, Mon ethnicity and being in Thailand for longer was associated with penile oil injections among migrant Burmese fishers [23]. Two studies reported that some fishers were injecting drug users which may be linked to HIV [18, 28]. Being a migrant fisher/seafarer was associated with increased odds of ever being tested for HIV in one study [22], which Ford and Chamratrithirong suggested was linked to knowing someone who’d died of AIDS [21]. One study reported greater descriptive/unadjusted improvements in AIDS knowledge and condom use among migrant Cambodian fishers than for Burmese fishers in Thailand following community based awareness raising interventions [22]. Entz et al. found higher proportions of Thai fishers ever had an STD compared to migrant fishers, likely due to inaccurate self-reports/reduced likelihood that migrant fishers could visit clinics for accurate diagnosis compared to Thais [19]. Migrant fishers also had higher odds of self-care for general health than Thai fishers [19].

Occupational and physical health

Nine peer-reviewed papers described factors affecting occupational health, accidents/injuries, treatment seeking behaviour and physical health symptoms among fishers and seafarers; most papers (n=7/9) were fair or good quality (Table 1, Table S4 in Additional file 4). Grey literature which included trafficked fishers touched on similar themes; most was of fair quality (n=6/11) (Table 2, Table S6 in Additional file 4). Among Vietnamese fishers in the USA, 29.6% worked over 16 hours/day at baseline in an intervention study (Additional file 4: Table S4) [29]. In cross-sectional convenience/small samples of Burmese fishers in Thailand, long-haul fishers worked 18-24 hours/day, compared to 13-14 hours/day among short-haul fishers (some trafficked) [30] (Additional file 4: Table S6). In the International Labour Organization’s (ILO) large cross-sectional survey at Thai ports, 28.3% and 25.3% of long and short-haul fishers respectively worked 17-24 hours/day (some forced labour) [14]. In Kiss et al., 41.8% of trafficked fishers worked 20 or more hours/day every day [31]. Trafficked Cambodian fishers reported working hours of 18-22 hours/day in other studies (Additional file 4: Table S6) [32, 33].

Occupational hazards among trafficked fishers discussed in four papers included: long hours in sun/cold/wet without breaks (96.7%) [31], men being pulled overboard by heavy nets [34], falling overboard during storms and not being recovered [33], being forced to work in heavy storms and in cold storage and polar regions with no protective gear [32, 33]. Trafficked fishers commonly reported having no or bad safety/survival equipment [31], life jackets/buoys were unavailable or locked up (Additional file 4: Table S6) [32, 33]. Doung-ngern et al. described 53.6% (n=15/28) probable cases of beriberi (vitamin B1 deficiencies) on a ship comprised mainly of Burmese fishers [35]. Case fatality was high (13%, n=2/15). Among n=13 physically examined patients, 100% were hypertensive [35]. Studies with trafficked fishers noted inadequate drinking water and nutrition, due to the need to conserve supplies while on long-haul trips [33, 36]; rotten/expired food [32]; consumption of mainly raw food [37] and eating fish bait to survive [32, 38] Transshipment in long-haul fishing (the practice of refuelling boats/exchanging supplies at sea) saw trafficked fishers spend up to 3 years at sea without docking [33]. Men were tortured or sold to other boats for attempting escape [33, 37]. Conversely, another study of returning migrant Cambodian fishers from Thailand noted that most (72.8%) had free movement [39]. Pe et al. found high case fatality (11.2%) among sea snake bite victims in Myanmar [40, 41]. Bites were mainly incurred during fishing tasks and most victims self-treated or used traditional healers (Additional file 4: Table S4) [40, 41].

Three papers described attitudes towards work safety among older Vietnamese immigrant shrimp fishers in the USA (Additional file 4: Table S4) [29, 42, 43]. In a quasi-experimental community trial of work safety interventions, Levin et al. reported statistically and practically significant increases in safety attitudes for fatigue and noise interventions, but not winch safety [29]. Among returning migrant Cambodian fishers from Thailand, 63.2% reported safe working conditions (some trafficked) [39]. In the ILO survey at Thai ports, 91.9% reported being aware of safety risks in fishing; 20.6% were ever injured (some forced labour) (Additional file 4: Table S6) [14].

