Developing entrepreneurial competencies in higher education: a structural model approach

Raquel Ferreras-Garcia (School of Business and Economics, Universitat Oberta de Catalunya, Barcelona, Spain)
Jordi Sales-Zaguirre (School of Tourism and Hospitality Management Sant Ignasi, Universitat Ramon Llull, Barcelona, Spain)
Enric Serradell-López (School of Business and Economics, Universitat Oberta de Catalunya, Barcelona, Spain)

Education + Training

ISSN: 0040-0912

Article publication date: 22 March 2021

Issue publication date: 1 June 2021

7140

Abstract

Purpose

The aim of this article is to propose and test a structural model of relationships between generic and specific competencies and entrepreneurial competencies in order to assess students' learning.

Design/methodology/approach

The study was carried out on a sample of 337 students enrolled on the entrepreneurship specialisation of the final bachelor's degree project course on the Bachelor's Degree in Business Administration and Management at the Universitat Oberta de Catalunya. A questionnaire was designed to gather information on students' perception of their level of acquisition of the different groups of competencies. The partial least squares (PLS) multivariate technique was used to analyse the model.

Findings

The results confirm that there are significant relationships between the different groups of competencies. Specifically, it shows that generic competencies influence specific competencies and that there is a strong relationship between systemic and professional competencies and entrepreneurial competencies. It also shows that the experience variable contributes positively to different competency groups, while the gender and age variables have no effect on the development of entrepreneurial competencies.

Practical implications

The study provides relevant information to the academic world on different factors that affect competency development.

Originality/value

The analysis provides an innovative research and contributes knowledge on entrepreneurial competency acquisition, providing an answer to whether generic and specific competencies influence entrepreneurial competencies.

Keywords

Citation

Ferreras-Garcia, R., Sales-Zaguirre, J. and Serradell-López, E. (2021), "Developing entrepreneurial competencies in higher education: a structural model approach", Education + Training, Vol. 63 No. 5, pp. 720-743. https://doi.org/10.1108/ET-09-2020-0257

Publisher

:

Emerald Publishing Limited

Copyright © 2021, Raquel Ferreras-Garcia, Jordi Sales-Zaguirre and Enric Serradell-López

License

Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) licence. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial and non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this licence may be seen at http://creativecommons.org/licences/by/4.0/legalcode


1. Introduction

Contemporary education has undergone a paradigm shift with regard to students, learning and competencies (Brand-Gruwel et al., 2005). In Europe, the European Higher Education Area (EHEA) places the concept of competency at the centre of the learning process and students at the centre of the education model (Alfantookh and Bakry, 2013; Benito, 2009; Corpas et al., 2007). These changes have led to a new education paradigm with much greater emphasis on competencies over content (Mulder et al., 2005). Incorporating competencies means more than just knowledge transmission; according to the EHEA, it involves a commitment to strengthening the inevitable link between university study programmes and the skills and knowledge required for the professional world. Thus, in this competency-based learning context, academics should ensure that the new EHEA-adapted degrees include the competency profiles prescribed for professional success and achievement (Mir, 2008).

During the last decade, there have been growing interest to highlight the relevance of competence-based education and how it can be designed and implemented (e.g. Biemans et al., 2009; Mulder, 2012; Mulder and Gulikers, 2011; Wesselink et al., 2010). The different approaches aim that education and training programmes will become more practice-oriented and relevant for finding or creating employment.

Mir (2008) points out that incorporating competencies to university degrees is a basic element of training in a changing society that reformulates its demands constantly and that, at the same time, aims to professionalise the university education, bringing the university closer to the society and the workplace.

In order to establish a bridge between the worlds of education and work, 14 years ago, the European Commission identified sense of initiative and entrepreneurship as one of the eight key competencies necessary for a knowledge-based society (Bacigalupo et al., 2016). The development of the entrepreneurial capacity of European citizens and organisations is one of the key policy objectives for the EU and Member States. The EntreComp Framework report (Bacigalupo et al., 2016) builds upon a broad definition of entrepreneurship as a competence that hinges on the creation of cultural, social or economic value. Developing a reference framework with learning outcome descriptors is one of the measures identified by the European Commission to support the promotion of the entrepreneurship competence across the world of education and work.

Within the field of business studies, the scientific literature has extensively discussed how important it is for future business practitioners to acquire entrepreneurial competencies (Carrier, 2009; Lans et al., 2008; Sánchez, 2011; Taatila, 2010).

The literature on entrepreneurship highlights the need for a better understanding of related competencies (Unger et al., 2011). One of the main aims in this field, and one in which universities play a key role, is to develop entrepreneurial competencies, which are especially relevant to company growth and success (Faggian and McCann, 2009; Mitchelmore and Rowley, 2010; Sánchez, 2011) and economic development (Bosma and Kelley, 2019). The issue of measuring entrepreneurial competencies is central to both research and practice. Thus, if the aim is to develop entrepreneurial competencies, then it should be possible to measure them before and after an intervention and prioritise competencies that benefit individual development.

The growth of entrepreneurship education has led to a rise in the number of studies focussing on entrepreneurial competencies with different thematic. For example, Mitchelmore and Rowley (2010) undertake a literature review of research on entrepreneurial competence, Barazandeh et al. (2015) investigate the effect of entrepreneurial competencies on business performance, while Morris et al. (2013) investigate the competencies necessary for entrepreneurial action, Man and Lau (2000) and Man et al. (2002) develop conceptual models in order to link entrepreneurial competencies and small and medium-sized enterprises (SME) performance and competitiveness, Rasmussen et al. (2011) and Sánchez (2011) focus on how develop entrepreneurial competencies to create new ventures within an academic environment, and Tounés et al. (2014) investigate the effects of business plan on the entrepreneurial competencies of students.

Among the range of studies looking at entrepreneurial competencies in a variety of contexts in recent years, there has been a significant increase in structural model-based analyses (e.g. Lawal et al., 2018; Mamun et al., 2016; Mohsin et al., 2017; Ng and Kee, 2018; Rahman et al., 2016; Sánchez, 2012; Tehseen et al., 2019; Tehseen et al., 2020; Umar et al., 2018). However, all such studies share a common point: they all focus on the professional environment.

