Universitas Muhammadiyah Malang, East Java, Indonesia 

 

JPBI (Jurnal Pendidikan Biologi Indonesia) 
 

p-ISSN 2442-3750, e-ISSN 2537-6204 // Vol. 6 No. 1 March 2020, pp. 83-90 

 

 

        10.22219/jpbi.v6i1.11150                               http://ejournal.umm.ac.id/index.php/jpbi                    jpbi@umm.ac.id  83 

Research Article 

Critical thinking skills of natural science undergraduate 
students on biology subject: Gender perspective 
 

Nur Hayati a,1,*, Nindha Ayu Berlianti a,2 
a Natural Science Education Study Program, Faculty of Education, Universitas Hasyim Asy’ari Tebuireng Jombang 

 Jl. Irian Jaya No. 55 Tebuireng Jombang, Postcode 61471, East Java, Indonesia 
1 nurhay.ht@gmail.com *; 2  nindhaayuberlianti@yahoo.com 

* Corresponding author 

 

 

INTRODUCTION   

During the 21st century, the world has experienced very rapid changes in every aspects of life. They are 
economical, transportation, technology, communication, information, and many others. According to Zubaidah 
(2016) that the changes demand people to master various skills. The skills should be relevant to four pillars of 
life, including learning to know, learning to do, learning to be, and learning to live together. Therefore, education is 
expected to prepare students to acquire various skills so that they can achieve success in life. According to 
Bensley and Spero, (2014), one of the skills needed to face the challenges of the 21st century is critical thinking. 

Critical thinking is a complex mental activity that requires high-level thinking skills in overcoming problems, 
making decisions and drawing conclusions (Boa, Wattanatorn, & Tagong, 2018; Saavedra & Saavedra, 2011; 
Souf & See, 2019; Tiruneh, Gu, Cock, & Elen, 2018). Furthermore, identify critical thinking as a way to establish a 
high level of thinking that is limited to one's thoughts, rather a strong desire to monitor, assess and rearrange 
one's dreams (Azin & Tabrizi, 2016; Butler, Pentoney, & Bong, 2017; Yue, Zhang, Zhang, & Jin, 2017). Critical 
thinking is reasonable, and reflective thinking focused on deciding what to believe or do (Chen, 2017; Gilboy, 
Kane, & Everson, 2004; Wheeler & Collins, 2003). 

According to Cone, Bond, and Pierson, (2013) conveys the definition of critical thinking including the concept 
of information analysis, the application of strategies to decide things, the readiness to consider ideas, use logical 
questions, make inferences, assess evidence, test conclusions, make accurate decisions and analyze 
assumptions. According to Fahim and Ahmadian, (2012) stated that critical thinking was a higher-order thinking 
skill, and was known to play a role in the moral, social, mental, cognitive, and science development. According to 

A R T I C L E  I N F O   A B S T R A C T   

 

Article history 
Received January 29, 2020 

Revised February 10, 2020 

Accepted February 24, 2020 

Published March 31, 2020 

 One of the most important skills needed to face the 21st-century challenges is critical 
thinking. Gender differences are considered to contribute to the critical thinking skills. The 
objective of this study was to determine students' critical thinking skills based on gender. 
This quantitative research involved 57 students of the Natural Sciences Education Study 
Program, Universitas Hasyim Asy’ari. The instrument employed was critical thinking skills 
test. The data was analyzed using independent samples t-test. The results showed that the 
average scores of critical thinking skills of male and female students were 2.60 and 2.99 
respectively. In addition, there was significant difference of students’ critical thinking skills 
between male and female [t (55) = 2.065, p = 0.044]. In conclusion, female students tend 
to have the higher critical thinking skills than the male. 

 
 

Copyright © 2020, Hayati & Berlianti  
This is an open access article under the CC—BY-SA license 

    

 

 
Keywords 
Critical thinking skills 

Gender 
21st-century skills 

 

  

 

How to cite:  Hayati, N., & Berlianti, N.A. (2020). Critical thinking skills of natural science undergraduate students on biology subject: 
Gender perspective. JPBI (Jurnal Pendidikan Biologi Indonesia), 6(1), 83-90. doi: https://doi.org/10.22219/jpbi.v6i1.11150 

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Gloudemans, Schalk, & Reynaert, (2013) explained that the concept of critical thinking involves cognitive skills 
and affective perspective. Furthermore, critical thinking requires one's efforts to gather, interpret, analyze, and 
estimate information to obtain correct and valid conclusions. Critical thinking can also involve logical reasoning 
and the ability to separate facts from opinions, examine information critically with evidence before accepting or 
rejecting ideas and questions related to the problem at hand. 

