PONTIFICIA UNIVERSIDAD CATÓLICA DEL PERÚ 

ESCUELA DE POSGRADO 

 

 

 
 

 

The role of supply chain strategies and supply chain integration on 

 financial performance. An empirical study in Peru 

 

TESIS PARA OBTENER EL GRADO DE DOCTOR EN 

 ADMINISTRACIÓN ESTRATÉGICA DE EMPRESAS 

 

 

PRESENTADA POR 

Francisco Alejandro Pérez Gilabert 

DNI: 170441695 - ECUADOR 

 

ASESOR 

 

Dr. Jorge Luis Peña Acevedo 

 

DNI: 09995642 ORCID: http://orcid.org/0000-0001-6548-6097  

 

 

JURADO  

Jorge Luis, Peña Acevedo 

Percy Samoel, Marquina Feldman  

Rubén, Guevara Moncada 

Sandro Alberto, Sánchez Paredes 

 

 

 

Surco, Septiembre 2021 
 



 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

© 2021 by Francisco, A. Pérez 

All Rights Reserved 

 



 

 

Dedication 

To my family for all the support provided throughout my doctoral studies, especially to my wife 

Tania who has always believed in my ability to achieve the goals I have set for myself. To my 

parents who since childhood instilled in me the love for study and the importance of advancing 

academically, especially my father who died as I was starting my thesis yet understood what 

prevented me from being able to accompany him in his last days. 

 
  



 

 

Acknowledgements 

Special thanks to my thesis advisor Dr. Jorge Peña for his support, motivation, and valuable 

contributions to my research. I also thank all my professors who always shared their knowledge and 

demanded the most from me and the administrative staff of CENTRUM Catolica for their assistance 

during my studies.  

A very special thanks to my friend Dr. William Loyola, who encouraged me to pursue my doctoral 

studies and shared his experiences and knowledge with me and at the same time forced me to be 

much more analytical and to question the theories and studies carried out by other researchers.  

My eternal gratitude to my colleagues, with whom I have shared long hours of study and research.  

Finally, thanks to all those people who collaborated in different aspects throughout this process. 

 



 

 

Abstract 

The objective of this study is to develop and test a framework for the role that supply chain strategy 

(SCS) and supply chain integration have in a firm’s financial performance and to increase the 

understanding of the role that these factors play in supply chain design. Structural equation modeling 

was used to test these relationships based on data obtained from small and medium exporting 

enterprises in Peru. This study responds to a gap in understanding the role of supply chains in small 

and medium enterprises (SMEs) and how firms in Latin America, especially in Peru, apply supply 

chain concepts. Findings indicate that companies should prioritize their integration efforts depending 

on the type of supply chain strategy. Likewise, results show that customer integration is directly related 

to a firm’s financial performance. This study responds to the need to understand the development of 

supply chain strategies and the generation of competitive advantage in Peruvian export-manufacturing 

SMEs. 

 

Keywords: small and medium enterprises, structural equation modeling, supply chain strategies, 

supply chain integration, financial performance. 

JEL classification: C44, L00, L60, N66 

MSC2010: 90B70, 62H15, 62P25, 62P30, 62J99. 

 



 

 

Resumen Ejecutivo 

El objetivo de este estudio es desarrollar y probar un marco para el papel que las estrategias de la 

cadena de suministro (SCS) y la integración de la cadena de suministro tienen del rendimiento 

financiero de una empresa y aumentar la comprensión del papel que estos factores tienen en el diseño 

de la cadena de suministro. Se utilizó la modelización de ecuaciones estructurales para probar estas 

relaciones a partir de datos tomados de pequeñas y medianas empresas (PYMES) exportadoras 

peruanas. Nuestro estudio responde a un vacío en la comprensión del papel de la cadena de 

suministro en las PYME, así como a llenar el vacío de cómo las empresas en América Latina, 

especialmente en Perú, aplican los conceptos de la cadena de suministro. Los resultados indican que 

las empresas deben priorizar su esfuerzo de integración dependiendo del tipo de estrategia de la 

cadena de suministro. Asimismo, los resultados muestran que la integración de los clientes está 

directamente relacionada con el rendimiento financiero de la empresa. Este estudio responde a la 

necesidad de encontrar respuestas al desarrollo de estrategias de cadena de suministro y a la 

generación de ventajas competitivas en las PYMES exportadoras peruanas. 

 

Keywords: Pequeñas y medianas empresas, modelos de ecuaciones estructurales, estrategias de la 

cadena de suministro, integración de la cadena de suministro, rendimiento financiero. 

JEL classification: C44, L00, L60, N66 

MSC2010: 90B70, 62H15, 62P25, 62P30, 62J99. 

 



 

 

Table of Contents 

 

Introduction 1 

Chapter 1: Research Article 6 

Chapter 2: Conclusions and Recommendations 35 

Conclusions 35 

Theoretical Recommendations 38 

Practical Recommendations 39 

Theoretical Implications 39 

Practical Implications 40 

Appendix A: Acceptance Letter of the Research Article 42 

 

  

  



1 

 

Introduction 

This thesis is structured in two chapters. The first chapter presents the research 

paper accepted for publication, which is a requirement for completion of the degree of 

Doctor en Administración Estratégica de Empresas granted by the Pontificia Universidad 

Católica del Perú through its graduate school in business management, CENTRUM 

PUCP. The second chapter details the main conclusions and recommendations of the 

thesis. Therefore, chapter 1 of this thesis includes the research paper entitled “The Role 

Played by Supply Chain Strategies and Supply Chain Integration in Financial 

Performance. An Empirical Study in Peru,” which was accepted for publication by the 

“Revista de Métodos Cuantitativos para la Economía y la Empresa”  on August 27, 2021 

(see Appendix A). The objective of this study was to develop and test a framework for 

the role that supply chain strategy (SCS) and supply chain integration (SCI) have in a 

firm’s financial performance (FP) and to increase the understanding of the role that these 

factors play in supply chain design. 

Since the 1980s, Latin American economies have opened their markets to the 

outside world through an accelerated expansion of exports and imports (Urmeneta, 

2016). This expansion has been the result of the adoption of strategies that have 

considered economies’ resources and capabilities (Araya, 2016). However, many 

challenges persist in the region, with companies facing problems such as poor 

infrastructure, expensive and inefficient logistic networks, and lack of economic 

integration (Tanco et al., 2018). These challenges have resulted in supply chain 

management being less studied and therefore less understood in Latin American 

countries, especially in those aspects related to supply chain integration and their 

impact on the financial performance of an organization (Ruiz-Torres et al., 2012). Thus, 

it is interesting and instructive to study the role of supply chain strategies in companies 



2 

 

in an emerging Latin American market like Peru. Peruvian companies are interested in 

understanding the concepts associated with supply chain strategies and the strategic role 

they must adopt to position themselves on a par with their international competitors and 

thus be able to compete globally. Detailed analysis of the development of supply chain 

strategies in large companies in the country can help determine the low level of 

development of these strategies compared to international companies (Roncal, 2019). 

Factors such as barriers to entry, product differentiation, and vertical integration 

affect a company's ability to successfully integrate internally and externally and thereby 

improve the organization. This integration with supply chain partners better reflects the 

current reality of the business environment and expands the list of structural foundations 

that researchers can study to measure the impact of the company (Ralston et al., 2015). 

Ralston et al. pointed out that relationships in a supply chain require cross-functional and 

cross-firm business processes; therefore, it is important to generate confidence among all 

links in the chain by building long-term relationships, nurturing frequent communication, 

and making joint decisions.  

Several studies have been conducted on supply chain integration; however, this is an 

evolving construct (Huo et al., 2014) with no consensus as to which components to include 

nor how to measure them (Marin-Garcia et al., 2014). Qi et al. (2017) developed an 

integrated framework based on the impact that operational strategies, as well as supply chain 

strategies, have on the integration and performance of organizations. This study was 

conducted on SMEs in China and included the four types of operational strategies (OS) 

developed by Skinner (1969). In addition, it included the generic supply chain strategies 

(SCS), studied by Fisher (1997), and supply chain integration (SCI), considering the variables 

internal and external integration (Huo et al., 2014). The work of Qi et al. (2017) is limited 

because several authors have recognized the need to further divide external integration into 



3 

 

two constructs: integration with clients and integration with suppliers (Alfalla-Luque & 

Medina-López, 2009; Flynn et al., 2010; Won Lee et al., 2007). Schoenherr and Swink 

(2012) noted that integration between suppliers and customers allows companies to manage 

the flow of goods through the entire supply chain efficiently while providing access to 

resources and capabilities in chain partners that would otherwise have been very costly to 

develop. The seminal work of Frohlich and Westbrook (2001a) detailed an early concept of 

supply chain integration and developed the concept of integration arcs; they concluded that a 

comprehensive external integration strategy involving supplier and customer relationships 

will outperform other integration strategies.  

There is a bias in supply chain management (SCM) studies towards large-scale 

organizations with small businesses acting as first and second suppliers (Thakkar & 

Deshmukh, 2008), but many of these organizations are dependent on small and medium 

enterprises (SMEs). Thus, further study is needed of how SMEs apply and develop 

concepts from SCM, especially in Latin America where research in this area is lacking 

(Tanco et al., 2018). There is no doubt that SMEs face much more competitive markets 

than large-scale organizations. Although business strategies may be similar in both 

cases, it is no less true that the former must develop much more agile resources and 

dynamic capabilities in a context where several elements interact (Rodríguez & 

Figueroa, 2013).  

Flynn et al. (2010) noted the high degree of overlap between definitions of integration 

that address the flow of materials, information, resources, and/or money. They proposed, 

following the understanding of Saeed et al. (2005), that the management of supply chain 

integration (SCI) can be understood from the perspective of two dimensions: internal 

integration (II), which describes the level of collaboration of functions within a manufacturer, 

and external integration (EI), which reveals the characteristics of close and interactive 



4 

 

relationships with customers and suppliers. 

Supply chain integration can be viewed as a dynamic capability of the organization. 

According to organizational capability theory, the capabilities of supply chain strategies can 

be transferred to supply chain integration capabilities (Huo, 2012). On the other hand, 

according to Qi et al. (2017), the vision of supply chains defined by their strategies can 

develop communication, process coordination, and joint planning between functions and 

external supply chain partners. At the same time, learning capabilities formed in the 

development of supply chain strategies can also help companies establish integrative 

relationships between functions and chain partners (Qi et al., 2017). 

This research focused on analyzing a holistic model between supply chain strategies, 

their integration, and the financial performance of an organization. The study was applied to 

Peruvian export SMEs, according to ISIC REV. 4.0. This work had the peculiarity of having 

been carried out during the COVID-19 pandemic, which significantly affected all companies 

and highlighted the role that the supply chain plays both locally and globally.  

Likewise, we demonstrate empirical evidence that customer integration is directly 

related to a firm’s financial performance, for which we have also presented ample evidence in 

the literature. Through effective relationships with customers, firms are more likely to acquire 

and absorb knowledge quickly and effectively, which leads to competitive advantage. It 

seems that the lack of direct effect of internal integration is because internal integration is a 

construct that affects financial performance indirectly only with a mediating relationship with 

customer and supplier integration, which could not have been corroborated in this research as 

our model did not include this effect, but it is a relationship which has been found for other 

types of performance in other research (Jajja et al., 2016). 

Chapter 2 includes eight conclusions and four recommendations. It also includes the 

theoretical and practical implications of this research. The contribution of this paper is 



5 

 

twofold. First, we expand the framework developed by Qi et al. (2017) by dividing external 

integration into two constructs: integration with clients and integration with suppliers. 

Second, we expand SCM research in Latin America and the study of SCM practices in SMEs, 

showing how by using robust methodologies, SMEs can validate factors of supply chain 

strategy (SCS) and its relationship with organizational performance, enabling decision 

makers in Peruvian SMEs to understand how the theory of dynamic resources and 

capabilities can contribute to better results in their operations. 

 



6 

 

Chapter 1: Research Article 

The Journal of” Métodos Cuantitativos para la Economía y la Empresa” aims to be 

a useful means of communication for all those who research mathematical, statistical, or 

econometric techniques and their possible applications in the world of business and 

economics. E-ISSN 18865-16X, Scopus, quartile 3, To be published in Volume 33 (June 2022). 

The role of supply chain strategies and supply chain integration on 

 financial performance. An empirical study in Peru. 

 

ABSTRACT 

The objective of this study is to develop and test a framework for the role that supply chain strategy 

(SCS) and supply chain integration have in a firm’s financial performance and to increase the 

understanding of the role that these factors play in supply chain design. Structural equation modeling 

was used to test these relationships based on data obtained from small and medium exporting 

enterprises in Peru. This study responds to a gap in understanding the role of supply chains in small 

and medium enterprises (SMEs) and how firms in Latin America, especially in Peru, apply supply 

chain concepts. Findings indicate that companies should prioritize their integration efforts depending 

on the type of supply chain strategy. Likewise, results show that customer integration is directly 

related to a firm’s financial performance. This study responds to the need to understand the 

development of supply chain strategies and the generation of competitive advantage in Peruvian 

export-manufacturing SMEs. 

 

Keywords: small and medium enterprises, structural equation modeling, supply chain strategies, 

supply chain integration, financial performance. 

JEL classification: C44, L00, L60, N66 

MSC2010: 90B70, 62H15, 62P25, 62P30, 62J99. 

  



7 

 

RESUMEN 

 

El objetivo de este estudio es desarrollar y probar un marco para el papel que las estrategias de la 

cadena de suministro (SCS) y la integración de la cadena de suministro tienen del rendimiento 

financiero de una empresa y aumentar la comprensión del papel que estos factores tienen en el diseño 

de la cadena de suministro. Se utilizó la modelización de ecuaciones estructurales para probar estas 

relaciones a partir de datos tomados de pequeñas y medianas empresas (PYMES) exportadoras 

peruanas. Nuestro estudio responde a un vacío en la comprensión del papel de la cadena de suministro 

en las PYME, así como a llenar el vacío de cómo las empresas en América Latina, especialmente en 

Perú, aplican los conceptos de la cadena de suministro. Los resultados indican que las empresas deben 

priorizar su esfuerzo de integración dependiendo del tipo de estrategia de la cadena de suministro. 

Asimismo, los resultados muestran que la integración de los clientes está directamente relacionada 

con el rendimiento financiero de la empresa. Este estudio responde a la necesidad de encontrar 

respuestas al desarrollo de estrategias de cadena de suministro y a la generación de ventajas 

competitivas en las PYMES exportadoras peruanas. 

 

Keywords: pequeñas y medianas empresas, modelos de ecuaciones estructurales, estrategias de la 

cadena de suministro, integración de la cadena de suministro, rendimiento financiero. 

JEL classification: C44, L00, L60, N66 

MSC2010: 90B70, 62H15, 62P25, 62P30, 62J99. 

 

  



8 

 

Introduction 

 

Since the 1980s, Latin American economies have opened their markets to the outside world through 

an accelerated expansion of exports and imports (Urmeneta, 2016). This expansion has been the result 

of the adoption of strategies that have considered economies’ resources and capabilities (Araya, 

2016).  However , many challenges persist in the region, with companies facing problems such as 

poor infrastructure, expensive and inefficient logistic networks, and lack of economic integration 

(Tanco et al., 2018). These challenges have resulted in supply chain management being less studied 

and therefore less understood in Latin American countries, especially those  aspects related to supply 

chain integration and the impact they have on the financial performance of an organization (Ruiz-

Torres et al., 2012). Thus, it is interesting and instructive to study the role of supply chain strategies in 

companies in an emerging Latin American market like Peru. Peruvian companies are interested in 

understanding the concepts associated with supply chain strategies and the strategic role they must 

adopt to position themselves on a par with their international competitors and thus be able to compete 

globally. Detailed analysis of the development of supply chain strategies in large companies in the 

country can help determine the low level of development of these strategies compared to international 

companies (Roncal, 2019). 

 

Factors such as barriers to entry, product differentiation, and vertical integration affect a 

company's ability to successfully integrate internally and externally and thereby improve the 

organization. This integration with supply chain partners better reflects the current reality of the 

business environment and expands the list of structural foundations that researchers can study to 

measure the impact of the company (Ralston et al., 2015). Ralston et al. pointed out that relationships 

in a supply chain require cross-functional and cross-firm business processes; therefore, it is important 

to generate confidence among all links in the chain by building long-term relationships, nurturing 

frequent communication, and making joint decisions.  

 

Several studies have been conducted on supply chain integration; however, this is an evolving 

construct (Huo et al., 2014) with no consensus as to which components to include nor how to measure 

them (Marin-Garcia et al., 2014). Qi et al., (2017) developed an integrated framework based on the 

impact that operational strategies, as well as supply chain strategies, have on the integration and 

performance of organizations. This study was conducted on SMEs in China and included the four 

types of operational strategies (OS) developed by Skinner, (1969). In addition, it included the generic 

supply chain strategies (SCS), studied by Fisher, (1997) , and supply chain integration (SCI), 

considering the variables internal and external integration (Huo,  et al., 2014). The work of Qi et al., 

(2017) is limited because several authors have recognized the need to further divide external 

integration into two constructs: integration with clients and integration with suppliers (Alfalla-Luque 

& Medina-López, 2009; Flynn et al., 2010; Won Lee et al., 2007). Schoenherr and Swink (2012) 

noted that integration between suppliers and customers allows companies to manage the flow of 

goods through the entire supply chain efficiently while providing access to resources and capabilities 

in chain partners that would otherwise have been very costly to develop. The seminal work of 

Frohlich and Westbrook (2001) detailed an early concept of supply chain integration and developed 

the concept of integration arcs; they concluded that a comprehensive external integration strategy 

involving supplier and customer relationships will outperform other integration strategies.  

 

There is a bias in supply chain management (SCM) studies towards large-scale organizations 

with small businesses acting as first and second suppliers (Thakkar & Deshmukh, 2008), but many of 

these organizations are dependent on small and medium enterprises (SMEs). Thus, further study is 

needed of how SMEs apply and develop concepts from SCM, especially in Latin America where 

research in this area is lacking (Tanco et al., 2018). There is no doubt that SMEs face much more 

competitive markets than large-scale organizations. Although business strategies may be similar in 

both cases, it is no less true that the former must develop much more agile resources and dynamic 

capabilities in a context where several elements interact (Rodríguez & Figueroa, 2013).  

 



9 

 

In this study, we used a quantitative approach of deductive logic with a nonexperimental, 

cross-sectional, and explanatory design that allowed correlating the constructs of supply chain 

strategies, supply chain integration, and the financial performance of organizations to determine the 

correlation that exists between the independent variables and the dependent variable. The data 

necessary for our approach was collected from SMEs in Peru. A structural equation model was used 

to determine, through confirmatory factor analysis and regression analysis, whether the proposed 

model is adequate to analyze the structural paths among the constructs.  

 

The contribution of this paper is twofold. First, we expand the framework developed by Qi et 

al. (2017) by dividing external integration into two constructs: integration with clients and integration 

with suppliers. Second, we expand SCM research in Latin America and the study of SCM practices in 

SMEs, showing how by using robust methodologies, SMEs can validate factors of supply chain 

strategy (SCS) and its relationship with organizational performance, enabling decision makers in 

Peruvian SMEs to understand how the theory of dynamic resources and capabilities can contribute to 

better results in their operations. 

 

Literature Review 

 

Since Skinner's (1969) seminal work, much research has been done on the operational strategy (OS) 

of firms. Skinner's original research takes into consideration four strategies: cost quality, delivery, and 

flexibility. OS has been studied extensively in relation to the environment, managerial choices, and 

competitive strategies (Qi et al., 2017). Qi et al. pointed out that, although OS has been understood 

from an organization-wide perspective, new evolving practices and theories require a new 

understanding of OS from the perspective of supply chain strategies. 

 

In developing operational strategies, companies should identify their customers' needs for 

different products and services, classifying these into order winners, to differentiate themselves from 

competitors, or order qualifiers, to serve the market (Qi et al., 2017). Based on these needs, companies 

should build operational infrastructures and capabilities accordingly, such as the development of 

supply chain, management infrastructures, and capabilities; therefore, following the organization's 

operational strategies, the development of a supply chain strategy is necessary (Qi et al., 2017). 

Operational and supply chain strategies are dynamic capabilities that can help companies to 

repetitively perform productive tasks related to the transformation of raw materials into finished 

products. 

 

According to Qi et al. (2017), supply chain management requires strategies and practices 

beyond the boundaries of companies such as the relationship of OS with knowledge management 

(Hussain et al., 2015), with competitive strategies (Shavarini et al., 2013), and with competitive 

advantage (Liu & Liang, 2015). However, very few studies have been conducted from the perspective 

of supply chain management, its integration into, and its impact on organizational financial 

performance (Qi et al., 2017). An example is the study by Quesada et al. (2008), who analyzed the 

strategic alignment between order winner selection and supply chain integration strategies. There is, 

therefore, a call for further research on the role of operational strategies in the formation of supply 

chain strategies, their integration, and organizational performance (Qi et al., 2017).  

 

Flynn et al. (2010) noted the high degree of overlap between definitions of integration that 

address the flow of materials, information, resources, and/or money. They proposed, following the 

understanding of Saeed et al. (2005), that the management of supply chain integration (SCI) can be 

understood from the perspective of two dimensions: internal integration (II), which describes the level 

of collaboration of functions within a manufacturer, and external integration (EI), which reveals the 

characteristics of close and interactive relationships with customers and suppliers. 

 

Supply chain integration can be viewed as a dynamic capability of the organization. 

According to organizational capability theory, the capabilities of supply chain strategies can be 



10 

 

transferred to supply chain integration capabilities (Huo, 2012). On the other hand, according to Qi et 

al. (2017), the vision of supply chains defined by their strategies can develop communication, process 

coordination, and joint planning between functions and external supply chain partners. At the same 

time, learning capabilities formed in the development of supply chain strategies can also help 

companies establish integrative relationships between functions and chain partners (Qi et al., 2017). 

 

Supply chain integration can be defined as the degree to which an organization strategically 

collaborates with internal functions or external supply chain members to manage the intra- and 

interorganizational processes essential to achieve an efficient and effective flow of products, services, 

information, money, and decisions in order to deliver maximum value to the customer (Zhao et al., 

2008). Internal integration and external integration, understood by some authors as integration with 

suppliers and customers, play totally different roles in organizations. While the former states that a 

company's departments should function in an integrated manner, the latter highlights the importance of 

establishing a close relationship with supply chain partners, that is, customers and suppliers (Qi et al., 

2017). 

 

Internal integration refers to the degree to which a manufacturing company structures its 

organizational strategies, practices, and processes into organizational and collaborative processes in 

order to meet the requirements of its customers and interact efficiently with its suppliers (Flynn et al., 

2010). Two key features of internal integration are communication by information sharing, in which a 

firm’s departments outline a system for efficient information sharing, and cooperation by joint 

decision making, in which important firm decisions are in collaboration with all the departments 

(Ellinger et al., 2000; Jajja et al., 2018). Flynn et al. (2010) pointed out that external integration, on 

the other hand, refers to the degree to which a manufacturer relates to its customers and suppliers to 

structure strategies and practice collaborative and synchronized processes for mutual value (Chen & 

Paulraj, 2004). 

