Original Paperfutsal player characteristics Melanesian

DOI: 10.5604/20831862.1140428

Biol. Sport 2015;32:135-141

Anthropometric and physiological characteristics of Melanesian futsal players: a first approach to talent identification in Oceania AUTHORS: G  aly O1,2, Zongo P1,2, Chamari K3, Chaouachi A4, Michalak E2, Dellal A5, Castagna C6, Hue O1

Authors’ affiliations are listed at the end of the paper

ABSTRACT: This study assessed the anthropometric and physiological characteristics of elite Melanesian futsal players in order to determine the best performance predictors. Physiological parameters of performance were measured in 14 Melanesian (MEL-G, 24.4±4.4 yrs) and 8 Caucasian (NMEL-G, 22.9±4.9) elite futsal players, using tests of jump-and-reach (CMJ), agility (T-Test), repeated sprint ability (RSA), RSA with change-of-direction (RSA-COD), sprints with 5 m, 10 m, 15 m, and 30 m lap times, and aerobic fitness with the 30-15 intermittent fitness test (30-15 IFT). The anthropometric data revealed significantly lower height for MEL-G compared with NMEL-G: 1.73±0.05 and 1.80±0.08 m, respectively; P=0.05. The CMJ was significantly higher for MEL-G than NMEL-G: 50.4±5.9 and 45.2±4.3 cm, respectively; P=0.05. T-Test times were significantly lower for MEL-G than NMEL-G: 10.47±0.58 and 11.01±0.64 seconds, respectively; P=0.05. MEL-G height was significantly related to CMJ (r=0.706, P=0.01), CMJpeakP (r=0.709, P=0.01) and T-Test (r=0.589, P=0.02). No significant betweengroup differences were observed for sprint tests or 30-15 IFT, including heart rate and estimated VO2max. Between groups, the percentage decrement (%Dec) in RSA-COD was significantly lower in MEL-G than NMEL-G (P=0.05), although no significant difference was noted between RSA and RSA-COD. Within groups, no significant difference was observed between %Dec in RSA or RSA-COD; P=0.697. This study presents specific anthropometric (significantly lower height) and physiological (significantly greater agility) reference values in Melanesians, which, taken together, might help coaches and physical fitness trainers to optimize elite futsal training and talent identification in Oceania. CITATION: G  aly O, Zongo P, Chamari K, Chaouachi A, Michalak E, Dellal A, Castagna C, Hue O. Anthropometric and physiological characteristics of Melanesian futsal players: A first approach to talent identification in Oceania. Biol Sport. 2015;32(2):135–141. Received: 2014-05-11; Reviewed: 2014-08-22; Re-submitted: 2014-10-13; Accepted: 2014-10-23; Published: 2015-02-16.

Corresponding author: Olivier Galy BP 32527, 98897 Noumea, New-Caledonia Tel/Fax: (+33) 687 81 56 02 E-mail: [email protected]

Key words: anthropometry agility hear rate ethnicity South Pacific New Caledonia soccer

Futsal was accredited by the Fédération Internationale de Football

anaerobic parameters of performance in soccer players, mainly dur-

Association (FIFA) in 1989, and the popularity of this attractive

ing small side games, which might be considered as similar to futsal

professional sport has been growing ever since. Although the litera-

games. But futsal has specificities regarding the ground and shoe

ture remains sparse (52 Medline publications with the key word:

adherence and smaller balls with 30% less bounce, which forces

futsal; August 2014), the physiological characteristics of well-trained,

the players to develop the ability to accurately control and move the

top-level futsal players have been well described [1,2,3,4]. Futsal

ball quickly on the ground [8,9]. We therefore assumed that these

is described as high-intensity exercise, heavily taxing the aerobic and

specificities merited further investigation. Furthermore, the reduced

anaerobic pathways, as emphasized by Castagna et al. [2]. The

pitch dimensions and frequent turnovers during futsal match-play

physiological parameters of performance in futsal have usually been

require fast decision-making and high sprint capabilities under pres-

assessed by field tests with short recovery periods to determine a

sure during the attacking and defending phases [10]. Thus, sprint

player’s ability to repeat short sprints with and without a change of

performance and agility are required in the game [11], as in many

direction  [5,6] or by the intermittent incremental shuttle-run

team sports, and are likely to be pertinent indicators of performance.

test [3,4,5]. Mainly aerobic performance parameters were investi-

Anthropometric data are also likely to be good performance pre-

gated in these studies, and anaerobic parameters such as lower limb

dictors, as underlined by Wong et al. [12,13] in their study of

explosivity and agility, which are potential indicators of futsal perfor-

world-class soccer players. Indeed, anthropometric and physiologi-

mance, have been neglected. To our knowledge, only one study has

cal characteristics were used to develop player profiles that were

investigated agility and speed as strong indicators of performance in

shown to have an impact on the playing style of each confederation

elite female futsal players [7]. Several studies have focused on the

analysed following the World Cups of 2002 (South Korea) and 2006

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INTRODUCTION

Biology

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135

Galy O et al. (Germany). “For example, Sweden and Germany are known for dis-

University of New Caledonia, Noumea, New Caledonia. The entire

cipline and tactical play; Japan and South Korea for team work;

national preselected group participated in this study (n=22).

Brazil and Argentina for individualism and skilful play at the service of the group and Nigeria and Cameroon for high speed play” [6].

Testing protocol

This study, however, reported no information about the Oceania

Futsal is a high-intensity intermittent sport that heavily taxes the

Football Confederation (OFC), the confederation to which the players

aerobic and anaerobic pathways [2]. During matches, it requires

of the present study belong. Oceania is a large region in the Pacific

high-intensity effort every 23 seconds [15] and changes in locomo-

Ocean of approximately 9 million square kilometres with a popula-

tor activities every 3.28 seconds [16]. Many anthropometric char-

tion of nearly 5 million islanders (Wallacea, Australia, New Guinea,

acteristics of soccer players have been reported in the literature over

Melanesia, Micronesia, and Polynesia). Historically, the best athletes

the last decade, providing evidence of a specific soccer profile for

from these countries have migrated to continents where sport has

each FIFA continental zone. Concerning futsal, however, the literature

a professional status. Some of these athletes are highly coveted in

remains sparse. Moreover, there is a general lack of anthropometric

professional sports such as rugby, soccer, and American football.

and physiological information concerning Pacific Islanders, and this

However, it has been difficult or even impossible to obtain objective

is particularly so for Melanesian futsal players [17]. This study was

data on their physical characteristics (i.e., combined force and speed

thus designed to determine whether the anthropometric and physi-

to obtain power, endurance, agility and flexibility) because the sci-

ological characteristics of Melanesian futsal players are significantly

entific literature has remained sparse [14]. In their literature review,

correlated in order to establish a scientific basis for talent identifica-

these authors pointed out that the anthropometric and/or physio-

tion in Oceania and help coaches to develop a playing style accord-

logical characteristics of Micronesian and Melanesian populations

ing to the profile of their futsal players. Although the number of

(i.e., the western Pacific) were lacking. In the present study, we

participants could be considered as relatively low, we assumed that

focused on the Melanesian people, the indigenous Melanesian

the high playing level displayed during the national selection process

population of Oceania, a region where soccer is highly developed

would compensate for the low number of futsal players tested. Indeed,

and futsal is growing in recognition and level of practice. We there-

of the 22 futsal players tested, 16 participated in the qualifying

fore followed the selection process of the National New Caledonian

tournament of the Oceanian Football Confederation (OFC) for the

futsal team for which Melanesian and Caucasian natives, living and

2011 FIFA Futsal World Cup.

training in New Caledonia, present as candidates.

The testing sessions were held over 2 days. Day 1 consisted of

In the present study, our goal was to: (1) determine the relation-

anthropometric measures, jump-and-reach tests and sprint sessions

ships between the parameters of performance and the anthropomet-

(5 m, 10 m, 15 m, 30 m). On day 2, the participants performed

ric profiles of the players and (2) analyse the similarities and differ-

the repeated sprint ability test (RSA) and the RSA with change of

ences between the two ethnic groups and the literature data to set

direction (RSA-COD), the agility T-Test [18], and the 30-15 intermit-

the basis for futsal talent identification and training design in Ocea-

tent fitness test (30-15IFT) [19]. The 30-15IFT was performed as

nia.

described and validated by Buchheit [19]. This 30-15IFT was cho-

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sen because (1) the physiological work of futsal has been described MATERIALS AND METHODS

as high-intensity effort every ~23 seconds [15], which corresponds

Subjects. Fourteen Melanesian futsal players and eight Caucasian

roughly to the 30 seconds of work of the 30-15IFT; (2) the work in

futsal players participated in this study. All were well trained and

futsal is intermittent, like in handball, for which the 30-15IFT was

had been pre-selected by the Fédération Calédonienne de Football

developed [19]; and (3) the futsal playing surface and dimensions

to participate in the qualifying tournament of the Oceanian Football

are also similar to those of handball. Each player was instructed and

Confederation (OFC) for the 2011 FIFA Futsal World Cup. New

verbally encouraged to give his maximal effort. The tests were per-

Caledonia was ranked 5th out of 11 national teams of the OFC at

formed between 9 AM and 2 PM. In the 24 hours before the ex-

the time of the study. At the end of the precompetitive period (3

periment, the participants were asked (1) to abstain from exercise

weeks after the end of this study), 16 of them were selected for the

on the day preceding any assessment, and (2) not to drink caffein-

national New Caledonian team. The Melanesian group (MEL-G) and

ated beverages on the days of the tests [20]. The study took place

the non-Melanesian group (NMEL-G) were 24.4 ±4.4 and 22.9±4.9

during the precompetitive period of 2011.

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years old, trained 4 to 5 times per week for 7.75±1.78 h · wk and 7.64±1.93 h · wk-1 excluding matches, and had been playing futsal

Anthropometry

for 10.5±6.8 and 9.3±8.4 years, respectively. The anthropometric

After height and body mass measurements (Tanita HA 503, Tanita

and physiological data are presented in Tables 1, 2, and 3. All par-

Corporation, Tokyo, Japan), body fat content was estimated from the

ticipants gave informed written consent before participating in the

skinfold thickness, expressed in mm (sum of four skin areas: biceps,

protocol, which was in accordance with legal requirements and the

triceps, subscapular, and suprailiac) measured by an experienced

Declaration of Helsinki and approved by the Ethics Committee of

assessor on the right side of the body with the Harpenden skinfold

136

Melanesian futsal player characteristics caliper (HSB-BI, Burgess Hill, West Sussex, UK), following the

The following data were recorded during the RSA and RSA-COD

method described by Durnin and Rahaman [21]. Body mass index

performances: the fastest time (FT), the average time (AT) and the

(BMI) was calculated according the formula BMI=kg/(height in me-

total time (TT), the number of sprints x fastest sprint time (Ideal sprint

tres2). Two independent measures were taken at each fold. If the

time) of all sprints, and the percentage decrement (%Dec) score as

second measure was not within 5% of the first, subsequent folds

reported by Glaister et al. [24]. The use of TT was recommended by

were measured until two folds were within 5%; their mean was then

previous studies of RSA and RSA-COD [25]. The %Dec has re-

retained. The equation of Durnin and Rahaman [21] was used to

cently been reported as the most valid and reliable method for quan-

determine the percentage of fat body mass (%FBM). Lean body mass

tifying fatigue in RSA tests [24].

(LBM) in kg was determined from body mass and FBM.

The T-Test Jump-and-reach test

The T-Test was organized using the protocol outlined by Semenick [26]

The jump-and-reach test was performed using a Myotest Pro (Myotest

with minor modifications proposed by Pauole et al. [18]. Three test

SA, Sion, Switzerland). The participants were asked to perform a

trials were recorded using photo-cell gates (Brower Timing Systems,

series of five counter-movement jumps (CMJ) in which they began

Salt Lake City, Utah, USA, accuracy of 0.01 s) placed 0.4 m above

in a standing position, dropped into the semi-squat position, and

the ground. The participants commenced the sprint when ready from

immediately jumped as high as possible using their arms. One min-

a standing start 0.5 m behind the timing gate. The reliability and

ute of recovery was allowed between the jumps. The jump height

validity of the T-Test were reported by Pauole et al. [18].

was given automatically by the Myotest Pro, which is considered a valid method [22]. The power output during the jump-and-reach test

30-15 intermittent fitness test

was determined by entering the jump height and body weight variables

The 30-15IFT was performed as described and validated by Buch-

into the equation of Sayers et al. [23]:

heit [19] on an indoor synthetic track where ambient temperature

CMJpeakP (W) = 51.9xCMJ height (cm)+48.9xbody mass (kg)–2007,

ranged from 24 to 26°C. The 30-15IFT consisted of 30 s shuttle

where CMJpeakP is the peak power obtained with the CMJ and

runs (40 m) interspersed with 15 s passive recovery periods. The

CMJ height is the height attained. A standardized 15-minute warm-

initial running velocity was set at 8 km · h-1 for the first 30 s and

up was performed by all participants 10 minutes before the jump-

speed increased by 0.5 km · h-1 every 30 s thereafter. Running pace

and-reach tests.

was governed by a prerecorded audio signal. Participants were instructed to complete as many (30 s) “stages” as possible, and the

The 5 m, 10 m, 15 m, and 30 m sprints tests

test ended when the player could no longer maintain the required

The same day of the anthropometric measurements, the participants

running speed (i.e., when players were unable to reach a 3 m zone

performed three 30 m sprints with 5 m, 10 m, 15 m lap-times on

near each marked line at the time of the audio signal on three con-

an indoor synthetic court, and the best performance was kept as

secutive occasions). The speed at the last completed stage (VIFT)

their best performance for each distance. During the recovery period

showed good reliability. VO2max can be estimated from the VIFT ac-

(2-3 minutes between sprints), the participants walked back to the

cording to the following formula: eVO2max30-15IFT (ml · min-1 · kg-1)

starting line and then waited for the next sprint. Time trials were

= 28.3 - 2.15 G - 0.741 A -0.0357 W + 0.0586 A x VIFT + 1.03

recorded using photo-cell gates (Brower Timing Systems, Salt Lake

VIFT, where G stands for gender (female=2; male=1), A for age,

City, Utah, USA, accuracy of 0.01 s) placed 1 m above the ground.

and W for weight. Each player was encouraged verbally to make a

The participants started the sprint at the starter signal 0.5 m behind

maximal effort during all tests. During the 30-15IFT, heart rate at

the starting line. Stance for the start was consistent for each subject.

rest (HRrest) and heart rate peak during exercise (HRpeak) were collected using a long-range telemetry system (Suunto t6, Suunto Oy,

Repeated sprinting ability with and without change of direction

Finland) that enabled real-time exercise intensity checking. Data were

The RSA consisted of straight-line sprints (6x25 m with 25 s active

recorded every second of the 30-15IFT until the end of the test.

direction in the middle of the sprint distance [19] [6x(2x12.5 m with

Statistics

25 s active recovery)]. During the active recovery, participants jogged

All values are expressed as means ± standard deviation (SD).

slowly back to the starting line and waited for the next sprint. Time

A two-way (time x group) ANOVA was applied for repeated measures.

trials were recorded using photo-cell gates (Brower Timing Systems,

When statistical significance was observed, post-hoc analysis was

Salt Lake City, Utah, USA, accuracy of 0.01 s) placed 1 m above

performed: MEL-G was compared with NMEL-G through unpaired

the ground. Investigators used a hand-held stopwatch to monitor

Student t-tests performed on all anthropometric, physiological and

recovery time. The participants started the sprint at the starter signal

performance variables: height, weight, BMI, %FBM, eVO2max, CMJpeakP,

0.5 m behind the starting line. The stance for the start was consis-

peak power output, T-Test, RSA and RSA-COD (FT, AT, TT, Ideal sprint

tent for each subject.

time, %Dec) and 30-15IFT, as well as HR rest and HR peak of

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recovery) while the RSA-COD consisted of a 180-degree change of

Biology

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Galy O et al. the 30-15IFT. Pearson’s product moment correlations describe the

for the 5 m, 10 m, 15 m, and 30 m sprint performances (Table 3)

relationships between the individual anthropometric variables and

between groups or for the 30-15IFT (P=0.07), including HRpeak and

the physiological parameters of performance in MEL-G and NMEL-G.

eVO2max (P=0.06; Table 2).

A stepwise multiple linear regression was used to determine the best

No significant between-group differences were observed for RSA.

predictors of performance in MEL-G and NMEL-G. The Systat 5.0

However, the first RSA sprint showed a significantly lower intra-group

statistical package was used. For all statistics, a significance level of

value for MEL-G compared with NMEL-G (P=0.01; Table 3).

P

Anthropometric and physiological characteristics of Melanesian futsal players: a first approach to talent identification in Oceania.

This study assessed the anthropometric and physiological characteristics of elite Melanesian futsal players in order to determine the best performance...
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