Next Article in Journal
Efficacy of AutoPulse for Mechanical Chest Compression in Patients with Shock-Resistant Ventricular Fibrillation
Previous Article in Journal
Associations between the Willingness to Donate Samples to Biobanks and Selected Psychological Variables
Previous Article in Special Issue
Dietary Habits, Diet Quality, Nutrition Knowledge, and Associations with Physical Activity in Polish Prisoners: A Pilot Study
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
IJERPH
Volume 19
Issue 5
10.3390/ijerph19052554
ijerph-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Exploring the Correlation between Time Management, the Mediterranean Diet, and Physical Activity: A Comparative Study between Spanish and Romanian University Students

by
Elena-Simona Indreica
1,
Georgian Badicu
2,* and
Hadi Nobari
3,4
1
Department of Psychology, Education and Teacher Training, Faculty of Psychology and Education Sciences, Transilvania University of Brasov, 500068 Brasov, Romania
2
Department of Physical Education and Special Motricity, Faculty of Physical Education and Mountain Sports, Transilvania University of Brasov, 500068 Brasov, Romania
3
Department of Physiology, School of Sport Sciences, University of Extremadura, 10003 Cáceres, Spain
4
Department of Exercise Physiology, Faculty of Educational Sciences and Psychology, University of Mohaghegh Ardabili, Ardabil 56199-11367, Iran
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2022, 19(5), 2554; https://doi.org/10.3390/ijerph19052554
Submission received: 24 January 2022 / Revised: 17 February 2022 / Accepted: 20 February 2022 / Published: 23 February 2022
(This article belongs to the Special Issue Importance of Physical Activity and Nutrition in Adolescents and Adults)
Review Reports Versions Notes

Abstract

:
Background: The investigation started from the premise that there are links between time management (TM), physical activity (PA), and the Mediterranean diet (MD). The aim of our study is to determine the correlation between the variables TM, the MD, and PA in Spanish and Romanian university students. Methods: The study was conducted on a group of 296 students (198 Romanian and 98 Spanish students between the ages of 23.44 ± 5.92 years, with 108 males and 188 females, where 171 were from the sports faculty and 125 were from the psychology faculty), using the Time Management Questionnaire (TMQ) to measure TM, the KIDMED test to measure MD, and the International Physical Activity Questionnaire-Short Form (IPAQ-SF) to measure PA. Results: The obtained results show that there are significant differences, regarding MD and PA, between the Romanian and Spanish respondents, between the respondents from the sports faculty and those from the psychology faculty, and between the female and male respondents. The TM variable did not show a significant difference depending on the country, faculty, or gender. There was only a significant relationship between the MD and the other two variables (TM and PA). Conclusions: Significant differences were observed between the variables the MD and PA, but not TM, depending on the country, gender, and faculty. There was only a significant correlation between the MD and the other two variables (TM and PA). The results provided us with relevant data for the need for a TM protocol to improve the MD adherence and PA in university students.

1. Introduction

Following the investigations carried out in recent years [1,2,3], we found that there is a link between time management and a number of variables aimed at the quality of life. We extended the area of interest to include the connection between these variables, physical activity (PA), and the Mediterranean diet (MD). Time management focuses on both the ability to effectively organize work tasks and the ability to adapt the time resources to optimize the quality of life [1,2,3]. In a previous study [1], we experimented with an individualized time management program related to learning styles. Currently, due to the need for online education, time management is affected, in this segment, by physical activities. Few studies link healthy food [2] to time management, and research between leisure time and physical activity is not found. A comparative study between Romanian and Spanish students would provide us with the relevant data on the need to use time management strategies and its relationship with PA, as well as relevant data on the MD.
As we know, PA and a healthy diet are key factors for avoiding major noncommunicable diseases. Moreover, according to the World Health Organization (WHO), the recommendation for adults to improve health parameters is to perform at least 150 min of moderate-intensity, or 75 min of vigorous-intensity, aerobic PA throughout the week (or an equivalent combination of moderate- and vigorous-intensity activities) [4]. On the other hand, diet habits have increasingly become a cause of concern because of their potential consequences for health [5,6]. In this way, the MD has been linked to a number of health benefits, including reduced mortality and the incidence of cardiovascular disease [7], as well as a relatively high level of self-rated health [7]. The particularities of the MD not only include a wide variety of foods, but also include the amount and consumption of these foods that is recommended. However, a particular emphasis is placed on the importance of food preparation [8,9].
This diet is abundant in minimally-processed plant-based foods, is rich in monounsaturated fat from olive oil, and is lower in saturated fat, meats, and dairy products. Further, a healthy diet is also positively related to a potentially reduced risk of infection and symptom severity in relation to COVID-19 [10,11].
Finally, when comparing Spain and Romania regarding the MD, we can say that, in Romania, this diet is little-used [12], the same being true for students. Additionally, in Spain, the MD is not of scientific journals or weight loss websites; it is simply a part of normal life.
Today, there are many studies on the relationship between PA [13] and the MD [14,15,16,17], but studies between leisure time and the two variables are not found.
Related to the association between the two variables, i.e., MD and PA, a study by Iaccarino et al. [18] showed that there is an association between PA and adherence to the MD, while they also have an inverse correlation with sedentary behavior [18]. Moreover, a systematic review with a meta-analysis by Malakou et al. [19] found that the promotion of the combination of the MD and PA showed a significant metabolic risk reduction [19].
Particularly in university, people tend to have a more sedentary life, due to their studies. Eating habits are another health factor to consider [20]. Recent studies show that students do not meet the general recommendations in relation to PA levels [21]. Following these studies, it has been concluded that students were less active than children and teenagers. Pavicic et al. [22] concluded that a high level of PA was associated with the MD, but not in a significant manner [22]. The variables associated with a high level of PA were a male gender, a younger age, a normal WHR (waist-to-hip ratio), a non-sedentary occupation, and a reduced sitting time [22].
In accordance with those presented, the investigation started from the premise that there are links between time management (TM), physical activity (PA), and the Mediterranean diet (MD).
Moreover, the present study aimed to conduct a comparative study between the sports faculty students and the psychology and education sciences faculty students, from Romania and Spain. We hypothesize the following for our study:
Hypothesis 1 (H1).
There are differences between the variables TM, MD, and PA, depending on the country, faculty, and gender.
Hypothesis 2 (H2).
There is a relationship between the variables TM, MD, and PA.
Hypothesis 3 (H3).
The results for TM, MD, and PA are determined by the country of origin.

2. Materials and Methods

2.1. Participants and Design

This non-experimental, cross-sectional, and descriptive study was conducted on a sample of 296 university students from Romania (66.9%; n = 198) and Spain (33.1%; n = 98). The sample was selected based on a unique criterion, including being a student at the Faculty of Psychology and Educational Sciences, or a student at the Faculty of Physical Education and Sports during the academic year 2020–2021. Respondents from the Faculty of Physical Education (57.8%; n = 171) and Psychology and Educational Sciences (42.2%; n = 125) were aged between 18 and 52 years old (23.44 ± 5.92 years old). The respondents participated voluntarily after receiving a detailed explanation of the objectives and nature of the study. The distribution of the questionnaires was done exclusively online. The questionnaires were written in Google Forms and were distributed on social networks, where 303 people answered. In this study, we excluded from the analysis 7 students that did not complete the inclusion criteria correctly (i.e., incomplete questionnaires or did not hand informed consent forms). There were a few deviations, as the items in the questionnaires were mostly set in the electronic system as mandatory. Thus, the final sample was comprised of 296 subjects, including108 males (36.5%) and 188 females (63.5%). There were 206 (69.6%) respondents from urban areas and 90 (30.4%) respondents from rural areas, and there were 171 (57.77%) students from the physical education and sports faculty and 125 (42.23%) students from psychology and educational sciences faculty. The students from Romania were enrolled in the Transylvania University of Brasov (n = 198), while the Spanish students were enrolled in the University of Extremadura (n = 98).

2.2. Time Management Questionnaire

The Time Management Questionnaire (TMQ) [1,2,3] contains 24 items. The 24 items are focused on three variables of the time management dimension: activity planning (AP), activity monitoring (AM), and streamlining activities (SA). Each dimension was measured by means of indicators and each indicator was represented in the questionnaire by one or more items. For the AP, the indicators are: making a schedule (items 5 and 19), prioritizing activities (items 1, 2, 4, and 9), time distribution (items 6 and 12), and clearly defined goals (items 10 and 11). For the AM, the indicators are: using a schedule (item 20), observing the time allotted to each activity (items 7, 8, 15, and 23), and redistributing time (items 13 and 16). For the SA indicators: achieving the activities (items 3, 21, and 22), asking for support (items 14 and 24), and making use of free slots of time (items 17 and 18). The answers are presented on a Likert scale from 1 (very rarely) to 5 (very often). For AP, AM, and SA, the indicator scores are summed. Based on the total scores of the three dimensions, the time management level is established: a score of 0–30 indicates non-existent TM; 31–60 indicates a TM deficit; 61–80 indicates moderate TM; 80–100 indicates good TM; and 101–120 indicates excellent TM. For the group in the present study, the Cronbach’s alpha coefficient is 0.84, which means that the test has a good internal consistency, as mentioned by other studies [1,2,3].

2.3. Mediterranean Diet (KIDMED Test)

The KIDMED test is a tool to evaluate the adherence to the MD for youths and children. The final score can include values between −4 and 12 points [23] and is based on a 16-question test that can be self-administered or conducted by an interview (with a dietitian, pediatrician, etc.). The questions denoting a negative connotation, with respect to the MD, are assigned a value of −1 (items 6, 12, 14, and 16 for the answer ‘yes’), and those with a positive aspect are assigned a value of +1 (the rest of the items). ‘No’ answers are given a 0. Moreover, the sums of the values from the administered test are classified into three levels: (1) >8, optimal MD; (2) 4–7, improvement needed to adjust the intake to Mediterranean patterns; and (3) ≤3, very low diet quality [24,25]. This test was developed and validated by Serra-Majem et al. [25].

2.4. Physical Activity Measures

For measuring the PA level, we used the official version of the International PA Questionnaire-Short Form (IPAQ-SF) [26,27]. This evaluation tool has, in its content, seven generic items. Our measurement evaluates the varying levels of the PA intensity, and the daily sitting time. This research considers that PA intensity, along with daily sitting time, as well as estimates the total amount of PA in MET-min/week and the time spent sitting. Moreover, the IPAQ-SF states that there are three categories of PA levels: “low”, “moderate”, and “high” [28,29]. The total weekly PA, expressed as MET-minutes per week (MET-min/wk−1), was calculated as follows: duration × frequency per week × MET intensity. Additionally, it was represented and summarized by walking, moderate-intensity PA, and vigorous-intensity PA for the week [29]. It is very important to mention the fact that all the questions are related to activities performed during the previous seven days [30]. The properties of the IPAQ-SF are appropriate for assessing the levels of PA in 18- to 65-year-old adults, in various environments [31,32]. From this study, the reliability of the IPAQ-SF was satisfactory (Cronbach’s α = 0.80) [32].

2.5. Procedure

First, we requested the approval of the study by the Ethics Committee of the University of Extremadura, which was granted with the code “641/CEIH/2018”. In addition, the informed consent of the respondents was requested through a document in which the nature of the study was detailed. In this study, we used the Google Forms to draw the questionnaires and we shared and collected the results from students by email. Participation in the study was voluntary, the online environment giving them the comfort of answering whenever they wanted, without having a time limit. The average time to complete the questionnaires was 15 min. Data collection took place over three months (July to September 2021), with access to questionnaires being closed at the end of September. The questionnaires were applied in the respondents’ mother tongue, Romanian or Spanish, in order to ensure the most correct decoding of the contents of the items. The questionnaires were also used in these languages in other studies [2,6,7,8,9,15,26,27,28,29]. The questionnaires were accompanied by clarifications regarding the purpose of the investigation and the protection of personal data.

2.6. Data Analysis

The data analysis was performed using IBM SPSS® Statistics Version 20 software. First, frequencies and medians were used for the basic descriptors, while the associations between the detailed variables was analyzed using independent t-test samples and a one-way analysis of variance (ANOVA) depending on the number of categories of each variable. In addition, a one-way multivariate analysis of variance (MANOVA) was performed to examine whether the results for TM, MD, and MET-minutes/week, taken together as three dependent variables, were determined by the country of origin, Romania or Spain. Levene’s test was used to check homoskedasticity. A correlational value above 0.5 was considered to be strong, values between 0.3–0.49 were considered moderate, and any value less than 0.29 was considered to be poor [33].

3. Results

3.1. Differences between Dependent Variables (H1)

The results from TM (time management, with a detailed presentation on the three dimensions of the variable and on the indicators related to each dimension), PA, and MD based on the country of origin of the respondents have been summarized in Table 1.
For the TM domain, our analysis showed that there were no differences between the respondents from the two countries in their overall AM, AP, SA, or TM scores. Significant differences occurred only in some of the variable size indicators. At the “activity planning” (PA) dimension, only one indicator out of the four, i.e., the distribution of time on the planned activities, registered a significant difference (p = 0.015; 6.98 ± 1.62 vs. 6.45 ± 2.02), with the Romanians obtaining a higher score. In terms of activity monitoring (MA), all three indicators showed significant differences, but when using the work agenda (3.69 ± 1.04 vs. 3.40 ± 1.05) and redistributing the time (6.77 ± 1.96 vs. 6.02 ± 1.74), Romanians scored higher, while for the observance of the time allocated to activities (11.59 ± 2.55 vs. 12.94 ± 2.11) the Spanish recorded an increased score. This aspect that balanced the final score of the MA, with the difference on this dimension being insignificant (p = 0.548). A similar situation occurred with the size of the efficiency of activities (SA), where the indicator, “call for support” (6.38 ± 1.62 vs. 5.78 ± 1.84), the Romanians obtained a higher score, while Spanish had a higher score for “making use of free slots of time” (6.23 ± 2.42 vs. 6.88 ± 2.22), an aspect that counterbalances the total final SA score, determining the non-existence of a significant difference (p = 0.399) between the Romanian and Spanish respondents.
As can be seen in Table 1, regarding the variable PA-MET_minutes, the difference was significant (p ≤ 0.001, p = 0.001) between Romanians and Spanish (3390.51 ± 3111.57 vs. 4683.32 ± 2823.85) with Spanish students obtaining a higher score. The variable MD also showed a significant difference (p ≤ 0.001, p = 0.001) between Romanian and Spanish (4.23 ± 2.95 vs. 6.38 ± 2.41) students, with respondents from Spain having a higher score.
Table 2 presents, using an independent-samples t-test, the results obtained for TM (the time management presentation on the three dimensions of the variable and on the indicators related to each dimension), PA, and the MD, depending on the faculty of origin of the respondents.
The TM variable did not show a significant difference depending on the faculty from which the respondents came. Significant differences between sports students and the psychology and education sciences students appeared only in one of the indicators of the “activity efficiency” (SA) dimension, even if the SA size did not register a significant difference (p = 0.413) between the respondents from the two faculties. There was a significant difference in the “call for support” indicator at p < 0.05 (p = 0.013), with students in psychology and educational sciences obtaining an increased score (5.97 ± 1.72 vs. 6.47 ± 1.68).
The variable PA, as expected, registered a strong significant difference for students from sports to MET_minutes (p = 0.001). They registered increased values compared to those from psychology and education sciences, both at MET_vigorous (p = 0.001; 2537.31 ± 2209.00 vs. 882.24 ± 1395.96), and MET_moderate (p = 0.038; 810.18 ± 921.57 vs. 575.52 ± 998.11) levels. Regarding the MD variable, the difference was significant for sports students (p ≤ 0.001; p = 0.001), who recorded a higher score (5.47 ± 2.85 vs. 4.21 ± 2.96).
Table 3 presents, using an independent-samples t-test, the results obtained for TM (the time management presentation on the three dimensions of the variable and on the indicators related to each dimension), PA, and MD, according to gender.
The variable, TM, does not register a significant difference according to gender (p = 0.853). Significant differences between women and men appeared in only two of the indicators of the “activity efficiency” (SA) dimension, but the size of the SA did not show a significant difference (p = 0.782) between female and male respondents. There was a statistically significant difference in the “call for support” indicator from p ≤ 0.001 (p = 0.003), with female students scoring higher (6.40 ± 1.67 vs. 5.80 ± 1.73). Moreover, for the indicator “making use of free slots of time” there was a significant difference at p < 0.05 (p = 0.020), this time with the male students obtaining an increased score (6.20 ± 2.43 vs. 6.87 ± 2.21).
According to the data in Table 4, PA showed a strong significant difference for male students in the MET_minutes (p < 0.001; p = 0.002), which recorded higher values compared to female students (3394.45 ± 2999.99 vs. 4556.75 ± 3079.51). In MET_vigorous activity (p = 0.001; 1333.40 ± 1852.58 vs. 2717.41 ± 2152.61) males registered increased values, and in MET_easy activity (p = 0.038; 810.18 ± 921.57 vs.575.52 ± 998.11) females obtained a higher score. Regarding the MD variable, the difference was not significant between the values obtained by the genders (4.75 ± 3.02 vs. 5.27 ± 2.85).
Table 4 indicates the dimensions (AP, AM, and SA) of the TM variable, the MD, and the levels of PA, low, moderate, or high. According to the data presented, there were no significant differences depending on the level of PA.
Table 5 indicates the dimensions (AP, AM, and SA) of the TM variable and the PA variable according to the levels of MD, low, moderate, or high. It was observed that the significant differences were found in the dimensions of the planned activity (p = 0.024) and variable PA (p = 0.006). Thus, it was observed that those who had a high MD planned their time management activities better (38.42 ± 4.97 vs. 36.01 ± 6.24 and 36.15 ± 6.11) and did more intense PA (4842.65 ± 2968.55 vs. 3861.04 ± 3531.05 and 3347.46 ± 2698.15).

3.2. Correlations between Variables (H2)

Table 6 shows the correlations between the variables studied. A small positive relationship was observed between TM and MD (p < 0.01; r = 0.16) and TM and MET_vigorous activity (p < 0.05; r = 0.12). Moreover, a positive association was noted between the MD and MET_vigorous activity (p < 0.01; r = 0.15). The dimensions of time management were all interconnected, indicating a high positive correlation (the r value ranged between 0.53 and 0.6). The correlation between MET_vigorous, MET_moderate, and MET_easy activities ranged from small to large (r = 0.1–0.85).
Following the results of the relationships between the variables (Table 7) on the component subgroups of the investigated group, some significant aspects were found depending on the country of origin, the study program, and gender. Thus, it is noted that, regardless of the country of origin or gender, in the students from the psychology and education sciences faculty, there were no correlations between any of the variables.
Spanish female students enrolled in the sports program showed moderate-to-strong values for TM and the MD (r = 0.60; p < 0.01), TM and MET_minutes (r = 0.47; p < 0.01), and MD and MET_minutes (r = 0.52; p < 0.01). With regards to Spanish male students in the sports faculty, significant correlations between TM and the MD (r = 0.30; p < 0.05) and the MD and MET_minutes (r = 0.30; p < 0.05) were observed.
In the Romanian respondents from the physical education and sports study program, significant correlations appeared as follows: for females, a significant negative correlation, at p < 0.05, was observed between MD and MET_minutes (r = −0.36); for males, a strongly significant positive correlation at p < 0.01 between TM and MET_minutes (r = 0.41) was observed.

3.3. The Determination of Results and the Country Predictor (H3)

A one-way multivariate analysis of variance (MANOVA) was performed to examine whether the results for TM, the MD, and MET_minutes, were determined by the country of origin, Romania or Spain (Table 8). The results indicated that the country (Wilk’s Lambda = 0.944, F(3, 286) = 5.69, p = 0.001, p < 0.05, partial eta squared = 0.056) had a significant relationship with the combination of dependent variables.

4. Discussion

Our study aimed to determine the correlation between TM, the MD, and PA variables in Spanish and Romanian university students. In summary, the findings from this study suggest that there were no overall differences in the TM scores of participants based on the country, gender, and faculty. However, there were differences in the PA score when these parameters were considered. Significant differences were observed when the MD score was based on the country and faculty, but no differences were observed when a gender comparison was performed. A significant relationship could not be determined between TM, the MD, and the various levels of PA. Furthermore, our participants with a higher MD adherence were able to plan activities better and perform more intense PA compared to the other participants. Moreover, a positive relationship was observed between TM and the MD (p < 0.01; r = 0.16) and TM and MET_vigorous activity (p < 0.05; r = 0.12). Similarly, a small positive association was noted between the MD and MET_vigorous activity (p < 0.01; r = 0.15). Finally, the MD and MET_minutes is influenced by the country of the participants. In summary, the results partly support our hypothesis that there is a correlation between TM, PA, and the MD variables, and this can be influenced by the country of the university students. The findings of this study are of relevance to university students involved in the Faculty of Psychology and Educational Sciences, or the Faculty of Physical Education and Sports in Spain and Romania.
Time management is a skill that can be developed at any age, provided the individual is willing to improve the results of their actions [34]. An effective TM strategy is associated with improved academic performance and lower stress levels [35]. Even though the country, faculty, and gender did not influence the overall TM, there were a few significant differences in the individual domains of TM questionnaire. For instance, the time distribution during activity-planning was reported to be better in Romanian students compared to Spanish students. However, it was noted that Spanish students were better at activity-monitoring tasks, such as scheduling, observing the time allocated to each activity, and the redistribution of time. This could be due to various reasons. Firstly, the type of activities for which TM might be of importance were not included in the list of planned activities. Secondly, there is a possibility that these activities were included in the list, but the participating students did not monitor the time allocated to them. Therefore, university students should focus on improving the overall TM qualities in order to improve academic performance, PA, and reduce the perceived stress levels.
Our results indicate that the adherence to the MD diet in Spanish students was higher in comparison to Romanian students. The students were provided meals inside the university campus. This is in line with a previous study in which Spanish students have been reported to have a higher adherence to the MD food compared to their counterparts [24]. One reason for this is due to the geographical location of Romania, which is a non-coastal country and is further north than Spain [25]. This could have limited the cultivation of the food of the Mediterranean basin in Romania [36]. Moreover, the climatic conditions in Spain favor the consumption of fish, milk, and cereals, which could have helped Spanish students to adhere to the MD. Furthermore, we observed that sports students had a higher adherence to the MD compared to psychology students. This could be due to the application of the academic knowledge in nutrition regarding the benefits of the MD to their individual lives. We also observed that better activity planning was associated with an increased adherence to MD. A potential reason could be that the consumption of MD was a priority for the students in both countries and it would have been given priority over other activities.
We found that PA activities varied between the countries, genders, and the faculty. Furthermore, we also observed a strong correlation between the MD and PA, with the former improving the performance of the latter. The PA activities were observed to be higher in Spanish students compared to Romanian students. Young people practicing physical activity tend to consume a nutritious diet to obtain greater results in terms of performance, body image, or wellbeing [37,38]. This could be one potential reason for the adherence to the MD by Spanish university students. Furthermore, male participants were observed to be more physically active than females. This has been observed in previous studies as well [39,40,41]. However, further research needs to be conducted in order to determine the causal effect of such differences in PA depending on the gender of the university students.
There was no significant difference in the TM and the MD based on the various levels of PA. Previous studies have reported that a greater adherence to MD has been associated with more PA [22]. However, such results were not observed in our study. The disparity in findings could be due to the variation in the study design and the participants included in our study. However, our results are in line with the study by Badicu et al. [23] in which no significant relationship was observed between the MD and PA in university students. Therefore, it can be speculated that the participants in our study were engaged in some sort of physical activity. Furthermore, there was no significant difference in the overall TM of the students. This could be one of the reasons for the lack of differences in the PA activities of university students in Spain and Romania. Hence, it can be said that the constructive use of time and prior planning may lead to a prudent use of time and a rise in physical activity.
Our bivariate correlation analysis revealed that overall TM was correlated with the MD and MET_vigorous. A study by Valenzuela et al. [42] reported that PA might help in improving the TM skills of university students, since regular PA requires efficient activity planning. Furthermore, university students have been observed to spend long durations in a sedentary environment in order to cope with the study demands [43]. As a result, PA might be a useful tool for improving concentration [44], intellectual development [45,46], and cardiovascular health improvement. Therefore, engaging in regular PA can be useful in developing the TM skills in university students, as well as improving overall health. However, it is suggested that further research needs to be conducted in students from other departments in order to get a better understanding on this topic.
A higher adherence to the MD was associated with more vigorous physical activity. Although not particularly relevant to the university students, the MD has been associated with improved cardiovascular fitness [47], muscle strength [48], and speed agility in adolescents [49]. This could be due to the high levels of antioxidant characteristics of the MD that could lead to an increased efficiency in oxygen uptake and utilization [50] Furthermore, it may promote the protection of cellular components, such as proteins, from the catabolic effects of oxidative stress that imbalance the relationship between the production of reactive oxygen species and antioxidant defense [51]. Therefore, these could be some of the factors associated with enhanced PA in students adhering to the MD diet. However, further research is required for gaining additional insights into the influence of the MD on PA in university students.
There are a few limitations to our study that need to be highlighted. Firstly, the study was conducted only on students from two departments. A further analysis involving students from other fields of study will help to better understand the correlation between TM, the MD, and PA. Secondly, this study was conducted only on university students. Third, limitations appeared in the sample size and its distribution by country, gender, and faculty. There was double the number of Romanian students in total, and the dominant number of Romanian students were in psychology, compared to the small number of students in psychology in Spain, with a dominant female number. Therefore, the findings cannot be transferred to the general populations in both the countries.

5. Conclusions

Our study aimed to determine the correlation between the variables TM, the MD, and PA in Spanish and Romanian university students. There were significant differences observed in the MD and PA parameters, as well as between the Romanian and Spanish respondents, between the respondents from the sports faculty and those from the psychology faculty, and between the female and male respondents. The TM variable did not show a significant difference depending on the country, faculty and gender. There was only a significant relationship between the MD and the other two variables (TM and PA). However, further research needs to be conducted in order to develop a better understanding on this topic.

Author Contributions

Conceptualization, G.B. and E.-S.I.; methodology, G.B. and E.-S.I.; software, E.-S.I.; formal analysis, G.B., E.-S.I. and H.N.; investigation, G.B., E.-S.I. and H.N., data curation, G.B., E.-S.I. and H.N.; writing—original draft preparation, G.B. and E.-S.I., writing—review and editing, E.-S.I., G.B.; supervision, H.N.; and G.B.; project administration, G.B. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

The study was conducted according to the guidelines of the Declaration of Helsinki, and approved by the Ethics Committee of the University of Extremadura (protocol code 641/CEIH/2018).

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

The data used to support the findings of current study are available from the corresponding author upon request.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Indreica, S.-E.; Cazan, A.-M.; Truţa, C. Effects of learning styles and time management on academic achievement. Procedia Soc. Behav. Sci. 2011, 30, 1096–1102. [Google Scholar] [CrossRef] [Green Version]
  2. Indreica, E.S. Time management and healthy food—Ascertaining study. Bull. Transilv. Univ. Bras. 2019, 12, 229–236. [Google Scholar] [CrossRef]
  3. Indreica, E.S.; Nicolau, A. Time management and dental hygiene during the isolation period in the context of the COVID-19 pandemic. Bull. Transilv. Univ. Bras. 2020, 13, 153–164. [Google Scholar] [CrossRef]
  4. World Health Organization. WHO Guidelines on Physical Activity and Sedentary Behaviour; World Health Organization: Geneva, Switzerland, 2020. [Google Scholar]
  5. Kandel, S. An Evidence-based Look at the Effects of Diet on Health. Cureus 2019, 11, e4715. [Google Scholar] [CrossRef] [Green Version]
  6. Nobari, H.; Fashi, M.; Eskandari, A.; Villafaina, S.; Murillo-Garcia, Á.; Pérez-Gómez, J. Effect of COVID-19 on Health-Related Quality of Life in Adolescents and Children: A Systematic Review. Int. J. Environ. Res. Public Health 2021, 18, 4563. [Google Scholar] [CrossRef]
  7. Martínez-González, M.A.; Gea, A.; Ruiz-Canela, M. The Mediterranean Diet and Cardiovascular Health. Circ. Res. 2019, 124, 779–798. [Google Scholar] [CrossRef]
  8. San Román-Mata, S.; Zurita-Ortega, F.; Martínez-Martínez, A.; Padial-Ruz, R.; Chacón-Cuberos, R.; Linares-Manrique, M. Adherencia a la Dieta Mediterránea en estudiantes universitarios del sur de España según factores sociales, académicos y religiosos. Rev. Española Nutr. Hum. Diet. 2018, 22, 141–148. [Google Scholar] [CrossRef] [Green Version]
  9. González-Valero, G.; Ubago-Jiménez, J.L.; Ramírez-Granizo, I.A.; Puertas-Molero, P. Association between Motivational Climate, Adherence to Mediterranean Diet, and Levels of Physical Activity in Physical Education Students. Behav. Sci. 2019, 9, 37. [Google Scholar] [CrossRef] [Green Version]
  10. Novak, D.; Štefan, L.; Prosoli, R.; Emeljanovas, A.; Mieziene, B.; Milanović, I.; Radisavljević-Janić, S. Mediterranean Diet and Its Correlates among Adolescents in Non-Mediterranean European Countries: A Population-Based Study. Nutrients 2017, 9, 177. [Google Scholar] [CrossRef] [Green Version]
  11. Grant, W.B.; Lahore, H.; McDonnell, S.L.; Baggerly, C.A.; French, C.B.; Aliano, J.L.; Bhattoa, H.P. Evidence that Vitamin D Supplementation Could Reduce Risk of Influenza and COVID-19 Infections and Deaths. Nutrients 2020, 2, 988. [Google Scholar] [CrossRef] [Green Version]
  12. Play Tech Impact. Dieta Mediteraneana—Piramida Alimentelor Care te va Ghida sa Mananci Sanatos si sa Slabesti Frumos. Available online: https://playtech.ro/stiri/dieta-mediteraneana-piramida-alimentelor-care-te-va-ghida-sa-mananci-sanatos-si-sa-slabesti-frumos-218096 (accessed on 23 January 2022).
  13. Kalajas-Tilga, H.; Koka, A.; Hein, V.; Tilga, H.; Raudsepp, L. Motivational processes in physical education and objectively measured physical activity among adolescents. J. Sport Health Sci. 2020, 9, 462–471. [Google Scholar] [CrossRef] [PubMed]
  14. Franco, E.; Urosa, J.; Barakat, R.; Refoyo, I. Physical Activity and Adherence to the Mediterranean Diet among Spanish Employees in a Health-Promotion Program before and during the COVID-19 Pandemic: The Sanitas-Healthy Cities Challenge. Int. J. Environ. Res. Public Health 2021, 18, 2735. [Google Scholar] [CrossRef] [PubMed]
  15. Serra-Majem, L.; García-Closas, R.; Ribas, L.; Pérez-Rodrigo, C.; Aranceta, J. Food patterns of Spanish schoolchildren and adolescents: The enKid Study. Public Health Nutr. 2001, 4, 1433–1438. [Google Scholar] [CrossRef] [PubMed]
  16. Nobari, H.; Fashi, M.; Eskandari, A.; Pérez-Gómez, J.; Suzuki, K. Potential Improvement in Rehabilitation Quality of 2019 Novel Coronavirus by Isometric Training System; Is There “Muscle-Lung Cross-Talk”? Int. J. Environ. Res. Public Health 2021, 18, 6304. [Google Scholar] [CrossRef]
  17. Galan-Lopez, P.; Sanchez-Oliver, A.J.; Pihu, M.; Gísladóttír, T.; Domínguez, R.; Ries, F. Association between Adherence to the Mediterranean Diet and Physical Fitness with Body Composition Parameters in 1717 European Adolescents. Adoles. Health Study Nutr. 2020, 12, 77. [Google Scholar] [CrossRef] [Green Version]
  18. Iaccarino Idelson, P.; Scalfi, L.; Valerio, G. Adherence to the Mediterranean Diet in children and adolescents: A systematic review. Nutr. Metab. Cardiovasc. Dis. 2017, 27, 283–299. [Google Scholar] [CrossRef]
  19. Malakou, E.; Linardakis, M.; Armstrong, M.E.G.; Zannidi, D.; Foster, C.; Johnson, L.; Papadaki, A. The Combined Effect of Promoting the Mediterranean Diet and Physical Activity on Metabolic Risk Factors in Adults: A Systematic Review and Meta-Analysis of Randomised Controlled Trials. Nutrients 2018, 10, 1577. [Google Scholar] [CrossRef] [Green Version]
  20. Ubago-Jiménez, J.L.; Zurita-Ortega, F.; San Román-Mata, S.; Puertas-Molero, P.; González-Valero, G. Impact of Physical Activity Practice and Adherence to the Mediterranean Diet in Relation to Multiple Intelligences among University Students. Nutrients 2020, 12, 2630. [Google Scholar] [CrossRef]
  21. Varela-Mato, V.; Cancela, J.M.; Ayan, C.; Martín, V.; Molina, A. Lifestyle and Health among Spanish University Students: Differences by Gender and Academic Discipline. Int. J. Environ. Res. Public Health 2012, 9, 2728–2741. [Google Scholar] [CrossRef] [Green Version]
  22. Pavičić, Ž.S.; Kenđel, J.G.; Krešić, G. The association between the Mediterranean diet and high physical activity among the working population in Croatia. Med. Pracy 2019, 70, 169–176. [Google Scholar] [CrossRef]
  23. Chacón-Cuberos, R.; Zurita-Ortega, F.; Olmedo-Moreno, E.M.; Castro-Sánchez, M. Relationship between Academic Stress, Physical Activity and Diet in University Students of Education. Behav. Sci. 2019, 9, 59. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  24. Chacón-Cuberos, R.; Badicu, G.; Zurita-Ortega, F.; Castro-Sánchez, M. Mediterranean Diet and Motivation in Sport: A Comparative Study between University Students from Spain and Romania. Nutrients 2019, 11, 30. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  25. Serra-Majem, L.; Ribas, L.; García, A.; Pérez-Rodrigo, C.; Aranceta, J. Nutrient adequacy and Mediterranean Diet in Spanish school children and adolescents. Eur. J. Clin. Nutr. 2003, 57, 35–39. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  26. IPAQ. Cultural Adaptation. 2005. Available online: http://www.ipaq.ki.se/downloads.htm (accessed on 11 March 2021).
  27. Badicu, G. Physical Activity and Sleep Quality in Students of the Faculty of Physical Education and Sport of Braşov, Romania. Sustainability 2018, 10, 2410. [Google Scholar] [CrossRef] [Green Version]
  28. Bauman, A.; Bull, F.; Chey, T. The International Prevalence Study on Physical Activity: Results from 20 countries. Int. J. Behav. Nutr. Phys. Acta 2009, 31, 6–21. [Google Scholar] [CrossRef]
  29. Badicu, G. Physical Activity and Health-Related Quality of Life in Adults from Brasov, Romania. Educ. Sci. 2018, 8, 52. [Google Scholar] [CrossRef] [Green Version]
  30. Sf-36.org. Website Traffic and Information. Available online: http://www.trafficestimate.com/sf-36.org (accessed on 12 March 2021).
  31. Craig, C.L.; Marshall, A.L.; Sjostrom, M.; Bauman, A.E.; Booth, M.L.; Ainsworth, B.E.; Pratt, M.; Ekelund, U.; Yngve, A.; Sallis, J.F.; et al. International Physical Activity Questionnaire: 12-country reliability and validity. Med. Sci. Sports Exerc. 2003, 8, 1381–1395. [Google Scholar] [CrossRef] [Green Version]
  32. González-Valero, G.; Zurita-Ortega, F.; Lindell-Postigo, D.; Conde-Pipó, J.; Grosz, W.R.; Badicu, G. Analysis of Self-Concept in Adolescents before and during COVID-19 Lockdown: Differences by Gender and Sports Activity. Sustainability 2020, 12, 7792. [Google Scholar] [CrossRef]
  33. Cohen, J. Statistical Power Analysis for the Behavioral Sciences, 2nd ed.; Routledge: London, UK, 1988. [Google Scholar]
  34. Dale, M. Developing management skills. In Techniques for Improving Learning and Performance; Kogan Page Limited: London, UK, 1993. [Google Scholar]
  35. Khatib, A.S.A. Time Management and Its Relation to Students’ Stress, Gender and Academic Achievement among Sample of Students at Al Ain University of Science and Technology, UAE. Int. J. Bus. Soc. Res. 2014, 4, 47–57. [Google Scholar]
  36. Bădicu, G.; Chacón, A.; Zurita Ortega, F.; Sánchez, M.; Balint, L. Mediterranean Diet and physical activity in Romanian and Spanish university students—A comparative study. Phys. Educ. Stud. 2019, 23. [Google Scholar] [CrossRef] [Green Version]
  37. Smith, L.; López, G.F.; Díaz, A.; Stubbs, B.; Dowling, M.; Scruton, A. Barriers and Facilitators of Physical Activity in Children of a South Asian Ethnicity. Sustainability 2018, 10, 761. [Google Scholar] [CrossRef] [Green Version]
  38. Pinel, C.; Chacón, R.; Castro, M.; Espejo, T.; Zurita, F.; Cortés, A. Differences between gender in relation with Body Mass Index, diet quality and sedentary activies on children from 10 to 12 year. Retos 2017, 31, 176–180. [Google Scholar]
  39. De Looze, M.; Elgar, F.J.; Currie, C.; Kolip, P.; Stevens, G.W.J.M. Gender Inequality and Sex Differences in Physical Fighting, Physical Activity, and Injury Among Adolescents Across 36 Countries. J. Adolesc. Health 2019, 64, 657–663. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  40. Wilson, O.W.A.; Papalia, Z.; Duffey, M.; Bopp, M. Differences in college students’ aerobic physical activity and muscle-strengthening activities based on gender, race, and sexual orientation. Prev. Med. Rep. 2019, 16, 100984. [Google Scholar] [CrossRef]
  41. Saeed Ghorbani, S.; Noohpisheh, S.; Shakki, M. Gender Differences in the Relationship between Perceived Competence and Physical Activity in Middle School Students: Mediating Role of Enjoyment. Int. J. School Health 2020, 7, 14–20. [Google Scholar]
  42. Valenzuela, R.; Codina, N.; Pestana, J.V. University Students’ Motives-for-Physical-Activity Profiles: Why They Practise and What They Get in Terms of Psychological Need Satisfaction. Front. Psychol. 2021, 11. [Google Scholar] [CrossRef]
  43. Aparicio-Ugarriza, R.; Mielgo-Ayuso, J.; Ruiz, E.; Ávila, J.M.; Aranceta-Bartrina, J.; Gil, Á.; Ortega, R.M.; Serra-Majem, L.; Varela-Moreiras, G.; González-Gross, M. Active Commuting, Physical Activity, and Sedentary Behaviors in Children and Adolescents from Spain: Findings from the ANIBES Study. Int. J. Environ. Res. Public Health 2020, 17, 668. [Google Scholar] [CrossRef] [Green Version]
  44. Budde, H.; Voelcker-Rehage, C.; Pietrabyk-Kendziorra, S.; Ribeiro, P.; Tidow, G. Acute coordinative exercise improves attentional performance in adolescents. Neurosci. Lett. 2008, 441, 219–223. [Google Scholar] [CrossRef]
  45. Gunnell, K.E.; Poitras, V.J.; LeBlanc, A.; Schibli, K.; Barbeau, K.; Hedayati, N.; Ponitfex, M.B.; Goldfield, G.S.; Dunlap, C.; Lehan, E. Physical activity and brain structure, brain function, and cognition inchildren and youth: A systematic review of randomized controlled trials. Ment. Health Phys. Act. 2019, 16. [Google Scholar] [CrossRef]
  46. Norris, E.; van Steen, T.; Direito, A.; Stamatakis, E. Physically active lessons in schools and their impact on physical activity, educational, health and cognition outcomes: A systematic review and meta-analysis. Br. J. Sports Med. 2020, 54, 826–838. [Google Scholar] [CrossRef] [Green Version]
  47. Ramírez-Vélez, R.; Correa-Rodríguez, M.; Izquierdo, M.; Schmidt-RioValle, J.; González-Jiménez, E. Muscle Fitness to Visceral Fat Ratio, Metabolic Syndrome and Ideal Cardiovascular Health Metrics. Nutrients 2018, 11, 24. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  48. Muros, J.J.; Cofre-Bolados, C.; Arriscado, D.; Zurita, F.; Knox, E. Mediterranean diet adherence is associated with lifestyle, physical fitness, and mental wellness among 10-y-olds in Chile. Nutrition 2017, 35, 87–92. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  49. Tambalis, K.D.; Panagiotakos, D.B.; Psarra, G.; Sidossis, L.S. Concomitant Associations between Lifestyle Characteristics and Physical Activity Status in Children and Adolescents. J. Res. Health Sci. 2019, 19, e00439. [Google Scholar] [PubMed]
  50. Espinosa, N.; Garrido-Miguel, M.; Redondo-Tébar, A.; Martinez Vizcaino, V.; González-García, A.; Cobo-Cuenca, A. The Mediating and Moderating Effects of Physical Fitness of the Relationship between Adherence to the Mediterranean Diet and Health-Related Quality of Life in University Students. Nutrients 2020, 12, 3578. [Google Scholar] [CrossRef]
  51. Yavari, A.; Javadi, M.; Mirmiran, P.; Bahadoran, Z. Exercise-Induced Oxidative Stress and Dietary Antoxidative. Asian J. Sports Med. 2015, 6, e24898. [Google Scholar] [CrossRef] [Green Version]
Table
Table 1. Time management, physical activity, and Mediterranean diet according to country.
Table 1. Time management, physical activity, and Mediterranean diet according to country.
Levene’s Testt-Test
CountryMSDFSig.tSig.
Activity planning (AP)Making a scheduleRomania7.411.632.3370.127−0.7750.439
Spain7.561.48
Prioritizing activitiesRomania15.233.111.1570.2831.3670.173
Spain14.722.77
Time distributionRomania6.981.627.4750.0072.4590.015 *
Spain6.452.02
Clearly-defined goalsRomania7.261.580.0370.8480.1430.887
Spain7.231.57
AP total scoreRomania36.896.191.7710.1841.2440.214
Spain35.975.54
Activity monitoring (AM)Using a scheduleRomania3.691.040.0950.7582.2750.024 *
Spain3.401.05
Observing the time allotted to each activityRomania11.592.553.4610.064−4.5130.001 *
Spain12.942.11
Redistributing timeRomania6.771.961.6660.1983.2100.001 *
Spain6.021.74
AM total scoreRomania22.064.355.9640.015−0.6010.548
Spain22.363.41
Streamlining activities (SA)Achieving the activitiesRomania11.462.160.0930.7601.8430.066
Spain10.972.12
Asking for supportRomania6.381.622.7320.0992.9000.004 *
Spain5.781.84
Making use of free slots of timeRomania6.232.421.9450.164−2.2150.028 *
Spain6.882.22
SA total scoreRomania24.084.451.6660.1980.8450.399
Spain23.624.12
TM total scoreAP + AM + SARomania83.0213.217.2140.0080.6970.486
Spain81.9510.69
PAMET_vigorousRomania1374.551894.713.1720.076−5.7590.001 *
Spain2775.512113.08
MET_moderateRomania664.341031.631.3650.244−1.1910.234
Spain805.51792.48
MET_easyRomania1351.621227.435.0110.0261.7290.085
Spain1102.301036.04
MET_minutesRomania3390.513111.570.4450.505−3.4660.001 *
Spain4683.322823.85
MDMD total scoreRomania4.232.956.9930.009−6.2360.001 *
Spain6.382.41
Note: *, p < 0.05; MET-Metabolic Equivalent of Task; M, Mean; SD, standard deviation; F, F-value; Sig., p value; t, t-value.
Table
Table 2. Time management, physical activity, and Mediterranean diet according to faculty.
Table 2. Time management, physical activity, and Mediterranean diet according to faculty.
Levene’s Testt-Test
Fac.MSDFSig.tSig.
APMaking a scheduleSport7.511.550.4340.5110.6240.533
Psyho7.391.63
Prioritizing activitiesSport15.092.706.9530.0090.1570.875
Psyho15.033.39
Time distributionSport6.801.850.1330.716−0.0710.944
Psyho6.821.68
Clearly-defined goalsSport7.401.510.0560.8121.8430.066
Psyho7.061.65
AP total scoreSport36.805.524.8990.0280.7080.480
Psyho36.306.58
AMUsing a scheduleSport3.620.975.5960.0190.4820.630
Psyho3.561.15
Observing the time allotted to each activitySport12.332.334.2710.0402.3580.019 *
Psyho11.642.66
Redistributing timeSport6.491.950.4380.509−0.3990.690
Psyho6.581.89
AM total scoreSport22.433.704.9360.0271.3770.170
Psyho21.784.48
SAAchieving the activitiesSport11.192.051.4400.231−1.0250.306
Psyho11.452.30
Asking for supportSport5.971.720.0450.832−2.4990.013 *
Psyho6.471.68
Making use of free slots of timeSport6.592.310.5770.4481.2270.221
Psyho6.252.44
SA total scoreSport23.754.033.7590.053−0.8200.413
Psyho24.174.73
TM total scoreAP + AM + SASport82.9811.0510.5210.0010.5030.615
Psyho82.2414.141
PAMET_vigorousSport2537.312209.0032.2140.0007.3680.001 **
Psyho882.241395.96
MET_moderateSport810.18921.570.0100.9202.0890.038 *
Psyho575.52998.11
MET_easySport1190.801157.710.3340.564−1.3460.179
Psyho1376.151186.81
MET_minutesSport4538.283211.744.4310.0364.8890.001 **
Psyho2833.912582.53
MDMD total scoreSport5.472.850.3400.5603.7040.001 **
Psyho4.212.96
Note: *, p < 0.05; **, p < 0.01; AP, activity planning; AM, activity monitoring, SA, streamlining activities; PA, physical activity; MD, Mediterranean diet; M, mean; SD, standard deviation; Sig., p value; F, F-value; t, t-value.
Table
Table 3. Time management, physical activity, and Mediterranean diet, according to sex.
Table 3. Time management, physical activity, and Mediterranean diet, according to sex.
Levene’s Testt-Test
SexMSDFSig.tSig.
APMaking a scheduleFemale7.341.580.1630.687−1.7850.075
Male7.681.57
Prioritizing activitiesFemale15.313.122.5480.1121.8890.060
Male14.632.77
Time distributionFemale6.781.740.0520.821−0.3930.695
Male6.861.85
Clearly-defined goalsFemale7.221.610.0700.791−0.4300.668
Male7.311.52
AP total scoreFemale36.656.080.8520.3570.2440.807
Male36.475.85
AMUsing a scheduleFemale3.611.116.1890.0130.3680.713
Male3.560.94
Observing the time allotted to each activityFemale11.912.540.2950.587−1.1120.267
Male12.252.40
Redistributing timeFemale6.411.930.1290.719−1.3450.180
Male6.721.90
AM total scoreFemale21.944.272.6210.107−1.2270.221
Male22.543.63
SAAchieving the activitiesFemale11.372.252.1290.1460.7870.432
Male11.172.00
Asking for supportFemale6.401.670.1350.7142.9670.003 **
Male5.801.73
Making use of free slots of timeFemale6.202.431.7200.191−2.3490.020 *
Male6.872.21
SA total scoreFemale23.984.492.6720.1030.2770.782
Male23.834.08
TM total scoreAP + AM + SAFemale82.5613.126.4710.011−0.1850.853
Male82.8411.17
PAMET_vigorousFemale1333.401852.585.3580.021−5.8270.001 *
Male2717.412152.61
MET_moderateFemale653.511025.921.5290.217−1.3630.174
Male811.30828.02
MET_easyFemale1407.541254.7811.3140.0012.7110.007 **
Male1028.04970.03
MET_minutesFemale3394.452999.990.0760.784−3.1780.002 **
Male4556.753079.51
MDMD total scoreFemale4.753.020.2770.599−1.4510.148
Male5.272.85
Note: *, p < 0.05; **, p < 0.01; AP, activity planning; AM, activity monitoring, SA, streamlining activities; PA, physical activity; MD, Mediterranean diet; M, mean; SD, standard deviation; F, F-value; t, t-value; Sig., p value; Female n = 188, Male n = 108.
Table
Table 4. The relationship between time management, Mediterranean diet, and adherence to physical activity.
Table 4. The relationship between time management, Mediterranean diet, and adherence to physical activity.
PAnMSDFp
APLow4834.886.472.5120.083
Moderate11837.146.09
High13036.725.63
AMLow4821.334.521.2740.281
Moderate11822.194.10
High13022.423.82
SALow4823.064.332.9840.052
Moderate11824.644.37
High13023.594.25
TM total scoreLow4879.2713.762.4700.086
Moderate11883.9712.56
High13082.7311.63
MDLow484.792.962.4090.092
Moderate1184.542.87
High1305.353.01
Note: AP, activity planning; AM, activity monitoring, SA, streamlining activities; PA, physical activity; MD, Mediterranean diet; M, mean; SD, standard deviation; F, F-value; p, p value.
Table
Table 5. Relationship between time management, physical activity, and adherence to Mediterranean diet.
Table 5. Relationship between time management, physical activity, and adherence to Mediterranean diet.
MDnMSDFp
APLow9136.016.243.7660.024 *
Moderate14336.156.11
High6238.424.97
AMLow9121.654.451.0870.338
Moderate14322.313.79
High6222.534.04
SALow9123.774.480.6100.544
Moderate14323.794.51
High6224.473.70
TM total scoreLow9181.4313.572.0630.129
Moderate14382.2612.49
High6285.4210.10
PALow913861.043531.055.2720.006 **
Moderate1433347.462698.15
High624842.652968.55
Note: *, p < 0.05; **, p < 0.01; AP, activity planning; AM, activity monitoring, SA, streamlining activities; PA, physical activity; MD, Mediterranean diet; M, mean; SD, standard deviation; F, F-value; p, p value.
Table
Table 6. Bivariate correlations between the variables and dimensions of TM.
Table 6. Bivariate correlations between the variables and dimensions of TM.
AMSATMMDMET_vMET_mMET_eMET_t
AP0.685 **0.602 **0.916 **0.177 **0.0940.0210.0840.102
AM 0.530 **0.842 **0.132 *0.148 *−0.019−0.0210.086
SA 0.813 **0.0880.060−0.057−0.0290.012
TM (AP + AM + SA) 0.159 **0.115 *−0.0160.0230.081
MD 0.151 **0.070−0.0340.111
MET_vigorous 0.407 **0.135 *0.853 **
MET_moderate 0.261 **0.686 **
MET_easy 0.553 **
AP, activity planning; AM, activity monitoring, SA, streamlining activities, TM, time management; MET, physical activity minutes; MD, Mediterranean diet; ** correlation is significant at the 0.01 level (two-tailed); * correlation is significant at the 0.05 level (two-tailed).
Table
Table 7. Bivariate correlations between the variables, by subgroups.
Table 7. Bivariate correlations between the variables, by subgroups.
CFacultySexMD Total ScoreMET_Minutes
RO
n = 198		S
n = 85		F
n = 45		TM total score0.284−0.065
MD total score −0.355 *
M
n = 40		TM total score0.1790.406 **
MD total score 0.157
P
n = 113		F
n = 106		TM total score0.1030.030
MD total score −0.084
M
n = 7		TM total score−0.1090.510
MD total score −0.334
SP
n = 98		S
n = 86		F
n = 29		TM total score0.597 **0.471 **
MD total score 0.516 **
M
n = 57		TM total score0.301 *−0.152
MD total score 0.296 *
P
n = 12		F
n = 8		TM total score−0.2010.132
MD total score 0.627
M
n = 4		TM total score−0.2790.592
MD total score 0.597
** Correlation is significant at the 0.01 level (two-tailed); * correlation is significant at the 0.05 level (two-tailed); C = country; RO = Romania; SP = Spain; S = Sport; P = Psychology; F = Female; M = Male; TM = Time Management; MD = Mediterranean diet; MET-minute = activity volume in minutes.
Table
Table 8. Multivariate test a of variance between the three dependent variables and the country.
Table 8. Multivariate test a of variance between the three dependent variables and the country.
EffectValueFHypothesis DFError DFSig.Partial Eta SquaredNoncent. ParameterObserved Power c
InterceptPillai’s Trace0.9411524.733 b3.000286.0000.0000.9414574.1991.000
Wilks’ Lambda0.0591524.733 b3.000286.0000.0000.9414574.1991.000
Hotelling’s Trace15.9941524.733 b3.000286.0000.0000.9414574.1991.000
Roy’s Largest Root15.9941524.733 b3.000286.0000.0000.9414574.1991.000
CountryPillai’s Trace0.0565.699 b3.000286.0000.0010.05617.0980.946
Wilks’ Lambda0.9445.699 b3.000286.0000.0010.05617.0980.946
Hotelling’s Trace0.0605.699 b3.000286.0000.0010.05617.0980.946
Roy’s Largest Root0.0605.699 b3.000286.0000.0010.05617.0980.946
a. Design: Intercept + country; b. Exact statistic; c. Computed using alpha = 0.05.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Indreica, E.-S.; Badicu, G.; Nobari, H. Exploring the Correlation between Time Management, the Mediterranean Diet, and Physical Activity: A Comparative Study between Spanish and Romanian University Students. Int. J. Environ. Res. Public Health 2022, 19, 2554. https://doi.org/10.3390/ijerph19052554

AMA Style

Indreica E-S, Badicu G, Nobari H. Exploring the Correlation between Time Management, the Mediterranean Diet, and Physical Activity: A Comparative Study between Spanish and Romanian University Students. International Journal of Environmental Research and Public Health. 2022; 19(5):2554. https://doi.org/10.3390/ijerph19052554

Chicago/Turabian Style

Indreica, Elena-Simona, Georgian Badicu, and Hadi Nobari. 2022. "Exploring the Correlation between Time Management, the Mediterranean Diet, and Physical Activity: A Comparative Study between Spanish and Romanian University Students" International Journal of Environmental Research and Public Health 19, no. 5: 2554. https://doi.org/10.3390/ijerph19052554

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop