2.1 The concept of safety culture

Industries around the world have already demonstrated their concern for ‘safety culture’ and demonstrated the necessity for it. The demand to limit and significantly reduce catastrophic or life-consuming disasters at the hand of what should be systematic, fluid and routine tasks is a hypothesis adopted by most industries (Cooper, Reference Cooper2000). A recognition of a worldwide homogeneous safety culture has already been exercised in varying industries, from nuclear (Rosen, Reference Rosen1997) to shipping (Haralambides, Reference Haralambides and Haralambides1998).

The use of ‘safety culture’ first came to the light as a result of the Chernobyl nuclear disaster in 1986, with the term being coined by the 1987 OECD Nuclear Agency report (INSAG, 1988). Since the disaster, ‘safety culture’ has become the atmosphere of safety-based understanding (Cullen, Reference Cullen1990).

Academic literature has promoted varying examples of ‘safety culture’ definitions but has had difficulty finding a globally accepted singular term. The following authors have taken on the responsibility for providing such definitions of ‘safety culture’:

• • Workplace Health and Safety Queensland (WHSQ, 2013): ‘A safety culture is an organisational culture that places a high level of importance on safety beliefs, values and attitudes – and these are shared by the majority of people within the company or workplace. It can be characterised as “the way we do things around here”. A positive safety culture can result in improved workplace health and safety (WHS) and organisational performance.’

• • The UK Health and Safety Commission (HSC, 1993): … ‘the product of individual and group values, attitudes, competencies, and patterns of behaviour that determine the commitment to, and the style and proficiency of, an organisation's health & safety programmes’.

• • The International Atomic Energy Authority (IAEA, 1991): ‘that assembly of characteristics and attitudes in organisations and individuals which establishes that, as an overriding priority, nuclear plant safety issues receive the attention warranted by their significance’.

• • Turner et al. (Reference Turner, Pidgeon, Blockley and Toft1989): ‘the set of beliefs, norms, attitudes, roles, and social and technical practices that are concerned with minimising the exposure of employees, managers, customers and members of the public to conditions considered dangerous or injurious’.

• • Schein (Reference Schein1990): ‘Organisational culture is the pattern of basic assumptions that a given group has invented, discovered or developed in learning to cope with its problems of external adaptation and internal integration, and that has worked well enough to be considered valid, and, therefore, to be taught to new members as the correct way to perceive, think and feel concerning these problems’ (Schein, Reference Schein1990).

Schein (Reference Schein1990) can have his view simplified into the consideration of ‘the way things are done here’ and this appears to be the view that has been subsequently adopted by the yachting industry.

The maritime sector is understood to be an industry of high risk in terms of fatal accidents and serious injuries (Hansen et al., Reference Hansen, Nielsen and Frydenberg2002, p. 88). The UK Marine Accident Investigation Branch (MAIB) highlighted that 2018 saw 1,227 accidents to UK vessels or accidents in UK coastal waters (MAIB, 2018). The increase in navigational technology has seen a gradual decline over the last decade in accidents concerning collisions, allisions and groundings (Zhang et al., Reference Zhang, Zou and Lin2022). However, not so much with regards to the human element. The United States Coast Guard (USGC, 2004) introduced a safety fund for maritime operations in 2004 which concluded a total sum of $330 ⋅ 4 million, highlighting an active effort to drive humanistic safety performance. However, despite funding for improvements the human element remains an overriding factor in the causation of most maritime accidents (MAIB, 2000). For example, a report produced by Esbensen et al. (Reference Esbensen, Johnson and Kayten1985) emphasised that 43% of marine accidents were caused by human error and these figures are appear to be rising, as the Maritime Journal reports that between 75% to 95% of marine accidents can be attributed to human error (Fan et al., Reference Fan, Blanco-Davis, Yang, Zhang and Yan2020).

The creation of ‘safety culture’ is something recognised as not being easily engineered (Schein, Reference Schein1990, p. 113) but the manipulation of current culture is something considered as somewhat achievable. The success is achieved via the adjustment of goals (Ryan, Reference Ryan1970), and the goals are what constitute action and change. Various organisations and governments have detailed what is prescribed to achieve an effective culture, with the Workplace Health and Safety Queensland (WHSQ, 2013) identifying nine key behaviours:

1. 1. Communicate company values

2. 2. Demonstrate leadership

3. 3. Clarify required and expected behaviour

4. 4. Personalise safety outcomes

5. 5. Develop positive safety attitudes

6. 6. Engage and own safety responsibilities and accountabilities

7. 7. Increase hazard/risk awareness and preventive behaviours

8. 8. Improve understanding and effective implementation of safety management systems

9. 9. Monitor, review and reflect on personal effectiveness.