Hansen et al. found lower adjusted accident reporting rates among Southeast Asian seafarers (Incidence Rate Ratio (IRR) 0.29, Confidence Interval (CI):0.22-0.38) compared to Eastern (IRR 0.65, CI:0.50-0.85) and Western seafarers (reference) (Additional file 4: Table S4) [44]. Among fishers using post-trafficking services, half (49.8%) of Cambodians (mostly long-haul) experienced serious injuries compared to a third (36.4%) of Myanmar (mostly short-haul) fishers [31]; similarly, higher injuries prevalence was observed among long-haul (26.4%) compared to short-haul (19.4%) fishers in a convenience sample at Thai ports (Additional file 4: Table S6) [14]. Other studies with trafficked fishers discussed common injuries, including wounds from fishing hooks to the face, arms and neck lodged in the skin [32, 37], injuries from unguarded machinery [33] and lost limbs [31, 32]. Seriously sick/injured trafficked fishers were forced to wait until docking for medical care, some died waiting [32]; 36% of long-haul fishers in another study witnessed co-workers become sick and die at sea [30]. Another study of trafficked fishers found that injured men were forced to remain below deck when in port, and were denied medical assistance (Additional file 4: Table S6) [38].

Care among trafficked fishers was negligible; one study found that 96.9% of Myanmar (short-haul) fishers received no care, while 43.2% of Cambodian (long-haul) fishers reported receiving care from traffickers/employers [31]. Yea 2014 reported trafficked fishers’ wounds being stitched with no antiseptics or pain relief [32]. Several studies reported that inadequate/basic/expired medicines were given to trafficked fishers [30, 32, 36, 37]. Language barriers meant trafficked fishers couldn’t discuss health problems or medicines with superiors [33]. Among a small sample of Burmese fishers, half turned to each other for help when sick and a third turned to relatives (some forced labour) (Additional file 4: Table S6) [45]. Among trafficked fishers, Cambodians (long-haul) had worse physical health than Myanmar (short-haul) fishers, e.g. 30.9% and 10.9% respectively reported poor self-assessed health. Other health problems included chronic headaches, incorrectly or unhealed broken bones [33, 37], skin infections and persistent coughing [31, 33] (Additional file 4: Table S6).

Mental health

One good quality study of trafficked fishers using post-trafficking services was included in the review. Kiss et al. described high prevalence of mental health disorders, particularly for Cambodian compared to Myanmar fishers (e.g. 63.0% and 21.8% were symptomatic of depression respectively) (Additional file 4: Table S5) [31]. Higher proportions of Cambodians experienced suicidal thoughts and attempted suicide compared to Myanmar fishers [31]. Despite high symptom prevalence, just 15.3% were concerned for their mental health [31]. Three grey literature papers whose samples included trafficked fishers discussed mental health (Additional file 4: Table S6) [30, 33, 37]. Long-haul (mainly Burmese) fishers who were regularly beaten considered suicide in one study [30]. Poor mental health from violence experienced or witnessed, with isolation at sea for extensive periods/delays in returning home compounded mental health problems among Cambodian fishers [33]. Anger, anxiety, stress, memory loss, aggression and substance misuse were observed among returned Cambodian fishers [33, 37].

Kiss et al. found that 33.6% of trafficked fishers were concerned about guilt or shame [31]; grey literature noted guilt/shame feelings linked to being a “failed migrant” without earnings, being deceived and/or being unable to protect oneself and pity from the community [37], although this may translate to feeling loved for some men [33]. Men feeling guilt/shame may avoid returning home and transfer to another boat hoping to earn money [33].