  

External integration can be divided into customer integration and supplier integration. 

Customer integration is the concept related to planning, implementing, and evaluating successful 

relationships between recipients either upstream or downstream of supply chain (Jajja et al., 2018). 

Customer integration is primarily concerned with the ability to deliver the right products and services 

at the right time, in the right place, and in the right quantity. This means integration of the customer in 

processes such as idea generation, product management, and delivery (Koufteros et al., 2005). 

Supplier integration, on the other hand, deals with strategic linkages with suppliers (Jajja et al., 2018). 

This requires involving suppliers in the product development process, as well as in production 

planning and inventory management. Supplier integration seeks to develop a rapid response system 

with suppliers, constructing a supplier network that assures reliable delivery and exchanging 

information with suppliers. This relationship cannot be completed if the firm does not consider key 

suppliers as strategic collaborators and does not help develop their technological and managerial 

capabilities (Jajja et al., 2016). 

 

Extensive literature has found that supply chain integration is the driver of the financial 

performance of firms (Acar et al., 2006; Huh et al., 2008; Qi et al., 2017; Saini & Johnson, 2005). Qi 

et al. (2017) pointed out that both internal integration and external integration are positively related to 

financial performance. On the other hand, information sharing is related to the financial performance 

of firms (Huo et al., 2014). The ability to exchange information is an antecedent of collaborative 

buyer-supplier relationships and also impacts a firm's financial performance (Hsu et al., 2008). 

Hypothesis Development 

The basic objective of the lean supply chain strategy is to provide a flow of goods, services, and 

technologies from suppliers to customers without creating any waste (Jasti & Kodali, 2015). This 

means that the competitive focus of the lean supply chain strategy is to reduce costs. Therefore, it is 

imperative for lean enterprises to organize an efficient production system that is integrated with the 

company's logistics processes, thus producing high volumes of output at low cost (Qi et al., 2017). 



11 

 

Such a high volume of production requires high efficiency through automation and real-time 

information flow within the organization. Therefore, the following hypothesis is proposed: 

 

H1: Lean supply chain strategy (LSCS) is positively related to internal integration (II).  

 

Lean supply chain manufacturers must maintain good relationships with their suppliers to 

ensure the availability of raw materials (Qrunfleh & Tarafdar, 2013). It has also been emphasized that 

a close and long relationship with few suppliers is one of the characteristics of lean supply chains 

(Jacobs et al., 2014). A lean supply chain also requires a high degree of communication with its 

customers, thus improving the accuracy of the demand information exchanged, thereby reducing 

inventory obsolescence (Qi et al., 2017). Therefore, the following hypotheses are proposed: 

 

H2: Lean supply chain strategy (LSCS) is positively related to customer integration (CI). 

H3: Lean supply chain strategy (LSCS) is positively related to supplier integration (SI). 

 

An agile supply chain emphasizes market responsiveness and rapid response to the customer. 

For these elements to be provided, process and functional integration should be enhanced through the 

use of advanced manufacturing and information technologies (Gunasekaran & Yusuf, 2002). In 

addition, agile supply chains can quickly transfer customer demands to all functions of the 

manufacturer, thus facilitating real-time connections through technologies and information systems 

(Roh et al., 2014). Companies with agile supply chains are able to form teams to effectively resolve 

conflicts, problems, and errors that may arise within the company (Qrunfleh & Tarafdar, 2013). 

Therefore, the following hypothesis is proposed: 

 

H4: Agile supply chain strategy (ASCS) is positively related to internal integration (II). 

 

An agile supply chain could respond quickly to changes in demand, in terms of volume and 

variety, to serve volatile and unpredictable markets (Christopher, 2000). It is no longer sufficient to 

respond quickly and at the right time, so agility plays an important role as a significant further step in 

responding to the demand changes outlined above. An agile supply chain is also determined by the 

consistent and timely receipt of the right number of parts from multiple suppliers (Ahmad & 

Schroeder, 2001). Agile supply chains push companies to integrate with external partners, customers, 

and suppliers in the chain, thus generating opportunities and quickly detecting changes in customer 

demand. Therefore, the following hypotheses are proposed:  

 

H5: Agile supply chain strategy (ASCS) is positively related to customer integration (CI). 

H6: Agile supply chain strategy (ASCS) is positively related to supplier integration (SI).  

 

According to capability theory, supply chain integration is necessary for financial 

performance; this is because integration facilitates information sharing and therefore enables firms to 

cope with environmental uncertainty (Huo, 2012). Verona (1999) proposed that both internal and 

external integration capabilities improve process efficiency and product effectiveness. However, 

Verona could not empirically verify this relationship. According to Qi et al. (2017), an extensive 

literature has determined the relationship of supply chain integration to financial performance (Flynn 

et al., 2010; Kim, 2009). Internal supply chain integration was identified as one of the important 

differentiators of firm performance; other studies have found a relationship between internal 

integration and financial performance (Stank et al., 2001). Therefore, the following hypothesis is 

proposed:  

 

H7: Internal integration (II) is positively related to supplier integration (SI).  

 

The impact of the relationship between customer integration and financial performance is 

inconsistent (Huo, 2012). While some studies such as Flynn et al. (2010) found no significant 

relationship between these two constructs, others such as Qi et al. (2017) and Narasimhan and Kim 

(2002) reported positive effects. On the other hand, Frohlich and Westbrook (2001b) found that firms 



12 

 

with higher supplier integration achieve higher levels of market share and financial returns. Likewise, 

Huo et al. (2013) found that supplier integration through system and process integration have a 

positive effect on the financial performance of Chinese firms. Other studies have found a mediating 

role of supplier integration on financial performance through other constructs such as operational 

performance and flexibility (Shou et al., 2018). Therefore, the following hypotheses are proposed:  

 

H8: Customer integration (CI) is positively related to financial performance. 

H9: Supplier integration (SI) is positively related to financial performance. 

 

The following theoretical framework is proposed for supply chain strategies, supply chain 

integration, and financial performance (see Figure 1).  

Figure 1 

Theoretical Framework for the Relationship between Supply Chain Strategies and Supply Chain Integration and 

Financial Performance 

 

Research Methodology 

 

This study used a quantitative, deductive logic approach, with a nonexperimental, cross-sectional, 

explanatory design that allowed correlating the constructs of supply chain strategies (lean and agile), 

supply chain integration (internal, customer, and supplier integration), as part of the SCI construct, as 

well as the organization's financial performance. The research design included the phases of 

instrument selection, data collection, and data analysis.  

 

Instrumentation 

 

Original questionnaires were in English, so the back translation methodology was used. 

Questionnaires were translated by a professional translator in the area of this research. After 

translating the questions from English to Spanish, they were checked for validity and fit by a panel of 

experts composed of researchers from universities in Peru and Ecuador and experts in supply chain 

management. The final version in Spanish was again translated into English for verification (Flynn et 

al., 2010). 

 

The independent variables comprised the supply chain strategy (lean and agile) and were 

measured using the instrument adopted by Ward et al. (1995); in the case of the variables customer 

integration, integration with suppliers, and internal integration, the instruments used by Narasimhan 



13 

 

and Kim (2002) were used; instruments developed by De Toni and Tonchia (2001) and Vickery et al. 

(2003) were used for measurement of the dependent variable (see Table A1 in the Appendix A). For 

the operationalization of the factors that make up the conceptual model, a 7-point Likert scale was 

chosen. This scale has been previously used in the literature and has demonstrated validity and 

reliability. The results of this research seek to be representative of Peruvian export-manufacturing 

SMEs. The sampling technique used was non-probabilistic and by convenience because the response 

rate is low as most managers are not willing to participate in this type of research (Manosalvas, 2018).  

 

Data Collection 

Urmeneta (2016) introduced the concept of export SMEs, which was the basis for defining the 

population of this research. According to Urmeneta, export companies are all those that comply with 

customs procedures to ship abroad. However, it is difficult to obtain a single definition and 

comparable data on firms by size in Latin America and the Caribbean because in most countries in the 

region, there are multiple and divergent definitions. Urmeneta pointed out that definitions may vary 

according to the economic sector, the institution in question, and of course, the year; in addition, the 

definitions consider different variables to measure size, such as the value of sales or equity in local 

currency, which become obsolete in the short term. 

  

The variable of the number of workers per company seems to be the most practical for 

defining the size of the company and the one that best reflects the reality of each country (Urmeneta, 

2016). Table 1 details the different variables and the classification of companies, small and medium-

sized for the case of Peru; micro SMEs have been left out of this study due to their high level of 

informality (50.4%) and low level of exports (Garcés & Landa, 2019). The total population of 

Peruvian exporting companies is 𝑁 =  8200 companies. This value coincides with studies carried out 

on the development of export companies in recent years, where it is mentioned that Peru would have 

8200 export companies with their shipments exceeding 44 billion USD in 2019 (SIPC Market 

Intelligence, 2019). 

 

Table 1 

Criteria Used to Define Export SMEs 

 Total annual sales (USD) Number of workers 

SME Type From To From To 

Large SME 3059001 - 251 - 

Medium SME 2261001 3059000 51 250 

Small SME 199500 2261000 11 50 

Note. Adapted from Dinámica de las empresas exportadoras en América Latina: El aporte de las 

PYMES, by R. Urmeneta, 2016, CEPAL, https://www.cepal.org/es/publicaciones/40296-dinamica-

empresas-exportadoras-america-latina-aporte-pymes 

In this research, export SMEs were considered because they allow the analysis of the concepts 

related to SCS, SCI, and financial performance of the organization. On the other hand, as mentioned 

by Humphrey and Schmitz (2002), export companies compete in open markets, so the concepts 

related to SCS and SCI are more developed in this type of company than in non-exporting SMEs that 

compete only in their local markets. 

 

The study combines both primary and secondary data. The primary data were obtained 

through on-site surveys. The secondary data were obtained from the database of the web page of 

Peru’s International Standard Industrial Classification of All Economic Activities (United Nations 



14 

 

Department of Economic and Social Affairs, Statistics Division, 2008). To ensure the quality and 

understanding of the topic to be surveyed, each company received prior training from the researcher 

who, in turn, participated in part of the pilot test conducted in Peru between January and February 

2020. The data collection process was delayed by the beginning of the confinement of all Peruvian 

households and the almost total suspension of manufacturing activities due to the COVID19 

pandemic; there was not a significant number of responses to the online surveys, and it was necessary 

to wait for the return of key informants to the companies to start the data-collection process.  

 

Companies contacted were those that fall within the ISIC REV. 4.0 and are classified as 

follows: C.10 (food product manufacturing); C.13 (textile manufacturing); C.15 (leather 

manufacturing); C.17 (manufacture of paper products); C.19 (manufacture of petroleum-related 

products); C.20 (manufacture of chemicals); C.21 (manufacture of pharmaceuticals); C.22 

(manufacture of rubber and plastic products); C.23 (manufacture of nonmetallic mineral products); 

C.24 (manufacture of base metals); C.25 (manufacture of fabricated metal products); C.26 

(manufacture of computer, electronic, and optical products); C.27 (manufacture of electrical 

equipment); C.28 (manufacture of machinery and equipment); C.29 (manufacture of motor vehicles, 

trailers, and semi-trailers); C.30 (manufacture of other transportation equipment); C.31 (manufacture 

of furniture); and C.33 (repair and installation of machinery and equipment).  

 

The unit of analysis was limited to export-manufacturing SMEs in Peru, with exports in the 

last three years and that have made at least one export per year. The method of response used in this 

study was single respondent, in this case, operations managers, supply chain managers, CEOs, or 

administrators. Although a debate exists on whether single respondent surveys are appropriate to 

study supply chain management (Kull et al., 2018), several authors have pointed out that single 

respondent surveys might be more appropriate in the case of SMEs. Research suggests that SMEs 

have different and more diverse goals than larger firms and that SMEs are mostly owned by a single 

founder or founding family with specific goals and objectives for the firm (La Porta et al., 1999). 

Thus, SMEs having multiple respondents per survey might impede research as everyone on the 

organizational ladder might not be aware of or aligned with the single founder or founding family’s 

vision. Likewise, multi-respondent designs might exclude SMEs from supply chain management 

research and create a bias in the field towards large organizations that exclude new avenues of 

research in supply chain management theory (Kull et al., 2018). Finally, it has been found that in 

family businesses, as is the case with SMEs, single respondent surveys have similar regression results 

compared to multi-respondent surveys (Holt et al., 2017). 

 

Based on the above definition, companies that exported only raw materials were not included. 

Through the website of Peru's ISIC REV. 4.0, only 682 companies met the profile of exporting SMEs. 

From the initial list of companies, a sample of 242 companies was obtained, representing a response 

rate of about 35.48%. Only one response was obtained for each company because the surveys were 

directed to operations managers, supply chain managers, or the owners or administrators of the 

companies that agreed to participate in the study. 

 

The data analysis was defined in two independent but sequential processes. The first was 

exploratory data analysis, using SPSS v.23 software; in this process, the quality of the data was 

confirmed as no missing values were found. Outliers were found and analyzed on a case-to-case basis; 

no problem was found, so they were kept in the study. In this first part, the descriptive analysis of the 

sample was performed by relating the qualitative variables and testing their degree of dependence 

with the chi-square test. Secondly, the methodology for data treatment was developed for structural 

equation modeling (SEM), using SPSS v.23 and AMOS v.23 software. Subsequently, the number of 

factors or latent variables, both endogenous and exogenous, and their corresponding items defined in 

the theoretical framework were defined. The confirmatory factor analysis (CFA) path graph was 

constructed, and the multivariate normality assumption was tested using Mardia's test; considering the 

threshold of a kurtosis index is greater than 70, it was found that this assumption is not met.  

 

For the parameter estimation procedure, there are some techniques which depend on the 



15 

 

normality assumption indicated above; if multivariate normality is met, the maximum likelihood (ML) 

procedure is suggested; otherwise the unweighted least squares (ULS) procedure is recommended 

(Forero et al., 2009; Yang-Wallentin et al., 2010). The fit indicators of the measurement model were 

then verified according to the ULS procedure. The path graph of the SEM was constructed, and its 

indicators were found to validate the research hypotheses. The standardized regression coefficients 

and their significance levels were then interpreted, and the bootstrapping test was used to verify 

whether the indirect effects were significant and thus validate the mediating variables. Finally, the 

research hypotheses were validated. 

 

Results and Discussion 

Exploratory Data Analysis 

Data screening showed no missing values, and there were 242 valid cases. In addition, considering the 

frequencies for qualitative variables (nominal and ordinal), no typing errors were detected, and the 

items, as designed, have values between 1 and 7.  

 

Regarding the statistical assumptions, tests were performed to evaluate homoscedasticity and 

normality. Analysis of homoscedasticity through the residuals’ drawings was performed, and the 

results were satisfactory. The multivariate normality analysis is necessary to know the shape of the 

multivariate distribution of the items, for which Mardia’s (1970) kurtosis index, calculated in the 

AMOS v.23 program, was obtained. The individual results show kurtosis where the data are 

concentrated in the high values of the scale; a sharp kurtosis is generally intuited, and likewise, the 

skewness is positive. According to Ayan and Ruiz (2008), if the Mardia coefficient exceeds the value 

of 70, the data do not satisfy the multivariate normality assumption; because in this research, a value 

of 88.67 was obtained, using the unweighted least squares (ULS) procedure is suggested because it is 

a procedure that uses polychoric correlations recommended for ordinal scales as is the case in this 

study (Forero et al., 2009; Yang-Wallentin et al., 2010). 

 

Given the confirmation of the univariate and multivariate non-normal distribution of the data, 

we sought to identify the possible causes. According to Harrington (2009), one of the possible causes 

of the non-normality of the data could be the existence of outliers. To determine this, the Mahalanobis 

distance test is applied, which is a widely used criterion for the detection of outliers in multivariate 

data. Kline (2015) recommended setting a critical value of p < 0.001. The existence of outliers could 

be one of the causes of non-normality of the data, which, in turn, could generate Heywood cases 

(Brown, 2015). Using the Mahalanobis test, 26 outliers with p-values < 0.001 were detected. As 

already explained, outliers were analyzed, and no problem was found; their removal did not change 

the non-normality of the data. 

Descriptive Analysis 

It is important to identify the origin of the participants and to relate this to the classification of the 

companies according to their turnover and number of workers; 81.73% of the sample are in Lima, the 

capital of Peru, while the remaining 18.27% are in other cities. We performed the chi-square test to 

account for non-response bias in our survey (see Table 2). We did this by comparing the real 

distribution of SMEs in Peru with the respondent distribution (M. K. Malhotra & Grover, 1998). The 

result of the test is χ2 = 1.65, which indicates that there is no significant difference between the 

survey distribution and the real distribution (𝑝 >  0.05) which suggests that our sample was not 

biased towards any region or SME type. 

 

 

 

 

 



16 

 

Table 2 

 𝜒2 Test for Survey Bias According to Region 

 Survey distribution Real distribution 

SME Type Lima Outside Lima Lima Outside Lima 

Large SME 10.58% 1.92% 4.30% 9.00% 

Medium SME 18.27% 3.85% 8.98% 18.74% 

Small SME 52.88% 12.50% 18.98% 40.00% 

According to the type of manufacturing of the companies, the most frequent is C.10 (food 

product manufacturing), both in Lima (23%) and outside the capital, where almost half belong to this 

category (48.5%). Companies in categories C.14, C.15, C.17, C.21, C.24, C.26, C.27, C.28, and C.29 

were not present outside of Lima.  

Reliability and Validity. 

Reliability has been tested with two indicators: Cronbach's alpha and composite reliability. Although 

much of the literature favors the use of Cronbach's alpha to test convergent validity, many authors 

recognize the difficulty that it is influenced by the number of items and by the number of possible 

responses on the scale because it was created for continuous variables and, in Likert-type scales, this 

is not the case. Cronbach's alpha shows the reliability based on the correlation between the construct 

indicators, but it is assumed that the indicators are equally reliable. Because this indicator tends to 

severely underestimate the reliability of the internal consistency of the SEM model, using different 

measures, such as composite reliability, is recommended (Henseler et al., 2012). Therefore, we 

proceeded to validate the composite reliability of the scales for each construct, which should be higher 

than 0.70 (Boyatzis & Gaskin, 2010).  

 

Convergent validity means that a set of indicators or items only contribute to explaining the 

latent variable to which they belong, for which the average variance extracted (AVE) is used. A latent 

variable with an AVE of at least 0.5 indicates the capacity of the construct to explain more than half 

of the variance of its indicators on average (Henseler et al., 2012). In addition, discriminant validity 

was analyzed, which aims to identify whether the observable variables belong to their factor or latent 

variable and not to another; for this, the matrix criterion was used where the square root of AVE must 

be greater than the correlations between constructs.  

 

In this study, the validity and reliability test plugin, incorporated in the AMOS v.23 program 

(Gaskin & Lim, 2016), was used to determine the reliability and discriminant validity. We constructed 

the path graph for each construct and calculated its indicators. 

 

 

 

 

 

 

 

 

 

 

 

 



17 

 

Table 3 

Analysis of the Convergent, Discriminant and Reliability Validity of the Initial Model 

 α CR AVE FP LSCS ASCS CI II SI 

FP 0.918 0.920 0.660 0.812      

LSCS 0.611 0.629 0.218 0.466 0.466     

ASCS 0.683 0.737 0.311 0.427 0.681 0.558    

CI 0.844 0.853 0.454 0.524 0.475 0.524 0.674   

II 0.912 0.914 0.571 0.504 0.437 0.480 0.634 0.755  

SI 0.792 0.830 0.466 0.494 0.593 0.524 0.746 0.603 0.683 

 

Table 3 shows how the composite reliability coefficients exceeded the 0.70 threshold in all 

factors except LSCS (0.629). The AVE allows verifying convergent validity and contributes to 

discriminant validity in a measurement model. The factors LSCS, ASCS, CI, and SI do not exceed the 

suggested threshold of 0.5. The discriminant validity presents some factors that do not satisfy this 

situation, given that the value of the diagonal of the matrix (square root of the AVE) is lower than the 

correlation between some pairs of factors. That is, the square root of AVE for SI is 0.683 and the 

correlation between SI with CI is 0.746; therefore, assumptions are not met, and it suggests that some 

CI items are highly correlated with SI. This implies that the model should be improved. The table also 

presents the values of Cronbach's alpha; however, they will always be lower values than the 

composite reliability and therefore will not be the subject of further analysis. Using confirmatory 

factor analysis (CFA), in the next section, we show how to improve the value of these indicators. 

Structural Equations Model 

A structural equation model comprises two components: a measurement model (basically a CFA) and 

a structural model (Schreiber et al., 2006). The goodness-of-fit indicators presented for the 

measurement model, GFI and NFI are 0.923 and 0.918 respectively. The SRMR, which refers to the 

residuals and should be a value close to zero (less than 0.08), was 0.0678. Additionally, this model 

presented  𝜒2 = 1526.47  with 𝑔. 𝑙. =  764 , i.e., 𝜒2 / 𝑔. 𝑙. =  1.99, a value that meets the range 

between 1 and 3 (𝑝 < 1𝑒−52).   

 

Construct validity was improved by taking into consideration the results of the index 

modification (IM) provided by the AMOS program and by observing the factor loadings. After two 

rounds of analysis, the following final path model was used (shown in Figure 2). 

  



18 

 

 
Figure 2 

Path Graph Final Measurement Model 

 
 

After the adjustments made, an improvement was obtained in the goodness-of-fit indicators, 

i.e., RFI and NFI were 0.962 and 0.966 respectively, exceeding the thresholds of 0.9 suggested in the 

literature; the SRMR decreased to a value of 0.0163, which is satisfactory. Additionally, this model 

presented 𝜒2 = 527.46 with 𝑔. 𝑙. =  449 , i.e., 𝜒2 / 𝑔. 𝑙. =  1.17 , a value that meets the range 

between 1 and 3 (𝑝 <  0.01).  

 

The new reliability and validity indicators showed improvement in relation to the initial 

model; composite reliability has, in all cases, values higher than 0.70 except LSCS with a value of 

0.624, which can be considered moderate. For AVE, the 0.5 boundary has been considered very strict 

(N. K. Malhotra & Dash, 2011). Therefore, only the convergence of LSCS could be mentioned as 

weak; however, it was proved that the indicators are statistically significant, and we proceeded to 

analyze the discriminant validity. AVE of SI in the improved model was 0.751 higher than the 

correlations with CI (0.724) and LSCS (0.721), managing to fulfill the discrimination of the factors 

SI, II, and FP. In the other factors, discriminant validity is not fully satisfied; however, we proceeded 

to continue to privilege maintaining a greater number of items. 

 

One of the characteristics of these models is that they should be free of Heywood cases, 

which occur when there are negative variances and/or factor loadings greater than unity. During SEM 

analysis, some factor loadings greater than unity were present, and therefore, the coefficients of the 

relationships that reach the variables CI, II, and SI from LSCS had to be equalized, thus eliminating 

the problem (see Figure 3). 

  

https://www.codecogs.com/eqnedit.php?latex=0.966#0
https://www.codecogs.com/eqnedit.php?latex=0.90#0
https://www.codecogs.com/eqnedit.php?latex=0.0613#0


19 

 

 
Figure 3 

Graph Path of Complete SEM Model 

 
 

Figure 3 shows the final structural model (i.e., definitive relationships and the observable 

variables that contribute to their respective latent variables); the standardized coefficients or factor 

loadings and some goodness-of-fit indicators are also shown. In all cases, the indicators were 

adequate; the NFI (0.953), RFI (0.949), and GFI (0.964) exceeded the threshold of 0.90; in addition, 

the residuals indicator SRMR (0.069) is less than 0.08. Additionally, this model presented  𝜒2 =
600.40 with 𝑔. 𝑙. =  398 , i.e., 𝜒2 / 𝑔. 𝑙. =  1.50, a value that meets the range between 1 and 3 (𝑝 <
0.001). Considering the positive results of the model fit, it is necessary to analyze the statistical 

significance of the standardized and unstandardized regression coefficients with the bootstrapping 

technique. 

  



20 

 

Table 4 

Standardized Coefficients of the SEM Model 

Parameter Estimate Lower Upper p 

II ← LSCS 0.420 0.269 0.616 0.002 

II ← ALSC 0.345 0.022 0.519 0.089 

CI ← LSCS 0.512 0.301 0.744 0.003 

SI ← ASCS 0.579 0.469 0.689 0.004 

CI ← ASCS 0.283 0.009 0.518 0.092 

SI ← LSCS 0.415 0.287 0.604 0.002 

FP ← II 0.211 -0.08 0.42 0.164 

FP ← CI 0.276 0.035 0.499 0.068 

FP ← SI 0.251 -0.015 0.735 0.109 

 

Table 4 shows the constructs’ relationships, loading estimation values, their confidence 

intervals, and p-values. It is concluded that construct II does not significantly explain FP (𝑝 >  0.05). 

SI does not significantly impact FP either (𝑝 >  0.01); the CI construct explains significantly the 

relationship with FP (𝑝 <  0.01). The other relationships are statistically significant at 95%, except 

for LSCS to CI, which is significant at 90%.  

Additionally, it was detected that LSCS is highly correlated with ASCS; the coefficient found 

was 0.645 (𝑝 <  0.05). With respect to the coefficients of determination, all of them were found to be 

statistically significant; 39.7% of the variance of FP is explained by the model, which is considered a 

moderately high explanation for SEM. SI is explained 81.7% by the ASCS and LSCS factors, while II 

is 48.2% explained by the same ASCS and LSCS latent variables. This indicates that the direct effects 

between the exogenous and mediating variables were significant. 

Therefore, the direct hypotheses related to the quantitative study can be validated:  

H1: Lean supply chain strategy (LSCS) is positively related to internal integration (II).  

Given the p-value, it can be stated that indeed lean supply chain strategy does have a direct 

and positive effect on II, with a positive coefficient of 0.420 and a p-value = 0.002. Therefore, 

H1 is accepted. 

H2: Lean supply chain strategy (LSCS) is positively related to customer integration (CI). 

It can be stated that indeed lean supply chain strategy has a direct positive effect on CI since 

the coefficient is positive (0.5120) and the p-value = 0.003. Therefore, H2  is accepted. 

H3: Lean supply chain strategy (LSCS) is positively related to supplier integration (SI).  

The tendency is maintained in affirming that indeed the lean supply chain strategy does have 



21 

 

a direct positive effect on SI given that the coefficient is positive (0.415) and the p-value = 

0.002. Therefore, H3 is accepted. 

H4: Agile supply chain strategy (ASCS) is positively related to internal integration (II). 

Agile supply chain strategy has a direct positive effect on II (coefficient of 0.345), with 90% 

confidence. Therefore, H4  is accepted. 

H5: Agile supply chain strategy (ASCS) is positively related to customer integration (CI).  

Agile supply chain strategy affects CI performance (coefficient of 0.283), with 90% 

confidence. Therefore, H5 is accepted. 

H6: Agile supply chain strategy (ASCS) is positively related to supplier integration (SI).  

It can be stated that indeed agile supply chain strategy does have a direct positive effect on SI 

because the coefficient is positive (0.579) and the p-value = 0.004. Therefore, H6 is accepted. 

H7: Internal integration (II) is positively related to financial performance. 

No significant direct effect of II on financial performance was found because its significance 

p-value > 0.05 (0.164). Therefore, H7 is not accepted. 

H8: Customer integration (CI) is positively related to financial performance. 

Integration with customers affects financial performance (coefficient of 0.276) at 90% 

confidence. Therefore, H8 is accepted.  

H9: Supplier integration (SI) is positively  related to financial performance. 

Integration with suppliers presents a p-value = 0.109, close to 90% significance. Therefore, it 

can be stated that the hypothesis is not satisfied at 95%. Therefore, H9 is not accepted. 

 

The study showed that no matter what type of supply chain strategy is used, customer 

integration is important for the organization as demonstrated in hypothesis H8; this is in line with 

previous work in this field (Qi et al., 2017). Additionally, our findings suggest that lean SCS requires 

greater integration with customers than with suppliers and internal integration itself; this is in contrast 

to the work of Choi and Wu (2009) in which lean SCS requires very close relationships with 

suppliers. Possible explanations are, first, that our result can be justified by the close relationship that 

exporting SMEs develop with their customers, and second, that many SMEs operate not entirely as 

agile or lean companies. Such companies have been characterized in the literature as having a hybrid 

supply chain or leagile (Christopher et al., 2006). This new construct is characterized by the 

appearance of a decoupling point which determines where the lean emphasis stops and the agile 

emphasis begins. This construct can act as an unobserved cofounding factor in our model which 

presents an interesting avenue for future research. On the other hand, it was found that agile SCS 

requires a higher level of integration with suppliers than with customers; this finding is consistent 

with that of Lee (2004) and Swafford et al. (2006), which is valid given the level of relationship that 

companies develop with their suppliers, especially when flexibility is important in order fulfillment. 

These types of relationships enable firms to influence their supplier manufacturing process. An agile 

SCS should explore various supplier and logistics network options to ensure rapid response to 

changing demand and supply conditions (Stavrulaki & Davis, 2010). Another important finding is that 

the need for internal integration is greater in the case of lean SCS than in agile SCS, which is 

consistent with studies conducted in China on this topic. Similar or different results cannot be 

validated with countries in the region, as this is, to the best of the researcher's knowledge, the first 

study conducted on this topic in Latin America.  

  

Contrary to expectation, internal integration is not related to financial performance (Flynn et 



22 

 

al., 2010; Qi et al., 2017). There are two possible explanations for this. First, companies in our sample 

have achieved a relatively high level of internal integration so that its effects on financial performance 

at such a level are minuscule. This is supported by the fact that in recent years the implementation of 

information systems for management has been widespread (Olhager & Selldin, 2003). Second, the 

information was collected during the pandemic, which could have affected the response of the 

interviewees. This evidence points out that internal integration might have a mediating role in 

financial performance either through customer or supplier integration which indicates a necessity for 

new research into these effects. In this research, the construct external integration was divided into 

integration with suppliers and integration with customers, to extend the analysis to the relationship of 

these constructs with financial performance. It was determined that integration with customers is 

positively related to financial performance; this implies that information sharing and follow-up for 

feedback with customers contribute to financial performance in serving customers. This finding is 

similar to that of Koufteros et al. (2005) which showed that CI can enhance financial performance 

through quality and innovation performance and with Yu et al. (2013), who further established the 

mediating effect that customer satisfaction has on this relationship. Integration with suppliers does not 

influence organizational performance. This finding is consistent with Flynn et al. (2010); however, 

Zhao et al. (2008) pointed out that this may be because the effect of suppliers on financial 

performance is nonlinear. Previous studies have been inconsistent in their findings of the relationship 

between external integration and financial performance. We present two possible explanations. First, 

supplier integration requires heavy investments such as information systems, supplier quality 

assurance, and human resources for process coordination which can lead to diminished financial 

performance. Second, supply chains in the region are more focused on customer integration than 

supplier integration as pointed out in surveys conducted by Tanco et al. (2018). 

 

Yu et al. (2013) noted, for example, that external integration, understood as integration with 

customers and integration with suppliers, does not have a positive relationship with financial 

performance, probably due to the mediation or moderation of some other variable. Flynn et al. (2010) 

provided preliminary evidence pointing to the importance of including internal integration in the 

development of supply chain integration patterns, which provides a vital link between customer 

integration and supplier integration, without which firms cannot reap the full benefits of their 

integration efforts. The findings of Flynn et al. (2010) could not be corroborated in this research. 

However, it was found that in the model proposed, financial performance is explained by 39.7%, a 

value considered moderately high for a system of structural equations. Supplier integration, internal 

integration, and customer integration are 81.7%, 48.2%, and 52.9% explained by the factors lean SCS 

and agile SCS. This indicates that the direct effects between the exogenous variables and the 

mediating variables were significant. In addition, the variables lean SCS and agile SCS contribute to 

explaining financial performance through the mediating variables supplier integration, internal 

integration, and customer integration. In all cases, the models had adequate goodness-of-fit indicators. 

  

Theoretical and Managerial Implications 

 

Research in supply chain management is highly theoretical (Naim & Gosling, 2011), meaning there is 

a lack of empirical research in the field. Our study contributes to filling this gap by investigating the 

role of supply chain integration in Peruvian export SMEs. Likewise, the role of supply chain 

management in SMEs is largely not understood because of the lack of research in this area (Kull et al., 

2018). Our study helps to understand the different challenges and opportunities that supply chain 

management entails for SMEs. We remark that this research offers a complete vision of the panorama 

of supply chain in SMEs and that further and deeper studies such as longitudinal or randomized 

studies are needed which can broaden the range of phenomena studied and give rise to the creation of 

new theoretical perspectives and constructs. Furthermore, our study of Peruvian export SMEs 

contributes to the knowledge of supply chain management in developing countries which is lacking 

especially in Latin America (Tanco et al., 2018). This study also has theoretical implications and 

suggests lines of research that will help to extend the knowledge of SCS and SCI and their 

relationship with the financial performance of the companies indicated. Although the study was 



23 

 

conducted for exporting companies, the methodology used can be replicated for companies that 

operate only in local markets. 

One reason neither internal integration (II) nor supplier integration (SI) fails to influence 

financial performance (FP) directly is that they require various levels of investment not directly 

related to the main objective of a supply chain—to provide maximum value to the customer—which 

is necessarily customer oriented. Key suppliers and customers are the primary source of information 

which is a key input in the organizational decision-making process and necessary to attain financial 

performance. That is why we argue that the constructs II and SI are necessary for companies as they 

represent capabilities which they are required to use to create financial value. If firms have a weak 

internal integration, such as poor internal data integration, less communication among functions, or no 

teamwork, it will be difficult for them to adequately maintain good relations with customers and 

suppliers. Given the earlier work that argues and provides partial support in direct contrast with our 

arguments, our findings are intriguing and complementary. 