Due to the importance of competencies not only in education but also in society and workplace, it is necessary to deeper analyse them. As López-Bonilla and López-Bonilla (2014) point out, currently, much attention is being paid to the concept of competence in the EU, both in vocational-technical and in higher education and there is a growing academic interest in the nature of competence. But a few of them match in analysing the relationships among competencies, so there is a significant gap in highlighting these relationships and moreover using the PLS methodology. The present study aims to propose and empirically contrast a structural model of relationships among competencies. In this respect, what type of competencies should be studied? A literature review suggests generic and specific competencies.

Although such studies exist in academic environment (e.g. Frasquet et al., 2012; Gómez et al., 2017; López-Bonilla and López-Bonilla, 2014; Villardón-Gallego et al., 2013), none do so in the field of entrepreneurship education. Thus, we have found no model that attempts to understand relationships between academic competencies in entrepreneurship education.

This study aims to establish empirically whether generic and specific competencies influence entrepreneurial competencies. Providing an answer to this question would help fill the limited attention received in the literature and contribute knowledge on entrepreneurial competency acquisition in a context as relevant as entrepreneurship education. The results from the study will also help academics implement strategies to improve the field of entrepreneurship education and foster new projects and company start-ups.

2. Literature review and research model

2.1 Generic and specific competencies

The concept of competency is widely accepted in higher education and has been studied by numerous researchers (e.g. Brockmann et al., 2008; Gallifa and Garriga, 2010; Le Deist and Winterton, 2005; Morris et al., 2013; Mulder et al., 2005; Zawacki-Richter et al., 2011). Competencies integrate aspects of personality and behaviour and are a composite of knowledge, skills, attitudes and personal qualities in a specific professional environment (Frasquet et al., 2012; Lans et al., 2011; Nab et al., 2010). Assessment of competencies acquired during higher education has become a focus of analysis in many countries (Lincoln and Kearney, 2015).

Implementation of the EHEA has imposed the explicit incorporation of competency learning and assessment in curricula. Indeed, in Europe today, universities follow EHEA directives and thus include competencies in their programmes of study to narrow the gap between universities and society and train graduates to meet the needs of the labour market. The EHEA considers degree programmes to be comprehensible and comparable if they provide graduates with similar professional success and academic and professional profiles, and a point of inflection is reached when programmes are designed around professional competencies.

Particularly relevant in Europe is the Tuning Project (González and Wagenaar, 2006), which stresses the need for programmes of study to include the competencies required by future graduates. According to the Tuning Project (González and Wagenaar, 2006, p. 255), “Competencies represent a dynamic combination of cognitive and meta-cognitive skills, knowledge and understanding, interpersonal, intellectual and practical skills, and ethical values. Competencies are developed in all course units and assessed at different stages of a program”.

The Tuning Project distinguishes between two types of competencies: generic and specific. The White Paper on Economics and Business Studies (ANECA, 2005) includes this classification in the reform of university bachelor's degrees so that these competency groups are differentiated in different degrees (Escudero, 2008).

Generic competencies are interdisciplinary and common to all degree programmes, these competencies must be acquired by the students, regardless of the courses they take. They basically refer to organisational capacity and individuals' relationship with their environment. The White Paper classifies the generic or transversal competencies into three categories: instrumental, interpersonal and systemic. Villa and Poblete (2007) detail the contents of generic competencies:

  1. Instrumental competencies are a combination of manual skills and cognitive capabilities that facilitate professional competence. They include skills in managing ideas and the environment where people cope, craftsmanship, physical prowess, cognitive understanding, language skill and academic achievements.

  2. Interpersonal competencies refer to personal and relational skills. They are related to the ability for acting with generosity and sympathy towards others. These skills involve capabilities of objectification, identification and reporting of one's own and others' feelings and emotions, which favour cooperation and social interaction processes.

  3. Systemic competencies are related to the ability to adopt a global vision and relate and integrate different dimensions. These competencies include ability for planning changes that introduce upgrades in the globally understood systems and for designing new systems. They also require the previous acquisition of instrumental and interpersonal competencies.

Specific competencies relate to the areas of knowledge and professional profile of the degree programme, providing identity and coherence to the programme of study. The specific competencies are the set of scientific, technological and cultural wisdom and resources that the student must achieve (López-Bonilla and López-Bonilla, 2014). As stated in the White Paper on Economics and Business Studies (ANECA, 2005), specific competencies can be divided into disciplinary and professional competencies. Disciplinary competencies are based on facts, rules, concepts and theories, while professional competencies basically refer to procedure and involve knowledge of sets of steps, rules and actions aimed at obtaining a result or knowing how to do something.

A few studies have analysed the relationship between different types of competencies, although there is still very little research on the topic. López-Bonilla and López-Bonilla (2014) suggest a structural model for relationships between academic-professional competencies as a means of understanding how generic and specific competencies relate in university studies in the field of tourism. Their results confirm that such a relationship does exist between generic and specific competencies. Moreover, Villa and Poblete (2007) found that instrumental and interpersonal competencies are acquired before systemic competencies. Gómez et al. (2017) in their study construct an empirical model to identify and assess students' generic competencies in social science internships, while Virtanen and Tynjälä (2019) identify what kinds of pedagogical practices are behind the learning of some generic skills.

This type of analysis is yet to be carried out in the field of entrepreneurship education. One question still to be answered is whether different groups of competencies can influence the development of entrepreneurial competencies. Answering this question would extend our knowledge of the factors affecting the acquisition of a group as important as entrepreneurial competencies. Thus more empirical evidence is needed to provide academic tools to develop appropriate strategies for improving the development of the different groups of competencies.

2.2 Entrepreneurial competencies

Currently, in the context of entrepreneurship, entrepreneurial competencies are a particularly relevant research field. As with the concept of generic competency, there is a wide range of definitions in the literature, which gives an idea of the scale of the term.

