Abstract
Purpose
To analyse the influence of goalkeepers during 4-a-side small-sided games, played in pitches of two different sizes (small: 30 × 20 m, large: 40 × 30 m).
Methods
Total distance covered (TD), distance covered at low- (LSD), moderate- (MSD), high- (HSD) and very high-speed (VHSD), average and maximal speed, Edwards’ training load (Edw-TL), time spent above 90% of maximal heart rate (T90%) and rate of perceived exertion (RPE) were monitored, in 18 amateur soccer players.
Results
Higher TD (mean difference: + 181 m, Hedge’s g: 0.93 and + 400 m, 3.37), MSD (+ 85 m, 0.79 and + 146 m, 1.64), HSD (+ 101 m, 1.41 and + 179 m, 3.26), VHSD (+ 30 m, 1.89 and + 35 m, 1.26), average speed (+ 0.65 km h−1, 0.88 and + 1.47 km h−1, 3.31) and maximal speed (+ 3.60 km h−1, 1.40 and + 3.58 km h−1, 1.40) were found in large than small pitch, without and with goalkeepers, respectively. Goalkeeper’s presence increased Edw-TL (+ 8.4 AU, 0.70) and reduced TD (− 141 m, 0.75), HSD (− 54 m, 0.75) and average speed (− 0.54 km h−1, 0.76) in small pitch and maximal speed (1.59 km h−1, 0.60 and 1.61 km h−1, 0.66) in both small and large pitches, respectively. RPE was higher (+ 20, 1.52) in the large than small pitch when the goalkeepers were present.
Conclusion
Implementing small-sided games, coaches should be aware that lower external load with similar internal load could be provided using small pitch with goalkeeper rather than either small goals or larger pitch. Furthermore, large small-sided games without goalkeeper may be the best choice for eliciting high training load.
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Introduction
Performance has been suggested as a multifactorial construct in the theoretical simplified model of football (soccer) performance [1] and its improvement is currently one of the main purposes of the training process [2]. From a holistic and time-efficient perspective, particularly important at amateur level (given the low number of weekly training sessions), coaches often use an integrated approach, for example using small-sided games (SSGs), to provide a specific training stimuli and simultaneously improve both technical-tactical and physical characteristics of the players [3, 4]. The training load stimuli provided by SSGs can be managed by modifying several variables such as pitch’ size [5, 6], number of players involved [5, 7, 8], rules [9], floater’s use [10, 11], duration and numbers of bouts [12, 13] and the presence of goalkeepers [7, 8, 14,15,16]. Even if the available evidence is scarce, the presence of goalkeepers and regular goals, compared to possession format and use of small goals, may be important not only to develop tactical and technical skills (i.e., kick), but also to increase the active participation of the goalkeeper when the team is in ball-possession [17]. At present, most of the studies examined separately the effect of area per player (ratio between pitch’s size and number of players) and the presence of goalkeeper, but few of them considered their interaction [18].
Studies that examined the effect of area per player on heart rate responses provide contradictory results. For example, Hodgson et al. [19] and Kelly and Drust [20] found no effect on heart rate when the area per player was increased while greater responses were found in other studies [5, 16, 21, 22]. Studies that evaluated the rate of perceived exertion (RPE), showed higher rating values when the area per player increased [5, 16, 21, 22]. Furthermore, wider area per player seems to lead an increase in time-motion metrics (i.e., total distance covered, distance covered at high speed and accelerations) [6, 8, 19, 21].
Regarding the effect of the presence of goalkeepers in SSGs, the heterogeneity of formats and rules used in the studies limits the comparisons. However, it seems that the presence of goalkeepers tends to decrease both heart rate response and physical performance [6,7,8, 11, 15, 16]. In particular, Gaudino et al. [8] showed an increase of high-speed distance and maximal speed whereas Castellano et al. [7] and Koklu et al. [15] reported a decrement of player load and high-speed distance, respectively.
Furthermore, studies that examined the effect of the goalkeeper’s presence in SSGs have involved young soccer players [11, 15, 16] or adult high-level players (semi-professional and professional) [7, 8], therefore information on amateur soccer is needed.
The aim of this study was to examine the effect of the interaction between the goalkeeper’s presence and two different pitch dimensions, during a 4-a-side SSGs, on the external and internal load values in adult amateur soccer players. Time motion parameters, Edward’s training load, time spent above 90% of maximal heart rate and rate of perceived exertion were considered as outcomes. Based on the present knowledge, we expected that the presence of goalkeepers may reduce physiological responses and time motion parameters, especially in the small pitch. Moreover, we hypothesized that the gap in the external and internal load, measured during SSGs played in the large than in small pitch (higher in the large one), can be lowered by the presence of goalkeepers.
Methods
Experimental protocol
In this observational study, data were collected throughout the in-season period (season 2017/2018) during the usual training sessions of an amateur soccer team. Each SSGs session was performed once a week, at least 48 h after the last match and after a standardized warm-up to limit the potential confounder effect of the activity carried out before the examined SSGs (e.g., post-activation potentiation and/or fatigue). A 2 × 2 design was used, where the two independent factors were the pitch size (small and large) and the presence of goalkeepers (goalkeepers with regular goals and no goalkeepers with small goals). Load markers were collected for every SSGs using Global Positioning System (GPS) for external load, heart rate and rate of perceived exertion (RPE) for internal load. Before data collection all the participants performed 2 weeks of familiarization with the RPE method using the CR100 Borg scale (CR100). Yo-Yo Intermittent Recovery Test level 1 was used to anchoring the player’s RPE (i.e., CR100) to exercise’s intensity [23] as well as to assess each player’s level of the endurance physical performance and maximal heart rate. A standardized 18-min warm-up based on jogging, dynamic stretching, sprinting, acceleration and deceleration drills was completed before the Yo-Yo Intermittent Recovery Test and each SSGs session.
Population
Eighteen amateur male soccer players took part in the study. All the participants had at least 8 years of regular experience in an organized soccer environment (training days ≥ 2 per week; official competition ≥ 1 per week). At the end of data collection, only 13 players (age 28.7 ± 6.3 years, body mass 73.8 ± 6.1 kg, height 178.0 ± 0.1 cm) had at least 1 valid measurement for each condition and could be included in the final analysis.
Small-sided games
SSGs were performed on an artificial 3G rubber crumb turf as 4-a-side matches consisting of four bouts of 4 min separated by 3 min of passive recovery. Four randomly ordered type of SSGs (n = 81) were performed with and without goalkeepers and considering small (30 × 20 m) and large (40 × 30 m) pitch dimension (area per player of 75 and 150 m2 without goalkeepers, respectively) [5]. During the SSGs without goalkeepers, players had to score in a small goal (2 × 1 m), whereas when goalkeepers were present players had to score in a regular goal. Official rules of 11-a-side football was used except for offside rule. To avoid roster’s imbalance, the composition of the teams was based on playing positions and technical abilities (assessed by coach). In addition, to provide high motivation, SSGs have been played in a tournament scenario, with points awarded for winning (+ 3 points), drawing (+ 1 point) and goal scoring (+ 1 point). Balls were placed around the perimeter of the pitch and quickly returned when went out of play, avoiding long interruptions of activity. Furthermore, to ensure high intensity effort, a verbal encouragement was provided by the head coach of the team [5].
External load
Outfield player’s external load was monitored during the SSGs by a 10-Hz-GPS device (Viper, StatSports, Ireland). Previous studies demonstrated a good accuracy of this device to measure distance and peak velocity [24]. Players wore a tight-fitting vest with the GPS units placed into a pocket between shoulder’s blades. Every GPS unit was turned on and placed outdoors 15 min prior the start of the session to ensure a better satellite’s signals reception [25]. The following time motion characteristics were chosen as representative of external training load: total distance covered (TD), distance covered at different speed zones (low-speed distance [0–10.8 km h−1, LSD], moderate-speed distance [10.8–14.4 km h−1, MSD], high-speed distance [14.4–19.8 km h−1, HSD] and very high-speed distance [≥ 19.8 km h−1, VHSD]), average speed and maximal speed [26].
Internal load
Internal load was assessed with heart rate and RPE. Heart rate was monitored at 1-s intervals using a heart rate monitor band (Polar® T31) connected with the GPS device which stored data synchronized with player’s movements. For every session, time spent in five intensity zones, based on a percentage of maximal heart rate (zone 1: 50–60%, zone 2: 60–70%, zone 3: 70–80%, zone 4: 80–90%, and zone 5: 90–100%), was quantified and multiplied for a coefficient, different for each zone (from 1 to 5 related to the intensity); the sum of the five products obtained was used as training load based on heart rate as proposed by Edwards (Edw-TL) [27] and used in several previous studies on football [28, 29]. Furthermore, also time spent above 90% of maximal heart rate (T90%) was considered as internal load parameter and a relevant factor to improve aerobic fitness [30]. In addition, players were asked, immediately at the end of the SSGs, to provide RPE rating in a confidential way, to avoid influence of teammates. The CR100-Borg scale was used, as it was shown to be valid in soccer context [29, 31], in addition participants performed both memory and exercise anchoring before the commencement of data collection.
Statistical analysis
Normal distribution of the data was checked using Shapiro–Wilk test with the level of statistical significance set at 0.05. Pitch’ size and goalkeepers’ presence were used as independent variables whereas GPS metrics, heart rate parameters and RPE were considered as dependent variables. Since the different number of participants’ repeated measures, generalized estimating equations (GEE) analysis, with exchangeable correlation structure, was used to examine interaction between the two independent variables. GEE Log distribution was selected when variables were not normally distributed, otherwise linear distribution was chosen. When a significant interaction effect was found (p < 0.05), estimated marginal means pairwise comparisons with Sidak adjustment were performed for investigating significant differences and Hedges’ g was used as standardized effect size [32]. Estimated means and mean’s differences for pairwise comparisons are presented with 95% confidence interval (95% CI). All the statistical analyses were performed with SPSS software (IBM SPSS Statistics, version 22.0).
Results
External and internal loads estimated means with 95% CI and p values of interactions between pitch’ size and goalkeeper’s presence are presented in Table 1, as well as mean difference with 95% CI for pairwise comparisons are presented in Figs. 1 and 2. Hedges’ g is presented in the text as a measure of standardized effect size.
The distance covered during Yo-Yo intermittent recovery test level 1 was 1766 ± 304 m and maximal heart rate was 181 ± 10 bpm.
Pitch size effect
A significant effect of the size of the pitch was found, with higher values in large compared to small pitch, for TD (+ 291.7 m [244.5–339.0], p < 0.001, g = 1.59 [1.09–2.10]), MSD (+ 115.6 m [88.6–142.6], p < 0.001, g = 1.03 [0.57–1.50]), HSD (+ 143.9 m [125.3–162.4], p < 0.001. g = 2.27 [1.71–2.84]), VHSD (+ 33.1 m [24.0–42.3], p < 0.001, g = 1.38 [0.90–1.87]), average speed (+ 1.1 km h−1 [0.9–1.2], p < 0.001, g = 1.55 [1.05–2.05]), maximal speed (+ 3.6 km h−1 [2.6–4.6], p < 0.001, g = 1.18 [0.71–1.66]) and RPE (+ 11.8 [6.1–17.4], p < 0.001, g = 0.63 [0.18–1.08]).
Goalkeepers’ presence effect
A main effect of goalkeepers’ presence was found on some assessed parameters, in fact, HSD (−35.2 m [−59.9 to −10.6], p = 0.005, g = 0.45 [0.01–0.89]), VHSD (−5.9 m [−11.2 to −0.6], p = 0.029, g = 0.33 [−0.11 to 0.77]) and maximal speed (−1.6 km h−1 [−2.6 to −0.6], p = 0.002, g = 0.55 [0.10–1.00]) were lower while Edw-TL (+ 6.4 [2.2–10.5], p = 0.003, g = 0.45 [0.01–0.90]) was higher when the goalkeepers were present compared to small goals format.
Goalkeepers’ presence and pitch’ size interaction
A significant interaction between pitch’ size and goalkeepers’ presence was found for TD, MSD, HSD, VHSD, average speed, maximal speed, RPE (all p < 0.001), LSD (p = 0.005) and Edw-TL (p = 0.011) (Table 1). The presence of goalkeepers reduced TD (g = 0.75 [0.11–1.38]), HSD (g = 0.75 [0.11–1.38]), average speed (g = 0.76 [0.12–1.39]), maximal speed (g = 0.60 [−0.03 to 1.22]) and RPE (g = 0.28 [−0.34 to 0.90]) in the small pitch (Fig. 1) whilst lowered only the maximal speed (g = 0.66 [−0.01 to 1.32]) in the large pitch (Fig. 1).
The use of a larger pitch led to an increase in TD (g = 3.37 [2.32–4.44] and g = 0.93 [0.31–1.56]), MSD (g = 1.64 [0.87–2.43] and g = 0.79 [0.18–1.41]), HSD (g = 3.26 [2.23–4.31] and g = 1.41 [0.75–2.08]), VHSD (g = 1.26 [0.53–2.00] and g = 1.89 [1.18–2.61]), average speed (g = 3.31 [2.27–4.37] and g = 0.88 [0.26–1.51]) and maximal speed (g = 1.40 [0.66–2.16] and 1.4 [0.74–2.07]) both in presence and absence of goalkeepers, respectively (Fig. 2). Furthermore, RPE was higher in the large than small pitch only when the goalkeepers were present (g = 1.52 [0.77–2.29]) (Fig. 2). On the contrary, the goalkeepers’ participation increased Edw-TL only when the small pitch was used (g = 0.70 [0.07–1.34]).
Discussion
The results of the present study showed higher external training load and RPE in the large than small pitch. The goalkeepers’ presence decreased running distances at high-intensity speed and increased the EdwTL when compared with small goals. Furthermore, we found that the effect of the goalkeepers’ presence on external and internal load metrics values (except for T90%), is dependent by the pitch size.
Pitch’size effect
Our results, showed higher RPE (g = 0.63) and no changes in heart rate responses in large compared to small pitch. Rampinini et al. [5] found an increase on both RPE and heart rate in the large than both medium and small pitches. Moreover, the increased external load in the large pitch showed by our results (i.e., TD: g = 1.59; MSD: g = 1.03; HSD: g = 2.27; VHSD: g = 1.38; average speed: g = 1.55; maximal speed: g = 1.18) confirmed those of previous studies [6, 8, 19, 21]. For example, Casamichana et al. [21] compared three pitches of different size, finding that external load metrics increased as the pitch size became wider, especially comparing large to small pitches. Recently, Riboli et al. [6] showed strong positive relationships between the area per player and several motion metrics (e.g., total distance and high-intensity distance) in small-sided games with several formats.
Goalkeepers’ presence effect
Our findings, showing that the goalkeepers’ presence lowered high-intensity metrics (i.e., HSD: g = 0.45; VHSD: g = 0.33; maximal speed: g = 0.55), confirmed those reported by previous studies, with the exception of Gaudino et al. [8] who found higher values of high-speed distance and maximal speed. On the other hand, in contrast with other studies, we found higher heart rate responses (i.e., EdwTL: g = 0.45) when goalkeepers were present.
Pitch’ size and goalkeepers’ presence interaction
An interaction effect between pitch’ size and goalkeepers’ presence could represent one of the reasons of inconsistent results among studies that examined the effect of goalkeepers’ presence. Our results showed that Edw-TL was increased (g = 0.70) due to the presence of goalkeepers, only in the small pitch; this effect may be due to the presence of a fifth player who can probably elevate the pace of the play and the technical action rate which may have an impact on the heart rate response. This difference was not significant in the large pitch, probably because the impact of fifth player in a wider area is not sufficient to increase Edw-TL. These findings are in contrast with Hulka et al. [16] who found higher average heart rate and time spent between 65 and 85% of maximum heart rate in small pitch 5-a-side SSGs played without goalkeepers.
Regarding the rate of perceived exertion, Hulka et al. [16] showed no differences in RPE between format with and without goalkeepers while Koklu et al. [15] found higher RPE in SSGs with goalkeepers and a low number of player (but the same area per player). Our data partially agreed with previous findings, showing that the presence of goalkeepers seems not to influence RPE in large pitches but may affect it in small pitches (i.e., lower in small pitch with goalkeepers compared to small goals, g = 0.28). Moreover, RPE was increased going from the small to large pitch with goalkeepers (g = 1.52) but no differences exist between the two dimensions without goalkeepers. Probably, the reduction in external load, provided by adding a player to each team, caused a greater reduction in RPE in the small compared to large pitch. Interesting, similar RPE (53 and 57) between small and large pitches without goalkeepers corresponded with higher external load (i.e., TD: g = 0.93; MSD: g = 0.79; HSD: g = 1.41; VHSD: g = 1.89; average speed: g = 0.88; maximal speed: g = 1.4) when the playing area was wider. Together, these results suggested that the absence of goalkeepers allows greater external load responses in the larger pitch without increasing perception of effort. The increase in the external load may have had an impact on muscular rather than overall perception, thus it may be reasonable for both coaching practice and future research using differential RPE [33] to assess SSGs training load.
The analysis of interaction between pitch’ size and goalkeepers’ presence highlighted that the presence of goalkeepers seems to influence time-motion characteristics only when SSGs were played in the small pitch. TD (g = 0.75), HSD (g = 0.75), average speed (g = 0.76), maximal speed (g = 0.60) were greater in the small pitch without goalkeepers compared to the same pitch with goalkeepers, showing that adding the goalkeepers when the available playing surface is already small can result in a decrease of intensity and amount of motion. The presence of two additional players (two goalkeepers) had probably a greater relative weight in the small pitch than in the large one. Similar results were found by Gaudino et al. [8] and Riboli et al. [6], however, a comparison can be flawed because in their study the use of several formats and rules may have influenced the effect of interaction between the presence of goalkeepers and the dimension of the pitch. On the contrary, Hulka et al. [16] found that the distance covered was higher with goalkeepers than without in small pitch and no differences were found in medium and large pitches. Differences between our study and that of Hulka et al. may be explained by the dimension of the pitch used, 75 m2 and 60 m2 per player in the present study (without and with goalkeepers, respectively) that was similar to the medium size pitch of Hulka et al. (i.e., 56 m2 and 47 m2 in the small pitch, 87.5 m2 and 73 m2 in the medium pitch, and 126 m2 and 105 m2 in the large pitch, without and with goalkeepers, respectively). [16] Furthermore, in contrast to Gaudino et al.[8] who showed higher maximal speed in SSGs with goalkeepers than possession format, we found higher maximal speed when the goalkeepers were not present, in both small (g = 0.60) and large pitch (g = 0.66). It may occur because players have to quickly manage transition phases to cover the own goal or score a goal taking advantage of imperfect positioning of opponents.
Our results can provide practical useful information for coaches of amateur teams, training ideally three times a week and compete once a week. As found also in previous studies [6, 8, 21], a coach could plan a small-sided game in a small pitch to provide a low mechanical work (i.e., during a return to play session or a light session throughout the in-season period). Based on our results, the external load may be further lowered using the goalkeepers rather than small goals. Furthermore, when coaches need to provide a high external load, they should consider that the large pitch without goalkeepers allows to elicit greater external load than small pitch but with similar overall perceived of exertion. A practical example is the first training session after the match (i.e., MD + 2), when starters (the players who played from the start the previous match) should participate in SSGs with small area per player and the presence of goalkeeper whereas no-starters (the players who did not play or enters during the game) should be involved in SSGs played in a wider pitch without goalkeeper. Moreover, the session training in the middle of the week, typically aims to develop speed and power capacity that may be stimulated better by a pitch of large dimension with small goals than with regular goals and goalkeepers, allowing to reach higher maximal speed values.
The present study is not free of some limitations. Small-sided games were performed 48 h after the match, however not every player was equally involved in the match, therefore individual recovery conditions might have influenced the outcomes. Moreover, since the SSGs were monitored throughout several weeks, the cumulated training load and fatigue of each participant might have been different throughout the sessions. Verbal encouragement and a tournament scenario were proposed to increase the players’ motivation, but the efficacy of these intervention on each player might not have been the same, having different impact on the parameters assessed. External load metrics assessed with GPS (e.g., high- and very-high intensity running distances) need to be deeper verified in their validity and reliability during small sided games, and this may have influenced the results. In addition, the conclusions of the present study may be flawed by the small number of participants and the inter-individual variability. Further investigations needed to better elucidate these phenomena at amateur level.
Conclusions
Our findings confirmed the literature in fact, 4-a-side small-sided games played in higher area elicited greater training load. Moreover, our results added information about amateur soccer players, showing that the effect of the presence of goalkeepers is dependent from playing area and is more relevant on time motion characteristics than heart rate and perceived responses. The players reached higher amount of total distance and high-speed distance, with lower heart rate responses, with the use of small goals instead of regular goals and goalkeepers when the area per player was small.
Abbreviations
- SSGs:
-
Small-sided games
- RPE:
-
Rate of perceived exertion
- GPS:
-
Global positioning system
- TD:
-
Total distance
- LSD:
-
Low-speed distance
- MSD:
-
Moderate-speed distance
- HSD:
-
High-speed distance
- VHSD:
-
Very high-speed distance
- Edw-TL:
-
Edwards’ training load
- T90%:
-
Time spent above 90% of maximal heart rate
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We would like to thank Prof. Leonardo Tartaruga for his precious help in GEE approach for statistical analysis.
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Modena, R., Togni, A., Fanchini, M. et al. Influence of pitch size and goalkeepers on external and internal load during small-sided games in amateur soccer players. Sport Sci Health 17, 797–805 (2021). https://doi.org/10.1007/s11332-021-00766-3
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DOI: https://doi.org/10.1007/s11332-021-00766-3