Employment and labour hoarding: a production function approach

 

Melchior Vella¹

¹ Department of Economics, University of Malta, Msida, Malta

 

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Abstract

Purpose - This paper aims to test the hypothesis that the effect of production slowdown on labour demand can be muted by labour hoarding,
Design/methodology/approach - This study adopts a production function approach, using data from Malta, a small state in the EU
Findings - The results confirm the hypothesis and indicate that firms are normally prepared to employ and dismiss more workers in the long run than in the short run,
Practical implications - This finding has important implications for developed countries, including that labour hoarding can be of certain relevance in times of economic slowdown as shocks are absorbed by internal flexibility.
Originality/value - The results of this study add on to the existing literature in two ways, First, this study compares two industries -manufacturing and financial services- for which the former sector received support to hoard labour after the financial turmoil of 2008, Consequently, the dominance of labour hoarding in manufacturing relative to financial services is uncovered and the effect of hoarding practices on labour demand is estimated, Second, Malta is an interesting case because it is one of the smallest economies in the world and faces a high degree of vulnerability because of constraints associated with small size and insularity, As a result, firms adopt policy-induced measures to minimise adjustment costs,

Keywords: Labour demand, CES production function, Disequilibrium model, Labour hoarding Paper type Research paper

 

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Introduction

As the world economy is slowly recovering the deep and widespread recession since the 1930s, a policy challenge in many developed countries is the deteriorated labour market outcomes. Job shedding became widespread and unemployrnent increased at record levels in most developed countries. The financial turmoil and the economic crisis have had repercussions on the growth prospects, and without in-built economic resilience mechanisms, resulting from internal flexibility and good economic governance, countries were unable to recover quickly from or adjust instantaneously to the adverse exogenous shock. Indeed, as observed in many studies, unemployment increases have been contained in countries with comparatively strong internal flexibility (Eichhorst et al., 2010; Carballo­Cruz, 2011; Eichhorst, 2014; Muffels et al., 2014).

Sharp drops in output instigate firms to reduce labour costs by shedding workers, reducing hours worked, or reducing compensation per employee. Firms tend to hoard labour, meaning that workers are retained more than is required to produce the demanded level of output. This is based on the expectations that demand will recover and soon the excess number of workers will be needed again. Furthermore, it may also be advantageous for firms, as they do not incur redundancy payrnents.

Though adjustment costs of firms, such as hiring-and-firing and training costs, are considered to be crucial in determining the responsiveness of firms to external shocks (Hamermesh, 1993; Hamermesh and Pfann, 1996), they are not abundant and reported in literature. Empirical literature confirms that firms do not adjust employrnent instantaneously in response to an aggregate demand shock, as they should under convex cost situation. By contrast, the response is often lagging, staggering and discontinuous, with periods of inertia and large adjustments to large shocks (Hamermesh, 1989; Caballero et al., 1997; Varejáo and Portugal, 2007; Ejarque and Portugal, 2007).

A common approach to address this problem is to extrapolate labour demand dynamics as a partial-adjustment-like path towards new equilibrium, meaning that a distinction between desired and actual employrnent is made. Other studies describe the dynamics of labour demand as the result of the interaction between the shapes of the adjustment hazard function (Varejáo and Portugal, 2007). The importance of nonlinearities and non-convex cost structures was also tested with micro-data (Hamermesh, 1993, 1996; Anderson, 1993). Consistent with this group of studies, empirical results have often reported a "lumpy" adjustment (Caballero et al., 1997).

Small states economies are a good example to test the hypothesise that negative impacts on labour demand can be muted if against the background of negative output growth firms hoard labour and consequently stabilise labour market trends[1]. It is generally acknowledged in the literature that countries with properly designed labour market institutions that promote "flexicurity" (Wilthagen and Tros, 2004; Muffels and Wilthagen, 2013) tend to perform well in both economic and social dimensions (Muffels et al., 2014). Such transformation also requires flexibility in the attitudes of the social partners (Esping­ Andersen and Regini, 2000) to facilitate coordination between employers and employees at both central and industry leve!.

This paper will focus on the Maltese economy, a small and open economy in the European Union, which is highly dependent on external trade and investment relationships with the European bloc. The Maltese economy was not heavily impacted in the financial sector, the main reason being that Malta tends not to be highly exposed to the main factors that led to the crisis, inc1uding excessive reliance on wholesale financing and collateralised debt obligations. However, Malta have been affected by the spillover effects of the crisis, and experienced, amongst other things, drops in manufacturing orders and tourist inflows. With the aim "to maintain current employrnent and possibly [...] help to stimulate the creation of new jobs", the Maltese authorities embarked micro-Ievel and tailor-made aid schemes designed to the different needs of the different firms (European Commission, 2009). Consequently, the Maltese experience is a good case study to capture the effect of hoarding tendencies on labour demando

The study adds on to the existing literature on labour hoarding by estimating a dynamic labour demand equation for two industries -manufacturing and financial services in Malta. Malta is an interesting case because over the past decade, particularly during the 2009 economic crisis, aid was provided to companies, many in manufacturing, which because of a slump in demand were planning to shed their workforce. Therefore, labour hoarding can be at large the result of state intervention to mitigate the situation and avoid upheavals during the crisis. As a result of these policy measures, by estimating a sectoral-based labour demand equation, one could uncover the presence of labour hoarding in manufacturing and explain why it is more dominant relative to the financial industry.

This study will test the hypothesis, using a production function approach that the effect of production slowdown on labour demand was muted by amongst other things labour hoarding. To do this, the paper investigates labour demand in Malta by using quarterly data for the period 2000 to 2016.

The paper is organised as follows. Following this introduction, the paper presents a brief discussion on labour hoarding in Section 2. This is followed, in Section 3, by a description of the methodology employed to test the hypothesis just mentioned. Section 4 presents the results, while Section 5 conc1udes the study with sorne implications derived from the results.

The theory of dynamic labour demand

Labour hoarding as a response to cyclical fiuctuations

There is an interesting literature debate about the relationship between economic fluctuations and employment performance. Most authors consider that the transmission of shocks on goods market to the labour market does not happen instantaneously, and indeed, sorne kind of time lag is observed. This means that firms allow labour input to fiuctuate over the business cycle and hence suggesting that labour demand responds less than proportionately in response to a negative demand shock (Taylor, 1982; Hamermesh, 1996). However, it is also acknowledged on the theoretical side of the neoclassical theory, that with diminishing marginal retums to labour, the elasticity of employment with respect to output is expected to be higher than unity. This means that labour demand decreases more-than­proportionately when output declines, and increases more-than-proportionately when output rises. Given the assumption of diminishing marginal retums to labour, this would trigger average labour productivity to move counter-cyclically. Yet, as observed in many empirical works, labour productivity is pro-cyclical, suggesting that the output elasticity of employrnent is less than unity (Bemanke and Parkinson, 1991; Arpaia and Curci, 2010; Leitner and Stehrer, 2010; Hijzen and Venn, 2011; Fenger et al., 2014), which Solow (1964 cited in Biddle, 2014) described as the "perverse behaviour of productivity in the short run". In fact, labour hoarding behaviour can be associated with firms absorbing higher unit labour costs and thus decrease competitive position of the firm in the short runo

Although these two points of view would seem to be confrontational, the basic difference between them hinges on how firms optimise labour input and thus be consistent with the neoclassical theorem.

One possible reason for labour hoarding is the non-negligible fixed employment adjustment costs which abstain firms from laying off workers when faced with temporarily lower labour demand (Oi, 1962; Brechling, 1965; Bowers et al., 1982; Homing, 1994). For example, hiring-and-firing and training costs make it optimal for profit-maximising firms to hoard labour over short-run cyclical variations. Indeed, in such imperfect markets, such transaction costs are influential in the production function of firms (Okun, 1963).

Hysteresis in employrnent could also be the result of the presence of non-convex costs incurred by firms. This restricts upward and downward employment adjustment, and inaction would be the optimal response by firms to shocks. The equilibrium thus becomes path-dependent, implying that history of past adjustment periods also determine employrnent.

Another factor that contributes to labour hoarding results from the human capital enjoyed by employees themselves (Oi, 1962; Becker, 1970; Williamson et al., 1975). "Acquired skills that existing employees have learned on the job may make them particularly valuable to the firm, so that it pays to stockpile underemployed labour rather than run the risk of having to hire untrained men when business conditions improve". (Okun, 1963, p. 7). A possible implication is that labour hoarding is more relevant for high-skil1ed workers than low-skilled workers engaged in routine tasks.

In relation to the aboye, the nature of industrial relations and informal rules and social norms also has an a priori effect on the effectiveness of changes in the level of employrnent. If the relationship between the employee and the employer is relational, then the costs of lay­offs can be exorbitantly high, resulting in an irreversible loss of human capital. Moreover, the firm's reputation may be destroyed which increases further the transaction cost for future recruitments (Okun, 1981). Consequently, in this regard, labour hoarding is a way of signalling to engaged and prospective workers of safeguarding a stable employrnent contract, and thus complements to norms of reciprocity and trust.

Finally, labour hoarding can be the product of state intervention. A possible way to cushion the negative effects during cyclical downturns is to incentivise reduction of the number of working hours, thereby aiding flexibility without redundancies. Malta is one of the countries that adopted such policies, in collaboration with the social partners and other public entities, to mitigate the situation and avoid upheavals during the crisis. During the period, Malta introduced schemes that were earmarked to support three essential components:

(1) increasing flexibility between employers and workers;

(2) investing in human capital; and

(3) spreading out into new markets (Parnis, 2011)[2].

The Maltese government intervened by giving subsidies to the ailing firms so as to retain labour. With the consent of trade unions to these measures, many of these firms had to operate on a four-day working week. Indeed Rizzo (2013) relates the consensus reached between the social partners to deal with the imminent redundancies as a "social pact at company level", such that the consensus between government, unions and employers enabled the "management of the firms to seek alternative forms of production and new windows of opportunities to keep the workers on the payrol1". Thus, policies to hoard labour provided an opportunity to bring about more flexicurity between employers and workers. By and large the destabilising effect of the crisis on the Maltese economy was mitigated (Rizzo, 2013), which has been so because firms mostly hit by lower international demand have been partly protected from extensive economic shocks.

Flexibility models

The concept of labour hoarding merits further attention so as to relate it with labour market institutions. In his seminal work, Atkinson (1984) distinguishes between three kinds of flexibility. First, numerical flexibility which refers to the ability of a firm in adjusting the number of employees or working hours without altering its workforce in accordance with labour demando Second, functional flexibility which is the ability of a firm to adjust the organisation of the production process to changing demando And final1y, financial1y flexibility, which is sought so as labour costs reflect the state of supply and demand.

One can further segment flexibility into internal and external c1usters (Eichhorst et al., 2010). While external flexibility factors in outside paradigm settings -like dismissal protection, fixed-term employrnent, and temporary agency work- internal flexibility links with adjustment of working time, and wage flexibility.

This framework can be used to help identifying possible policy frameworks vis-a-vis the intensity of employment protection. By way of example, countries with strong employrnent protection legislation can compensate for lack of external flexibility by offering opportunities that enhance internal flexibility within firms. Indeed, policy programmes such as subsidising wages at risk of losing their job, offering of apprenticeship, and launching of active labour market policies to foster employability and to facilitate the integration of jobseekers into the labour market can absorb and accommodate shocks through hoarding of labour. Consequently, this suggests that countries with internal flexibility are more able to control employrnent losses and rising unemployrnent. This is achieved through "automatic" labour market stabilisers that make labour market adjustments via working hours rather than through layoffs.

Production functions

The basic assumption underlying a production function is that output depends on labour and capital, given existing technology. The estimation of a production function, using empirical data, often encounters difficulties with regard to data on capital stock (Dean, 1965; Stainer, 1997). To circumvent this problem, a derived labour demand equation is often used, as is done in the current study, as this permits the estimation of sorne production function parameters without the need for the capital variable. As explained in the Methodology section, the labour demand equation so derived, can yield an indication of the extent of labour hoarding, through the exponent on the partial adjustment coefficient and the evolution of exponent on output, as an explanatory variables of labour demando

Many studies have used labour demand equation derived from the constant elasticity of substitution (CES) production function to explain factors that affect employrnent or unemployrnent across countries. Studies using a labour demand analysis have been carried out to explain the responsiveness of unemployment to growth (Nickell et al., 2005; Herwartz and Niebuhr, 2011b), labour market disparities among countries (Mourre, 2004; Herwartz and Niebuhr, 2011a), and the evolution of the elasticity of labour demand and the possible role of trade therein (Onaran, 2008; Hijzen and Swaim, 2010). Briguglio and Vella (2015) and Briguglio (1998) also used a labour demand equation derived from CES production function to test the hypothesis that small country size is associated with constraints relating to economies of scale.

Markets in disequilibrium

Studies of markets characterised by the possibility of persistent disequilibrium, often distinguish between excess supply, where aggregate employrnent would represent labour demand, and excess demand, where aggregate employrnent would not (Briguglio, 1984; Rudebusch, 1986; Bhaskara, 1990; Hall et al., 1992). This can be explained in terms of a diagram depicting the short side of the market, where labour demand would only be observed along the demand curve when wage rates are aboye or equal to their equilibrium leve!. At wage rates lower than their equilibrium level, there will be excess demand, and employrnent would therefore represent labour supply. The approach adopted in the present study is based on this procedure.

A factor that may account for existence and persistence of excess supply is sluggish wage adjustment in the downward direction, because of union activity, employrnent contracts and minimum wage legislation (Briguglio, 1984; Arpaia and Curci, 2010).

There are also possibilities for excess demand to exist and persist, particularly during periods of rapid economic growth, when the existing labour supply would not growenough to match, in terms of numbers and availability of skills, the fast growing demand for labour, with wage adjustment rising at a lower rate than warranted by market realities.

Methodology

Constant elasticity of substitution production function

The underlying production function that will be used is of the CES type[3], allowing for the possibility of efficiency changes and non-constant retums to scale as shown in equation (1):

Y_it = e^rt [bL_it^-ρ + (1 - b)K_it^-ρ]^-ν/ρ                (1)

where Y_it represents value-added produced by the inputs, namely labour (L_it) and capital (K_it). The subscript i refers to industry and t is time. The expression e^rt captures shifts in the production function, because of technological change, which infiuences employment, between one observation and another, even if wage rates and output do not vary between observations. Here, r is the rate of growth of Y_i as a result of technological advance, with wage rate and output remaining constant, and t is time, taking the value of 1, 2, ... T.

The coefficients of equation (1) can be interpreted as follows:

• b is the distribution parameter, which shows the degree of capital intensity and is related to the distribution of output between labour and capital.

• ρ is the substitution parameter, from which the elasticity of substitution σ = 1/(1 + p) can be derived. Here, by using the CES production function, we are implicitly allowing for the possibility that a certain percentage decrease in factor prices need not genera te a corresponding percentage increase in factor demand.

• ν is the homogeneity parameter, which measures the degree of returns to scale, and would indicate constant retums if its value is unity, decreasing retums if its value is lower than unity and increasing returns if its value is higher than unity.

• r captures the effect of technological advance on output.

Deriving a labour demand equation

The labour demand equation can be derived by assuming that the marginal product of labour is equal to the wage rate (W), as specified in equation (2):

MP_L = ∂Y_it / ∂L_it = W_it            (2)

Applying this condition to equation (1) we obtain:

∂Y_it / ∂L_it = νbTe^rt(-p/v) L_it^-(1+p) Y_it^(1+p/v)            (3)

Combining equations (2) and (3), and expressing the equation in logarithmic form, we get the following equation:

In L_it = σ · In(vb) - σ · In W_it + [1 + σ(v - 1)] / v · In Y_it - (1 - σ) / v · r T_it             (4)

where σ = 1/(1 + p), is the elasticity of substitution between labour and capital. Equation (4) can therefore be expressed as follows for estimation purposes:

In L*it = α_o + α₁ In W_it + α₂ In Y_it + α₃ T_it             (5)

where the coefficients can be interpreted as follows:

• α₁ is the elasticity of substitution, indicating the extent to which labour replaces capital as wage rates become lower in relation to the rental value of capital.

• α₂ is the elasticity of employment with respect to output. This coefficient will, under certain conditions, take a value of a positive fraction if increasing returns to scale are assumed[4].

• α₃ captures, among other things, shifts in the production function because of technological change. If the coefficient has a negative sign, then technological advance exerts a negative effect on labour demand.

The coefficients of the CES production function can therefore be estimated, with the exception of the distribution parameter, using data on value-added, wage rates and technology.

Partial adjustment

As outlined in the literature review, there are cases where the optimal level of employment is truly optimal only in the long run, as in the short run, the firm may find it advantageous to employ more or less people than is technically necessary. L*_t in equation (5) shows labour demand that is desired, which is a long-run response. In practice, because of various factors inc1uding the cost of hiring-and-firing labour, employees may not be discharged as fast as is technically desirable when output falls, and therefore engagement of employees when output increases after a dec1ine may be lower than technically warranted.

Labour adjustments affect equation (2) as follows:

∂Y_it / ∂L_it = W_it + c_h if L_it - L_it-1 > 0                (6)
∂Y_it / ∂L_it = W_it - c_f if L_it - L_it-1 < 0                      

where c_h and c_f are the hiring cost and firing cost, respectively. These conditions imply that the firm hires when the productivity is at least high enough to cover both the wage rate and the hiring costo By contrast, the firm fires whenever marginal product of labour is so low that it is just equal to the wage rate less the termination costo In the interval [W_it + c_h, W_it - c_f], the firm does not alter employment for the gains in hiring-and-firing are less than the costs incurred in adjusting employment.

In econometrics, such a possibility is called partial adjustment and can be incorporated in the equation by applying the technique of cointegration, together with the error correction mechanism (ECM):

Δ₄InL_it = λ(u_t-4) + Δ₄β₁InW_it + Δ₄β₂InY_it + β₃T_it           (7)

where Δ₄ is the seasonally differenced annual growth rate and t - 4 refers to the term lagged group periods. λ is the speed of adjustment, and u_t-4 is the error term of the long-ron specification. Equation (7) can be rearranged as follows:

Δ₄InL_it = λ (In L_it-4 - γ₁ In W_it-4 + γ₂ In Y_it-4) + Δ₄β₁ In W_it + Δ₄β₂ In Y_it + β₃ T_it             (8)

Estimating equation (8) requires all variables and the stochastic term of equation (5) to be I (1) and are cointegrated.

The partial adjustment coefficient, A, is expected to have negative value not exceeding unity. The adjustment would be zero if λ = O, in which case equation (7) would be identical to equation (5), after correcting for seasonality. If on the other hand λ = 1, then adjustment within a given period is instantaneous and full. Partial adjustment implies that λ is a negative fraction.

β₁ and β₂ measure the immediate impact of a change in W_it and Y_it will have on a change in L_it, assuming partial adjustment of labour demand in the short run. Meanwhile, λ shows the feedback effect, i.e. by how much the disequilibrium is being corrected. γ₁ and γ₂ measure the long-run elasticity, assuming full technical adjustment of labour demando This implies that if the coefficient on λ is found not to be different from zero, it can be assumed that there is full-adjustment of labour demand in response to a change in wage rates and to output; indicating that the short - and long-run labour demand equations coincide.

Seasonal unit root

Normally, econometricians work with seasonally adjusted data; however, Depalo (2009) notes that information might be lost on the data generation process during the adjustment process, which might provide useful input to economic theory. Hence, a systemic approach is required to take seasonality into account.

There are several ways to handle seasonal quarterly data, each making different assumptions about the process, namely, if the series is a purely deterministic seasonal process, a stationary seasonal process or an integrated seasonal process. Hylleberg et al. (1990) combine the three seasonal processes as follows:

Ф(L)γ_4,t = π₁γ_1,t-1 + π₂γ_2,t-1 + π₃γ_3,t-2 + π₄γ_3,t-1 + ε_t                (9)

where γ_t contains four unit roots that correspond to zero frequency, ½ cycle per quarter, or ¼ or ¾ cycle per quarter. Here, γ_1,t = Si(L)γ_t, for which the latter is a seasonal filter that removes unit roots at the specified seasonal frequency. This approach is motivated by fact that quarterly data may have stochastic trends at both non-seasonal as well as at seasonal frequencies. The non-seasonal frequency is removed by using the first-order differencing filter, whereas the seasonal frequencies are adjusted by the forth-order differencing filter. Specifically, when a time series has seasonal unit roots, its seasonal averages not only are persistent but also change persistently. The unit root test after estimating equation (9) therefore tests if π_i = 0. Finding that π₁ = 0 implies a unit root (non-stationary). Likewise, if π₂ = 0 it implies a seasonal unit root at ½ frequency. If π₃ = π₄ = 0, a seasonal unit root exists at one cycle per year. Therefore, rejection of both test for π₂, and joint test for π₃ and π₄ implies the absence of seasonal unit roots.

Estimation method and data used

Results of unit roots tests

Quarterly data covering the period from 2000:1 to 2016:2 are used. We investigate labour demand in the total Maltese economy for a cross-section of two sectors, manufacturing and financial services, utilising data on total hours worked (L_it), wage rates (W_it) and gros s value added (Y_it). The data are sourced from the EUROSTAT database. Technology is a time trend. All variables are measured in naturallogs as indicated in equation (8).

The results of the HEGY (Hylleberg et al., 1990) seasonal unit root tests are reported in Table I. Importantly, for zero frequency, values of the t-statistic larger than the critical values do not reject the null hypothesis of unit root. On contrary, values of the estimated t-values smaller than the critical values reject the null hypothesis. According to the table, the null hypothesis that the time-series has a unit root at frequency zero is not rejected at 5 per cent level for the computed t-values does not lie in either of the rejection regions, As expected, this means that quarterly data is non-stationary. This confirms that all variables need to be adjusted by applying the first-order differencing. Such result could have been inferred from the classical augmented Dickey-Fuller test (ADF). To test the unit root at all seasonal frequencies we use an F-type test for it is a joint test on coefficients. The null hypothesis is rejected in cases where the test statistic is larger than the critical value, meaning that the presence of seasonal unit raots is rejected. All in all, we also reject the joint significance of seasonal unit raots for L_it and Y_it.

The use of ECM requires cointegration, meaning that the explanatory variables are I(1) and the error-term of the long-ron equation is I(0). This wsdconjecture was tested and verified by using the ADF test. Hence, the ECM term can be incorporated in the equation and estimated by OLS as all variables are now stationary.

A priori, one expects that β₁ takes a negative sign, β₂ a positive sign, β₃ a negative sign, given that the labour demand function is assumed to be derived from the praduction function and A takes a negative signo

As already explained, wage rates may not clear the market in all periods. If the labour market does not c1ear, we would need to relax the assumption that the model proposed in this study allows for this possibility by only considering periods when unemployment was equal or higher than the natural rate of unemployrnent (NAIRU). This means that during these years there was excess supply or equilibrium and consequently labour demand was observed.

The choice of 66 observations was conditioned by ESA10 methodology, which enjoys the benefit of availability, reliability, and comparability of data. It turned out, however, that the sample contains a good representation of different cyclical fluctuations, as shown in Table I. Furthermore, Table II shows that between 2000 and 2015, the labour market response has remained fairly small relative to output produced by firms. This could possibly indicate, but does not prove, that value-added growth may have exceeded employment growth because of labour hoarding. In the next section, we shall use cross-section data pertaining to Malta to test whether labour hoarding has been present.

 

Estimation results

Equation (7) was estimated using the ECM. This estimation technique was taken into consideration after testing for cointegration and seasonal unit roots as otherwise the regression would be spurious.

It was estimated first by assuming that all observations of employrnent indicate labour demand, which means that the labour market in all years was characterised by equilibrium or excess labour supply. From the available data, the estimation results are as follows.

The estimated parameters are in line with a priori expectations and have plausible magnitudes.

The estimated equation for the manufacturing industry shows that the coefficient on W takes a value of -0.186 respectively, indicating that a 10 per cent increase in wage rate generates a decrease in employrnent of 1.86 per cent, everything else remaining constant. The wage elasticity was found to be -0.12 for financial services. As already explained, this is an estimate of the elasticity of factor substitution, which is less than unity justifying the use of the CES production function rather than the Cobb-Douglas one. This parameter has important implications as its magnitude provides an insight into the labour/output ratio changes as the country's wage rates change. Indeed, the difference in elasticity is expected because the ease of factor substitution in the financial services is less pronounced than the manufacturing sector. If we had used the Cobb-Douglas production function, these parameters would have been restricted to unity. In fact, both coefficients on W_it are statistically different from one at 1 per cent leve!.

The estimated parameter β₂, that is the coefficient on output, takes a value of 0.150 for the manufacturing industry. This would seem to suggest that as the output expands by 10 per cent, demand for labour increases by 1.5 per cent. The same parameter was estimated to be smaller for financial services at 0.059.

The short- and long-run elasticities of labour demand with respect to Yand W can be computed as per the partial adjustment scheme described in the previous section. If equilibrium condition is assumed, the long-run elasticity of labour demand to W for manufacturing and financial services takes a value of -1.70 and -0.23, respectively. Meanwhile, for every 10 per cent increase in output, employrnent tended to increase by about 6.6 and 4.3 per cent in the long run for each respective industry. The estimates are compatible with a priori condition that firms are normally prepared to employ and dismiss more workers in the long run than in the short run because hiring-and-firing labour is less costly.

The long-run elasticities with respect to wages and value-added imply that the cost per unit of output for manufacturing increases as the scale of production increases. This is demonstrated by a value of 0.67 for the parameter v in the under1ying CES production function. In other words, the value of v shows decreasing returns to scale, meaning that a given increases in inputs generates a less-than-proportionate increases in output for the manufacturing industry. One reason for this is that the domestic manufacturing industry consists mainly of micro and small firms with small production runs. Small size limits the possibilities of economies of scale (Briguglio, 1998; Briguglio and Vella, 2015). There is also sorne evidence in Basu and Femald (1997) of decreasing retums to scale in non-durable goods industries. Having manufacturing consisting mostly of non-durable industries, this gives another explanation why we are observing decreasing retums to scale. By contrast, the financial services industry is found to be endowed with increasing returns to scale. The basis of trade as well as investment in human capital increases retums in scale production.

The estimated coefficient for technological change is not significant from zero and hence there is no conclusive evidence. This is possibly because of the fact that technological changes did not produce a systematic effect on labour demand, even though it may have had an effect on individual firms.

The parameter on L_t-4 measures the speed of adjustment for the equilibrium error to be corrected in each periodo Indeed, the magnitude of labour hoarding can be demonstrated by the coefficient size and its value relative to other industries. This uncovers the relationship between cyclical fluctuations in output and the output elasticity of labour demando The presence of labour hoarding in manufacturing is evident in light of smaller speed of adjustment. This means that during periods of economic downturn, firms hoard labour and therefore a reduction in the magnitude of the parameter is observed in the short -run, Indeed, in the manufacturing industry, 18.6 per cent of the adjustment takes place within a given period; meaning that the adjustment is partia!. On the contrary, the adjustment is fas ter for financial services, estimated to be close to 29.5 per cent[5]. A possible explanation could be that firms in services are borne with more flexible employment costs and thus making labour hoarding less probable to short-term fluctuations in demando This finding is consistent with Apap and Gravino (2014, p. 16) who found that "the unemployrnent rate has been more sensitive to developments in the services sector than those in the manufacturing sector" because firms in the direct production do not immediately adjust labour input in line with demand for their products.

Segmenting the sample

The equation was re-estimated by exc1uding quarters with excess labour demand, given that in such situation, employment would not reflect labour demando It was assumed, in line with standard macroeconomic theory, that the labour market was in equilibrium when the unemployment rate was equal to the NAIRU level, and that excess labour supply or demand occurs when the unemployment is higher or lower than than NAIRD. Based on the data on NAIRU[6] 24 observations were found to be characterised by excess demand and were therefore exc1uded from the sample. The results of this experiment are presented in Table IV.

 

The estimated coefficient on the error-correction term confirms the presence of labour hoarding in the Maltese labour market in the financial services industry. This confirms that firms do not immediately adjust labour input in line with demand for their services. In addition, the adjustment was not found to be significant from zero for the manufacturing industry. This suggests a rather lengthy adjustment.

Conclusion

This paper argued that that firms tend to hoard labour, such that workers are retained more than is required to produce the demanded level of output. In turn, the transmission of shocks on goods market to the labour market does not happen instantaneously, and indeed, sorne kind of time lag is observed. This hypothesis was tested using a production function approach, using the marginal productivity condition for labour derived from the CES production function.

The results confirm the presence of labour hoarding, and the effect of the speed of adjustment for both wages and output depends on the time scale of economic decisions, thereby suggesting that firms operating in the short run are more able to hoard labour. Therefore, as output elasticity of labour demand becomes muted in times of negative economic shocks the total economy is provided with an automatic protective shield against job losses among the workforce.

The results of this study add on to the existing literature on labour hoarding in two ways. First, this study compares two industries -manufacturing and financial services- for which because of the international economic turmoil in 2008 the former sector received support to help companies retain their workforce and, with the consent of trade unions, firms operated on reduced-hours. In this sense, while taking into account the adverse shocks in employrnent and the subsequent recovery, hoarding tendencies in manufacturing can be seen as a policy­ initiative. Consequently, one could uncover the dominance of labour hoarding in manufacturing relative to financial services and estimate the effect of hoarding practices on labour demando Second, Malta is an interesting case because it is one of the smallest economies in the world, when compared to other independent countries, and face a high degree of vulnerability because of constraints associated with small size and insularity. As a result, firms adopt policy-induced measures to minimise adjustment costs.

This finding has important implication for developed countries, namely, that labour hoarding can be of certain relevance for the labour market in times of economic slowdown. Indeed, labour hoarding could be attributed with internal flexibility in that firms do not instantaneously adjust their labour force in line with demand and, instead, absorb short-run losses in their share-prices and registered profits. This is particularly relevant for small states, because these states tend to be highly dependent on international trade, in which case exposure to extensive economic shocks is high.

This does not mean that labour hoarding is always beneficia!. Prolonged recessions bear labour hoarding costs excessive and hence lay-offs are inevitable. Labour hoarding could also imply lower labour tumover, inability to cope with structural changes, or the risk of jobless growth in an economic upswing. Furthermore, keeping low levels of unemployment through internal flexibility and policy interventions may bring forward important implications for structura1 adjustment in the long runo This means a policy approach that stimulates labour mobility and safeguards employability will be essential to promoting labour market resilience. However, in the short run, internal flexibility with aim to restricting job shedding during negative economic times and accelerating labour demand in times of recovery is desired during both sides of the business cyc1e. Indeed, government schemes to help ailing firms may therefore impose special conditions to invest and expand in new markets.

 

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Corresponding author

Melchior Vella can be contacted at: mvell31@um.edu.mt

 

Received    11 July 2017
Revised      8 October 2017
Accepted   20 November 2017

 

Notes

1. Small states tend to be highly dependent on international trade, particularly on a narrow range of exports and on strategic import, yielding them highly susceptible and vulnerable to external shocks (Briguglio and Galea, 2003; Atkins et al, 2000; Guillaumont, 2010; Briguglio, 1995). Literature shows that small states face a number of economic disadvantages associated with small size, notably their limited ability to reap the benefits of economies of scale, because of, amongst other things, overhead cost indivisibilities and limited scope for specialisation, leading to relatively higher per unit costs (Winters and Martins, 2004).

2. A Task Force was set up by the Ministry of Finance in 2009 to provide a tailor-made package of financial aid to companies which because of a slump in demand were planning to shed their workforce. Amongst the schemes introduced by the Government of Malta was the Temporary Aid Scheme, whereby the rnajority of participating employees carne from manufacturing concerns. This initiative was sanctioned by the social partners as a way of maintaining the employrnent and employability of affected workers who were working on a four-day week at the time (Borg, 2011).

3. A discussion on the properties of the CES is presented in Miller (2008).

4. α₂ = [1 + σ(v - l)]/v, implying that the labour demand elasticity with respect to output is not uniquely related to v but also to σ. It can be shown that v = (1 -σ)/(α₂ - σ), so that if α₂ is a positive fraction (0 < α₂ < 1), v would be higher than unity, implying increasing returns to scale.

5. The manufacturing speed of adjustment is estimated to be significantly different from that of the financial services at 1 % level.

6. The data on NAIRU was obtained from the annual macroeconomic database (AMECO) of the European Comrnission's Directorate General for Economic and Financial Affairs (DG ECFIN).