Eight studies quantitatively measured violence but used different interview questions, hindering comparability but offering an overall indication of violence experienced. Two studies of solely trafficked Cambodian fishers found high prevalence of physical violence (93.5% and 100%) [33, 46]; with one study anecdotally suggesting that Cambodians were beaten more than other nationalities [33]. Conversely, being severely beaten was higher among Myanmar fishers than other nationalities in a convenience sample at ports (16.3% relative to 2.5% among Cambodians) [14], while another study reported higher prevalence of severe violence among Myanmar trafficked fishers (67.3%) relative to 50.2% among trafficked Cambodians [31]. Compared to trafficked fishers using post-trafficking services, three studies found lower prevalence of violence, e.g. 14% among Burmese fishers sampled at a port [45], to 50% among Burmese fishers being assisted by NGOs [30]; 26.3% of Cambodian fishers sampled at the Thai-Cambodia border said violence was a problem [39]. Among trafficked fishers, Stringer et al. reported that sexual abuse (groping, indecent exposure, rape) by superiors was common [38], compared to a low 1.8% prevalence of sexual violence in Kiss et al., which may be linked to reporting bias and/or only asking about forced sex (not other kinds of sexual abuse) [31]. Fishers in two studies reported that they were beaten for not working hard enough or when they were caught resting [33], made mistakes, or were tired [38]. Conversely, one investigative report using convenience sampling found that violence was uncommon and occurred mainly when men were drunk, overworked or when they lost their temper and fought at sea [34].


Key findings

This review uncovered myriad health risks that GMS commercial fishers/seafarers face. Migrant fishers were likelier to self-treat compared to Thai fishers due to cultural, legal and linguistic barriers in accessing care [19]. The Thai government has since implemented a migrant health insurance program which aims to mitigate some of these barriers [47]. Penile oil injections, a lesser reported health risk among migrant fishers, leads to painful complications and highlights the need for targeted behavioural interventions. Among peer-reviewed studies, studies on HIV/AIDS/sexual health tended to be of higher quality compared to studies reporting other health risks, reflecting the dominance of policy concerns around HIV transmission among fishers to the general population.

Occupational risks were diverse. Commercial fishers worked long hours, with extreme hours observed among trafficked fishers, who have fewer/no breaks or respite between trips compared to non-trafficked men. Similarly, despite facing the same occupational hazards, trafficked fishers had limited to no access to protective gear. Lesser-known occupational risks were documented, including sea snake bites and vitamin B1 deficiencies leading to beriberi, as reported among trafficked fishers in Thailand recently [48]. High case fatality can be avoided if fishing companies ensure varied diets via frequent shipments of meat/vegetables, provision of unpolished rice and supplements [49]. Levin et al. highlighted the importance of culturally and literacy appropriate work safety interventions [29]. A captain’s leadership was important to influence deckhands during safety training, which should be: delivered in native languages at appropriate literacy levels; be hands on; conducted during off-season periods; end in completion certificates and be culturally appropriate e.g. bright T-shirts with safety messages [29, 43]. We found a paucity of safety intervention studies with GMS fishers/seafarers. Low accident reporting rates among Southeast Asian seafarers are suggestive of under-reporting, where crew may experience negative consequences (e.g. being medically signed off from duty, causing financial losses). We may need interventions to encourage accident reporting among Southeast Asian seafarers. In samples which included trafficked men, long-haul fishers reported injuries more frequently than short-haul fishers; transshipment led to treatment delays which put men at risk [32]. Preventive OSH interventions and adequate PPE are particularly important for long-haul fishers. Notably, no studies examined chronic disease prevalence or risk factors, except two studies which reported on hypertension [29, 35]. Physical health symptoms in two other studies with trafficked fishers indicated undiagnosed tuberculosis [31, 33]. A permanent ban on transshipment would alleviate the risk of being trafficked for extremely long periods and ensure that men who need care have a better chance of receiving it [48].

Economics and the regulatory environment affect occupational hazards experienced [50]. Increases in accident rates in the US Gulf of Maine indicated that some boats were taking longer trips with fewer crew, or taking more risks in tough financial times [51]. Similarly, in Thailand, economic pressures on operators and reluctance to modernise has led to a reliance on trafficked labour [52]. Future studies in the GMS could consider how the economic and regulatory environment affects hazards experienced.

