Latin american journal of economics
versión ISSN 0719-0433
Lat. Am. J. Econ. vol.49 no.1 Santiago mayo 2012
LATIN AMERICAN JOURNAL OF ECONOMICS
VOL 49 NO. 1 (MAY, 2012), 99-123
PAYROLL TAXES AND THE LABOR MARKET: A COMPUTABLE GENERAL EQUILIBRIUM ANALYSIS*
** Departamento Nacional de Planeación, Calle 26, No 13-19, Piso 18, Bogotá, Colombia. 1812. E-mail: firstname.lastname@example.org.
This study uses a computable general equilibrium model to analyze the effects of eliminating Colombia's parafiscal taxes, which finance social programs. In the model, these are substituted by alternative financing sources: VAT, indirect taxes or taxes on capital. The results show that elimination of parafiscal taxes produces a one percentage point decrease in the unemployment rate, as long as these are not substituted by other taxes. However, when other taxes are substituted for parafiscal taxes, there may not be any effect on the unemployment rate. This implies that eliminating parafiscal taxes does not produce the effects expected by a partial equilibrium analysis, that is, a significant reduction in the unemployment rate.
JEL classification: C68, H22, J31
Keywords: Payroll taxes, applied general equilibrium, tax replacement
There is consensus among economists that high non-wage costs1 (NWC) are a major obstacle for the labor market in two ways: generation of employment2 and formalization of employment. This has led to proposals to seek ways to reduce labor costs, with the discussion centering on the role of payroll contributions3. Some believe these taxes should be reduced or even eliminated in order to reduce business costs and encourage the hiring of a larger number of people. However, given that these taxes are the largest source of financing for the SENA4 and the ICBF5, a new source of resources has to be found for these government entities. Some have proposed increasing other kinds of taxes, particularly the value-added tax (VAT)6, to maintain a fiscal balance.
The analysis has concentrated on the use of econometric models that are based on partial equilibrium models or on estimating structural models7, to determine the relationships between the labor market and non-wage costs. This entails overlooking the correlations that appear in general equilibrium, as in the case of partial equilibrium models, and the second-order effects on the economy, as in the case of the structural models. In a partial equilibrium model, a reduction in payroll taxes clearly leads to an increase in employment, but does not consider the impact on the fiscal deficit, which will probably increase due to lower tax collection. Now, if this fiscal imbalance is financed by an increase in another type of tax (for example, VAT), this implies a reduction in consumption which would affect the economy's GDP, probably by reducing it, and would offset the positive effect on the labor market, that is an increase in employment, and therefore cause a loss of jobs in the short or long term. As can be seen, although the policy action aims at increasing employment, the different relationships in the economy may lead to an undesired effect that cannot be considered in a partial equilibrium model.
On the other hand, in the scope of computable general equilibrium (CGE) models, it is possible to evaluate different scenarios for a policy and answer questions such as: Who are the winners and losers as a result of this policy (the elimination of payroll taxes)? What happens to the fiscal deficit? How can an increase in the fiscal deficit be financed? Given the existing production technology, does this create a possible increase in employment? For these reasons, and others not mentioned here, CGE models will be used to analyze the tax impact. These models provide an economic structure that is easy to interpret when studying policy simulations that affect all markets in the economy, based on a solid microeconomic foundation. In addition, they take into consideration income generation and expenditures by economic agents simultaneously, making it possible to explain the effects of efficiency and distribution of different policy changes. These models have been widely used in Colombia since the beginning of the 1980s 8, for a great number of policy analyses: trade liberalization, free trade agreements, fiscal impact, the effects of policy on poverty, and others.
Traditionally, CGE models consider markets under perfect competition, that is, in which market failures are not involved. In this case, because the goal is to evaluate the generation of jobs under the elimination of payroll taxes, a competitive employment market is not the best alternative. This is because there are no changes in unemployment, that is, the entry and exit of people to and from the labor market, but rather what occurs is a sectoral shift of the factors of production. To correct this problem, the incorporation of a non-competitive labor market is considered, implying changes in the level of unemployment within the model. In this paper, the competitive labor market is replaced by a wage curve, following Hutton and Ruocco (1994). The wage curve shows the empirical relationship between the unemployment rate and the wage level, which together with job demand enables determination of the involuntary unemployment level9.
Within the labor market, there are two types of labor: formal and informal work. This is because in Colombia the labor informality rate exceeded 60% between 2000 and 200510. To characterize the movement from formal to informal employment and vice versa, this study follows the Harris-Todaro approach, where an individual observes the expected wage as a signal to migrate from one sector to another. It should be noted that in this case it is assume that the labor market in the formal sector will behave in a non-competitive fashion (unemployment generated by a wage curve) and the informal labor market in a competitive way.
The MEGATAX11, model was used for the simulations, based on the social accounting matrix for 200512. With MEGATAX we carry out the simulation of the elimination of payroll taxes and financing of the fiscal imbalance through an increase in tax rates as a way to finance the SENA and the ICBF. There is a reduction in the unemployment rate, close to one percentage point, without any type of financing. But once financing of the fiscal imbalance is introduced, the effect is zero, due to increased distortions to the economy. Therefore, the partial equilibrium considerations that find an increase in employment of up to two percentage points may be an overestimation. This effect is canceled out if financing through taxes as proposed by several authors is considered.
The rest of the paper is divided into the following sections: Section 2 provides a brief overview of the effects of payroll contributions on employment as well as their composition, and Section 3 presents an explanation of the structure of the computable general equilibrium model used, emphasizing the characteristics associated with the labor market. Subsequently, Section 4 presents the social accounting matrix that is the dataset of the model, Section 5 shows the results of the policy simulations and Section 6 contains some final comments.
2. THE EFFECT OF PARAFISCAL TAXES ON THE LABOR MARKET
In Colombia, non-wage costs are the payments that an employer incurs when hiring a person. These costs are set forth in the country's Substantive Labor Code but are not part of basic remuneration. Currently, non-wage costs for which the employer is responsible total 50.7% of the worker's salary. Of this, 41.1% corresponds to worker insurance (healthcare, pension and professional risks), 41.1% to payments for unemployment, bonuses and holidays, and the remaining 17.8% consists of fiscal contributions (Table 1).
From a theoretical point of view, in a competitive partial equilibrium model an increase in payroll taxes paid by businesses would be expected to increase labor costs. There is a process of setting wages and employment that compensates for these higher costs, thus reducing employment. On the other hand, if the worker pays the tax, this implies a decline in worker wages, which workers compensate for by reducing the labor supply. As can be seen, in both cases employment falls, so that employers and workers share the losses of the tax burden. Now all of this depends on the elasticities of both labor demand and supply, since given the case in which demand is completely elastic and supply is inelastic, the cost is assumed in its entirety by workers. In the long run, this produces an adjustment in the labor market such that the effect on employment disappears (Farne, 2010).
In Colombia, this type of adjustment takes a long time, as a large component of the labor supply consists of informal workers who earn the minimum wage. In the first case, a high rate of informalityaround 60.0% of all employmentimplies that the labor supply will almost immediately respond to changes in wages. Therefore, the supply is not inelastic. On average, 55.0% of workers earn minimum wage, which implies that there will be downward rigidity.
Since the beginning of the 1990s, a large number of econometric exercises have been carried out to study the effect of non-wage costs on employment, as well as to evaluate the impact that reducing payroll taxes would have on formalization of the economy13. First, these exercises have found that salary and non-salary costs present the expected sign; in other words, an increase in these costs reduces employment and employment formalization. Therefore, overall, an increase in non-salary costs would provoke an average reduction in employment of 1.5% (Table 2).
In particular, Cárdenas and Bernal (2003) find that employment elasticities with respect to the real wage and costs imply that elimination of payroll contributions would boost employment by 1.3% in urban areas (from a long-term or dynamic approach), while the "static" effect of the same policy would generate a 5.0% increase in labor demand. Recently, Sánchez, Duque, and Ruiz (2009) have found that a 5.0% reduction in labor costs, as a percentage of salary, generate a reduction of 1.2% in the unemployment rate. Kugler and Kugler (2009), using a panel of firms representing the industrial sector, show that a 10.0% increase in payroll contributions causes a drop in formal employment that ranges from 4.0% to 5.0%.
3. COMPUTABLE GENERAL EQUILIBRIUM MODEL
This section presents the principal characteristics of MEGATAX. In the first instance, the principal characteristics of the model are shown, and later the functioning of the labor market is described in greater detail. To do this, a wage curve (Blanchflower and Oswald, 1994) is introduced in order to incorporate unemployment into the model. In addition, the Harris-Todaro approach is used to show how the worker's decision to work in the formal or informal sector is endogenous to wages.
3.1 Characteristics of the model
A standard CGE model is used, that is, the technology assumes constant returns to scale and preferences are assumed to be homothetic. Optimizing behavior is assumed on the part of households and firms, and excess demand functions are homogeneous of degree zero and satisfy Walras' law. In addition, factor and product markets are assumed to be competitive; in this case, an exception is made for the labor market14, and relative prices are sufficiently flexible to clear factor and product markets.
In a more detailed form, we have that in production ( Yi) goods are produced in accordance with the Leontief-CES nested technology15.
In the first level, the value added (νi) and intermediate inputs (bi,j) are entered into the calculation:
The value added is represented by a Cobb-Douglas function whose arguments are capital Ki and labor (in our case, two types: formal labor, Lfor,i, and informal labor Linf,i). There is a constant-elasticity-of transformation function for the supply of formal and informal labor, which implies segmentation in the labor market. When the elasticity of transformation is zero, both types of labor have a fixed supply. Constant returns to scale are assumed, which implies that factors are remunerated according to their marginal productivity, that is, real wages and the rental price of capital.
Production Yi of the different sectors is destined to two types of markets: domestic, Di, or exported, Ei. These two types of goods are assumed to be imperfect substitutes and have a constant elasticity of transformation (η). The functional form is the following:
where is the share in the (accounting) basis of total domestic sales of the product for sector .
On the other hand, imports adopt the Armington representation of demand for imports, Ai, where A is the Armington good produced as a result of the combination of domestic goods, Di, with imported goods, Mi, in the same sector. An Armington elasticity of substitution, σ, is used.
The real exchange rate (ρ) is determined by the supply of exports and demand for imports, which is defined in units of foreign currency. The parameter B denotes the current account balance. According to the assumption of a small economy, prices of imports and exports are taken as given (pEi; pMi).
For the structure of the model, a flexible exchange rate is used such that the trade balance is fixed. Then, any change in the exchange rate reflects the recomposition of imports and exports to maintain the trade balance.
In the case of aggregate final consumption, there is a representative agent who is endowed with capital and labor. Preferences are represented by the utility function, whose arguments are the domestic good Di and the imported good Mi, that is, the composite good Ai. In this case, the functional form of the utility function is Cobb-Douglas, which will weight all imported and domestic goods in the economy.
The government spends its funds on services and investment. Revenue comes from taxes, capital rents and transfers from abroad. The main taxes in the model are: value-added tax, customs duties, direct taxes on capital, direct taxes on labor (payroll taxes) and indirect taxes, all of which will be the instruments of tax policy.
3.2 Labor market
The negative relationship between the unemployment rate and wages can be explained by non-competitive theories for the labor market. In general, there are three types of models used to explain this phenomenon: labor bargaining models, efficiency wage and contract models. Colombia has presented evidence that in the labor market, employers continue to conduct efficiency wage (Iregui, et al. 2010), since in periods of low economic growth they avoid reducing wages to prevent the loss of more productive workers with greater experience. Furthermore, workers who earn high wages prefer to lose their jobs rather than see their earnings reduced, that is, there is an adjustment in quantities.
In the model, as there are two types of laborformal and informalso formal workers, given that they enjoy greater stability due to labor contracts, can be modeled with a wage curve. On the other hand, because informal jobs are not stable, that market is adjusted through wages, and is therefore seen as behaving like a competitive market.
To incorporate this negative relationship between wages and the unemployment rate into the CGE model, a wage equation is used:
where P is the consumer price index and ur is the unemployment rate, which was 11.7% in 2005 in Colombia. The functional form for the wage equation, g(ur), is very basic. The elasticity parameter ε is used for this:
When εs-∞, the real wage curve tends to be horizontal, following the neoclassical approximation. Empirical evidence for Colombia shows that the value of the elasticity between wages and unemployment (ε) ranges from -0.13 for Sánchez and Núñez (1998) to -0.07 for Ramos, Duque and Surinach (2009) and between -0.08 and -0.15 for Arango, Obando and Posada (2010). These results are close to the -0.10 found by Blanchflower and Oswald (1994) for different countries.
3.3 Migration between formal and informal labor
Informality can be viewed in terms of opposing aspects: as an escape from the formal sector or from an exclusion approach. The escape approach lies within the framework of implicit cost-benefit analysis for taking the decision to work in the formal or informal sector. In the case of exclusion, a person works in the informal sector because: there is significant segmentation in the labor market, which implies not being able to obtain access to certain benefits provided by the economy and the state. The law does not allow movement between formal and informal labor, since given the tax regulations workers earn more in the informal sector than in the formal one. Then, one way to model the labor market to show that there is an escape approach16 is to follow Todaro (1969), who relates the labor migration rate, in this specific case, with an informal worker's decision to enter the formal labor market17, through the differential in the real wage and the unemployment rate. The migration occurs when the expected real wage for formal labor is high in relation to informal work. According to this argument, workers migrate to the formal sector until the informal sector wage is equal to the expected formal wage.
The expected wage in the informal sector is defined by the formal wage, Wfor,i multiplied by the employment rate (1-ur). When there is a high rate of unemployment, ur increases, and the gap between the formal wage and the informal wage grows. This implies that very few informal workers move into the formal labor market. The labor supply for the formal and informal sectors is determined by the migration rate and the unemployment rate. First, the formal labor supply is equal to the fraction of employed workers who choose to migrate to the formal sector:
where m is the migration rate, measured as the proportion of informal workers in the total labor supply in both the formal and informal sectors, ur0 is the initial unemployment rate, and L 0for,i is the initial supply of formal labor. The migration rate depends on the unemployment rate and the expected wage, and therefore, the supply of informal labor is equal to those workers who decided not to migrate:
3.4 Equilibrium conditions
The solution algorithm of this CGE model is based on a mixed complementarity problem (Mathiesen, 1985), which is solved in the GAMS/MPSGE software (Rutherford, 1999). The conditions of the model that define an Arrow-Debreu equilibrium are the following:
Zero Benefits Condition: Costi ≥ Ingi
where Cost is the producer cost and Ing is the producers' income.
Market clearing: where RA is the private consumption of the representative agent, GOV is government consumption and p are prices.
Budget Balance: where are respectively the supply of labor, capital and natural resources, trn are transfers, and I is investment.
Zero Benefits Condition: This restriction requires that at equilibrium, no producer receives any "excess" benefits; in other words, the value of inputs per unit of activity, Costt, must be equal to or greater than the product revenue, Ingt. The corresponding complementary variable for a zero benefits condition is the product (Yi). Maintaining everything constant, if the price of the product of good i increases, production increases until the cost equals marginal revenue.
Market clearing condition: The second class of equilibrium condition is that at the prices and levels of activity, the aggregate supply of a good i cannot be less than producers' and consumers' aggregate demand for that good. The corresponding complementary (dual) variable for the market clearing condition is the price ( pi, pk, pk w in each case).
Budget Balance Condition: The third condition is that at equilibrium, the value of each agent's income (left side of the equation) is equal to the total value of their respective expenditures (right side of the equation). The model always works with utility functions that satisfy non-satiation and therefore Walras' Law is fulfilled.
4. CHARACTERISTICS OF THE 2005 SOCIAL ACCOUNTING MATRIX
A social accounting matrix (SAM) is an accounting framework that illustrates the flows of an economy's income and expenses. It is also a tool for describing the economy in a particular year and is useful as an input for developing simulations through multiplier analysis or CGE models. The 2005 SAM developed by Pardo and Corredor (2008)18 is used as the reference, with some modifications according to the characteristics of the model used.
Table 3 presents a summary of the SAM developed for 2005. For that year, GDP is $285,380,153 million Colombian pesos, total consumption is 80.1% of GDP, investment equals 20.8% of GDP and there is a negative trade balance (exports less imports) on the order of 0.9% of GDP. Investment is financed in large part by private savings equal to 17.4% of GDP, government savings equal to 2.3% of GDP and there is a current account deficit equivalent to 1.1% of GDP. Furthermore, within the value added, payments on capital are on the order of 34.2% of GDP, while wages of formal sector workers are 33.2% of GDP and those of informal sector workers are 21.9% of GDP.
On the other hand, we find that the tax burden is equivalent to 17.4% of GDP, with the VAT bringing in the largest amount (Table 4). It is important to clarify that effective rates rather than nominal rates are used for taxes; in other words, the rates found in national accounts are the effective collection rate that each of the taxes generates. For example, in the case of VAT, its nominal rate is around 16.0%, while the effective rate in national accounts is 10 points lower. This is because it includes all kinds of exemptions under the tax code, and also reflects the problem of evasion19. The same occurs with payroll contributions: the collection rate is 9.0%, but given the exemptions combined with tax evasion, the effective rate is 5.1% (Table 4).
Before continuing, it is important to describe what is included in indirect taxes, as this explains some of the results. There are two categories of indirect taxes: Other taxes on products (excluding VAT and taxes on imports and exports) and taxes on products. According to the definition of national accounts, other taxes on products (excluding VAT and taxes on imports and exports) are taxes on goods and services that are imposed on the production, sale, transfer, rental or delivery of goods and services, or their use for self-consumption or for capital formation on one's own behalf. Examples of this are specific taxes that are often levied on alcoholic beverages, tobacco and fuels. On the other hand, taxes on products are taxes that must be paid for each unit of a good or service that is produced or distributed. The tax may consist of a specific amount of money per unit or service, or be set as an ad valorem percentage of the unit price, and it is always necessary to know the type of goods or services to which this kind of taxes apply. The breakdown of formal and informal workers follows the DANE definition, which considers workers informal if they have the following characteristics: i) employees and workers who work in establishments, businesses or private companies with 10 or fewer employees in all agencies and branches, ii) domestic employees, and iii) self-employed workers, except for independent professionals. Given these characteristics, findings show that 63.6% of workers are informal, while the remaining 36.4% of workers are considered formal. This informality rate is a little bit higher than the 58.8% found for 2005, according to DANE calculations, given the assumptions for calculating this figure.
The following considerations are made for worker wages: People who work in the home and do not receive any kind of wage are not included in the breakdown of labor remuneration. It is assumed that the remuneration of owners or employers corresponds to capital earnings. Table 5 presents the correlative used between the labor classification that the 2003 Encuesta de Calidad de Vida (Quality of Life Survey) assigns to employed persons and the remuneration to factors used to prepare the SAM. In the SAM, it is assumed that all mixed income corresponds to labor income. Given this assumption, the labor remuneration for each type of labor is made up of the sum of the corresponding remuneration to salaried workers and mixed income. Table 6 summarizes the information concerning the share of remuneration and the labor force represented by the different kinds of labor.
5. SIMULATIONS RESULTS
The objective is to evaluate different financing alternatives if payroll taxes are eliminated. In addition, although parafiscal contributions finance a large portion of the operations of the SENA and the ICBF and eliminating them entails negative social costs, funding of these institutions should not increase government expenditures, and therefore government savings (fiscal deficit or surplus) must be kept constant. Thus, the elimination of payroll taxes means that they must be substituted by another type of tax in order to generate permanent rather than temporary revenue, which would be the case when resorting to public debt. Three tax instruments are used for the simulation: VAT, indirect taxes and taxes on capital. Customs duties are not used as a source of financing, as there is currently a major effort underway to open up trade with new markets for Colombian exports through free trade agreements with diverse trading blocs or countries (including the European Union, Canada and the United States).
The elimination of payroll taxes is analyzed under two different scenarios. The first assumes full employement of resources, which implies perfect mobility between sectors of labor; that is, a worker enters the formal sector because he or she left the informal sector (became formal) or vice versa. This type of scenario shows what occurs with sector reassignments when a price distortion is eliminatedin this case, payroll taxes in the formal labor sectorwhich helps counteract the results of scenarios that involve unemployment.It should be kept in mind that the results, that is, changes in the GDP or in well-being, indicate better functioning of the economy given of the new reallocation of resources (greater efficiency) and do not imply economic growth, because at no time are there factors that create growth. Then, to enrich the analysis a scenario is presented in which unemployment is introduced through a wage curve for formal labor, while informal labor is assumed to continue to be a competitive market. In addition, the decision to remain in the formal or informal labor market is introduced through a Harris-Todaro equation. This implies that informality, in addition to being a decision about relative prices, is also voluntary.
Tables 7 and 8 show the different simulation scenarios. For scenarios 1 and 5, payroll taxes are reduced without any type of financing for family compensation funds, the SENA and the ICBF. In these scenarios, government savings fall, that is, there is a larger fiscal deficit. These scenarios are simulated in order to offer a comparison of the effects on employment found in the partial equilibrium models. In the remaining scenarios, the reduction of tax revenues as a consequence of the elimination of payroll taxes is compensated by an increase in the VAT (scenarios 2 and 6), indirect taxes (scenarios 3 and 7) or taxes on capital (scenarios 4 and 8).
As can be observed, the elimination of payroll taxes implies a reallocation of employment (scenario 1); in other words, the net effect is that formal employment increases, "formalizing" a significant number of workers. Now, it is important to remember that the increase in formal sector employment can be explained in different ways depending on the way in which the labor market is modeled. In the case of full utilization of resources, this is an effect of recomposition due to the employment of the distortion, while in the case of the wage curve, part of the increase comes from the informal workers but just over 40.0% comes from the unemployed.
However, in scenarios 1 and 5, as in the other scenarios, it is evident that informality rates fall but only slightly, between 1.2 and 2.7 percentage points. This result is quite close to what has been found in estimates of the transition matrices between formal and informal labor. Mondragon, Peña and Wills (2010) obtained similar results when estimating such a matrix: They found that between June 1997 and June 1998, 40.0% of informal workers continued to work informally, while only 12.1% moved from informal to formal jobs. On the other hand, these results show that informality in Colombia is more of an exclusion phenomenon than an escape phenomenon, that is, people are not able to obtain access to certain benefits due to institutional regulations. However, Bernal (2009) founds that half of independent workers would not accept a formal job with benefits for the same salary or a lower one. This is evidence that people work in the informal labor market because of personal choice, and not because they have not had opportunities to enter the formal market.
There are two indicators that enable observation of the efficiency of payroll taxes in this model. The first is the change in GDP. This indicator may be interpreted thus: i) when the tax is eliminated, how much additional output can the economy produce as a result of the removal of the distortion, and ii) given that there is a new tax, how much will the economy produce or cease to produce as a result of this new distortion. Furthermore, another indicator is reported, this time from the regulatory point of view. This is the equivalent variation in percentage terms, which shows how much well-being increases or decreases as a result of the change in taxes. In the first case, in terms of GDP the elimination of payroll taxes results in a change of 1.5% (scenarios 1 and 5) because the distortion no longer exists. However, the incorporation of rigidity into the labor market reduces this by one percentage point. This is evidence of the distortion created by these taxes on the economy, which occurs because in the formal labor market quantities adjust rather than prices. Well-being is expected to experience a positive change, since it reflects consumption, and the suppression of payroll taxes implies higher take-home wages for consumers, who can therefore spend more.
It should be noted that in both casesfull employment of resources or unemploymentthe most efficient tax is that levied on capital. This is because increased collection of this tax generates smaller distortions of the economy. However, the effort that must be made to increase tax collection is significant, since collection has to increase by 37.6% (scenario 4) and 42.4% (scenario 8) to maintain the fiscal deficit constant. This would be equivalent to an increase in the effective rate of tax on capital by 6.8 (scenario 4) and 7.7 (scenario 8) percentage points. It should be mentioned that this is a short-term model that does not provide information about the long-term consequences of economic effects. Increased taxes on capital could lead to negative results in terms of GDP growth. As indicated by Escobar et al. (2003) the long-term effect of taxes on capital is a decline in GDP caused by lower accumulation of capital stock.
Regarding financing through the VAT, it should be taken into account that this also has negative consequences, because an increase in this tax implies a reduction in household consumption. On the other hand, technically it can be much easier to increase the collection rates, in terms of monitoring and enforcement. In addition, the rate increase would only be around 2.7 percentage points. Now, if we observe the results of financing through indirect taxes, the findings show that these are the least efficient taxes since they directly distort production costs. Moreover, two aspects have to be considered: i) there are many specific taxes (for example, on tobacco or liquor), but depending on the size of the sector, an increase of this kind can hurt the sector to the point that it disappears, and ii) many of these taxes are handled by municipalities, so their collection is often not the responsibility of the central government. In this case the rate increase is 4.8 percentage points because the collection rate is one of the lowest among government tax revenues.
Here, it is important to remember that the model works with effective rather than nominal rates. This implies that two factors are implicit in the average rates: evasion and tax exemptions. As a consequence, a tax reform must be focused on achieving an increase in effective rates, such that greater efficiency in the tax administration or a reduction in tax exemptions would be an effective tool to achieve these goals.
The results show that in terms of the labor market, there is a reduction in the unemployment rate (scenarios 5 to 8) but this reduction is quite small, as it only reaches one percentage point. This is due in part to the fact that at least 53.6% of the increase in formal employment consists of workers who were already in the labor market as informal workers and the remaining 47.4% consists of workers who were unemployed. On the other hand, the elimination of payroll taxes results in an increase in wages in the formal sector, but the wage increase in the informal sector is due to the fact that this market behaves like a perfectly competitive market, such that the departure of workers generates wage pressure to retain them.
As can be seen in scenarios 1 to 4, wages in the formal sector do not rise even though payroll taxes have been eliminated. This is because this is a net effect. In other words, initially wages increase due to cost reductions, but this attracts people working in the informal market. Because the informal market behaves like a perfectly competitive market, there is downward pressure on salaries, and the initial effect is canceled out. But this does not occur in scenarios 5 to 8, as they operate in a market where the adjustment affects wages more than quantities.
A computable general equilibrium model has been used to show the effect of an elimination of payroll taxes, taking into account second-best effects on the economy. To perform the exercise, it was assumed that the elimination of payroll taxes would not have any impact on the fiscal deficit, that is, public savings are maintained constant in absolute terms. To achieve this, payroll taxes are substituted by other types of taxes (VAT, indirect taxes and tax on capital), applying a rate endogenous to the tax system. These taxes can generate more or fewer distortions than payroll taxes. Additionally, the labor market is considered to be segmented into formal and informal employment, and a non-competitive labor market is also included (for the formal sector) through the introduction of a wage curve.
The experiments show that in the labor market there is a very small effect on the unemployment rate, equivalent to a reduction of one percentage point. When payroll taxes are substituted, the effect on the unemployment rate is canceled out, due to the behavior of the labor market. In regard to formalization of employment, the simulations show that the informality rate changes only slightly, by about one percentage point. This result reveals that the phenomenon of informality in Colombia is explained by a hypothesis of exclusion rather than escape in the labor market20; in other words, the institutional framework of the Colombian labor market is more influential than workers' wage conditions.
Although not presented here, the increase in taxes on capital could result in harmful consequences for the economy. This is because despite the positive effects in the short termgreater efficiency of the tax and increased formalization of the labor marketthe rate of investment in the economy is affected, potentially jeopardizing growth. Therefore, what is observed is that a change in VAT rates could lead to results that would certainly have a negative effect on output.
Even though our findings are similar to of partial equilibrium analyses, in that the elimination of payroll taxes reduces unemployment (albeit to a lesser extent), it is apparent financing through other taxes dilutes the positive effects on the economy, reducing them to zero or transforming them into negative effects in some cases, as a consequence of the interrelationships in the economy.
* The author is grateful for the comments of Jaime Tenjo, Gabriel Piraquive, Juan Mauricio Ramírez, Manuel Ramírez and Jesús Otero, as well as two anonymous referees. All observations and errors are the exclusive responsibility of the author and do not necessarily represent those of the institution for which he works.
1. Non-salary costs are mainly composed of employee risk assurance: contributions for healthcare, pensions, and professional risks. They also include: i) severance pay, equivalent to one monthly salary per year worked, ii) vacation, half of a monthly salary, iii) payroll contributions equivalent to 9.0% of one month's salary, and iv) a legal bonus, equivalent to one month's salary per year.
2. As Arango and Posada (2006) note, the main components of the long-term unemployment rate are: real per-hour wage, non-salary labor costs and the capital accumulation rate.
3. These types of taxes finance compensation funds and are also the main source of resources for the Instituto Colombiano de Bienestar Familiar (Colombian Institute of Family Well-being, or ICBF) and the Servicio Nacional de Aprendizaje (National Learning Service, known as SENA).
4. The SENA is a government agency that invests funding from parafiscal taxes in workers' social and technical development by offering programs to incorporate people into productive activities (http://www.sena.edu.co/).
6. See Sánchez, Duque and Ruiz (2009).
7. These may be derived from general equilibrium models.
8. See Cepeda, Lopez and Ripoll (1994).
9. See Bohringer et al. (2003).
10. See Cardenas and Mejía (2007).
11. See Light and Rutherford (2002).
12. See Pardo and Corredor (2008).
13. Here only empirical evidence produced since 2000 is presented.
14. This will be described later in greater detail.
15. In this case, the elasticity of substitution θ is equal to zero, and is therefore a Leontief function.
16. In order to model the exclusion approach, a labor market that is totally segmented between formal and informal labor would be proposed.
17. Which is too low for Colombia (Bernal, 2009, and Mondragon, Peña and Wills, 2010).
18. The methodology they follow is found in Hernández, Pardo and Corredor (2007), in which first they build a basic SAM based on the national accounts system, and then incorporate into it some characteristics of the labor market.
19. Steiner and Soto (1999) calculate a VAT evasion rate of 32.0%.
20. As informality in Latin America has been characterized by the World Bank (Perry, et al. 2007).
Alm, J. and H. López-Castaño (2005), "Payroll taxes in Colombia," Andrew Young School of Policy Studies, Georgia Tech University, Working Paper 06-36. [ Links ]
Arango, L.E., N. Obando, and C.E. Posada (2010), "Sensibilidad de los salarios al desempleo regional en Colombia: nuevas estimaciones de la curva de salarios," Banco de la República, Borradores de Economía, No. 590. [ Links ]
Arango, L.E. and C.E. Posada (2006), "La tasa de desempleo de largo plazo en Colombia," Banco de la República, Borradores de Economía, No. 388. [ Links ]
Bernal, R. (2009), "The informal labor market in Colombia: identification and characterization," Desarrollo y Sociedad, Vol. 63: 145-208. [ Links ]
Blanchflower, D. and A. Oswald. (1994), The Wage Curve, Cambridge: MIT Press. [ Links ]
Böhringer, C., S. Boeters, and M. Feil (2005), "Taxation and unemployment: an applied general equilibrium approach," Economic Modelling, Vol. 22: 81-108. [ Links ]
Böhringer, C., T. Rutherford, and W. Wiegard (2003), "Computable general equilibrium analysis: opening a black box," ZEW Discussion Paper 56. [ Links ]
Cárdenas, M. and R. Bernal (2003), "Determinants of labor demand in Colombia," in Heckman, J. and C. Pagés, eds., Law and Employment: Lessons from Latin America and the Caribbean, National Bureau of Economic Research, University of Chicago Press. [ Links ]
Cárdenas, M. and C. Mejía (2007), "Informalidad en Colombia: nueva evidencia," Fedesarrollo, Documento de Trabajo, No. 35. [ Links ]
Cárdenas, M. and V. Mercer-Blackman (2006), "Análisis del sistema tributario colombiano y su impacto sobre la competitividad," Fedesarrollo, Cuadernos de Fedesarrollo No. 19. [ Links ]
Cepeda, F., E. López, and M. Ripoll (1994), "Crónica de los modelos de equilibrio general en Colombia," Banco de la República, Borradores de Economía, No. 13. [ Links ]
Escobar, A., G. Hernández, G. Piraquive, and J.M. Ramírez (2003), "Elementos para el análisis de incidencia tributaria," Departamento Nacional de Planeación, Archivos de Economía, No. 224. [ Links ]
Farne, S. (2010). "La parafiscalidad laboral en Colombia," Universidad Externado de Colombia, Boletín del Observatorio del Mercado de Trabajo y la Seguridad Social, No. 12. [ Links ]
Gaviria, A. and J. Nuñez (2003), "Evaluating the impact of SENA on earnings and employment," Departamento Nacional de Planeación, Archivos de Economía No.220. [ Links ]
Hernández, G., O. Pardo, and D. Corredor (2007), "Construcción de una matriz de contabilidad social 2003 para Colombia," document prepared for the Regional Conference on Computable General Equilibrium Models: Contributions to Economic Policy in Latin America and the Caribbean, Santiago, Chile. [ Links ]
Hutton, J. and A. Ruocco (1994), "Tax reform and employment in Europe," International Tax and Public Finance, Vol. 6, No. 3: 263-287. [ Links ]
Iregui, A.M., A. Melo and M.T. Ramírez (2010), "Downward wage rigidities and other firms' responses to an economic slowdown: evidence from a survey of Colombian firms," Banco de la República, Borradores de Economía, No. 612. [ Links ]
Kugler, A. and M. Kugler (2009), "Labor market effects of payroll taxes in developing countries: evidence from Colombia," Economic Development and Cultural Change, Vol. 57, No. 2: 335-358. [ Links ]
Light, M. and T. Rutherford (2002), "A general equilibrium model for tax policy analysis in Colombia," Departamento Nacional de Planeación, Archivos de Economía No. 188. [ Links ]
Mathiesen, L. (1985), "Computational experience in solving equilibrium models by a sequence of linear complementarity problems," Operations Research, Vol. 33, No. 6: 1225-1250. [ Links ]
Mondragon, C., X. Peña, and D. Wills (2010), "Labor market rigidities and informality in Colombia," Universidad de los Andes, Documentos CEDE, No. 7. [ Links ]
Pardo, O. and D. Corredor (2008), "Matrices de contabilidad social 2003, 2004, 2005 para Colombia," Departamento Nacional de Planeación, Archivos de Economía No. 339. [ Links ]
Perry, G., W. Maloney, O. Arias, P. Fajnzylber, A. Mason, and J. Saavedra-Chanduvi (2007), "Informalidad, escape y exclusión" (executive summary), World Bank. [ Links ]
Ramos, R., J. Duque, and J. Surinach (2009), "Is the wage curve formal or informal? Evidence for Colombia," Economics Letters, Vol. 109, No. 2: 63-65. [ Links ]
Rutherford, T. (1999). "Applied general equilibrium modeling with MPSGE as a GAMS subsystem: an overview of the modeling framework and syntax," Computational Economics, Vol. 14, Nos. 1-2: 1-46. [ Links ]
Sánchez, F. and J. Núñez (1998), "La curva de salarios para Colombia: una estimación de las relaciones entre el desempleo, la inflación y los ingresos laborales, 1984-1996," Departamento Nacional de Planeación, Archivos de Economía No. 80. [ Links ]
Sánchez, F., V. Duque, and M. Ruiz (2009), "Costos laborales y no laborales y su impacto sobre el desempleo, la duración del desempleo y la informalidad en Colombia, 1980-2007," Universidad de los Andes, Documentos CEDE, No. 11. [ Links ]
Steiner R. and C. Soto (1999). "Cinco ensayos sobre tributación en Colombia," Fedesarrollo, Cuadernos de Fedesarrollo, No. 6. [ Links ]
Todaro, M. (1969), "A model of labor migration and urban unemployment in less developed countries," The American Economic Review, Vol. 59, No. 1: 138-148. [ Links ]