2.2 International Safety Management (ISM) code

Superyacht crews are constantly exposed to degrees of both mental and physical stress, through long-term separation from loved ones, long work hours, intensive workloads, decreasing crew numbers, inconsistent or reduced shore leave, fatigue, exposure to noises, and vibrations, hazardous materials, accidents and catastrophic disasters, all of which may affect the well-being and performance of a seafarer (Slišković and Penezić, Reference Slišković and Penezić2015). Simultaneously, crew activities on board ships can also have harmful effects on the marine environment (Ryburn, Reference Ryburn, Gladkikh, Séraphin, Gladkikh and Vo-Thanh2022). Unfortunately, research into maritime safety and the human/social aspects have all fallen consistently second to the focus of technical and mechanical developments to the shipping industry (Hetherington et al., Reference Hetherington, Flin and Mearns2006a, Reference Hetherington, Flin and Mearns2006b), even though most maritime disasters have been attributed to the human element (Fan et al., Reference Fan, Blanco-Davis, Yang, Zhang and Yan2020). According to the United Kingdom's MAIB (MAIB, 2004), fatigue plays a major role in the causation of collisions, groundings and injuries, further suggesting that factors leading to fatigue are caused by inter alia sleep problems and working hours.

The ISM Code was established to ‘ensure safety at sea, prevention of human injury or loss of life, and avoidance of damage to the environment, in particular the marine environment, and to property’ (IMO, 2002). The studies conducted by Batalden and Sydnes (Reference Batalden and Sydnes2014) make links between the ISM Code and maritime safety. The authors make repeated reference to the presence of the human element in the build-up to an incident.

The search for cheaper running costs occurs in all industries, and ships achieve this by recruiting less-qualified crew, reducing crew numbers and operating under flags of convenience (Council, Reference Council1984), which most superyachts are registered under. The sole purpose of the ISM Code is to delegate responsibility to ship owners to conduct their ship's business in the confines of Safe Management Systems (SMS) with the aim to reduced accidents afflicted by human error (Rodriguez and Hubbard, Reference Rodriguez and Hubbard1999; Kristiansen, Reference Kristiansen2005). Therefore, PSC inspections work to ensure ships are maintaining effective safety management systems that incorporate operations under the appropriate laws and legislation (Baldwin et al., Reference Baldwin, Cave and Lodge2010). The cost factors of self-regulation will immediately appear to a shipowner as an inconvenience (Baldwin et al., Reference Baldwin, Cave and Lodge2010). It is perceived that the flexibility of the ISM Code makes it difficult for administrative bodies to regulate compliance due to individual vessel designs of their SMS (Batalden and Sydnes, Reference Batalden and Sydnes2014).

The investigation into marine casualties and incidents conducted by Batalden and Sydnes (Reference Batalden and Sydnes2014) noted that, of the accidents they investigated there was a regular occurrence of crew members meeting the requirements of regulations by maintaining the appropriate qualifications required for their line of work. However, the alarming results found that despite certification, crew members lacked the knowledge and skills required to operate the machinery and safely carry out the tasks required. The ships failed to guarantee the competence of the crew members to carry out the operational tasks (Batalden and Sydnes, Reference Batalden and Sydnes2014). These results have proven significantly prominent in recent superyacht fatalities, most notably the M/Y Kibo. The Cayman Island incident report notes the ‘primary cause of this accident was poor working practices on board and a failure to follow the yacht's documented safety management system (SMS) regulations (Cayman Registry, 2019). Injuries and deaths of seafarers in the superyacht industry have been concerningly prominent over the past five years. The Kibo incident occurred as a result of an engineer performing work over the side and not being fixed to a strong point. The individual fell and was struck on the head by the harness being worn. It has been documented that the correct procedures were followed in the lead-up to the accident; permits to work were signed and lookouts were assigned. However, even though the crew members involved were trained deck-rated officers, they still failed to approach the work with the required mindset to ensure safe operation. The crew failed to wear life jackets and rig safety lines for the performing party, despite being advised by the ship's SMS, and failed to attach harness lines to a load-tested strong point (Cayman Registry, 2019).

There has been extensive research on the impact of hours of rest and effective capacity of seafarers. While sharing her experience of a ship voyage on TED Talks, Rose George made a notable statement referring to the maritime industry (George, Reference George2013),‘the average seafarer you're going to find on a container ship is either tired or exhausted, because the pace of modern shipping is quite punishing for what the shipping calls its human element […].’

The reports available on the physical recording of hours of rest all similarly state that seafarers in all divisions of the maritime sector tend to forge or under-report their true working hours on reports (Bhatia, Reference Bhatia2019). In support of this, extensive research by scholars, such as Smith et al. (Reference Smith, Allen and Wadsworth2006), Smith (Reference Smith2007), Allen et al. (Reference Allen, Wardsworth and Smith2008), Jepsen et al. (Reference Jepsen, Zhao and van Leeuwen2015, Reference Jepsen, Zhao, Pekcan, Barnett, van Leeuwen and MacLachlan2017), suggest that a trend has initiated among seafarers where records will be miscounted due to a fear of being made redundant. It has been insinuated that with the introduction of hours of rest requirements via ISM, the lack of adjustment to workloads and deadlines has made record manipulation almost inevitable (Anderson, Reference Anderson2007). However, others have concluded that falsifying of records can be attributed to the strains brought forward by the reduction of crew sizes as well as increased pressure applied by the master (Hjorth, Reference Hjorth2008). Superyachting is an industry that is growing exponentially, with the 2019 global order book suggesting that 830 superyachts over the size of 24 m are currently under construction (BOAT, 2019). With such vast amounts of money invested into building the yachts, management teams look to save costs elsewhere, which typically means the human element suffers. There is an increasing tendency of management companies to reduce the size of the crew by as much as is legally possible (Smith, Reference Smith2007).

The evidence of false documenting of records has been provided in an ATSB (2010) investigation report on Shen Neng 1, which revealed the chief officer had contradictory work records; meaning the hours recorded did not truly reflect those worked. The motivation for such findings has been argued as a link to an increasing demand for satisfying a ship's programme and operational commitments (Pirsch et al., Reference Pirsch, Gupta and Grau2007). The increasing pressure applied on ships, particularly on superyachts, to avoid receiving any nonconformities, notably with regards to PSC, undoubtedly provides a further justification for why work records may be forged (Praetorius and Lützhöft, Reference Praetorius and Lützhöft2011). It is a concept of no surprise to anyone who has worked in the marine industry, and those who have will qualify that nothing stops in the track of the shipowner or management demands.

2.3 Superyacht regulations

The Large Yacht Code (LY3) was jointly developed by the Maritime and Coastguard Agency (MCA) to prevent vessels falling out of the standards required under the merchant shipping regulations of the administration which are guided by the class of vessel they belong to (MCA, 2014). Large yachts do not naturally fall into a specific class and are therefore subject to merchant ship safety standards which layout the requirements of a commercial vessel, from fire systems, to manning requirements, to weathertight doors (Cayman Registry, 2012). The code is recognised to have made significant developments in raising the standards of the superyacht industry and has contributed to the superyacht industry being recognised as a professional sector in the shipping industry. The code is confined to commercial vessels used in sport or pleasure (‘engaged in trade’). Article 5 of the International Convention on Load Lines, 1966 (ICLL) states a vessel which is 24 m or longer in load line length or built before 21 July 1968, and 150 gross tons and over (Cayman Registry, 2012). The code is designed to be enforced by the flag state and maintained by foreign regulatory forces.

Traditional views of crewing in the superyacht industry have often taken the stance that in order to receive high salaries and low living costs, a compromise has to be made in the form of freedom and downtime. Pre-2011, working in the industry required very little in the form of qualifications, with anyone being able to turn up from the land and accept a job onboard. However, the implementation of the MLC, (2006) has led to greater emphasis on an increase in professional standards and better working conditions for the crew (Pelling, Reference Pelling2014). The MLC (2006) brought with it the introduction of Seafaring Employment Agreement (SEA) to provide guidelines for crew living conditions by setting the bare minimum requirements to be available to all crew who fall under the convention. The standard was set with detailing the necessity for repatriation arrangements for crew who have fallen ill or lost their jobs. It also covers the crew members’ basic rights of health protections, medical care, welfare and social security protection (Christensen and Lodge, Reference Christensen and Lodge2016). However, despite the implementation of such labour regulations, reports and surveys still indicate crew persecution and overworking, as seen in a study conducted by seafarers’ welfare, ‘75% of respondents “often” or “always” worked more than contracted hours and this seems to have been more of an issue for the smaller the yacht/crew. Only 5% of respondents received overtime pay’.

The survey additionally concluded that despite the protection of crew rights by MLC (2006), some vessels still breach the terms laid out by MLC (2006), with one individual noting: ‘All yachts have their ups and downs as with any job but my previous boat … fired me for being sick and refused to clarify in writing what was owed to me and what position I was in’ (ISWAN, 2015). Although organisations such as Nautilus International (trade union), Professional Yachting Association (not-for-profit association) and the ISWAN (international maritime charity) are actively helping the yacht service industry to ensure that crew members enjoy the benefits they are entitled to (Beck, Reference Beck2021), it is clear that there are still issues and challenges in the industry that seriously affect crew welfare and well-being (Wyatt, Reference Wyatt2023).