We found just one peer-reviewed study on mental health among trafficked fishers [31], with none among GMS fishers who may not be trafficked. Grey literature studies with trafficked Cambodian fishers noted limited mental health services upon return [33]. A non-systematic review of seafarers mental health in worldwide fleets estimated that suicides comprised 13% of deaths due to illness [10], hinting at a mental health burden which is exacerbated by stressors including family separation, loneliness, fatigue, communication difficulties between multinational crews, limited recreation and sleep deprivation [53]. Among trafficked fishers, there is an urgent need to identify culturally appropriate interventions that can be implemented in low-resource environments with non-specialists. Pre-departure mental health screening could be conducted among seafarers and long-haul fishers for evidence generation and for practical reasons; pre-departure psychiatric assessment among Filipino seafarers may be related to low disembarkation rates for psychiatric problems compared to fishers of other nationalities [54]. Among seafarers and fishers generally, reduced hours, duty tours and increased shore leave could positively affect mental health.

Although definitional variations complicate interpretation, violence was only reported in studies with trafficked fishers. Elsewhere, violence accounted for 5% of injuries among seafarers from Denmark, Spain, Croatia, Finland and the Philippines [55]. Violence and exploitation questions should be included in studies with fishers/seafarers to enhance our understanding of their prevalence and associated risk factors.

We found inconclusive evidence for differences in the outcomes by nationality as just two studies reported adjusted analyses [18, 19, 44]. Descriptive analyses indicated that Cambodian trafficked fishers had more injuries and worse physical and mental health than Myanmar trafficked fishers [31], whom appeared to experience violence more frequently than Cambodians [14, 31]. Future studies should explore associations between nationality and health outcomes.

Many studies, particularly grey studies with trafficked fishers, did not report whether ethical approval had been obtained from Institutional Review Boards (IRB). Quality of grey literature was a concern; reporting of analysis methods was infrequent and presentation of results was suboptimal (e.g. raw survey data). Several studies were unclear about whether they used quantitative or qualitative designs [30, 46, 56]. There is a need for better reporting standards in NGO and grey literature, akin to Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) criteria for observational studies [57]; following these standards would enhance readability. Many grey studies are commissioned by international agencies, whom should ensure external IRB approval and improved reporting.

Future research priorities

This review highlighted limited evidence on GMS fishers/seafarers which is needed to inform appropriate interventions; while a growing literature examines Chinese and Filipino seafarers’ health, more epidemiological studies should be conducted with other Asian samples, alongside building data collection and management capacity in recent origin countries [58]. Potential data collection points include: pre-departure medical examinations (chronic conditions); radio medical records at sea (accidents, illnesses); port-based clinics/hospitals or repatriation services (acute injuries/illness); shore-based sources (death certificates, hospital records, census returns where occupation is declared) [58]. Researchers in maritime health should lead efforts to validate appropriate instruments to improve study comparability. Studies should include questions on nationality and whether fishers are long or short-haul.

Limitations of the review

The search strategy omitted citation tracking and contacting experts due to limited resources. Studies from developing countries are less likely to be indexed in international databases which may bias our results. Methodological problems of primary studies limit conclusions that can be drawn. Most studies used convenience or purposive sampling in cross-sectional designs, many didn’t explain rationale for sample size and did not discuss sample representativeness. Heterogeneity of measurement of outcomes (e.g. violence) hindered comparability. Differing operational definitions of trafficking and forced labour hinders interpretation of findings. More extreme cases of violence and poor health were found among post-trafficking service users compared to convenience samples of fishers recruited at ports. Yet, many trafficked persons do not access services. Moreover, the proportion of trafficked fishers/seafarers that were included in studies conducted outside of post-trafficking services is unclear. An indication of the “true” situation of trafficked GMS fishers may therefore lie in-between figures reported for fishers using post-trafficking services and those sampled at ports, in this review. Grey literature findings were mainly qualitatively described; it was not clear whether validated questions were used to assess the outcomes reported in quantitative grey studies. Many peer-reviewed studies gave limited information about study instruments. Most research findings and all of those from grey literature were descriptive; information continues to be lacking on demographic and other factors associated with poor health outcomes that could inform interventions targeting fishers’ health.


