Factors Influencing Indigenous Technological Learning and Innovations in the Auto-Mechanic Industry in Nigeria

Nigeria’s economy moves on wheels and the auto-mechanics, in spite of their low levels of education, have kept the various brands of imported vehicles running in an era of harsh economic climate. Local innovations and adaptations are being generated to keep the industry going. It therefore becomes imperative to study the factors that influence these technological learn ing and innovations in the industry. This is with a v iew to encouraging appropriate policy fo rmulat ion in vocational training that will further impact on the industry. The result showed that there was a significant (F=86.70, p < 0.05) difference in the mean rat ings of the factors influencing technological learning and innovations in the industry. These factors include age, sex, period of apprenticeship, level of education, and language of instruction.


Introduction
Technological learn ing has been defined as any process that strengthens the technological capabilit ies for generating and managing technical change [1]. Two categories of learning have been identified [6]. The first consists of the methods by which an individual firm or an economy accumulates a set of skills through education, training and experience. Th is can be by hiring of skills and "learning by doing" [1]. The second is technical change which has been further broken down [13] into: (ⅰ) Elementary learning which involves "learning-by-do ing" and "learning-by-adapting" (ⅱ) Intermediate learning which consists of "learning-by -design" and "learning-by-improved design" (ⅲ) Advanced learning which is "learning-by-setting-up a comp lete production system".
Two types of learning have been identified: non-forma l and formal [20]. It was observed that the growth of small firms rely great ly on the non-formal (learning-by-doing) type especially Africa's small firms wh ich are rooted in crafts apprenticeship. In India, for examp le, informal train ing is recognized as the do minant skill acquisit ion strategy for the majority of workers and this applies to many other economically developing countries [5]. Thus the importance of learn ing was aptly noted [2] by the assertion that: "Techno log ical p ro g ress , in nov ation and eco no mic development are however, correlated not with investment in science or R&D alone, but with learn ing".
The automobile repair industry in Nigeria appears to be at the first level of the above categorization i.e. "learning-by-doing" and "learning-by-adapting". This elementary level of learning was also characteristic of the Industrial Revolution in Britain in the 18 th century before the establishment of theory-based scientific institutions [20].

Indigenous Learning
Indigenous peoples have been defined [12] as (a) "Tribal peoples whose social, cultural and economic conditions distinguish them fro m other sectors of the national community, and whose status is regulated wholly or partially by their own customs or tradit ions or by special laws or regulations".
(b) "Peoples who are regarded as indigenous on account of their descent from the populations which inhabit the country, or a geographical region to which the country belongs, at the time of conquest or colonizat ion or the establishment of permanent state boundaries and who, irrespective of their legal status, retain some or all of their own social, econo mic, cultural and polit ical institutions". Indigenous knowledge has been described as "native ways of knowing" [23]. This knowledge reflect the dynamic way in which the residents of an area have come to understand themselves in relat ion to their natural environment and how they organize that fo lk knowledge of flora and fauna, cultural beliefs and history to enhance their lives [23]. It has been noted [13] that an ominous gap exists between Western and non-Western interpretation of reality with particular reference to school learning. Learn ing happens not just in regimented settings such as schools or in school-aged children [8]. Most learning does not occur in formal learning situations, but mainly informally [15,24]. Thus it was asserted that one's culture programs a person's thoughts, feelings, and actions. The Western approach to African and non-Western education, science and knowledge has thus generally been substitutional rather than inclusive. Th is was noted [9] thus: "… attitude and often the intent of Western education has been that a "primitive" or "decadent" civilizat ion is to be replaced by a more "modern" and "better" one".
It has been observed [18] that central to the learners' cultural and social experiences are the language they use in their everyday interactions. The identity of a people is often intimately related to their language [16]. This notion is further strengthened by the view that language is interwoven with the p rocess of knowledge generation [25]. The experiences of such countries like Japan and Korea where economic and technological developments have been achieved without recourse to European languages is instructive [7]. In fact, studies conducted in several African countries report the negative effects of teaching in foreign languages [3]. It has been observed that Kenya's educational system has not been able to tailor its content and pedagogy to the socio-economic and cultural realities of its people capable of developing local solutions for local problems [19]. Similar conditions are obtainable in Tanzan ia and other African countries. Th is has been succinctly expressed [22] thus: "…we believe that it is important to broaden the concept of education to include all systems of knowledge, with recognition of the value of indigenous or local knowledge within the education process".
Consequently, modern African education has come to be characterized by unabashed imitativeness with little attempt of domesticating the Western-type education [17]. The above situation has been leading to devaluation or annihilat ion of African creat ivity, agency and value systems [20].
There is no doubt that the vast majo rity of African auto-mechanics have little or no formal education. In essence, they have had to rely more on the non-formal indigenous method of learn ing which has kept the industry going. This has been manifested further in ingeniously coining of names for automobile tools and engine parts. The objective of this study, therefore, is to assess the factors influencing technological learn ing and innovations in the auto-mechanic industry in Southwestern Nigeria.