2.4 Port State Control (PSC)

The system of Port State Control (PSC) works fundamentally to ensure that the key conventions for the international regulatory framework for maritime safety are adequately adopted on seagoing vessels. The conventions, to name a few, are: Safety of Life at Sea (SOLAS), International Convention for the Prevention of Pollution from Ships (MARPOL), International Convention on Standards of Training, Certification and Watchkeeping (STCW).

The PSC annual report includes inter alia the deficiencies found, the date of inspection, vessel build year, flag registry and IMO vessel number (Cariou et al., Reference Cariou, Mejia Maximo and Wolff2008, p. 492). The literature produced by the IMO fundamentally bases itself on legislation and its application in the marine industry. The majority of opinions held by the IMO are absolute; maintaining the firm belief that all ships are inspected equally, with the same intensity from each Port State Control Officer (PSCO). The publications provided by the various memoranda of understanding (MoU) (particularly the Paris MoU) adopt a similar view in the full effectiveness of the PSC regime, highlighting PSC functions as a key IMO instrument to implementing the code (III Code) (resolution A.1070(28)) and successfully maintains the standards required of working vessels to prevent increased pollution and safety risks when in operation. The Paris MoU documents ‘consistent compliance’ in the executive summary with statements of: ‘The number of detainable deficiencies has decreased as well to 3,171 (from 3,883 in 2017). The number of inspections carried out was 17,952; this is slightly higher than in 2017 (17,923)’ (Paris MoU, 2018).

The period between 2017 and 2019 saw 17,952 vessels inspected, with only 393 of these being commercial yachts, indicating that 2 ⋅ 2% of the total marine fleet inspected by Paris MoU were commercial yachts.

The publications consequently emphasise that of the 5,000-strong superyacht fleet, only 7 ⋅ 86% have been inspected, therefore potentially allowing substandard vessels to operate throughout coastal waters and potentially conduct substandard practices.

The inspection criteria for the Paris MoU contains the following characteristics:

• • Vessel type (six types), age (more or less than 12 years old),

• • Flag performance (appearance on black/grey/white lists),

• • Recognised organisation (RO),

• • ISM company performance,

• • Inspection or non-inspection within the last 36 months,

• • Number of deficiencies detected (higher or lower than five), and

• • Number of past detentions.

The nature in which superyachts operate allows them to experience reduced levels of inspections due to all of these cited criteria (Barry et al., Reference Barry, Kamen and Hugenot2008). The flags in which yachts are registered allow degrees of freedom from inspection due to the flag coding system. Furthermore, the private practice of yachts allows avoidance of inspection.

Numerous authors have commented on the impact of PSC inspections and have regularly concluded that PSC has raised the general operating conditions of vessels, with particular focus on bulk carriers and merchant ships. Yet, in terms of the impact on seafarers, it has led ships to complying administratively but not practically. Recommendations have been made by Bijwaard and Knapp (Reference Bijwaard and Knapp2009), who suggested developing a Global Integrated Ship Information System (GISIS) where all PSC inspectors are trained to a set standard with a view of using an integrated system, a principle that would function effectively in the detection of substandard operating superyachts. It would reduce the size of loopholes in which ships can escape persecution and still practice sub-standardly, with notable regard to treatment of seafarers.

It is perceived that yachts escape detention due to the nature and point of view they are being inspected from. A superyacht in comparison to a bulk carrier will appear adequately maintained due to the constant upkeep of the vessel and will frequently receive a favourable inspection report. The development of Bijwaard and Knapp's (Reference Bijwaard and Knapp2009) proposed inspection training across all PSCOs will enable maintenance of standardised inspections across all ships, and reduce a potential bias towards superyachts. On the contrary, research by Ravira and Piniella (Reference Ravira and Piniella2016) on the role of PSCO officers established that there is not a distinction in the difference between inspection officer profiles and the number of deficiencies raised. The research was conducted based on different seafaring backgrounds amongst PSCOs, allowing scope for varying disciplines of strategy between ex-master mariners and former chief engineers. The results equally highlighted that mixed teams of PSCO inspectors would increase the accuracy via a variation of opinions provided during an inspection. Their research further found that if an inspection team fails to apply a stringent inspection where the deficiencies are detected, the possibility arises for a vessel in poor condition to receive a favourable inspection. Therefore, granting a vessel a longer period between inspections and allowing an increased chance for ship/ programme deterioration, and, in the worst-case scenario, an incident impacting the safety of personnel or environment. Cariou and Wolff (Reference Cariou and Wolff2015) used the data available at the Swedish Maritime Administration to investigate whether ship characteristics, such as age, type and flag, contribute to the time difference between inspections. The results identified that listed characteristics acted as significant predictors for the likeliness of the next inspection.