There is a significant evidence gap on occupational, physical and mental health problems among GMS fishers, despite high levels of need for such evidence. Formative research and pilot intervention studies on culturally appropriate interventions is needed, especially for work safety among long-haul fishers who face delays in reaching shore following accidents/injuries. We should not need an HIV epidemic or trade sanctions for forced labour to care about fishers’ health.



Critical Appraisal Skills Programme


Food and Agriculture Organization


Greater Mekong Subregion


International Labour Organization


National Heart Lung and Brain Institute


Occupational Safety and Health


Strengthening the Reporting of Observational Studies in Epidemiology


  1. FAO. Risks of fishing. Fisheries and Aquaculture Topic Fact Sheet [Internet]. FAO Fisheries and Aquaculture Department; 2005. Available from:

  2. FAO. The State of World Fisheries and Aquaculture 2016. Contributing to food security and nutrition for all. [Internet]. Food and Agriculture Organization of the United Nations (FAO); 2016. Available from:

  3. ICS. Global Supply and Demand for Seafarers [Internet]. Int. Chamb. Shipp. 2017. Available from:

  4. Lefkowitz RY, Slade MD, Redlich CA. Injury, illness, and work restriction in merchant seafarers. Am J Ind Med. 2015;58:688–96.

    Article  Google Scholar 

  5. Allen P, Wadsworth E, Smith A. Seafarers’ fatigue: a review of the recent literature. Int Marit Health. 2008;59:81–92 Available from:

    PubMed  Google Scholar 

  6. Carter T. Mapping the knowledge base for maritime health: 3 illness and injury in seafarers. Int Marit Health. 2011;62:224–40 Available from:

    PubMed  Google Scholar 

  7. McDowell R, Mason M, Mendoza M. AP Investigation: Slaves may have caught the fish you bought. Asoc Press Explor Seaf from slaves. 2015; Available from:

  8. Surtees R. Trafficked at Sea: The Exploitation of Ukrainian Seafarers. NEXUS Institue & International Organization for Migration; 2013.

    Google Scholar 

  9. de Coning E. Transnational Organized Crime in the Fishing Industry, Focus on: Trafficking in Persons, Smuggling of Migrants, Illicit Drugs Trafficking. Vienna: United Nations Office on Drugs and Crime (UNODC; 2011.

    Google Scholar 

  10. Iversen RTB. The mental health of seafarers. Int Marit Health. 2012;63:78–89 Available from:

    PubMed  Google Scholar 

  11. Oldenburg M, Baur X, Schlaich C. Occupational risks and challenges of seafaring. J Occup Health. 2010;52:249–56 Available from:

    Article  Google Scholar 

  12. Smolak A. A meta-analysis and systematic review of HIV risk behavior among fishermen. AIDS Care. 2014;26:282–91 Available from:

    Article  Google Scholar 

  13. Ahonen EQ, Benavides FG. Injury at work and migrant workers: a priority for a global agenda in occupational health. Occup Environ Med. 2016;oemed-2016-103964. Available from:

  14. ILO, Asian Research Center for Migration Chulalongkorn University I of AS. Employment practices and working conditions in Thailand’s fishing sector. ILO Tripart. Action to Prot. Rights Migr. Work. within from Gt. Mekong Subreg. (GMS TRIANGLE Proj. Bangkok, Thailand: International Labour Organization (ILO); 2013.

  15. Liberati A, Altman DG, Tetzlaff J, et al. The PRISMA Statement for Reporting Systematic Reviews and Meta-Analyses of Studies That Evaluate Health Care Interventions: Explanation and Elaboration. PLOS Med. 2009;6:e1000100. Available from:

    Article  Google Scholar 

  16. NHLBI, NIH. Quality Assessment Tool for Observational Cohort and Cross-Sectional Studies - NHLBI, NIH [Internet]. National Heart Lung and Brain Institute (NHLBI), National Institutes of Health (NIH); 2014. Available from:

  17. CASP. CASP Qualitative Checklist [Internet]. Critical Appraisal Skills Programme (CASP); 2013. Available from:

  18. Entz AT, Ruffolo VP, Chinveschakitvanich V, et al. HIV-1 prevalence, HIV-1 subtypes and risk factors among fishermen in the Gulf of Thailand and the Andaman Sea. AIDS. 2000;14:1027–34 Available from:

    Article  CAS  Google Scholar 

  19. Entz A, Prachuabmoh V, van Griensven F, et al. STD history, self treatment, and healthcare behaviours among fishermen in the Gulf of Thailand and the Andaman Sea. Sex Transm Infect. 2001;77:436–40 Available from:

    Article  CAS  Google Scholar 

  20. Ford K, Chamrathrithirong A. Sexual partners and condom use of migrant workers in Thailand. AIDS Behav. 2007;11:905–14 Available from:

    Article  Google Scholar 

  21. Ford K, Chamratrithirong A. Migrant seafarers and HIV risk in Thai communities. AIDS Educ Prev Off Publ Int Soc AIDS Educ. 2008;20:454–63 Available from:

    Article  Google Scholar 

  22. Musumari PM, Chamchan C. Correlates of HIV Testing Experience among Migrant Workers from Myanmar Residing in Thailand: A Secondary Data Analysis. PLoS One. 2016;11:e0154669 Available from:

    Article  Google Scholar 

  23. Ohnmar GAF, Winn T, et al. Penile oil injection, penile implantation and condom use among Myanmar migrant fishermen in Ranong, Thailand. Sex Health. 2009;6:217–21 Available from:

    Article  CAS  Google Scholar 

  24. Sopheab H, Fylkesnes K, Vun MC, et al. HIV-related risk behaviors in Cambodia and effects of mobility. J Acquir Immune Defic Syndr. 2006;41:81–6 Available from:

    Article  Google Scholar 

  25. Samnang P, Leng HB, Kim A, et al. HIV prevalence and risk factors among fishermen in Sihanouk Ville, Cambodia. Int J STD AIDS. 2004;15:479–83 Available from:

    Article  Google Scholar 

  26. Group M of PH (MOPH)-TAVE. Screening and evaluation of potential volunteers for a phase III trial in Thailand of a candidate preventive HIV vaccine (RV148). Vaccine. 2011;29:4285–92 Available from:

    Article  Google Scholar 

  27. Nguyen CH, Ishizaki A, PTT C, et al. Prevalence of HBV infection among different HIV-risk groups in Hai Phong, Vietnam. J Med Virol. 2011;83:399–404 Available from:

    Article  Google Scholar 

  28. Tran MG, Dang VK, Doan N, et al. Rapid Assessment of Seafarer STD, HIV and Drug Abuse Vulnerability in Vietnam. Vietnam Seafarers Research Team/UNAIDs; 1998.

    Google Scholar 

  29. Levin JL, Gilmore K, Wickman A, et al. Workplace Safety Interventions for Commercial Fishermen of the Gulf. J Agromedicine. 2016;21:178–89 Available from:

    Article  Google Scholar 

  30. Brennan M. Out of sight, out of mind: Human Trafficking and Exploitation of Migrant Fishing Boat Workers in Thailand [Internet]. Bangkok, Thailand: Solidarity Center; 2009. Available from:

  31. Kiss L, Pocock NS, Naisanguansri V, et al. Health of men, women, and children in post-trafficking services in Cambodia, Thailand, and Vietnam: an observational cross-sectional study. Lancet Glob Heal. 2015;3:e154–61 Available from:

    Article  Google Scholar 

  32. Yea S. Trafficking on the High Seas: The Exploitation of Migrant Fishermen in Southeast Asia’s Long Haul Fishing Industry. Traffick. Hum. Beings Learn. from Asian Eur. Exp. Singapore: Konrad-Adenauer Stiftung and European Union (EU); 2014. p. 85–95.