Methodology
It has been postulated [11] that an indiv idual with skills requires an organization or institution, and purpose to express himself. Furthermo re, as a nation's population grows there is a growth of labour force wh ich is essentially unskilled. The unskilled labour pass through a period of training wh ich may be subject to age or educational background at the point of entry into apprenticeship. The resultant effect at the end of training or apprenticeship is the growth of the stock of skilled labour. The conceptual framework for this study takes its basis from the above statement.
The study covered auto-mechanics in Southwestern Nigeria specifically Osun, Ogun and Lagos states. The respondents were master mechanics, journey men and mechanic apprentices. Questionnaire were administered by hand delivery in a person-to-person mode using research assistants who had been trained before proceeding to the field. A total of 712 copies of questionnaire were administered out of which 385 (54.07%) were ad min istered to master mechanics and 327 (45.93%) to journeymen and apprentices. The questionnaire co mprised of both structured and unstructured questions. The questionnaire elicited such informat ion as age, sex, period of apprenticeship, level of education, and language of instruction.
Data obtained were analy zed using descriptive statistics such as percentages, frequencies, and means on the one hand; and inferential statistics such as analysis of variance (ANOVA) by employing Standard Package for Social Scientists (SPSS). Post-hoc tests were carried out using Duncan Multiple Range Test.

Language of Instructi on of Master Auto-Mechanics
Tables 1 and 2 depict the language of instruction used to train the master auto-mechanics during their period of apprenticeship, and the med iu m of instruction they were using to train their own apprentices respectively. Most (96.32%) of the master mechanics were trained using the Yo ruba language as a mediu m of instruction. About 97.9% of them also employed the same language to train their own apprentices. This is not unexpected since most of the master craftsmen and the apprentices had low Western academic qualifications.
Most (90.82%) journeymen and apprentices indicated that they preferred the Yoruba language as the language of instruction in the auto-mechanic trade (Table 3) wh ile only 4.08% preferred the English language for instruction. Co mprehension and learning are easier when a person is instructed in his own language. This has been attested to by findings in East Asia where Japanese and Chinese students were first instructed in their own indigenous languages [4]. It has been observed [4] that in virtually all the advanced countries of the world, children are first and foremost educated in their mother tongue, USA, Britain, France and Germany being typical examples. This has no doubt aided understanding and assimilation of technology in those countries.

