Profile of Polycyclic Aromatic Hydrocarbons in Soil Environment around Selected Auto-Technicians’ Workshop in ObioAkpor, Rivers State Nigeria

A study on the storage and disposal practices of spent oil from Automobile workshops in ObioAkpor Local Government Area of Rivers state was con-ducted to determine the levels of polycyclic aromatic hydrocarbons (PAHs) in soil samples. Questionnaire was administered and a total of 150 autotechnicians were sampled. Taro Yamani formula was used to determine the sample size. Soil samples were collected at depths of 0 - 15 cm from 8 randomly selected sites and analyzed for PAH. Control consisted of a similar soil with no history of spent oil-contamination. Results showed that autotechnicians had little or no formal education. Only 51% of respondents had second-ary/technical education. 94% of the study population disposed of their generated spent oil in various types of containers before disposal. 94% disposed of their spent oil by selling. 60% of the autotechnicians were not aware that spent oil was hazardous. More so, 76% were not aware that spent oil could be recycled. Analysis of soil samples showed that mean concentration of PAH was lower than the DPR standard in all locations. Control values did not show any consistent pattern when compared with the test values in all locations. Soil contamination by PAH in the study area ranged from minor to se-vere. The automobile workshops pose potential sources of PAH pollution. The study to control the management of spent oil.


Introduction
Autotechnician's workshops, popularly called "mechanic" workshops in Nigeria, perform a very important role in the transportation industry in Nigerian economy since they provide services to vehicle and road users. Again, being a developing country, Nigeria patronizes many fairly-used vehicles, thus increasing patronage of auto-technicians on a daily basis especially by commercial motorists.
Some of their activities include battery replacement, changing of oil and oil filters, general servicing, etc. As a result of these activities, they generate some wastes that include spent oil, old batteries, brake pads and linings, and tyres. All these wastes, and more, have the ability to contaminate the environment if not collected, stored, segregated and disposed of with care. Should this happen, it will cause pollution of the environment leading to serious health effects in plants and animals, including man.
Although there is no current data on the annual volume of spent oil generated in Nigeria, a large amount is generated each year in automobile workshops when engine oil is changed. There are an increasing number of motor vehicles all over the world; and this has led to the increased generation of spent oil. According to data released by the Nigeria Bureau of Statistics (NBS), Nigeria had 11.5 million vehicles as in the first quarter of 2017 [1]. A pilot study of spent oil generated in 2004 gave an estimated annual volume of 200,000,000 litres in Nigeria [2]. Spent oil can thus be described as a cocktail of toxic compounds. By its very nature of being sticky and heavy, it lingers and accumulates in the environment for long periods of time [3]. It is for this reason that legal frameworks on proper management of spent engine oils are put in place in most developed countries. This ensures that automobile workshops in these countries manage the spent oil they generate optimally.
Unfortunately, there are no such laws, regulations and standards in developing countries, such as Nigeria, to guide the activities of motor vehicle repair workshops [4]. The objectives of this study therefore, include assessing storage and disposal practices for generated spent engine oil among automobile workshops in Port Harcourt, evaluating the knowledge of health and environmental hazards of spent oil among auto-technicians and ascertaining level of polycyclic aromatic hydrocarbons around automobile workshops.

Study Area and Research Design
The study was carried out in September, 2018 in ObioAkpor Local Government Area (LGA) in Rivers state. ObioAkpor LGA is located between latitudes 4˚45'N and 4˚60'N and longitudes 6˚50'E and 8˚00'E ( Figure 1). It is bounded by Ikwerre LGA to the north, Port Harcourt LGA to the south, Oyigbo LGA to the east, and Emohua LGA to the west. The study adopted a cross-sectional design and employed the use of a structured questionnaire and laboratory analysis of collected soil samples from selected automobile workshop environment. LGA. Eight (8) randomly selected communities (Choba, Rukpokwu, Trans Amadi, Elimgbu, Mgbuoshimini, Rumuodara, Rumuomasi and Rumuokwuta) out of thirty two (32) communities in ObioAkpor LGA had ninety one (91) automobile workshops with a total of two hundred and forty (240) personnel working in them.
One (1) automobile workshop in each of the 8 designated communities was randomly selected for soil sampling, giving a total of 8 sample areas and three random points were sampled.

Sample and Sampling Techniques
The simple random procedure was adopted at each stage of this study in order to reduce bias and allow all the elements in the sample to have equal or zero chance of being selected. According to the National Population Commission [5], there are thirty two (32) communities that make up ObioAkpor LGA as shown in Figure 1. This was confirmed by a reconnaissance survey by the researcher.
Out of the 32 communities, 8 were randomly selected using the ballot method.
A total of two hundred and forty (240) auto-technicians were identified in the sampled communities ( Table 2). The Taro Yamani [6] formula was used to obtain a sample size of one hundred and fifty (150). Out of the 150 copies of the randomly administered questionnaires, only 144 were retrieved and properly filled, giving a response rate of 96%. Six (6) copies were neither retrieved nor properly filled.
Obtaining the sample size using the Taro Yamani formula is as shown in equation 1: ( )

Demographic Data
The results from demographic data with regards to gender revealed that 96% (138) of the respondents were males while only 4% (6)

Mean Concentrations of PAHs (mg/kg) in Study Samples
The polycyclic aromatic hydrocarbons (PAHs) found in the soil test and control samples as well as the standard recommended by WHO are shown in Table   3.

Storage Practices
In terms of storage practices, 94% (135) of autotechnicians had some form of storage facility for storing the spent oil they generated while 6% (9)

Discussion
The study showed that 96% (138) of the auto-technicians were males while only 4% (6) were females. The low presence of females in this trade may be attributed to the fact that it is an occupation that requires physical strength. This finding is in agreement with that of Omorowa and Agu [7] who found a male percentage of 93% in the auto-technicians population.
Many auto-technicians were not well educated since they have low socioeconomic background. This was confirmed in this study where 51% (74) of respondents had only Senior Secondary or Technical education. Twenty six percent  (37) had only Junior Secondary education, while 23% (33) had either primary education or apprenticeship training. None had any tertiary education. This finding contrasted that of Akpakpavi [4] who found that 5% of auto-technicians had tertiary education, while 74% had primary education or apprenticeship training.
On the issue of storage practices, 94% (135) of auto technicians practiced some form of storage of the spent oil generated while 6% (9) had no storage facility. This storage practice could be attributed to economic reasons as most of the auto-technicians now sell off their generated spent oil for economic gains.
The disposal practices of spent oil by respondents in this study revealed that 94% (136) of auto mechanics sold the spent oil they generated while 2% (3) of respondents poured their generated spent oil on the ground and 4% (5) of population did not disclose their disposal methods. However, Zitte et al. [8] observed that up to 65% of auto-technicians in Port Harcourt disposed of their generated spent oil directly on land. The difference in the findings in the present study may be attributed to the current hard economic realities in the country whereby auto-technicians now preferred to sell what they hitherto disposed of indiscriminately. On this score, Nwachukwu et al. [3], Akpakpavi [4] and Zitte et al. [8] noted that there are sundry re-use practices concerning spent oil. Those who practice these re-use methods usually buy the spent oil from the auto-technicians. Such re-use practices include, but not limited to, use as boiler fuel in industries, weed control, use for wood preservation against termites, rust prevention for motor spare parts, etc. Most of these practices are not environmentally-friendly.
On the awareness of hazards of spent oil, only 40% (57) said that they were aware of the environmental and health hazards of spent oil. The remaining 60% (87) were not aware of these hazards. This finding is in agreement with Zitte et al. [8] who found that only 30% of respondents were aware of the dangers of spent oil. This lack of awareness by the majority of auto-technicians may have The findings on the awareness of recycling for generated spent oil, showed that 76% (109) of respondents were not aware that spent oil could be recycled.
The finding agrees with that of Omorowa and Agu [7] who found 63% and attributed it to lack of awareness.
Mean PAHs concentrations ranged from 214.83 mg/kg to 537.22 mg/kg. The lowest mean concentration was obtained in Trans Amadi sample point while the highest mean concentration was obtained in Rumuodara. However, these mean values did not follow any pattern but were lower than the WHO limit for PAHs which is 1 mg/kg (1000 µg/kg), as reported by Nwaichi et al. [9]. A number of polycyclic aromatic hydrocarbons are potentially toxic and carcinogenic following prolonged exposure via soil and food crops contamination. They can also cause kidney and liver diseases as reported by Nwaichi et al. [9].

Conclusion
Indiscriminate storage and disposal of spent oil, as practiced by the autotechnicians negatively impacts soil property which will in turn affect use and function.
Topsoils in studied automobile workshops contained PAHs resulting majorly from the poor handling of spent oil by the auto technicians. This may have a lot of negative health implications for plants and animals, including man who deals directly or indirectly with the environment. The mean concentrations of PAHs were much higher than the set WHO standards for PAHs in soil. The study therefore recommends that Government should enact and enforce legislations for the comprehensive management of spent oil from generation, collection, storage, disposal to recycling. They should also organize awareness programmes to improve uptake of learning. This may be done in partnership with the private sector and could include the establishment of spent oil collection centres in each local government area in the country. This will enable the autotechnicians to sell their generated spent oil to state-owned or private recycling plants. This in turn will create jobs for the teeming masses of our unemployed youths, alleviate poverty and improve the quality of the environment.