    Google Scholar 

  33. Surtees R. In African waters. The trafficking of Cambodian fishers in South Africa. International Organization for Migration (IOM) and Nexus Institute; 2014. Available from:

  34. International V. Recruitment Practices and Migrant Labor Conditions in Nestlé’s Thai Shrimp Supply Chain [Internet]. Verite International/Nestle; 2015. Available from:

  35. Doung-ngern P, Kesornsukhon S, Kanlayanaphotporn J, et al. Beriberi outbreak among commercial fishermen, Thailand 2005. Southeast Asian J. Trop. Med. Public Health. 2007;38:130–5 Available from:

    CAS  PubMed  Google Scholar 

  36. Robertson P. Trafficking of Fishermen in Thailand [Internet]. Thailand: International Organization for Migration (IOM); 2011. Available from:

  37. Day K. (Re)integration of Cambodian trafficked men: Trends in trafficking and available aftercare services [Internet]. Hagar International; 2015. Available from:

  38. Stringer C, Whittaker DH, Simmons G. New Zealand’s turbulent waters: The use of forced labour in the fishing industry. Glob Networks. 2016;16:3–24 Available from:’s_turbulent_waters_The_use_of_forced_labour_in_the_fishing_industry.

    Article  Google Scholar 

  39. Baker S. Migration experiences of Cambodian workers deported from Thailand in 2009, 2010 & 2012: Poipet, Cambodia. Bangkok, Thailand: United Nations Action for Cooperation against Trafficking in Persons (UNACT); 2015.

    Google Scholar 

  40. Pe T, Mya S, Myint AA, et al. Epidemiological study of sea snakebite victims of Kyaikkami Township (Mon-State). Myanmar Heal Sci Res J. 2005;17:32–5 Available from:

    Google Scholar 

  41. Pe T, Myint AA, Mya S, et al. Sea snakebites in Myanmar: epidemiology and treatment seeking behaviour. Myanmar Heal Sci Res J. 2006;18:1–5 Available from:

    Google Scholar 

  42. Levin JL, Gilmore K, Shepherd S, et al. Factors influencing safety among a group of commercial fishermen along the Texas Gulf Coast. J Agromedicine. 2010;15:363–74 Available from:

    Article  Google Scholar 

  43. Carruth AK, Levin JL, Gilmore K, et al. Cultural influences on safety and health education among Vietnamese fishermen. J Agromedicine. 2010;15:375–85 Available from:

    Article  Google Scholar 

  44. Hansen HL, Laursen LH, Frydberg M, et al. Major differences in rates of occupational accidents between different nationalities of seafarers. Int Marit Health. 2008;59:7–18 Available from:

    PubMed  Google Scholar 

  45. Pearson E, Punpuing S, Jampaklay A, et al. The Mekong Challenge: Underpaid, Overworked and Overlooked: The realities of young migrant workers in Thailand: Volume One. International Labour Organization (ILO) & the Institute for Social and Population Research (IPSR), Mahidol University; 2006.

    Google Scholar 

  46. UNIAP. Exploitation of Cambodian men at sea: facts about the trafficking of Cambodian men onto Thai fishing boats. Strateg. Inf. Response Netw. Phnom Penh, Cambodia: United Nations Inter-Agency Project on Human Trafficking (UNIAP); 2009.

    Google Scholar 

  47. Suphanchaimat R. “Health Insurance Card Scheme” for cross-border migrants in Thailand: Responses in policy implementation and outcome evaluation. [London, UK]: London School of Hygiene and. Tropical Medicine. 2016.

  48. Greenpeace Southeast Asia. Turn The Tide: Human Rights Abuses and Illegal Fishing in Thailand’s Overseas Fishing Industry. Greenpeace; 2016. Available from:

  49. WHO. Thiamine deficiency and its prevention and control in major emergencies: World Health Organization (WHO); 1993.

  50. MJS W, Neis B, Bornstein S, et al. Fishing occupational health and safety: A comparison of regulatory regimes and safety outcomes in six countries. Mar Policy. 2008;32:701–10 Available from:

    Article  Google Scholar 

  51. Jin D, Thunberg E. An analysis of fishing vessel accidents in fishing areas off the northeastern United States. Saf Sci. 2005;43:523–40 Available from:

    Article  Google Scholar 

  52. EJF. Sold to the Sea: Human Trafficking in Thailand’s Fishing Industry [Internet]. Environmental Justice Foundation (EJF); 2013. Available from:

  53. Carotenuto A, Molino I, Fasanaro AM, et al. Psychological stress in seafarers: a review. Int Marit Health. 2012;63:188–94.