Factors that Ai d Apprentices' Learning
The factors that aid apprentices' learning as perceived by master mechanics are presented in Table 4. Five of the major factors include age, sex or gender, period o f apprenticeship, education and language of instruction. The factors were the Auto-M echanic Industry in Nigeria examined on a 5 -point Likert scale with strongly agree assigned 5 points and undecided assigned 0.
There was a significant (F =86.70, p< 0.05) difference in the mean ratings of these factors. However, the mean ratings of older apprentices learning better (4.49), male apprentices learning better (4.89), staying longer and learning better (4.59), Yoruba language aiding learning (4.99), p idgin English aiding learning (4.20) and English language aiding learning (4.57) were significantly the same. It can thus be inferred that the master mechanics agreed that older apprentices (above 18 years) learned better; that male apprentices learned better; that the longer the period of apprenticeship, the better the knowledge acquired by the apprentices. This compares well with the learn ing curve theory that states that the longer a person performs a task, the better he gets at it. So me of the auto-mechanics believed that as apprentices stay longer with their masters, they acquire more tacit knowledge fro m some uncommon challenges which enrich their skills. This has been corroborated by the observation that among the several channels of learning in Nigerian firms, apprenticeship system of train ing plays a crucial role [21]. Similarly, the learning triangle has been observed to consist of theoretical, vocational, and experimental forms [10]. Learning, in the African context, is thus largely tacit in nature, with the master craftsman passing on knowledge to the apprentices. These ultimately assist the latter in building up their confidence on the job. The importance of tacit knowledge to national economic development has similarly been reaffirmed in Greece [26]. It was observed that the human resource potential is not a simp le outcome of the education system but a web of complex process that involves tacit knowledge, learn ing by doing and on-the-job training.     It can also be inferred that they strongly agreed that Yo ruba as a language of instruction aids apprentices' learning; and that Pidgin English as well as English language aid apprentices' learning. However, the latter two factors do not appear plausible as the frequencies of responses were low.
Similarly, such factors as younger apprentices below 18 years learning better (3.43), staying shorter and knowing less (3.95), no formal education extending learn ing period (3.62), primary school leavers learning better than those without formal education (3.87), JSS (Junior Secondary School) 3 apprentices learning better than primary school leavers (3.04), SSS (Sen ior Secondary School) 3/WASC (West African School Certificate) holders learning better than JSS3 (3.05), and technical college apprentices learning better than SSS3/WASC (3.96) are significantly the same (F = 86.70, p < 0.05). The master mechanics partially agreed that younger (below 18 years) apprentices learn better; shorter period of the Auto-M echanic Industry in Nigeria apprenticeship means knowing less; having no formal education extends learning period; and primary school leavers learn better than apprentices with no formal education. There was no significant difference in the level of agreement (F = 86.70, p < 0.05). In the same vein, they partially agreed that apprentices with JSS3 certificates learn better than those with primary school certificates; holders of SSS3 learn better than those with JSS3; and technical college graduates learn better than apprentices with SSS3 cert ificates. However, master mechanics also disagreed that female apprentices learn better (2.60) than male apprentices.
The other factors such as NDE (National Directorate of Emp loy ment) apprentices learn ing better than technical college graduates (1.86), NCE (Nat ional Certificate of Education) apprentices learning better than technical college graduates (1.25), polytechnic graduates learning better than NCE graduates (1.00) and university graduates learning better than polytechnic graduates (0.71) were also significantly the same (F =86.70, p< 0.05). Th is suggests that the master mechanics strongly disagreed that NDE apprentices learn better than technical college apprentices; and strongly disagreed also that NCE apprentices learn better than technical college apprentices. Similarly, they strongly disagreed that polytechnic apprentices learn better than NCE apprentices, and strongly disagreed also that university apprentices learn better than polytechnic apprentices. Table 5 presents technological learning among skilled workers, journeymen and apprentices. In the table, the skilled wo rker is distinguished from the journeyman and apprentice. The skilled worker, is a master mechanic in his own right, but working with another master mechanic who owns a workshop because he does not own one presently, whereas the journeyman is a fresh or stale graduate without a workshop still working under his own master or another master. A total of 327 people were interviewed in this category though responses varied. The breakdown as shown in Table 5 revealed that 2.82%, 26.02% and 71.16% of these were skilled workers, journey men and apprentices respectively. Majority (71.15%) had not graduated from their masters and most (61.98%) of them signed a period of apprenticeship of between 3 and 4 years. Similarly, majority (47.18%) of the skilled workers and journeymen spent between 3 and 4 years under their masters to learn auto-mechanic work. Table 6 depicts the mode of learning and language of instruction employed by their masters. The system of learning was mostly (99.54%) on-the-job and this comprised main ly of watching the master working (24.47%), watching the senior apprentices working (23.35%), carrying out small tasks (24.34%), d ismantling and coupling of engine parts (16.48%), as well as verbal instructions from masters and seniors (11.36%).   Most (86.82%) apprentices paid their masters to learn auto-mechanic work and the language of instruction adopted mostly (91.97%) by their masters was Yoruba language. In a similar vein, majority (93.81%) of the skilled workers and journeymen learnt auto-mechanic on-the-job (Table 7).

Technol ogical Learning Among Skilled Workers, Journeymen and Apprentices
These were mainly through learning-by-doing activities such as tightening and loosening (22.16%), dis mantling and assembling (15.34%), and observing their masters (22.44%). Their mode of apprenticeship was majorly (90.11%) by paying a learning fee to their masters. Most (85.87%) of the Auto-M echanic Industry in Nigeria them were not paid daily stipends by their masters. While some masters did not collect any fee, some masters claimed they did in order to secure commit ment fro m the apprentices. The above facts showed that learning in the auto-mechanic trade tended to be more of tacit by master mechanics, skilled workers and apprentices.

Conclusions
The study concluded that the Yoruba language played a major role in aiding technological learn ing for both master mechanics and apprentices in the study area. This was actually the preferred language of learning and instruction. The imp licat ion of the above is that the instructors (master mechanics) are able to co mmunicate better, wh ile the learners (apprentices) are able to assimilate better. Older apprentices (above 18 years) were reckoned to learn better than younger ones, while longer stay of apprenticeship was agreed to engender better learning. Age, no doubt, plays a crucial role in learn ing as young people tend to mature as they grow older. Young apprentices generally spend longer periods in their apprenticeship. As the period of apprenticeship increases, learners could co me across greater challenges which they might not have encountered if their periods of apprenticeship had it been shorter. It was partially agreed that lack of formal education extends learning period and that apprentices with formal education learn better than those without. It has therefore beco me imperative to encourage formal education in the auto-mechanic trade before embarking on apprenticeship.

Policy Recommendations
(i) In view of the above findings it is reco mmended that indigenous language be encouraged as a mediu m o f learning especially in informal vocational learning. This is even mo re so as both the master mechanics and apprentices preferred this.
(ii) Apprentices should be encouraged to acquire basic formal education before embarking on apprenticeship in a craft or trade. The study has shown that apprentices with basic formal education were rated as possessing greater capability to understand auto-mechanic learn ing.
(iii) Technical education could better enhance vocational competence among the auto-mechanics. It is therefore recommended that a dual apprenticeship scheme (DAS) be introduced to achieve this. DAS would ensure a good balance between theory and practice among the auto-mechanics, a situation that could enrich learn ing and enhance competence.