Currently, organizations determinedly attempt to obtain competitive edge, and this research 

suggests, which we present as our major managerial implication, that depending on which operation 

strategies are used, companies should intentionally develop different integration capabilities. 

Companies with a lean operational focus should strive to develop greater integration with customers. 

Likewise, companies with an agile operational focus should strive to develop greater integration with 

suppliers. Internal integration should be developed for both types of operational strategies, but lean 

companies should pay special attention to it. In addition, managers should work together to design 

supply chain strategies and supply chain integration and pay attention to how they are linked. Our 

findings indicate that companies wishing to apply concepts of supply chain integration, but which are 

limited in resources, should start with customer integration as is the construct most directly related to 

financial performance. When no such constraints exist, all three constructs of supply chain integration 

should be developed. The results obtained in this research have implications for business managers 

who want to learn about the effects that the implementation of SCS have on a company’s financial 

performance.  

 

Conclusion and Scope of Future Research 

 

This research focused on analyzing a holistic model between supply chain strategies, their integration, 

and the financial performance of an organization. The study was applied to Peruvian export SMEs, 

according to ISIC REV. 4.0. This work had the peculiarity of having been carried out during the 

COVID-19 pandemic, which significantly affected all companies and highlighted the role that the 

supply chain plays both locally and globally.  

 

The descriptive analysis of the data allowed us to obtain the most relevant characteristics of 

the participants in this study. After looking for sources of bias and testing the validity of our 

framework, a structural equation model was developed to test the nine hypotheses. The different 

models were evaluated through goodness-of-fit indicators. Seven of the nine proposed hypotheses 

were accepted. Findings indicate that companies should prioritize their integration effort depending on 

the type of supply chain strategy they use.  

 

Likewise, we demonstrate empirical evidence that customer integration is directly related to a 

firm’s financial performance, for which we have also presented ample evidence in the literature. 

Through effective relationships with customers, firms are more likely to acquire and absorb 

knowledge quickly and effectively, which leads to competitive advantage. It seems that the lack of 

direct effect of internal integration is because internal integration is a construct that affects financial 

performance indirectly only with a mediating relationship with customer and supplier integration, 

which could not have been corroborated in this research as our model did not include this effect, but it 

is a relationship which has been found for other types of performance in other research (Jajja et al., 

2016). 

 

 



24 

 

This study fills two gaps in the literature. First, there is a tendency not to study SMEs in the 

supply chain management field, and our study serves to fill this gap in the literature. Second, supply 

chain management research in Latin America is lacking, and our study serves to fill this gap in the 

literature. Our study also extends the framework developed by Qi et al. (2017) by separating the 

construct of external integration into customer integration and supplier integration which allowed us 

to find the importance of customer integration to a firm’s financial performance, a result which could 

not be corroborated in the original framework. 

 

An extensive review of the literature revealed no studies of this type in the region, and most 

of the research conducted is from first-world countries or developing countries with economies that 

are much more developed than those of Latin America. Therefore, this study responds to the need to 

find answers to the development of supply chain strategies and the generation of competitive 

advantage in Peruvian export-manufacturing SMEs. This research is based on the same dynamic 

capabilities of a company that are transferable to the supply chain context (Qi et al., 2017).  

Recommendations for Future Research 

A clear understanding of the meaning and implications that supply chain strategies have in 

organizations in the region is still emerging, so more studies in other Latin American countries is 

recommended. Instruments that are in line with the new realities, regarding new technologies, should 

be evaluated.  

 

Because the study was conducted for Peruvian export SMEs according to ISIC REV. 4.0, it is 

difficult to generalize the results obtained, so it is recommended that future research broaden the 

spectrum to other types of companies. In addition, the timeframe of the study is cross-sectional, so 

longitudinal studies are recommended.  

 

Neither internal integration (II) nor supplier integration (SI) directly relates to financial performance 

(FP), but we hypothesize that they might be related indirectly through other constructs which can 

serve a mediating role such as operation performance and flexibility; we leave the study of this 

relationship to future research. 

 

As the data were collected only from Peruvian export SMEs, future studies can broaden their 

scope by collecting data from all supply chain partners, including suppliers, manufacturers, and 

customers. The development of biosecurity policies, due to the COVID19 pandemic, could alter 

factors that influence the supply chain from operations strategies, which would mean defining new 

measurement instruments for them; this could be investigated and included in the new models that 

will be proposed in the future.  

 

 



25 

 

References 

Acar, A. Z., Zehir, C., & Tanriverdi, H. (2006). Identifying organizational capabilities as 

predictors of growth and business performance. The Business Review, Cambridge, 5, 

109–116. 

Ahmad, S., & Schroeder, R. G. (2001). The impact of electronic data interchange on delivery 

performance. Production and Operations Management, 10(1), 16–30. 

Alfalla-Luque, R., & Medina-López, C. (2009). Supply Chain Management: Unheard of in the 1970s, 

core to today’s company. Business History, 51(2), 202–221. 

https://doi.org/10.1080/00076790902726558 

Araya, A. (2016). El Proceso de Internacionalización de Empresas | Tec Empresarial. 

https://revistas.tec.ac.cr/index.php/tec_empresarial/article/view/653 

Ayán, M. N. R., & Díaz, M. Á. R. (2008). Atenuación de la asimetría y de la curtosis de las 

puntuaciones observadas mediante transformaciones de variables: Incidencia sobre la 

estructura factorial. Psicológica, 29(2), 205–227. 

Boyatzis, R. E., & Gaskin, J. (2010). A technical note on the ESCI and ESCI-U: Factor structure, 

reliability, convergent and discriminant validity using EFA and CFA. Boston, MA: The Hay 

Group. 

Brown, T. A. (2015). Confirmatory Factor Analysis for Applied Research, Second Edition. Guilford 

Publications. 

Chen, I. J., & Paulraj, A. (2004). Understanding supply chain management: Critical research and a 

theoretical framework. International Journal of Production Research, 42(1), 131–163. 

Choi, T. Y., & Wu, Z. (2009). Triads in supply networks: Theorizing buyer–supplier–supplier 

relationships. Journal of Supply Chain Management, 45(1), 8–25. 

Christopher, M. (2000). The agile supply chain: Competing in volatile markets. Industrial Marketing 

Management, 29(1), 37–44. 

Christopher, M., Peck, H., & Towill, D. (2006). A taxonomy for selecting global supply chain 

strategies. The International Journal of Logistics Management. 



26 

 

De Toni, A., & Tonchia, S. (2001). Performance measurement systems—Models, characteristics and 

measures. International Journal of Operations & Production Management, 21(1/2), 46–71. 

https://doi.org/10.1108/01443570110358459 

Division, U. N. S. (2008). International Standard Industrial Classification of all Economic Activities 

(ISIC) (Issue 4). United Nations Publications. 

Ellinger, A. E., Daugherty, P. J., & Keller, S. B. (2000). The relationship between marketing/logistics 

interdepartmental integration and performance in US manufacturing firms: An empirical 

study. Journal of Business Logistics, 21(1), 1. 

Fisher, M. (1997, March 1). What Is the Right Supply Chain for Your Product? Harvard Business 

Review. https://hbr.org/1997/03/what-is-the-right-supply-chain-for-your-product 

Flynn, B. B., Huo, B., & Zhao, X. (2010). The impact of supply chain integration on performance: A 

contingency and configuration approach. Journal of Operations Management, 28(1), 58–71. 

https://doi.org/10.1016/j.jom.2009.06.001 

Forero, C. G., Maydeu-Olivares, A., & Gallardo-Pujol, D. (2009). Factor Analysis with Ordinal 

Indicators: A Monte Carlo Study Comparing DWLS and ULS Estimation. Structural 

Equation Modeling: A Multidisciplinary Journal, 16(4), 625–641. 

https://doi.org/10.1080/10705510903203573 

Frohlich, M. T., & Westbrook, R. (2001a). Arcs of integration: An international study of supply chain 

strategies. Journal of Operations Management, 19(2), 185–200. 

Frohlich, M. T., & Westbrook, R. (2001b). Arcs of integration: An international study of supply chain 

strategies. Journal of Operations Management, 19(2), 185–200. 

Garcés, B. L. S., & Landa, S. D. R. (2019). Análisis de los Determinantes y Costos de la Informalidad 

en las Pequeñas Empresas: Un Estudio Empírico para el Perú // Analysis of Determinants and 

Costs of Informality in Small Businesses: An Empirical Study for Peru. Revista de Métodos 

Cuantitativos para la Economía y la Empresa, 27, 156–165. 

Gaskin, J., & Lim, J. (2016). Master validity tool. AMOS Plugin In: Gaskination’s StatWiki. 

Gunasekaran, A., & Yusuf, Y. Y. (2002). Agile manufacturing: A taxonomy of strategic and 

technological imperatives. International Journal of Production Research, 40(6), 1357–1385. 



27 

 

Henseler, J., Ringle, C. M., & Sarstedt, M. (2012). Using Partial Least Squares Path Modeling in 

Advertising Research: Basic Concepts and Recent Issues. Handbook of Research on 

International Advertising. 

https://www.elgaronline.com/view/edcoll/9781848448582/9781848448582.00023.xml 

Holt, D. T., Madison, K., & Kellermanns, F. W. (2017). Variance in family members’ assessments: 

The importance of dispersion modeling in family firm research. Family Business Review, 

30(1), 61–83. 

Hsu, C.-C., Kannan, V. R., Tan, K.-C., & Leong, G. K. (2008). Information sharing, buyer‐supplier 

relationships, and firm performance. International Journal of Physical Distribution & 

Logistics Management. 

Huh, S., Yook, K.-H., & Kim, I. (2008). Relationship between organizational capabilities and 

performance of target costing: An empirical study of Japanese companies. Journal of 

International Business Research, 7(1), 91. 

Humphrey, J., & Schmitz, H. (2002). Developing country firms in the world economy: Governance 

and upgrading in global value chains. Undefined. /paper/Developing-country-firms-in-the-

world-economy-%3A-and-Humphrey-

Schmitz/19a200fdaa051a5aea74b8b9ce1eb7d19188eab7 

Huo, B. (2012). The impact of supply chain integration on company performance: An organizational 

capability perspective. Supply Chain Management: An International Journal, 17(6), 596–610. 

https://doi.org/10.1108/13598541211269210 

Huo, B., Han, Z., Zhao, X., Zhou, H., Wood, C. H., & Zhai, X. (2013). The impact of institutional 

pressures on supplier integration and financial performance: Evidence from China. 

International Journal of Production Economics, 146(1), 82–94. 

https://doi.org/10.1016/j.ijpe.2013.01.013 

Huo, B., Qi, Y., Wang, Z., & Zhao, X. (2014). The impact of supply chain integration on firm 

performance: The moderating role of competitive strategy. Supply Chain Management: An 

International Journal, 19(4), 369–384. https://doi.org/10.1108/SCM-03-2013-0096 



28 

 

Hussain, M., Ajmal, M. M., Khan, M., & Saber, H. (2015). Competitive priorities and knowledge 

management: An empirical investigation of manufacturing companies in UAE. Journal of 

Manufacturing Technology Management. 

Jacobs, F. R., Chase, R. B., & Lummus, R. R. (2014). Operations and supply chain management. 

McGraw-Hill/Irwin New York, NY. 

Jajja, M. S. S., Chatha, K. A., & Farooq, S. (2018). Impact of supply chain risk on agility 

performance: Mediating role of supply chain integration. International Journal of Production 

Economics, 205, 118–138. 

Jajja, M. S. S., Kannan, V. R., Brah, S. A., & Hassan, S. Z. (2016). Supply chain strategy and the role 

of suppliers: Evidence from the Indian sub-continent. Benchmarking: An International 

Journal. 

Jasti, N. V. K., & Kodali, R. (2015). A critical review of lean supply chain management frameworks: 

Proposed framework. Production Planning & Control, 26(13), 1051–1068. 

https://doi.org/10.1080/09537287.2015.1004563 

Kim, S. W. (2009). An investigation on the direct and indirect effect of supply chain integration on 

firm performance. International Journal of Production Economics, 119(2), 328–346. 

Kline, R. B. (2015). Principles and Practice of Structural Equation Modeling, Fourth Edition. Guilford 

Publications. 

Koufteros, X., Vonderembse, M., & Jayaram, J. (2005). Internal and external integration for product 

development: The contingency effects of uncertainty, equivocality, and platform strategy. 

Decision Sciences, 36(1), 97–133. 

Kull, T. J., Kotlar, J., & Spring, M. (2018). Small and Medium Enterprise Research in Supply Chain 

Management: The Case for Single-Respondent Research Designs. Journal of Supply Chain 

Management, 54(1), 23–34. https://doi.org/10.1111/jscm.12157 

La Porta, R., Lopez‐de‐Silanes, F., & Shleifer, A. (1999). Corporate ownership around the world. The 

Journal of Finance, 54(2), 471–517. 

Lee, H. L. (2004). The triple-A supply chain. Harvard Business Review, 82(10), 102–113. 



29 

 

Liu, Y., & Liang, L. (2015). Evaluating and developing resource-based operations strategy for 

competitive advantage: An exploratory study of Finnish high-tech manufacturing industries. 

International Journal of Production Research, 53(4), 1019–1037. 

Malhotra, M. K., & Grover, V. (1998). An assessment of survey research in POM: from constructs to 

theory. Journal of Operations Management, 16(4), 407–425. 

Malhotra, N. K., & Dash, S. (2011). Marketing research an applied orientation (paperback). London: 

Pearson Publishing. 

Manosalvas, V. (2018). Estilos de liderazgo e intercambio de conocimiento: Análisis del efecto 

mediador del clima de aprendizaje organizacional. Pontificia Universidad Católica del Perú. 

http://tesis.pucp.edu.pe/repositorio/handle/20.500.12404/10237 

Mardia, K. V. (1970). Measures of multivariate skewness and kurtosis with applications. Biometrika, 

57(3), 519–530. https://doi.org/10.1093/biomet/57.3.519 

Marin-Garcia, J. A., Alfalla-Luque, R., & Medina-López, C. (2014). Internal and External Supply 

Chain Integration: Construct Definition and Validatiion. In J. C. Prado-Prado & J. García-

Arca (Eds.), Annals of Industrial Engineering 2012 (pp. 115–122). Springer. 

https://doi.org/10.1007/978-1-4471-5349-8_14 

Naim, M. M., & Gosling, J. (2011). On leanness, agility and leagile supply chains. International 

Journal of Production Economics, 131(1), 342–354. 

Narasimhan, R., & Kim, S. W. (2002). Effect of supply chain integration on the relationship between 

diversification and performance: Evidence from Japanese and Korean firms. Journal of 

Operations Management, 20(3), 303–323. https://doi.org/10.1016/S0272-6963(02)00008-6 

Olhager, J., & Selldin, E. (2003). Enterprise resource planning survey of Swedish manufacturing 

firms. European Journal of Operational Research, 146(2), 365–373. 

Qi, Y., Huo, B., Wang, Z., & Yeung, H. Y. J. (2017). The impact of operations and supply chain 

strategies on integration and performance. International Journal of Production Economics, 

185, 162–174. https://doi.org/10.1016/j.ijpe.2016.12.028 



30 

 

Qrunfleh, S., & Tarafdar, M. (2013). Lean and agile supply chain strategies and supply chain 

responsiveness: The role of strategic supplier partnership and postponement. Supply Chain 

Management: An International Journal. 

Quesada, G., Rachamadugu, R., Gonzalez, M., & Martinez, J. L. (2008). Linking order winning and 

external supply chain integration strategies. Supply Chain Management: An International 

Journal. 

Ralston, P. M., Blackhurst, J., Cantor, D. E., & Crum, M. R. (2015). A Structure–Conduct–

Performance Perspective of How Strategic Supply Chain Integration Affects Firm 

Performance. Journal of Supply Chain Management, 51(2), 47–64. 

https://doi.org/10.1111/jscm.12064 

Rodríguez, H. A. R., & Figueroa, L. S. (2013). Capacidades dinámicas, una fuente de ventaja 

competitiva. Criterio Libre, 11(19), 245–261. 

Roh, J., Hong, P., & Min, H. (2014). Implementation of a responsive supply chain strategy in global 

complexity: The case of manufacturing firms. International Journal of Production 

Economics, 147, 198–210. 

Roncal, A. (2019). Las medianas empresas se ponen al día en digitalización. Semana Económica. 

https://semanaeconomica.com/management/digitalizacion/363452-las-medianas-se-ponen-al-

dia 

Ruiz-Torres, A. J., Mahmoodi, F., & Ayala-Cruz, J. (2012). Supply Chain Management Research in 

Latin America: A Review. Supply Chain Forum: An International Journal, 13(1), 20–36. 

https://doi.org/10.1080/16258312.2012.11517285 

Saini, A., & Johnson, J. L. (2005). Organizational capabilities in e-commerce: An empirical 

investigation of e-brokerage service providers. Journal of the Academy of Marketing Science, 

33(3), 360–375. 

Schoenherr, T., & Swink, M. (2012). Revisiting the arcs of integration: Cross-validations and 

extensions. Journal of Operations Management, 30(1–2), 99–115. 



31 

 

Schreiber, J. B., Nora, A., Stage, F. K., Barlow, E. A., & King, J. (2006). Reporting Structural 

Equation Modeling and Confirmatory Factor Analysis Results: A Review. The Journal of 

Educational Research, 99(6), 323–338. https://doi.org/10.3200/JOER.99.6.323-338 

Shavarini, S. K., Salimian, H., Nazemi, J., & Alborzi, M. (2013). Operations strategy and business 

strategy alignment model (case of Iranian industries). International Journal of Operations & 

Production Management. 

Shou, Y., Hu, W., Kang, M., Li, Y., & Park, Y. W. (2018). Risk management and firm performance: 

The moderating role of supplier integration. Industrial Management & Data Systems, 118(7), 

1327–1344. https://doi.org/10.1108/IMDS-09-2017-0427 

SIPC Market Intelligence. (2019). Nota de prensa exportaciones Peru. Commission for the Promotion 

of Peru for Exports and Tourism. https://exportemos.pe/inteligencia-para-

exportar/publicaciones-y-multimedia 

Skinner, W. (1969, May 1). Manufacturing—Missing Link in Corporate Strategy. Harvard Business 

Review. https://hbr.org/1969/05/manufacturing-missing-link-in-corporate-strategy 

Stank, T. P., Keller, S. B., & Daugherty, P. J. (2001). Supply chain collaboration and logistical service 

performance. Journal of Business Logistics, 22(1), 29–48. 

Stavrulaki, E., & Davis, M. (2010). Aligning products with supply chain processes and strategy. The 

International Journal of Logistics Management. 

Swafford, P. M., Ghosh, S., & Murthy, N. N. (2006). A framework for assessing value chain agility. 

International Journal of Operations & Production Management. 

Tanco, M., Escuder, M., Heckmann, G., Jurburg, D., & Velazquez, J. (2018). Supply chain 

management in Latin America: Current research and future directions. Supply Chain 

Management: An International Journal, 23(5), 412–430. https://doi.org/10.1108/SCM-07-

2017-0236 

Thakkar, J., & Deshmukh, S. G. (2008). Supply chain management in SMEs: Development of 

constructs and propositions. Asia Pacific Journal of Marketing and Logistics, 20, 97–131. 

https://doi.org/10.1108/13555850810844896 



32 

 

Urmeneta, R. (2016). Dinámica de las empresas exportadoras en América Latina: El aporte de las 

PYMES. CEPAL. https://www.cepal.org/es/publicaciones/40296-dinamica-empresas-

exportadoras-america-latina-aporte-pymes 

Verona, G. (1999). A resource-based view of product development. Academy of Management Review, 

24(1), 132–142. 

Vickery, S. K., Jayaram, J., Droge, C., & Calantone, R. (2003). The effects of an integrative supply 

chain strategy on customer service and financial performance: An analysis of direct versus 

indirect relationships. Journal of Operations Management, 21(5), 523–539. 

https://doi.org/10.1016/j.jom.2003.02.002 

Ward, P. T., Duray, R., Keong Leong, G., & Sum, C.-C. (1995). Business environment, operations 

strategy, and performance: An empirical study of Singapore manufacturers. Journal of 

Operations Management, 13(2), 99–115. https://doi.org/10.1016/0272-6963(95)00021-J 

Won Lee, C., Kwon, I. G., & Severance, D. (2007). Relationship between supply chain performance 

and degree of linkage among supplier, internal integration, and customer. Supply Chain 

Management: An International Journal, 12(6), 444–452. 

https://doi.org/10.1108/13598540710826371 

Yang-Wallentin, F., Jöreskog, K. G., & Luo, H. (2010). Confirmatory Factor Analysis of Ordinal 

Variables With Misspecified Models. Structural Equation Modeling: A Multidisciplinary 

Journal, 17(3), 392–423. https://doi.org/10.1080/10705511.2010.489003 

Yu, W., Jacobs, M. A., Salisbury, W. D., & Enns, H. (2013). The effects of supply chain integration 

on customer satisfaction and financial performance: An organizational learning perspective. 

International Journal of Production Economics, 146(1), 346–358. 

https://doi.org/10.1016/j.ijpe.2013.07.023 

Zhao, X., Huo, B., Flynn, B. B., & Yeung, J. H. Y. (2008). The impact of power and relationship 

commitment on the integration between manufacturers and customers in a supply chain. 

Journal of Operations Management, 26(3), 368–388. 

https://doi.org/10.1016/j.jom.2007.08.002 



33 

 

APPENDIX A 

Table A1 

 

Factor operationalization  

 

 

Lean SCS 

● (LSCS1) Our supply chain provides products with predictable 

demand.  

● (LSCS2) Our supply chain reduces waste as much as possible.  

● (LSCS3) Our supply chain reduces costs through high volume 

production.  

● (LSCS4) Our supply chain provides standardized products to 

customers.  

● (LSCS5) Our supply chain maintains a long and stable relationship 

with a small number of suppliers.  

● (LSCS6) Our supply chain selects suppliers based on their cost and 

quality performance.  

● (LSCS7) The structure of our supply chain rarely changes. 

Agile SCS 

● (ASCS1) Our supply chain constantly faces customer-demand 

volatility.  

● (ASCS2) Our supply chain responds quickly to the changing market 

environment.  

● (ASCS3) Our supply chain maintains increased storage capacity to 

respond to market volatility.  

● (ASCS4) Our supply chain provides customized products to 

customers.  

● (ASCS5) Our supply chain selects suppliers based on their 

performance in flexibility and responsiveness.  

● (ASCS6) Our supply chain needs to maintain a fast and flexible 

relationship with many suppliers.  

● (ASCS7) The structure (capacity) of our supply chain changes 

frequently to cope with market volatility. 

Internal 

Integration 

● (II1) We integrate data between internal functions through an 

information network.  

● (II2) We have an information system that integrates all functional 

areas.  

● (II3) We monitor inventory levels in the chain in real time.  

● (II4) We consult in real time operational data related to logistics.  

● (II5) We integrate information into the production process.  

● (II6) We manage inventory in a systematic way.  

● (II7) We have a system that integrally facilitates the interaction 

between production and sales.  

● (II8) We hold meetings with established frequencies between 

functional areas.  

Client 

Integration 

● (SI1) We follow up with customers to obtain feedback.  

● (SI2) We implement computerized systems for customers to manage 

their orders.  

● (SI3) Our direct link with customers is through a computer network.  

● (SI4) We exchange market information with customers.  



34 

 

● (SI5) We establish contacts with established frequencies with 

customers.  

● (SI6) We are agile in processing orders.  

● (SI7) We establish contacts with established frequencies with 

customers.  

● (SI8) We have high levels of communication with customers.  

Supplier 

Integration 

● (SI1) We exchange information with suppliers through information 

technology.  

● (SI2) We have a strategic relationship with our main suppliers.  

● (SI3) Levels of supplier participation in the design stage.  

● (SI4) Levels of supplier participation in the procurement and 

production process.  

● (SI5) We have a fast-ordering system.  

● (SI6) Constant purchasing levels through the supplier network.  

Financial 

Performance 

● (FP1) Return on investments (ROI). 

● (FP2) Return on sales (ROS). 

● (FP3) Market share. 

● (FP4) Return on investment (ROI) growth. 

● (FP5) Growth in Return on Sales (ROS). 

● (FP6) Growth in market share.  

 

 

 

 

 



35 

 

Chapter 2: Conclusions and Recommendations 

Conclusions 

This study fills two gaps in the literature. First, there is a tendency not to study 

SMEs in the supply chain management field, and our study serves to fill this gap in the 

literature. Second, supply chain management research in Latin America is lacking, and our 

study serves to fill this gap in the literature. Our study also extends the framework 

developed by Qi et al. (2017) by separating the construct of external integration into 

customer integration and supplier integration which allowed us to find the importance of 

customer integration to a firm’s financial performance, a result which could not be 

corroborated in the original framework. 

Regarding the characteristics of the study participants, 86.4% of the companies 

investigated operate in the capital Lima, while the remaining 23.6% are in other cities. In 

both classifications by region, most companies invoice between $199,500 and $2,260,999, 

43.5% in Lima and 54.5% in other regions. The lowest percentage of companies outside 

Lima was for those that invoice more than $3,000,000, while in the capital, the lowest 

percentage (16.7%) was for companies that invoice between $2,261,000 and $2,999,999. 

In Lima, the highest percentage of companies have between 51 and 250 workers (59.3%); 

outside Lima, the majority of companies (57.6%) have between 11 and 50 workers. 

According to the classification of the companies by type of manufacturing, the most 

frequent is C.10 (food product manufacturing), both in Lima with (23%) and outside the 

capital, where almost half the companies belong to this category (48.5%). 

To determine the suggested estimation procedure for confirmatory factor analysis 

(CFA) and structural equation modeling (SEM), it is necessary to know the form of the 

multivariate distribution of items, for which the index of kurtosis (Mardia, 1970) was 

obtained, calculated in the AMOS program v.23. The individual results showed kurtosis 



36 

 

where the data are concentrated in the high values of the scale, that is, a pointed kurtosis is 

intuited, in general; likewise, the asymmetry is positive.  

According to Rodríguez-Ayán and Ruiz (2008), if the Mardia coefficient exceeds 

the value of 70, the data do not satisfy the assumption of multivariate normality. In this 

research, a value of 88.67 was obtained; therefore, using the unweighted least squares 

(ULS) procedure is suggested because it is a procedure that uses polychoric correlations 

recommended for ordinal scales as is the case in this study (Forero et al., 2009; Yang-

Wallentin et al., 2010). 

Given the confirmation of the univariate and multivariate non-normal distribution 

of the data, we sought to identify the possible causes. For Harrington (2009), one of the 

possible causes of the non-normality of the data could be the existence of outliers. To 

determine this, the Malahanobis distance test is applied, which is a widely used criterion 

for the detection of outliers in multivariate data.  

For the Mahalanobis distance test, Kline (2015) recommended setting a critical 

value of p < 0.001. The existence of outliers could be one of the causes of the non-

normality of the data, which in turn could generate Heywood cases (Brown, 2015). 

Through the Mahalanobis test, 26 outliers were detected. These values were eliminated, 

and the new distances were recalculated, finding 14 new outliers.  

This process could continue to cause new deletions each time because the centroid 

changes and new outliers are usually found. Since the multivariate non-normality was 

maintained, it was decided to keep the original base of 242 data. 

The complete SEM model used to validate the hypotheses of the research showed 

adequate goodness of fit indicators, RFI = 0.949, NFI = 0.953, and GFI = 0.964, all of them 

higher than 0.90, in addition to the residual indicator SRMR = 0.069, less than 0.08. The 

statistical significance of the regression coefficients was calculated with the bootstrapping 



37 

 

technique. EE was found to be highly correlated with EA (0.645) with a p value = 0.027. 

Regarding the coefficients of determination, it was found that all of them are statistically 

significant with values of p < 0.05 in all cases.  

The study showed that no matter what type of SCS is used, SCI is important to the 

organization; this is in line with previous work in this field (Qi et al., 2017). Additionally, it 

was found that the lean supply chain strategy (LSCS) requires greater integration with 

customers than with suppliers and internal integration itself, a result that can be justified by 

the close relationship that SMEs-exporters develop with their customers. 

On the other hand, it was found that the agile supply chain strategy (ASCS) requires a 

higher level of integration with suppliers than with customers, which is valid given the level 

of relationship that companies develop with their suppliers, especially when flexibility is 

important in the attention to orders, as is the case with ASCS. Another important finding is 

that the need for internal integration is greater in the case of LSCS than in ASCS, which is 

consistent with studies conducted in China on this topic. Contrary to what was expected, 

internal integration is not related to financial performance (Flynn et al., 2010; Qi et al., 2017). 

In this research, the external integration construct was divided into integration with 

suppliers and integration with customers to try to find a greater capacity for analysis in the 

relationship of these constructs with financial performance. It was determined that the 

integration with customers is positively related to financial performance, but not the 

relationship with suppliers, which does not influence the performance of the organization. 

This finding is consistent with Yu et al. (2013), who also established the mediating effect that 

customer satisfaction has on this relationship.  

On the other hand, it was found that integration with suppliers is not related to 

financial performance, consistent with Flynn et al. (2010); however, Zhao et al. (2015) 

pointed out that this may be because the effect of suppliers on financial performance is non-



38 

 

linear.  

Previous studies have been inconsistent in their findings on the relationship between 

external integration and financial performance. Yu et al. (2013) pointed out, for example, that 

external integration, understood as integration with customers and integration with suppliers, 

does not have a positive relationship with financial performance, probably due to the mediation 

or moderation of some other variable.  

Flynn et al. (2010) provided preliminary evidence pointing to the importance of 

including internal integration in the development of supply chain integration patterns, which 

provides a vital link between customer integration and supplier integration, without which 

companies cannot reap the full benefits of their integration efforts. The findings of Flynn et 

al. (2010) could not be corroborated in this research.  

However, it was found that 39.7% of the variance of FP is explained by the model, a 

value considered moderately high for a system of structural equations. SI, II, and CI are 

explained 81.7%, 48.2%, 52.9% by the factors ASCS and LSCS respectively. This indicates 

that the direct effects between the exogenous variables and the mediating variables were 

significant. Additionally, the variables LS and AS contribute to explaining FP through the 

mediating variables CI, II, and SI; in all cases, the models had adequate goodness of fit 

indicators.  

Theoretical Recommendations 

We demonstrate empirical evidence that customer integration is directly related to a 

firm’s financial performance, for which we have also found ample evidence in the literature. 

Through effective relationships with customers, firms are more likely to acquire and absorb 

knowledge quickly and effectively, which leads to competitive advantage. It seems that the 

lack of direct effect of internal integration is because internal integration is a construct that 

affects financial performance indirectly only with a mediating relationship with customer and 



39 

 

supplier integration, which could not have been corroborated in this research as our model 

did not include this effect, but it is a relationship which has been found for other types of 

performance in other research (Jajja et al., 2016). 

A clear understanding of the meaning and implications that supply chain strategies 

have in organizations in the region is still emerging, so more studies in other Latin American 

countries are recommended. Instruments that are in line with the new realities, regarding new 

technologies, should be evaluated. 

Practical Recommendations 

Because the study was conducted for Peruvian export SMEs according to ISIC REV. 

4.0, it is difficult to generalize the results obtained, so it is recommended that future research 

broaden the spectrum to other types of companies. In addition, the timeframe of the study is 

cross-sectional, so longitudinal studies are recommended.  

As the data were collected only from Peruvian export SMEs, future studies can 

broaden their scope by collecting data from all supply chain partners, including suppliers, 

manufacturers, and customers. The development of biosecurity policies, due to the COVID-

19 pandemic, could alter factors that influence the supply chain from operations strategies, 

which would mean defining new measurement instruments for them; this could be 

investigated and included in the new models that will be proposed in the future.  

Theoretical Implications 

This study fills two gaps in the literature. The first is the tendency not to study SMEs 

in the supply chain management field; by studying SMEs, our study serves to fill this gap in 

the literature. Second, supply chain management research in Latin America is lacking, and 

our study again fills this gap in the literature. Our study also extends the framework 

developed by Qi et al. (2017) by separating the construct of external integration into customer 

integration and supplier integration which allowed us to find the importance of customer 



40 

 

integration to a firm’s financial performance, a result which could not be corroborated in the 

original framework. 

Neither internal integration (II) nor supplier integration (SI) is directly related to 

financial performance (FP), but we hypothesize that they might be related indirectly through 

other constructs which can serve a mediating role such as operation performance and 

flexibility; we leave the study of this relationship to future research. 

One reason neither internal integration (II) nor supplier integration (SI) influences 

financial performance (FP) directly is that they require various levels of investment not 

directly related to the main objective of a supply chain—to provide maximum value to the 

customer—which is necessarily customer oriented. Key suppliers and customers are the 

primary source of information which is a key input in the organizational decision-making 

process and necessary to attain financial performance. That is why we argue that the 

constructs II and SI are necessary for companies as they represent capabilities which they are 

required to use to create financial value. If firms have a weak internal integration, such as 

poor internal data integration, less communication among functions, or no teamwork, it will 

be difficult for them to adequately maintain good relations with customers and suppliers. 

Given the earlier work that argues and provides partial support in direct contrast with our 

arguments, our findings are intriguing and complementary. 

Practical Implications 

Currently, organizations determinedly attempt to obtain competitive edge, and this 

research suggests, which we present as our major managerial implication, that depending on 

which operation strategies are used, companies should intentionally develop different 

integration capabilities. Companies with a lean operational focus should strive to develop 

greater integration with customers. Likewise, companies with an agile operational focus 

should strive to develop greater integration with suppliers. Internal integration should be 



41 

 

developed for both types of operational strategies, but companies with a LSCS should pay 

special attention to it. In addition, managers should work together to design supply chain 

strategies and supply chain integration and pay attention to how they are linked. Our findings 

indicate that companies wishing to apply concepts of supply chain integration, but which are 

limited in resources, should start with customer integration as it is the construct most directly 

related to financial performance. When no such constraints exist, all three constructs of 

supply chain integration should be developed. The results obtained in this research have 

implications for business managers who want to learn about the effects that the 

implementation of SCS have on a company’s financial performance.  

 



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Appendix A: Acceptance Letter of the Research Article