    PubMed  Google Scholar 

  54. Bell SSJ. An analysis of the diagnoses resulting in repatriation of seafarers of different nationalities working on board cruise ships, to inform pre-embarkation medical examination. Med Maritima. 2009;9:32–43.

    Google Scholar 

  55. Jensen OC, Laursen FV, Sørensen FL. International surveillance of seafarers’ health and working environment. A pilot study of the method. Preliminary report. Int Marit Health. 2001;52:59–67 Available from:

    CAS  PubMed  Google Scholar 

  56. Fujita K, Endo T, Okamoto I, et al. Myanmar Migrant Laborers in Ranong, Thailand. Inst Dev Econ Japan Extern Trade Organ. 2010;Discussion.

  57. Vandenbroucke JP, von Elm E, Altman DG, et al. Strengthening the Reporting of Observational Studies in Epidemiology (STROBE): Explanation and elaboration. Int J Surg. 2014;12:1500–24 Available from:

    Article  Google Scholar 

  58. Carter T. Mapping the knowledge base for maritime health: 2. a framework for analysis. Int Marit Health. 2011;62:217–23 Available from:

    PubMed  Google Scholar 

  59. Levin JL, Curry WF, Shepherd S, et al. Hearing Loss and Noise Exposure Among Commercial Fishermen in the Gulf Coast. J Occup Environ Med. 2016;58:306–13 Available from:

    Article  Google Scholar 

Download references


We gratefully acknowledge disaggregated data generously provided by Kathleen Ford [20, 22], Henrik Hansen [44], Jeffery Levin [29, 42, 59], Balaz Adam (study later excluded from the review), Sally Bell (study later excluded from the review). We are grateful to Jane Falconer for continual guidance on the protocol and review methodology, and Andrew Hutchings for advice on study eligibility. We are grateful to three anonymous reviewers for their helpful comments and feedback on this review. 

Availability of data and materials

Data sharing is not applicable to this article as no datasets were generated or analysed during the current study. All data supporting the results and conclusions of this review can be found within the manuscript.

Author information

Authors and Affiliations



NP, SO, DLP and CZ conceived the study protocol. NP and LHN conducted abstract and full text screening and data extraction. NP drafted the initial version of the manuscript. All authors critically revised and approved the final manuscript.

Authors’ information

Nicola S. Pocock - United Nations University International Institute of Global Health, UKM Medical Centre, Jalan Yaacob Latif, Bandar Tun Razak, 56000 Cheras, Kuala Lumpur, Malaysia (The views expressed herein are those of the author(s) and do not necessarily reflect the views of the United Nations University).

Corresponding author

Correspondence to Nicola S. Pocock.

Ethics declarations

Ethics approval and consent to participate

No ethical approval was required for this systematic review (no data on human subjects was collected or analysed).

Consent for publication

Not applicable (no individual person’s data are included in this review).

Competing interests

The authors declare that they have no competing interests.

Additional files

Additional file 1:

PRISMA Checklist. (PDF 76 kb)

Additional file 2:

EMBASE search terms. (PDF 24 kb)

Additional file 3:

Method of assessing the outcomes. (PDF 98 kb)

Additional file 4:

Data tables. (PDF 133 kb)

Additional file 5:

Quality Appraisal Tools. National Heart Lung & Brain Institute (NHLBI) Quality Assessment Tool for Observational Cohort and Cross-­-Sectional Studies. (PDF 65 kb)

Rights and permissions

Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (, which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver ( applies to the data made available in this article, unless otherwise stated.

Reprints and permissions

About this article

Check for updates. Verify currency and authenticity via CrossMark

Cite this article

Pocock, N.S., Nguyen, L.H., Lucero-Prisno III, D.E. et al. Occupational, physical, sexual and mental health and violence among migrant and trafficked commercial fishers and seafarers from the Greater Mekong Subregion (GMS): systematic review. glob health res policy 3, 28 (2018).

Download citation

  • Received:

  • Accepted:

  • Published:

  • DOI: