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. 2022 Mar 15;10:807526. doi: 10.3389/fpubh.2022.807526

Nutrition Literacy of Middle School Students and Its Influencing Factors: A Cross-Sectional Study in Chongqing, China

Mao Zeng 1,2,3,4,, Yuzhao Zhu 1,2,3,, Zhengjie Cai 1,2,3,5, Jinli Xian 1,2,3,6, Shengping Li 1,2,3, Tiankun Wang 1,2,3, Zumin Shi 7, Manoj Sharma 8, Yong Zhao 1,2,3,9,*
PMCID: PMC8965039  PMID: 35372191

Abstract

Nutrition literacy plays an important role in children's dietary habits and nutrition. This study aimed to analyse the status of nutrition literacy and its influencing factors amongst middle school students in Chongqing, China. “Nutrition literacy scale for middle school students in Chongqing” was used in 29 districts of Chongqing in September 2020. The scores of nutrition literacy and its' three sub-domains (functional, interactive and critical nutrition literacy) were divided into low and high groups based on their median scores. Binary logistic regression was used to measure the influencing factors of nutrition literacy. A total of 18,660 middle school students were included in this study. The median of nutrition literacy of middle school students was 61.68 (IQR = 14.37). Interactive nutrition literacy had the highest score (median = 70.00, IQR = 20.00), followed by functional nutrition literacy (median = 68.69, IQR = 14.14) and critical nutrition literacy (median = 45.83, IQR = 25.00). Students who were the minority (OR = 0.71, 95% CI = 0.637–0.785), in senior high school (OR = 0.51, 95% CI = 0.477–0.548), in rural areas (OR = 0.85, 95% CI = 0.790–0.911), receiving school meal support from the government (OR = 0.63, 95% CI = 0.591–0.664), with other caregivers' parenting (OR = 0.86, 95% CI = 0.805–0.914), with parents having a low level of education and with an abnormal BMI [thin (OR = 0.91, 95% CI = 0.837–0.990), overweight (OR = 0.87, 95% CI = 0.785–0.968), and obese (OR = 0.83, 95% CI = 0.767–0.902)] presented less probability of being a high level of nutrition literacy. Our results could assist public health authorities in developing strategies of nutrition literacy promotion for references and theoretical foundations.

Keywords: nutrition literacy, nutrition, middle school students, Chongqing, influencing factors

Introduction

Childhood is a key stage exhibiting rapid changes in physical growth, psychosocial development and behavioral modifications (1). Unhealthy eating habits can predispose children to chronic disease (2) and weaken their learning capacity (3). The growth of children is seriously threatened by malnutrition caused by poor dietary quality (4). In addition, unhealthy eating behavior can result in exceeded diet (5). Adolescence is considered a vital period to lay the foundation for health, investment in adolescent health can promote adult health and the life quality of the next generation (6). Furthermore, some studies have demonstrated that the Coronavirus Disease 2019 (COVID-19) pandemic has brought unhealthy dietary effects to children and adolescents, such as the increased intake of potato chip, red meat and sugary beverage (7, 8).

Nutrition literacy (NL) is recognized as a key determinant of healthy dietary habits and nutritional status at the individual level (9), which can be defined as the capacity to obtain, process and understand nutrition information and the materials needed to make appropriate decisions regarding one's health (10). NL is comprehended as a “specific form of health literacy (11),” “similar to health literacy (10),” or “health literacy applied to the field of nutrition (12).” Krause et al. (13) has described three sections of NL as “functional, interactive and critical” nutrition literacy. Functional nutrition literacy (FNL) refers to the basic reading and writing skills necessary to understand and follow simple nutrition information. Interactive nutrition literacy (INL) refers to the cognitive and interpersonal communication skills required to receive nutrition information and communicate appropriately with nutrition consultants. Critical nutrition literacy (CNL) refers to the ability to critically analyse nutrition information, raise awareness about nutrition and participate in studies aimed at solving nutrition barriers (14, 15). On the basis of Food and Nutrition Literacy (FNLIT) questionnaire developed by Doustmohammadian et al. (16) and a systematic review of existing measurement tools of nutrition and food literacy (17), FNL, INL, and CNL are composed of “obtain, understand, apply, interact, emotional, discussion, analysis, critical skills and media literacy.”

Previous researches have proved that educational level, income, residence, age and gender are the main sociodemographic factors affecting NL. Education, income and urban residence are positively associated with NL (1820). With the growth of age, the NL may be lower due to cognitive, visual and auditory impairment and less acquisition of nutrition and health information (21). In general, female has a higher level of NL than male (22). It is worth noting that guardian is a significant factor influencing children's NL, and children with parental guardians have higher NL than children who are cared for by one parent or others (23). Furthermore, media literacy (22) and nutrition education (24) play a significant role in enhancing NL level.

To date, some studies on NL amongst children and adolescents had been conducted. Nutrition literacy amongst young adults in Turkey was evaluated at an intermediate level (1). The result of a study in Iran indicated that more than 10% of students had a low total food and NL (16). In 2018, in Fengtai, Beijing, China, only 8.4% of primary school students and 6.4% of junior high school students had a comprehensive grasp of nutrition knowledge (25), and in 2019, the NL level of school-age children in Baoding, Hebei Province, was only 2.09% (26). Adequate NL requires an individual to comprehend nutrition concepts and to possess simple numeracy skills (27). Without these skills, there will be difficulties in understanding the concepts of a healthy diet, reading nutrition information, determining healthy food options and utilizing nutrition information sources. Promoting NL in children can help them develop healthy food habits and improve their health and nutritional status (2830). Despite these initial findings, the number of studies on the NL and its influencing factors amongst students is limited, and no relevant research have been conducted amongst middle school students in Chongqing, China.

This study aimed to explore the NL status and its influencing factors amongst middle school students in Chongqing, China, which could pave the way for formulating strategies to improve the NL of Chinese students.

Materials and Methods

Participants and Procedure

This study was a cross-sectional study, conducted in 239 schools of 29 districts of Chongqing in September 2020. Online survey for data collection was completed by students namelessly and independently under the guidance of class teachers. All participants were informed about the study, and consents were obtained before filling in the scale anonymously. This study was approved by the Ethics Committee of Chongqing Medical University. A total of 21,084 middle school students were investigated, and 917 outliers and 1,507 missing data for responding “education of parents” with “don't know” were excluded. The final effective questionnaires were 18,660.

Tools

Data were collected by the “Nutrition literacy scale for middle school students in Chongqing (CM-NLS).” “CM-NLS” was designed on the basis of the Dietary Guidelines for School-age Children in China 2016 (31), characteristics of middle school students in Chongqing (32) and other literature and materials (17, 33). Three experiments were conducted to develop CM-NLS: a theoretical framework and an initial item pool were established based on the literature review, two-rounds delphi method was used to explore the suitable items, and item evaluation and reduction were performed using the Classical test theory (CTT). In addition, the final scale was tested for its validity and reliability amongst 462 middle school students. Details of this approach have been described previously (34). “CM-NLS” consisted of two sections.

Section A obtained the demographic characteristics of respondents and the sources and difficulties in obtaining nutrition information. Self-reported data on demographic information were collected: gender (boy vs. girl), ethnicity (Han vs. minorities), grade (grade 7 and 8 students who were in junior high school, grade 10 and 11 students who were in senior high school), whether boarding in school (yes vs. no), residence (urban vs. rural), whether receiving school meal support from the government (yes vs. no), primary caregiver (parents vs. others) and the level of education of parents (primary schools and below, junior high school, senior high school/technical secondary school/vocational high school, college/bachelor degree or above). According to the International Obesity Task Force (IOTF), Body Mass Index (BMI, weight/height2) was categorized according to age and gender of children (35). BMI was divided into thin, normal, overweight and obese groups by classification criteria of 2–18 years old children. Sources and difficulties in obtaining nutrition information were measured by three questions: “how do you get nutrition information current?” “how will you get nutrition information in the future?” and “what difficulties do you have in obtaining nutrition information?” The response options for the first two questions were “newspapers and magazines/television and radio/network/parents or relatives or friends/the classroom/others.” And the response options for the last question included “need a lot of time to obtain information/difficult to understand the content/difficult to verify credibility/difficult to understand other languages/others.” The “other” option of the three questions were all open-ended answers.

Section B measured the NL of middle school students. This part consisted of three sub-domains (FNL, INL, and CNL) with 52 items. In this study, FNL consisted of 35 items with three skills, namely, “obtain skill,” “understand skill,” and “apply skill.” Interactive nutrition literacy consisted of 5 items with “interact skill.” Critical nutrition literacy consisted of 12 items with “media literacy” and “critical skill.” Please see the Supplementary Material “Section B of CM-NLS” for specific items of FNL/INL/CNL. A centesimal measure was used in calculating the sum score (0 to 100 points) of total and each sub-domain, with a higher score indicating better NL level. The scores of NL, FNL, INT, and CNL were divided into low and high levels based on their median scores (61.68, 68.69, 70.00, and 45.83, respectively).

Most of the participants completed this scale for ~15 min. Cronbach's coefficient of the “CM-NLS” was 0.902, and Cronbach's coefficient of three subscales was 0.804, 0.926, and 0.927, respectively. The KMO value of “CM-NLS” was 0.946, and the result of the Bartlett test of sphericity reached the level of significance (P < 0.001), indicating that the questionnaire had reasonable reliability and validity.

Statistical Analysis

Data analysis was performed using STATA version 16 (STATA Corporation, College Station). Descriptive statistics was conducted to describe participants' characteristics and the sources and difficulties in obtaining nutrition information. χ2 tests were conducted to examine the distribution of NL scores. As the Intra Class Correlation (ICC) value was 0.01, we did not conduct multilevel analysis. Binary logistic regression was used to identify factors associated with NL.

Results

Participants' Characteristics

As shown in Table 1, amongst the 18,660 students, 50.16% were boys, 88.86% were Han ethnicity, 65.29% were boarding in school, 49.08% were receiving school meal support from the government, and 71.35% reported their parents as primary caregivers. Most of their parents' educational level was junior high school (father accounted for 51.12%, and mother accounted for 45.79%). Furthermore, 9.36% and 17.94% of the students were overweight and obese, respectively.

Table 1.

Demographic characteristics of students in Chongqing (N = 18,865).

Variables n %
Year (mean, SD) 14.28, 1.75
Gender Boy 9,359 50.16
Girl 9,301 49.84
Ethnicity Han 16,581 88.86
Minority 20,79 11.14
Grade Junior high school 10,670 57.18
Senior high school 7,990 42.82
Whether boarding in school Yes 12,183 65.29
No 6,477 34.71
Residence Urban 9,062 48.56
Rural 9,598 51.44
Whether receiving school meal support from the government Yes 9,159 49.08
No 9,501 50.92
Primary caregiver Parents 13,313 71.35
Others 5,347 28.65
Father's education Primary schools and below 4,176 22.38
Junior high school 9,539 51.12
Senior high school/technical secondary school/vocational high school 3,264 17.49
College/bachelor degree or above 1,681 9.01
Mother's education Primary schools and below 8,555 45.85
Junior high school 8,638 45.79
Senior high school/technical secondary school/vocational high school 2,865 15.35
College/bachelor degree or above 1,388 7.44
BMI (Kg/m2) (mean, SD) 22.38 (1.75)
BMI group Normal 10,579 56.69
Thin 2,986 16.00
Overweight 1,747 9.36
Obese 3,348 17.94

Methods and Difficulties in Obtaining Nutrition Information

A total of 835 (4.47%) middle school students in Chongqing had never received nutrition information. As shown in Table 2, nutrition information were primarily obtained from the internet, classroom, television and radio, and students hoped to obtain information through the above-mentioned channels in the future. A significant difference was found between boys and girls (P < 0.05). Many students encountered difficulties in obtaining information, such as “difficult to verify credibility (9,191, 49.26%)” and “difficult to understand content (7,557, 40.50%).” Compared with girls, a higher proportion of boys needed a lot of time to obtain information, had difficulty in understanding content and understanding other language; girls presented higher proportion of having difficult to verify credibility and facing other obstacles (P < 0.05).

Table 2.

Channels and obstacles of nutrition information obtained by gender N (%).

Channel Total Boy Girl χ2 P
Current a
Newspapers and magazines 6,660 (35.69) 3,129 (46.98) 3,531 (53.02) 41.718 <0.001***
Television and radio 10,913 (58.48) 5,269 (48.28) 5,644 (51.72) 36.908 <0.001***
Network 12,295 (71.78) 5,901 (48.00) 6,394 (52.00) 68.287 <0.001***
Parents or relatives or friends 10,747 (57.59) 5,041 (46.92) 5,705 (53.08) 103.468 <0.001***
The classroom 11,720 (62.82) 5,630 (48.04) 6,090 (51.96) 56.538 <0.001***
Others 1,556 (8.33) 725 (46.59) 831 (53.41) 8.813 0.003**
Future b
Newspapers and magazines 9,062 (48.56) 4,241 (46.80) 4,821 (53.20) 79.352 <0.001***
Television and radio 11,690 (62.65) 5,715 (48.89) 5,975 (51.11) 20.111 <0.001***
network 13,544 (72.58) 6,684 (49.35) 6,860 (50.65) 12.810 <0.001***
Parents or relatives or friends 9,393 (50.34) 4,544 (48.38) 4,849 (51.62) 23.943 <0.001***
The classroom 13,479 (72.23) 6,594 (48.92) 6,885 (51.08) 29.612 <0.001***
Others 2,193 (11.75) 1,019 (46.47) 1,184 (53.53) 13.530 <0.001***
Obstacles c
Need a lot of time to obtain information 6,296 (33.74) 3,290 (52.26) 3,006 (47.74) 16.762 <0.001***
Difficult to understand content 7,557 (40.50) 3,831 (50.69) 3,726 (49.31) 1.478 0.024*
Difficult to verify credibility 9,191 (49.26) 4,458 (48.50) 4,733 (51.50) 19.759 <0.001***
Difficult to understand other language 6,367 (34.12) 3,330 (52.30) 3,037 (47.70) 17.796 <0.001***
Others 2,118 (11.35) 1,010 (47.69) 1,108 (52.31) 5.825 0.016*

*P <0.05, **P <0.01, ***P <0.001.

an = 6,660, excluded 835 participants had never received nutrition information.

bn = 9,062, included all participants who answered the questions.

cn = 6,296, included all participants who answered the questions.

Nutrition Literacy of Middle School Students

The median of NL of middle school students in Chongqing was 61.68 (IQR = 14.37, n of a high level = 8,972). INL had the highest score (median = 70.00, IQR = 20.00, n of a high level = 9,309), followed by FNL (median = 68.69, IQR = 14.14, n of a high level = 8,672) and CNL (median = 45.83, IQR = 25.00, n of a high level = 9,815). “Apply skill” had the highest score (median = 40.00, IQR = 8.00, n of a high level = 9,132), followed by “understand skill” (median = 20.00, IQR = 6.00, n of a high level = 8,566), “interact skill” (median = 14.00, IQR = 4.00, n of a high level = 9,309), “media literacy” (median = 13.00, IQR = 10.00, n of a high level = 9,220), “obtain skill” (median = 8.00, IQR = 3.00, n of a high level = 7,423), and “critical skill” (median = 8.00, IQR = 3.00, n of a high level = 7,836).

Influencing Factors of Nutrition Literacy

Binary logistic regression was utilized to confirm the influencing factors of NL and three sub-domains (Table 3). A low possibility of a high level of NL was observed for the following students: students who were the minority (OR = 0.71, 95% CI = 0.637–0.785), in senior high school (OR = 0.51, 95% CI = 0.477–0.548), in rural areas (OR = 0.85, 95% CI = 0.790–0.911), receiving school meal support from the government (OR = 0.63, 95% CI = 0.591–0.664), with other caregivers' parenting (OR = 0.86, 95% CI = 0.805–0.914), with parents having a low level of education and with an abnormal BMI [thin (OR = 0.91, 95% CI = 0.837–0.990), overweight (OR = 0.87, 95% CI = 0.785–0.968) and obese (OR = 0.83, 95% CI = 0.767–0.902)] compared with those who were Han, in junior high school, in urban areas, not receiving school meal support, with parents' parenting, with parents having a high level of education and with normal BMI.

Table 3.

Binary logistic regression for nutrition literacy of participants.

Independent variable NL FNL INL CNL
OR 95% CI OR 95% CI OR 95% CI OR 95% CI
Gender (Girl) Refer.
Boy 0.95 0.896–1.005 0.88 0.830–0.931*** 0.98 0.924–1.037 1.02 0.962–1.079
Ethnicity (Han) Refer.
Minority 0.71 0.637–0.785*** 0.67 0.601–0.749*** 0.77 0.695–0.849*** 0.90 0.820–0.996*
Grade (Junior high school) Refer.
Senior high school 0.51 0.477–0.548*** 0.42 0.387–0.445*** 0.51 0.475–0.545*** 0.967 0.905–1.036
Whether boarding in school (No) Refer.
Yes 0.95 0.881–1.018 0.87 0.806–0.933*** 1.03 0.963–1.112 1.05 0.977–1.126
Residence (Urban) Refer.
Rural 0.85 0.790–0.911*** 0.83 0.768–0.888*** 0.99 0.920–1.058 0.91 0.848–0.974**
Whether receiving school meal support from the government (No) Refer.
Yes 0.63 0.591–0.664*** 0.54 0.510–0.573*** 0.90 0.849–0.952*** 0.88 0.829–0.931***
Primary caregiver (Parents) Refer.
Others 0.86 0.805–0.914*** 0.90 0.841–0.955* 0.94 0.884–1.003 0.93 0.873–0.992*
Father's education (Primary schools and below) Refer.
Junior high school 1.11 1.025–1.211* 1.12 1.031–1.224** 1.14 1.050–1.237** 1.06 0.976–1.147
Senior high school/technical secondary school/vocationaHigh school 1.22 1.089–1.369** 1.20 1.070–1.351** 1.04 0.930–1.165 1.10 0.985–1.232
College/bachelor degree or above 1.45 1.232–1.710*** 1.56 1.317–1.840*** 1.08 0.920–1.269 1.18 1.006–1.385*
Mother's education (Primary schools and below) Refer.
Junior high school 1.25 1.157–1.351*** 1.25 1.157–1.356*** 1.15 1.067–1.243*** 1.08 1.002–1.164*
Senior high school/technical secondary school/vocational High school 1.30 1.157–1.458*** 1.32 1.173–1.484*** 1.20 1.066–1.341** 1.10 0.983–1.232
College/bachelor degree or above 1.45 1.232–1.710*** 1.56 1.317–1.840*** 1.08 0.920–1.269 1.18 1.006–1.385*
BMI (Normal) Refer.
Thin 0.91 0.837–0.990* 0.93 0.857–1.017 0.96 0.887–1.047 0.95 0.873–1.027
Overweight 0.87 0.785–0.968* 0.81 0.724–0.897*** 0.95 0.855–1.053 0.95 0.860–1.056
Obese 0.83 0.767–0.902*** 0.75 0.687–0.811*** 0.95 0.873–1.023 1.01 0.935–1.093

*P <0.05, **P <0.01, ***P <0.001.

For the three sub-domains, students who were boys (OR = 0.88, 95% CI = 0.830–0.931), the minority (OR = 0.67, 95% CI = 0.601–0.749), in senior high school (OR = 0.42, 95% CI = 0.387–0.445), boarding in school (OR = 0.87, 95% CI = 0.806–0.933), in rural areas (OR = 0.83, 95% CI = 0.768–0.888), receiving school meal support (OR = 0.54, 95% CI = 0.510–0.573), with other caregivers' parenting (OR = 0.90, 95% CI = 0.841–0.955) and overweight (OR = 0.81, 95% CI = 0.724–0.897), obese students (OR = 0.75, 95% CI = 0.687–0.811) presented less probability of being a high level of FNL compared with students who were girls, Han, in junior high school, not boarding, in urban areas, not receiving school meal support, with parents' parenting and normal BMI students. Students who were the minority (OR = 0.77, 95% CI = 0.695–0.849), in senior high school (OR = 0.51, 95% CI = 0.475–0.545), and receiving school meal support (OR = 0.90, 95% CI = 0.849–0.952) were less likely to report a high level of INL compared to students who were Han, in junior high school, and not receiving school meal support. The minority (OR = 0.90, 95% CI = 0.820–0.996), rural (OR = 0.91, 95% CI = 0.848–0.974), receiving school meal support (OR = 0.88, 95% CI = 0.829–0.931), and with other caregivers' parenting (OR = 0.93, 95% CI = 0.873–0.992) students were less likely to report a high level of CNL than Han, urban, not receiving school meal support, and with parents' parenting students.

Discussion

Nutrition literacy can affect individuals' dietary behavior in a positive manner (1). Thus, considerable attention should be given to NL during the COVID-19 epidemic (36). Our findings showed that the NL of middle school students in Chongqing was at the moderate level. Gender, ethnicity, grade, BMI, boarding, residence, school meal support from the government, primary caregiver and the level of education of parents were the predictors of NL amongst middle school students, which can be divided into the following aspects: individual, school environment and family (37).

The present study demonstrated that the NL of middle school students in Chongqing was at the moderate level and showed a comparable result to Liu et al.'s study conducted amongst participants in grades 3–8 (38). In Liu et al.'s (26) research, the CNL score was the highest, followed by FNL and INL, and in our study, the rate of a high level of FNL was the lowest. As childhood is a transitory phase with strong learning ability and high malleability, more nutrition education should be provided for middle school students in the absence of nutrition knowledge, and advanced information technologies could be applied to make nutrition information more accessible (39). With regard to the difficulties in obtaining nutrition information, methods to make students understand food labels more easily should be explored, such as popularizing specific label elements and terminologies and simplifying or translating food labels (40). Although students obtained nutrition information primarily by the internet, television and radio, these tools can be used to bolster their media nutrition literacy and CNL. In addition, considering the negative influence of unhealthy food advertising (41), students should be restricted to exposure to unhealthy food promotions, particularly advertising of high-fat, salty or sugary foods (42). With regard to the classroom approach, only providing nutrition knowledge at school was not sufficient; therefore, farm-to-school program, school gardens and cooking programs that incorporate different nutrition information should increase in the future (43).

Similar to Kalkan (1), this study found that girls were more likely to report a high level of FNL than boys. Girls typically paid more attention to their dietary intake and more likely acquired nutrition knowledge. In addition, in Chinese tradition, women were usually engaged in cooking and selecting food for family members. Consistent with prior research (44, 45), the NL level differed in grade and ethnicity. Different from other studies (18, 46), senior high school students were less likely to be a high level of NL/FNL/INL than junior high school students in this study probably because nutrition-related courses were rarely conducted in senior high school for great enrolment pressure (39). Moreover, family members of senior high school students usually focus more on students' study, resulting in insufficient nutrition education at home. Considering the academic pressure, senior high school students also lacked of systematicness and consistency to learn nutrition knowledge (47). Furthermore, compared with Han students, minority tended to report a low possibility of a high level of NL and three sub-domains, which may be due to poor educational opportunity and access to nutrition knowledge in minority, and some of their customs may lead to incorrect or unhealthy eating behavior (48). With regard to the BMI, previous reports showed an insignificant association between NL and BMI (49, 50), but in our study, students with normal BMI were more likely to be a high level of NL and FNL than students with an abnormal BMI. Nutrition literacy is an important influencing factor of obesity (51). Higher NL is associated with healthy dietary habit and lifestyle (52), and nutrition knowledge plays an essential role in the development and prevention of obesity in later life (53). Meanwhile, given the lack of proper awareness of their own body shape, obese children tend to make unhealthy food options (54). Increasing nutrition knowledge and skills through improving NL and promoting application of nutrition knowledge for healthy eating practices can reduce malnutrition in children (55, 56).

With regard to the school environment, students who were boarding in school, in rural areas and receiving school meal support from the government should be the main target of nutrition education and improvement. Compared with boarders, non-boarding students were exposed to an environment of family that enabled them to engage in nutrition activities and interactions with their caregivers (38). In Michou et al.'s study (18), socioeconomic inequalities were negatively associated with NL. In this study, rural students were less likely to report a high level of NL/FNL/CNL than urban students, probably because rural students were affected by underdeveloped economy, poor basic life implementation, limited access to nutrition information and low awareness of developing good eating behavior (57), which indicated the importance of narrowing the gap between urban and rural nutrition services. Although the Nutrition Improvement Programme for Rural Compulsory Education Students (NIPRCES) has been implemented by the government for 9 years in China (58), students receiving school meal support from the government were still less likely to be a high level of NL and three sub-domains because the shortage of dining facilities and lack of nutrition education was common in NIPRCES districts (58). In addition, current nutrition improvement programme relatively neglected education and practice of nutrition for students (59). Students receiving school meal support from the government districts needed more opportunities to learn and apply the nutrition knowledge and skills to improve their NL.

With regard to family, when the level of education of parents was high, students were more likely to be a high level of NL. Parents with high educational attainment are better equipped to teach children nutrition skills, and they have more resources to create chances for children to learn and practice these skills (60). Increasing NL of children with parents having a low level of education through interventions is critical. In addition to the influence of parents, this study found that primary caregiver was a contributing factor. Children are dependent on their parents with regard to access to material, financial and social resources (61), and some studies have shown that child care of grandparent might increase the risk of children obesity (62). Students with parents' parenting were more likely to be a high level of NL/FNL/CNL than students with other caregivers' parenting. Therefore, measures should be considered to ensure that left-behind children had regular access to nutrition resources (63). Left-behind children are a special group in China, referring to rural children with one or both parents working in urban areas for at least 6 months (64). According to the Ministry of Civil Affairs, rural China had more than six million left-behind children (65). The government of Chongqing has presented the importance of addressing the problems of NL amongst left-behind children by deepening family education support services and popularizing nutrition knowledge (66).

This study was the first cross-sectional study with a large-scale sample targeting NL of middle school students in Chongqing, China. However, the current study had several limitations that should be acknowledged. Although quality control was strictly implemented in the process, online and self-reported survey may bring some information bias inevitably. Height and weight were self-reported by the students. Although schools organize routine health check as required by the government, the gap between these checks and the study varied between schools. Moreover, on-site investigation using CM-NLS can be conducted to evaluate children's NL in a more diverse sample across the entire China in future studies.

Conclusions

This study showed that the NL of middle school students in Chongqing was at the moderate level and highlighted a low probability of a high level of NL for boys, minority and students who were in senior high school, boarding in school, in rural areas, receiving school meal support from the government, with parents of low education, left behind and with an abnormal BMI. These findings stressed on NL levels of students with different backgrounds, especially with different family economic status and family resources, which recommended health practitioners and policy makers to formulate strategies increasing NL in different groups of students and controlling the impact caused by disparities of family economic and nutrition resources.

Data Availability Statement

The raw data supporting the conclusions of this article will be made available by the authors, without undue reservation.

Ethics Statement

The studies involving human participants were reviewed and approved by The Ethics Committee of Chongqing Medical University. Written informed consent to participate in this study was provided by the participants' legal guardian/next of kin.

Author Contributions

MZ and YZ contributed to conception and design of the study and performed the statistical analysis. MZ organized the database. YZ, ZC, and JX wrote the first draft of the manuscript. SL, TW, ZS, and MS wrote sections of the manuscript. All authors contributed to manuscript revision, read, and approved the submitted version.

Funding

This work was supported by the Chinese Nutrition Society (Science Popularization and Communication Research Fund project, award Number CNS-SCP2020-34).

Conflict of Interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher's Note

All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.

Acknowledgments

We wish to thank Hongyun Huang of Chongqing Municipal Education Commission for generous contributions to this manuscript.

Supplementary Material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fpubh.2022.807526/full#supplementary-material

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Data Availability Statement

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