Due to the heterogeneity in definitions and competence frameworks in the field of entrepreneurship education, literature and practice still illustrate much confusion about what should be taught in academic entrepreneurship courses and which competencies need to be developed (Tittel and Terzidis, 2020). These authors made an in-depth review of entrepreneurial competencies dates back to the year 2008 by Mitchtelmore and Rowley by condensing the entrepreneurial competencies mentioned in the literature and developing a list of them. As a result, the study illustrates that the authors Bird (1995), Man et al. (2002) and Mitchelmore and Rowley (2010) are identified to be of vital importance not only about the definitions but also for categorization and the listing of entrepreneurial competencies.

The definitions given by these recognized authors are: Entrepreneurial competencies have been identified as a specific group of competencies relevant to the exercise of successful entrepreneurship (Mitchelmore and Rowley, 2010); entrepreneurial competencies are defined as underlying characteristics such as generic and specific knowledge, motive, traits, self-images, social roles and skills which result in venture birth, survival and/or growth (Bird, 1995); entrepreneurial competencies are considered a higher-level characteristic encompassing personality traits, skills and knowledge and therefore can be seen as the total ability of the entrepreneur to perform a job role successfully (Man et al., 2002).

Lans et al. (2018) move forward contributing to the debate on the concept of entrepreneurial competence. They propose to cluster entrepreneurial competencies in four competence domains, including a cognition-orientated, function-oriented, social-oriented and meta-oriented domain.

From the policy studies, the EntreComp Framework report (Bacigalupo et al., 2016) defines entrepreneurship as a competence, which applies to all spheres of life: from nurturing personal development, to actively participating in society, to (re)entering the job market as an employee or as a self-employed person and also to starting up ventures (cultural, social or commercial).

Moreover, entrepreneurial competencies have been recognised as significant factors that lead to improvements in business performance and company growth and success (Bird, 2002; Chandler and Hanks, 1994; Rahman et al., 2016; Van Praag and Versloot, 2007).

One of the key points in entrepreneurship is identifying the competencies required of entrepreneurs. Identifying entrepreneurial competencies is important because it enables both organisations and higher education institutions to develop them and improve their quality. Mitchelmore and Rowley (2010) proposed a list of competencies in order to establish a framework of, or list of key entrepreneurial skills, based on the work of researchers in this field (e.g. Baum and Locke, 2004; Chandler and Hanks, 1994; Man et al., 2002; Smith and Morse, 2005). Their framework categorises the key competencies into four groups: entrepreneurial competencies, business and management competencies, human relations competencies and conceptual and relational competencies. Other authors have proposed different typologies for the competencies required for entrepreneurship. These include skills such as problem-solving, decision-making, teamwork, risk-taking and tolerance of uncertainty, controlling emotions, creativity, results orientation, autonomy, negotiation, communication, perseverance and initiative (Jeffrey and Spinelli, 2007; Kirby, 2004).

More recently, the number of studies examining entrepreneurial competencies has grown considerably. However, these studies mostly focus on the relationship between entrepreneurial competencies and the business world, mainly analysing these relations by constructing causal models. Some of the main themes examined are identifying, validating and comparing competencies required by business owners (Rahman et al., 2016); analysing the role of entrepreneurial competencies in company performance (Mamun et al., 2016; Ng and Knee, 2018) and in organisational capacity and competitiveness (Sánchez, 2012); examining the influence of different dimensions (strategy, ethics and networking) in entrepreneurial competencies on the growth of SME (Tehseen et al., 2019); and researching relationships between entrepreneurial competencies and innovative performance in SME (Mohsin et al., 2017).

Thus, although the concept of competency is central to the field of entrepreneurship (Loué et al., 2008) and has been identified as an integral part of the dynamic learning process (Lans et al., 2008), its relationship to entrepreneurship teaching has rarely been considered (Lans et al., 2008; Sánchez, 2011). Teaching entrepreneurship provides students with an educational foundation for developing entrepreneurial competencies (Sánchez, 2011) and allows these competencies to emerge (Sitzmann et al., 2010).

As Loué et al. (2008) point out the pedagogy implemented to develop these competencies is fundamentally important. Although many different and varied teaching typologies exist (Lautenschläger and Haase, 2011; Pittaway and Edwards, 2012), the most prevalent typology currently in use includes the development of business plans (Carrier, 2009; Honig, 2004). The benefits and effectiveness of this business plan-based pedagogy on developing and improving entrepreneurial competencies have been shown by previous research (Ferreras-Garcia et al., 2019, 2020a, b; Honig, 2004; Nowiński et al., 2019; Peterman and Kennedy, 2003; Sánchez, 2011; Tounés et al., 2014).

However, to our knowledge, there are no studies identifying and assessing the academic factors, such as other typology of competencies, that could influence students' acquisition of entrepreneurial competencies. Thus, more research is needed on these competencies in the academic university environment to attempt to answer questions that might help generate effective acquisition of this important group of competencies. The framework could be used as a basis for the development of curricula and learning activities fostering entrepreneurial competencies.

2.3 Research model

Our aim is to analyse relationships between different groups of competencies, with special emphasis on relationships between generic and specific competencies and how these impact on entrepreneurial competencies.

Both competence types (generic and specific) are distinguished within the context of the subject of the final bachelor's degree project course on the entrepreneurship specialisation on the Bachelor's Degree in Business Administration and Management at the Universitat Oberta de Catalunya. This is a compulsory subject of the last year of the degree curriculum that treats with various areas of knowledge, such as business, economics, management, human resources, finance and marketing. The methodology of the final bachelor's degree project allows students acquiring the generic and specific competencies expected, moreover due to that this subject is the last developed by students in their degree, the achievement of the competencies is ensured. The final bachelor's degree analysed is specifically a Business Plan project. Which is structured as follows:

  • Phase 1: Identification and justification of the topic or project.

  • Phase 2: Analysis of the general and specific environment.

  • Phase 3: Preliminary design of the business model, following the lean startup methodology.

  • Phase 4: Marketing plan.

  • Phase 5: Resource and operations plan.

  • Phase 6: Financial plan.

  • Phase 7: Definitive design of the business model. Final memory.

  • Phase 8: Defence of the project before an evaluation tribunal.

The definition of our model stems from the work by López-Bonilla and López-Bonilla (2014). Similarly, Berdrow and Evers (2011) recognise the hierarchical nature of competencies; hence, from the academic perspective, it makes more sense to assume generic competencies are acquired before specific competencies, bearing in mind that students have yet to finish their studies. In addition, as Villa and Poblete (2007) stated, systemic competencies require prior acquisition of instrumental and interpersonal competencies. We also consider professional knowledge to be part of procedural knowledge. Entrepreneurial competencies refer to the study of specific topics to culminate in producing a business plan; thus, it is our understanding that previous competencies facilitate the development of entrepreneurial competencies. Finally, the model also includes students' experience, as this variable may affect their competency acquisition (Ferreras-Garcia et al., 2020a; Jansson et al., 2019; Peterman and Kennedy, 2003). Experience is defined as a set of items related to students' prior experience. It is included at the start of the model, as it is a characteristic existing prior to producing the final bachelor's degree project. Previous studies have shown that gender (Kakkonen, 2011; Komulainen et al., 2009; Nowiński et al., 2019; Villasana et al., 2016) and age (Schulz and Starnov, 2010) could affect learning outcomes. So finally, we have included gender and age as control variables in order to analyse if they have any kind of effect over entrepreneurial competencies.

Hence, the following hypotheses are posited:

H1.

Experience is positively related to instrumental competencies.

H2.

Experience is positively related to interpersonal competencies.

H3a.

Instrumental competencies are positively related to systemic competencies.

H3b.

Interpersonal competencies are positively related to systemic competencies.

H4.

Systemic competencies are positively related to disciplinary competencies.

H5a.

Systemic competencies are positively related to professional competencies.

H5b.

Disciplinary competencies are positively related to professional competencies.

H6a.

Systemic competencies are positively related to entrepreneurial competencies.

H6b.

Disciplinary competencies are positively related to entrepreneurial competencies.

H6c.

Professional competencies are positively related to entrepreneurial competencies.

H7a.

The relationship between systemic competencies and entrepreneurial competencies is positively mediated by disciplinary competencies.

H7b.

The relationship between systemic competencies and entrepreneurial competencies is positively mediated by professional competencies.

H7c.

The relationship between systemic competencies and entrepreneurial competencies is sequentially and positively mediated by disciplinary and professional competencies.

Figure 1 summarises the research model and hypotheses. The mediating hypotheses are not included in the figure, as they are defined in terms of the mediation by multiple variables.

3. Method

3.1 Sample and data collection

The study was carried out on a sample of 337 students enrolled on the entrepreneurship specialisation of the final bachelor's degree project course on the Bachelor's Degree in Business Administration and Management at the Universitat Oberta de Catalunya during the 2017/2018 and 2018/2019 academic years. The sample consisted of 153 women and 184 men with an average age of 35.2 where the younger student is 23 years old and the older is 62 years old.

A questionnaire was designed to gather information on students' perception of their level of acquisition of the different groups of competencies. It was a self-administered questionnaire and was distributed in the classroom at the end of the semester, when students know the extent to which producing the business plan has contributed to acquiring the analysed competencies. The first part of the questionnaire collected information on the sample, such as gender, age, the student's tutor and the semester. The following parts correspond to the generic and specific competencies obtained from the items included in the White Paper on Economics and Business Studies (ANECA, 2005) and the official report on this particular qualification (UOC Bachelor's Degree in Business Administration and Management). These items have been used by previous research focused on assessing the generic and specific competencies of students enrolled on Economics and Business degrees to analyse the effectiveness of different learning tools, such as business simulation games (Fitó-Bertran et al., 2014; Hernández-Lara and Serradell-López, 2018) and business plans (Ferreras-Garcia et al., 2019, 2020a). These studies conducted Cronbach's α tests to evaluate the internal consistency and reliability of generic and specific competencies, obtaining alpha values above 0.7 (Cronbach, 1942).

The final part of the questionnaire includes four questions to assess the previous experience of the students who took part in the course in terms of previous participation in company creation, management experience, familiarity with industry and the market and previous experience in drawing up business plans. The items are related to factors that could affect the results of the acquisition of competencies. All the items are evaluated using a 5-point Likert scale (from 1 “Strongly disagree” to 5 “Strongly agree”), which is widely used in the scientific literature on competency analysis. The competencies and variables related to experience are described in Table 1.

3.2 Measures

All scales correspond to the competencies and subcompetencies included in the White Paper on Economics and Business Studies (ANECA, 2005) and the official report on this particular qualification, all of which are involved in the bachelor's degree final project on the entrepreneurship course at the Universitat Oberta de Catalunya. The variables of the model proposed are based on these scales of measurements.

We built a measurement scale for each one of the generic competencies. The instrumental competencies construct consisted of 12 items (from IGC1 to IGC12), while the interpersonal competencies construct consisted of 13 items (from PGC1 to PGC13), as did the systemic competencies construct (from SGC1 to SGC13).

In addition, we also built a measurement scale for each one of the specific competencies. Furthermore, due to the purpose of our research, we specifically separated the group of entrepreneurial competencies, which are part of the specific competencies developed during the business plan, as a variable for analysis. Therefore, the disciplinary competencies construct consisted of five items (from DSC1 to DSC5), the professional competencies construct consisted of eight items (from PrSC1 to PrSC8) and the entrepreneurial competencies construct consisted of six items (from ESC1 to ESC6).

The proposed model also included a variable related exclusively to the student's previous experience. This construct consisted of four indicators (from Ex1 to Ex4) and was included in the beginning of the model because experience is a characteristic that students have before acquiring the competencies developed during the course. The experience variable has been analysed in previous studies, although not as a construct but as a dichotomous variable indicating the presence or absence of prior experience in creating a company.

3.3 Data analysis

The partial least squares (PLS) technique was used to analyse the model, using SmartPLS 3.2.9 software (Ringle et al., 2015). The PLS is a multivariate technique to test structural models and a general method to estimate path models with latent variables measured by many items.

We chose the PLS for several reasons. Firstly, the technique is designed for causal-predictive analysis when the problems being analysed are complex and theoretical knowledge is lacking. In addition, the fact that our model consists of composites, along with the high number of indicators and types of relationships, justifies the use of the PLS technique (Rigdon et al., 2017; Sarstedt et al., 2016; Roldán and Sánchez-Franco, 2012). Lastly, the PLS has the advantage of permitting simultaneous analysis of various dependent and independent variables in the sample model.

A PLS model analysis is carried out in two stages: assessment of the measurement model followed by assessment of the structural model. This sequence ensures the construct's measures are valid before attempting to draw conclusions on the relationships between constructs (Barclay et al., 1995).

4. Results

4.1 Descriptive analysis

The descriptive analysis of the data shows that all competencies included in the model received a high appreciation from the students (above 3). The generic competencies that were best valued by students were drawing conclusions (IGC2, 4.475), persistence and perseverance (SGC12, 4.454), finding, identifying, organising and using information adequately (IGC9, 4.448) and relating information or data (IGC3, 4.433). While the most remarkable specific competencies were planning, managing and assessing business projects (PrSC8, 4.353), efficient company or organisation management, understanding the competitive and institutional position and identifying strengths and weaknesses (PrSC5, 4.315) and processing and analysing financial information (PrSC3, 4.303). The entrepreneurial competencies best valued where analysis of the environment (ESC4, 4.128), generating ideas (ESC3, 4.074) and identifying and defining a viable market niche (ESC1, 4.024). Data descriptive are detailed in Table 2.

4.2 Measurement model

In this study, competencies are conceptualised as constructs consisting of the sum of various dimensions, formatively associated with their indicator, a measurement that is validated by previous studies (Clemente-Ricolfe and Escribá-Pérez, 2013; Gómez et al., 2017; López-Bonilla and López-Bonilla, 2014).

The measurement model for the formative constructs is assessed at the level of indicators in terms of multicollinearity and the relevance and significance of the weights.

The analysis began by testing potential multicollinearity between the items (Roldán and Sánchez-Franco, 2012). As the maximum variance inflation factor (VIF) value is 3.051 (Table 3), below the recommended level of 3.3 (Roldán and Sánchez-Franco, 2012; Petter et al., 2007), this confirms there are no multicollinearity problems between the manifest variables of each composite.

Next, the magnitude and significance of the formative indicators were verified (Table 3). The weights provide information on how each indicator contributes to its composite (Chin, 1998; Roberts and Thatcher, 2009) and therefore enables the indicators to be sorted by their contribution (Chin, 1998; Henseler et al., 2009). Table 3 shows that previous participation in company creation (Ex1) and management experience (Ex2) are the most important items in the composition of the experience construct. With regard to generic competencies, applying theoretical decision-making concepts (IGC4), communication (IGC12) and decision-making (IGC1) are the key factors in the instrumental competencies; contracting skills (PGC5) and developing organisational culture management sense (PGC4), followed by competencies related to commitment (PGC13), strategic thinking (PGC9) and reaching agreements (PGC12) represent the most important weights in interpersonal competencies; the skills of working with uncertainty (SGC4) and leadership (SGC7) and, to a lesser degree, persistence and perseverance (SGC12), delegation (SGC5) and creativity (SGC1), are the key factors in the systemic competencies.

With regard to specific competencies, competencies related to generating relevant economic knowledge from data (DSC5), understanding management concepts (DSC1) and understanding how the economy works (DSC4) are the most important items in the composition of the disciplinary competencies construct; business plan preparation (PrSC4) has a considerably greater weight than all other indicators, followed by planning, managing and assessing business projects (PrSC8) and risk management (PrSC1); and, finally, idea generation (ESC3), developing products and services (ESC2) and formulating strategies (ESC6) are the strongest in the entrepreneurial competencies construct.

We demonstrated the significance of the weights through a resampling procedure (bootstrap with 5,000 resamples) to obtain statistical values. Table 3 shows that some indicators are not significant; however, we decided to include them, given that, as Roberts and Thatcher (2009) stated, rejecting them would mean eliminating part of the latent construct composite.

4.3 Structural model

The structural model is assessed in terms of possible collinearity problems, the algebraic sign, magnitude and statistical significance of the path coefficients, the coefficients of determination R2, sizes of the effects f2 and rating the predictive relevance Q2 (cross-validated redundancy) (Roldán and Sánchez-Franco, 2012).

The presence of multicollinearity between the prior variables for each of the endogenous constructs was rated using the VIF value. Table 4 shows the VIF values for each group of competencies. As can be seen, these values are below the ideal maximum of 3.3. Therefore, it may be stated that our model has no problems of multicollinearity.

Figure 2 and Table 5 show the explained variance (R2) of the competency variables and the direct effects of our model. To analyse the significance of the direct effects of the path model, we carried out a bootstrapping (5,000 resamples) which provided us with the p-values, t-values and confidence intervals (Chin, 1998; Roldán and Sánchez-Franco, 2012). The results show that most of the hypothesised relationships are supported, as they are positive and significant; furthermore, the f2 values for the associations exceed the minimum level of 0.02 (Chin, 2010). The only hypothesis that is not supported is the relationship between the disciplinary specific competencies and entrepreneurial competencies (H6b), as the variables have a significant relationship but with a sign contrary to the postulate and f2 values below 0.02. This indicates that disciplinary competencies do not have a particularly relevant direct effect on the entrepreneurial competencies construct.

On the other hand, the direct effect of systemic on entrepreneurial competencies is significant (Table 5) and all the indirect effects are significant too (Table 6). Consequently, this means that H7b and H7c have been supported, while H7a is not supported as the indirect effect is significant but with a sign contrary to the postulate. Thus, professional competencies positively partially mediate the relationship between systemic and entrepreneurial competencies (H7b). Likewise, we find that disciplinary and professional competencies partially and jointly mediate the influence of systemic on entrepreneurial competencies, this means that systemic competencies are positively associated with higher disciplinary and professional competencies, which relates to higher levels of entrepreneurial competencies (H7c). In addition, we calculate the variance accounted for (VAF) value to assess the magnitude for each mediation. Because the total VAF has an outcome between 20 and 80%, this implies an additional argument for a partial mediation.

To sum up, the model shows a strong positive influence of: systemic and professional competencies on entrepreneurial competencies; experience variables on interpersonal competencies; interpersonal competencies on systemic competencies; and systemic competencies on disciplinary and professional competencies. The control variables, gender and age, had no significant influence on entrepreneurial competencies.

To complete the structural analysis, we analysed the coefficients of determination (R2), which provide the predictive power of the model and indicate the quantity of variance in a construct which is explained by the predictor variables of this endogenous construct in the model (Chin, 2010). The results (Table 7) show that the model has adequate predictive power for the criterion variable. Entrepreneurial competencies have an R2 of 0.606, which is very close to the substantial level (0.67) proposed by Chin (1998). Also notable is the high value for the systemic and professional competencies, with an explained variance of 0.75 and 0.695, respectively, and the moderate value (0.339) for the disciplinary competencies, while the experience variable provides very little explanation of the variance in the instrumental and interpersonal generic competencies (0.084 and 0.230, respectively).

Finally, we applied the PLS predict algorithm to assess the predictive relevance of the theoretical model from the cross-validated redundancy index (Q2) for dependent variables (Chin, 2010; Hair et al., 2019; Roldán and Sánchez-Franco, 2012). A Q2 value above 0 means that the model has predictive relevance. In our case, the results indicate that the structural model has relevant predictive values for all groups of competencies (Table 7).

5. Discussion, implications and limitations

5.1 Discussion

The main contribution provided by this study is the development of a structural model that presents the relationship between the different academic competencies and how these influence the development of students' entrepreneurial competencies, bearing in mind the impact of experience, gender and age as factors that can affect the acquisition of competencies.

This study provides a complete and original assessment of high academic value for researchers, as it broadens our knowledge of entrepreneurial competencies. The study takes students' perception of their level of acquisition of competencies developed during the course and uses them as empirical evidence of the relationship between generic and specific competencies and entrepreneurial competencies, conceptualising them as a set of different elements that facilitate their assessment and the identification of the main strengths and weaknesses associated with the different competency groups.

The literature up to now has focused on entrepreneurial competencies, but more from a professional (Mamun et al., 2016; Mohsin et al., 2017; Ng and Knee, 2018; Rahman et al., 2016; Sánchez, 2012; Tehseen et al., 2019) than an educational perspective. Thus, the role played by entrepreneurial competencies in entrepreneurship higher education has been given less attention. However, in recent years, a number of studies have focussed on the development of entrepreneurial competencies (Ferreras-Garcia et al., 2019; Honig, 2004; Peterman and Kennedy, 2003; Sánchez, 2011; Tounés et al., 2014) and the relationship between entrepreneurial competencies and learning outcomes (Ferreras-Garcia et al., 2020a), although they do not consider the impacts that competencies can have on each other. López-Bonilla and López-Bonilla (2014) and Gómez et al. (2017) present models of relationships between competencies, but in the fields of tourism and social sciences. Our study also includes sociodemographic characteristics (gender and age) and a large sample, which are factors previous studies have proposed as a future line of research (López-Bonilla and López-Bonilla, 2014).

Our results confirm those of López-Bonilla and López-Bonilla (2014), in finding a relationship between generic and specific competencies. Specifically, our results show that experience influences instrumental and, to a greater extent, interpersonal competencies, both of which influence systemic competencies; systemic competencies influence disciplinary, professional and entrepreneurial specific competencies; disciplinary competencies influence professional but not entrepreneurial competencies; and finally, professional competencies influence entrepreneurial competencies. However, gender and age have no impact on entrepreneurial competencies, confirming the lack of differences in terms of gender and age in the entrepreneurial competency learning process. This result coincides with previous research that found no noticeable differences in entrepreneurial competencies between men and women, nor in relation to students' age (Ferreras-Garcia et al., 2020a; Kakkonen, 2011).

The model assessed here shows that within the different groups of competencies, some components have more weight than others, with the generic competencies related to decision-making, communication, contracting, organisational culture, working with uncertainty, leadership and creativity, and the specific competencies related to management, economic knowledge, preparing business plans, risk management and entrepreneurship, being particularly relevant. The results of this research partly support the studies by Ferreras-Garcia et al. (2020a), as these authors also confirmed that competencies related to decision-making, innovation, risk management and entrepreneurship have a certain influence on learning outcomes. However our results for competencies related to information technologies, time management, teamwork and ethics differ from those obtained in the study mentioned above, which found them to be relevant, whereas they are not so in our study. Our results also contradict Gómez et al. (2017), who confirmed that information technologies, teamwork and ethics contribute to the development of competencies, while communication was not significant.

Thus, programme design should be analysed to impact on competencies that had a less favourable result, such as disciplinary competencies, experience, information technologies, time management, teamwork and ethics, which several authors have suggested are particularly important (Boni and Lozano, 2007; Clemente-Ricolfe and Escribá-Pérez, 2013; Jansson et al., 2019; Schulz and Starnov, 2010; Van Loo and Semeijn, 2004; Villardón-Gallego et al., 2013).

5.2 Implications, limitations and future research

This study makes different contributions to the previous literature, as the results shed light on the question of how different groups of competencies influence entrepreneurial competencies. These relationships between competencies determine the strengths and weaknesses of the current learning system. With all this, it is intended to expand the knowledge on competencies in the specific context of entrepreneurship education.

Training based on competencies is viewed as one of the pillars to advance in the EHEA process. The framework proposed establishes a bridge between the different typologies of competencies in order to foster entrepreneurial learning and in last term the connection between the worlds of education and work as regards entrepreneurship as a competence. This could inspire the design of curricula in the formal education and training sector, the design of practical entrepreneurial experiences and activities in formal learning contexts or the development of tools for students to self-assess their entrepreneurial proficiency. Therefore, this proposal may help control competencies that might be strengthened during the degree in order to assure the development of competency acquisition by students. The use of the PLS methodology allows establishing directional relationships between the variables and, within the limitations and restrictions of the models, establishing cause and effect relationships. In this case, the proposed model allows educators to establish the importance of certain relationships and the effect they produce on the variable “Entrepreneurial Specific Competencies”. By establishing a weight in the relationships between variables, an assessment of their importance is introduced into the model. Thus, for example, the acceptance of the hypotheses H3b, H4, H5a and H6c makes it possible to establish that the weight of these relationships is greater than that of the other relationships within the model. This result allows educators to establish priorities when working on certain skills.

The results broaden our understanding of the important role of entrepreneurship education in improving university students' competency acquisition and performance. Additionally, the conclusions will help universities apply tools needed to develop new learning opportunities and promote an entrepreneurial environment that stimulates academic entrepreneurship. Another element to take into account is the responsibility of the universities regarding the economic development of society. This article helps to understand the impact of higher education on the emergence of entrepreneurial intention. In such a way that entrepreneurship-related human capital allows individuals to successfully, discover, identify, exploit and manage entrepreneurial opportunities (Passaro et al., 2018) favouring the creation of companies and economic development.

Existing literature so far does not clarify these aspects, thus our study provides a new line of research and a new perspective for the academic community, while having major implications for improving current knowledge of the different factors that influence entrepreneurial competencies. Useful information for teachers and professionals is provided in our model.

However, the study has a number of limitations that could be corrected in future research. First, our study only considers one subject in the Business Administration and Management degree, whereas an analysis of all degree subjects or an equivalent at another university might strengthen the analysis. Second, analysing teaching tools other than business plans that strengthen the development of entrepreneurial competencies would also help improve understanding of the factors that influence this group of competencies. Third, the study has been analysed from the student perspective, however, it might also be assessed from the perspective of tutors by means of reports that are delivered at the end of the final bachelor's degree project. The authors are currently designing a new project that includes data obtained from the tutors.

Figures

Research model and hypotheses

Figure 1

Research model and hypotheses

Structural model results

Figure 2

Structural model results

Competencies and experience variables

Instrumental generic competencies
IGC1Decision-making
IGC2Drawing conclusions from information obtained and provided
IGC3Relating information or data
IGC4Applying theoretical decision-making concepts
IGC5Time management
IGC6Deadline-related problem-solving
IGC7Use of new technologies
IGC8Using and applying information and communication technologies in professional and academic fields
IGC9Finding, identifying, organising and using information adequately
IGC10Organising and planning professional activity optimally
IGC11Interpreting and assessing information critically and synthetically
IGC12Correct written and oral communication, in both first and second languages, in the academic and professional environments
Interpersonal generic competencies
PGC1Adopting attitudes and behaviours in line with ethical and responsible professional practice
PGC2Teamwork, in face-to-face and online, in multidisciplinary environments
PGC3Negotiating in a professional environment
PGC4Developing the organisational culture management sense needed to guide the company
PGC5Contracting skills
PGC6Human relations skills
PGC7Social skills, networking
PGC8Interpersonal skills
PGC9Strategic thinking
PGC10Mental skill for coordinating activities
PGC11Logical thinking skills
PGC12Skills for reaching agreements
PGC13Commitment skills
Systemic generic competencies
SGC1Creativity
SGC2Entrepreneurial ability
SGC3Innovative ability
SGC4Ability to work with uncertainty
SGC5Delegating skills
SGC6Ability to motivate other individuals and groups
SGC7Leadership skills
SGC8Risk-taking
SGC9Initiative
SGC10Focus on results
SGC11Flexibility and rapid adaptation to change
SGC12Persistence and perseverance
SGC13Self-confidence
Disciplinary specific competencies
DSC1Understanding management concepts
DSC2Understanding management theories
DSC3Understanding the role and function of different economic agents
DSC4Understanding how the economy works and its agents and institutions, with special emphasis on business behaviour
DSC5Generating relevant economic knowledge from data, applying appropriate technical instruments
Professional specific competencies
PrSC1Risk management
PrSC2Adopting different business roles
PrSC3Processing and analysing financial information
PrSC4Business plan preparation
PrSC5Efficient company or organisation management, understanding the competitive and institutional position, and identifying strengths and weaknesses
PrSC6Efficient performance of administration and management tasks in any company or organisation value area
PrSC7Critically assessing specific business situations and establishing possible developments in companies and markets
PrSC8Planning, managing and assessing business projects
Entrepreneurial specific competencies
ESC1Identifying and defining a viable market niche
ESC2Developing appropriate products and services for the market niche
ESC3Generating ideas
ESC4Analysis of the environment
ESC5Recognising and realising business opportunities
ESC6Formulating strategies for making the most of opportunities
Experience
Ex1Previous participation in company creation
Ex2Management experience
Ex3Familiarity with industry and the market
Ex4Previous experience in drawing up business plans

Descriptive statistics of sample

VariablesMeanStandard deviation
Ex12.8871.254
Ex23.5221.079
Ex33.5551.091
Ex43.1311.164
IGC14.3440.681
IGC24.4750.597
IGC34.4330.613
IGC44.2640.734
IGC54.2260.856
IGC64.1600.814
IGC74.0300.914
IGC84.2230.759
IGC94.4480.657
IGC104.3770.647
IGC114.2880.670
IGC124.1130.826
PGC14.2230.748
PGC23.4331.199
PGC33.6230.997
PGC43.9610.802
PGC53.7420.869
PGC64.1570.772
PGC73.9260.821
PGC84.0860.690
PGC94.0590.756
PGC104.1930.699
PGC114.2080.701
PGC124.0650.711
PGC134.3320.691
SGC14.2140.764
SGC24.3320.732
SGC34.1810.778
SGC44.1570.768
SGC53.9050.791
SGC64.1220.844
SGC74.0740.792
SGC83.5520.887
SGC94.2140.748
SGC104.1900.714
SGC114.3290.686
SGC124.4540.653
SGC134.2340.740
DSC14.2610.687
DSC24.1010.744
DSC34.1040.742
DSC44.0420.701
DSC54.1660.669
PrSC13.8490.839
PrSC24.0920.782
PrSC34.3030.780
PrSC43.9050.853
PrSC54.3150.660
PrSC64.2280.692
PrSC74.1630.735
PrSC84.3530.651
ESC14.0240.762
ESC23.9700.774
ESC34.0740.780
ESC44.1280.713
ESC53.9140.823
ESC63.9170.734

Measurement model results

Construct/IndicatorVariance inflation factorWeightt-statisticLoading
Experience
Ex11.4910.540*4.1170.877
Ex21.8890.438*2.9190.862
Ex31.9870.1220.7370.622
Ex42.3450.1060.6590.690
Instrumental generic competencies
IGC11.9090.249*2.4760.762
IGC22.0950.1471.3670.718
IGC31.8520.0890.8860.672
IGC41.7120.334*3.0550.786
IGC52.562−0.1511.2090.501
IGC62.7800.0110.0900.570
IGC71.7370.0070.0700.557
IGC82.1260.1491.5490.692
IGC92.244−0.0480.3650.620
IGC102.2350.1511.3110.670
IGC111.8490.1191.0010.654
IGC121.6540.271*2.6920.721
Interpersonal generic competencies
PGC11.3190.0500.8780.413
PGC21.5710.0370.7390.367
PGC31.7730.129*2.3190.472
PGC41.8980.223*3.4990.765
PGC51.9550.251*4.3740.761
PGC62.3940.0871.3940.732
PGC71.752−0.0550.9690.588
PGC82.1510.0450.8140.695
PGC92.0400.157*2.3580.752
PGC102.0720.0530.8490.702
PGC112.1410.136*2.2390.677
PGC122.0800.147*2.2760.749
PGC131.7590.171*2.8850.716
Systemic generic competencies
SGC12.4260.162*2.6610.675
SGC22.3640.0621.1260.608
SGC32.9100.123*2.0040.671
SGC41.5360.215*4.6170.617
SGC51.8190.163*3.0670.643
SGC62.0930.0751.3310.603
SGC72.2620.202*3.2130.722
SGC81.5000.122*2.7180.575
SGC92.0930.0521.0550.684
SGC101.9560.146*2.9560.683
SGC111.6960.0480.9480.595
SGC121.5820.175*3.9630.644
SGC131.570−0.0110.2660.501
Disciplinary specific competencies
DSC12.3040.375*3.4580.794
DSC22.7510.0910.7450.778
DSC31.7030.1581.5440.695
DSC42.1650.253*2.3560.809
DSC51.9510.377*3.1610.841
Professional specific competencies
PrSC11.5890.176*3.5580.829
PrSC21.6520.0370.8180.878
PrSC31.5110.0541.0070.829
PrSC41.2010.567*4.2960.878
PrSC51.7720.0611.1900.803
PrSC62.0520.150*3.0400.703
PrSC72.0560.0500.9260.803
PrSC82.0180.285*5.1920.781
Entrepreneurial specific competencies
ESC12.7510.161*2.0110.551
ESC23.0510.279*3.3510.812
ESC31.6630.318*4.6650.576
ESC41.6990.1271.8780.654
ESC52.2890.159*2.1890.642
ESC61.9980.191*2.6490.734

Note(s): *significant at p < 0.05 (2 tails)

Full collinearity VIFs

VariablesSGCPrSCESC
IGC1.448
PGC1.448
SGC 1.5132.746
DSC 1.5131.903
PrSC 3.296
Gender 1.020
Age 1.035

Direct effects on endogenous variables

HypothesisDirect effectp-valuet-valueCISupportf2
IGC
H1 (+): Ex0.2910.0004.700[0.217; 0.421]Yes0.092
PGC
H2 (+): Ex0.4790.0009.837[0.413; 0.573]Yes0.298
SGC
H3a (+): IGC0.2850.0005.561[0.213; 0.380]Yes0.224
H3b (+): PGC0.6750.00014.338[0.587; 0.741]Yes1.257
DSC
H4 (+): SGC0.5820.00012.710[0.517; 0.669]Yes0.513
PrSC
H5a (+): SGC0.6120.00013.065[0.550; 0.704]Yes0.812
H5b (+): DSC0.3130.0005.553[0.200; 0.384]Yes0.213
ESC
H6a (+): SGC0.4390.0006.344[0.331; 0.559]Yes0.178
H6b (+): DSC−0.1200.0192.085[−0.212; −0.022]No0.019
H6c (+): PrSC0.4620.0005.906[0.329; 0.586]Yes0.165
Gender−0.0500.1451.458[−0.117; 0.020] 0.006
Age−0.0630.0911.688[−0.141; 0.007] 0.010

Note(s): (1) CI: Percentile confidence interval. Bootstrapping based on n = 5,000 subsamples; (2) Hypothesized effects are assessed by applying a one-tailed test for a t Student distribution (CI 90%). Effects from control variables are assessed by applying a two-tailed test (CI 95%)

Mediating effects tests

HypothesisIndirect effectp-valuet-valueCISupportVAF
ESC
H7a (+): SGC-DSC−0.0700.0271.931[−0.132; −0.014]No8.0%
H7b (+): SGC-PrSC0.2830.0005.209[0.201; 0.379]Yes32.3%
H7c (+): SGC-DSC-PrSC0.0840.0003.710[0.047; 0.121]Yes9.6%

Note(s): (1) CI: Percentile confidence interval. Bootstrapping based on n = 5,000 subsamples; (2) Hypothesized effects are assessed by applying a one-tailed test for a t Student distribution (CI 90%)

Predictive assessment

VariablesR2Q2
IGC0.0840.05
PGC0.2300.19
SGC0.750.152
DSC0.3390.051
PrSC0.6950.172
ESC0.6060.183

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Acknowledgements

The research that led to these results was funded by the Fundació “La Caixa.

Corresponding author

Raquel Ferreras-Garcia can be contacted at: rferreras@uoc.edu

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