Critical thinking is necessary for problem-solving, including problem identification activities, problem analysis, 
reasoning presentation, evidence evaluation, and decision making. In critical thinking, there are high-thinking 
activities for decision making with full consideration, which involve various resolution strategies accompanied by 
sources and logical reasons (Abbasi & Izadpanah, 2018; Alfonso, 2015). When a person has good critical 
thinking, that person will always be curious, have good reasoning, open-minded, honestly acknowledge mistakes, 
and careful in making judgments which enable him/her to solve problems, form conclusions, calculate all 
possibilities, and make decisions. 

The student's critical thinking skill should be improved since it is essential for student’s development.  
According to Zubaidah et al (2015) stated that critical thinking skills could be used by students to assess various 
opinions that arise so the student’s can decide which ideas are scientific. A similar statement was also explained 
by Alfonso (2015) that by having critical thinking skills, students could improve their argument understanding, 
express their perspectives, and give essential consideration to the topic. According to the opinions of these 
experts, it can be deduced that undergraduate students who have excellent critical thinking skills will be able to 
assess the problem of the questions provided, accompanied by logical arguments and evidence. 

The critical thinking skills of each student’s is different, one of which can be influenced by academic abilities. 
According to Heijltjes, Gog, Leppink, and Paas (2014) based on their results of research on undergraduate 
students of International Islamic University Malaysia (IIUM), said that different academic abilities affect different 
critical thinking skills. Through the results of his research, explained that reading skills influence critical thinking 
skills. Furthermore, to improve critical thinking skills, student’s need to be often trained to read, write, and speak. 
Communication skills influence critical thinking skills. Moreover, analyzed that the undergraduate student’s who 
show critical thinking when having communication in the classroom tend to share their ideas, showing the 
interrelationship among their ideas, and producing a higher level of critical thinking. 

Various studies on critical thinking skills in male and female have been carried out with nursing student’s in 
Australia (Hunter, Pitt, Croce, & Roche, 2014), southeastern United States (Jones & Morris, 2007), Malaysia 
(Ludin, 2018), Jordan (Rababa & Masha’al, 2020), as well as with the subject of doctor of pharmacy student’s in 
California (Peeters & Boddu, 2016). In Indonesia also conducted research on critical thinking skills in male and 
female in mathematics with junior high school subjects in Banda Aceh (Mawaddah, Ahmad, & Duskri, 2018), 
biology lessons with senior high school subjects in Banjarmasin (Ramdiah & Corebima, 2014). On the other hand, 
research that focuses their studies on biology concepts for natural science students has never been done. 

Studies like this will help educators find out how to effectively instill the ability of critical thinking skills for male 
and female students, especially in biology. This study also provides information on why critical thinking skills in 
men and women have differences so that students in Indonesia can optimize their critical thinking skills according 
to their abilities. 

Basic biology course is a prerequisite course during the even semester (second semester) at the Natural 
Sciences study program, Faculty of Education, Hasyim Asy'ari University Tebuireng Jombang (UNHASY). 
Science students in the early semester are expected to be able to master the basic concepts of biology as a 
reference to make it easier to understand the concept of biology as a whole. Besides, students are expected to 
have critical thinking about biology concepts so that they can apply the concepts obtained to overcome various 
problems in daily life, especially those related to biology. According to Ruder and Martich (2015) critical thinking 
will encourage students to have an in-depth perception of the material theory, knowledge, skills, and critical 
disposition so that it will ultimately affect the improvement of their academic abilities. 

In the learning process on basic biology course, male and female students have different perspectives and 
thinking ability which can be seen during lecturing. This study was conducted to reveal the differences in the 
critical thinking skills of male and female students at the Natural Science Study Program of Hasyim Asy'ari 
University at Tebuireng Jombang (UNHASY) in the biology subject. This research is different from the previous 
studies which viewed critical thinking based on gender. This research is necessary because research that 
illustrates student’s critical thinking skills of the UNHASY Science Study Program and the differences in critical 
thinking skills between male and female students has never been done before. 

 

METHOD 

This study is a survey research with a quantitative approach. This research was conducted in B building 
UNHASY, Irian Jaya Street No. 55 Tebuireng, Jombang, East Java, during the even semester 2018/2019. The 
subjects of this research were 57 student’s of the UNHASY Natural Science Education Study Program who had 
taken the basic biology course, consisting of 11 male and 46 female students. The instrument of this research is 
a test of critical thinking skills in the form of a description questions/essay test, which consists of 6 questions. 
Biology topics in instruments include the respiratory system, environmental pollution, food additives, immune 
system, movement system, and sensory system. 

Question number 1 is about the topic of the respiratory system (smoking habit), question number 2 is about 
environmental pollution (waste processing), question number 3 is about consuming food additives, question 
number 4 is about the immune system (vaccinations for infants), question number 5 is about movement system 



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(the effect of sitting position on the bone shape), and question number 6 is about the sensory system (habits that 
affect eye health). 

The preparation of question instruments refers to pre-research questions of critical thinking skills of Prof. Dr. 
Siti Zubaidah, M.Pd (lecturer of the biology department of the State University of Malang), and also as a validator 
of this research instrument. The advice of the validator determines the number and topic of questions. The 
measurement of critical thinking skills refers to the assessment rubric that was adapted by Zubaidah et al (2015) 
from illinois critical thinking essay test and guidelines for scoring illinois critical thinking essay test as shown in 
Table 1. The score achievement indicator of the student's critical thinking skills ranged in 0-5, as shown in Table 
2. 

 
Table 1. Assessment rubric of critical thinking skills 

Score/Point Descriptor 
5  All concepts are correct, clear, and specific. 

 All explanations are correct, clear, and specific, supported with strong, correct, and clear arguments. 
 The flow of thought is good. All concepts are interrelated and integrated. 
 The grammar is good and correct. 
 All aspects are obvious, the evidence is good and balanced. 

4  Most of the concepts are correct and clear but less specific. 
 Most of the explanations are correct and clear but less specific. 
 The flow of thought is good. Most of the concepts are interrelated and integrated. 
 The grammar is good and correct or there are small mistakes. 
 All aspects are obvious but not balanced yet. 

3  The concepts are unfocused or too many or uncertain. 
 The explanation is unsupportive. 
 The flow of thought is not quite good and the concepts are not interrelated 
 The grammar is good but the sentence is incomplete.  
 Few aspects seem correct. 

2  The concepts are unfocused or too many or uncertain 
 The explanation is unsupportive 
 The flow of thought is not quite good and the concepts are not interrelated 
 The grammar is good but the sentence is incomplete 
 Few aspects seem correct 

1  All concepts are incorrect or insufficient 
 The reasons are incorrect 
 The flow of thought is poor 
 The grammar is poor 
 All aspects are insufficient 

0  There is no answer or the answer is wrong 

 
 

Table 2. Range of score achievement indicator of critical thinking skills 
Indicator range The criterion of critical thinking skills  

0-2 Not yet  increased or underdeveloped 
3-5 Well developed 

 

Then, the prerequisite test is performed on the students' critical thinking skills score data through the 
Kolmogorov-Smirnov One-Sample normality test and the Levenes Test for Equality of Variances homogeneity 
test to find out whether the critical thinking skill score data is normally distributed and homogeneous or not. After 
the prerequisite tests, the data from the test of critical thinking skills were analyzed by using quantitative 
descriptive analysis, which employed the Independent sample t-test to explain the differences in the critical 
thinking skills of male and female students. 

 

RESULTS AND DISCUSSION 

The result of the normality test of data scores students' critical thinking skills is shown in Table 3. Based on 
Table 3 it shows the score of students is normally distributed with a significance value for male students of 0.654 
and female students of 0.793. The average score of critical thinking skills of male students is 2.60, and the 
average score of critical thinking skills of female students is 2.99, both of which are included in the criteria of not 
yet increased or underdeveloped.  

Homogeneity test results and t-test results of critical thinking skills score data are shown in Table 4. Based on 
Table 4 it is known that the homogeneity test results show a significance value ≥ 0.05 that is equal to 0.545 so 
that the data is homogeneously distributed. T-test results show that the significance value ≤ 0.05 is equal to 
0.044; it shows that there are differences in students' critical thinking skills based on gender. Female students get 
a score of critical thinking skills higher than male. 

The results of data analysis showed that the average score of critical thinking skills of Natural Science Study 
Program UNHASY student’s in the 2.92 indicator range with the criteria of not yet increased or underdeveloped. 
Out of 57 student’s, 29 student’s (50.88%) have critical thinking skills with well-developed criteria, and 28 
student’s (49.12%) have critical thinking skills with not yet increased or underdeveloped criteria. The percentage 



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of the student’s critical thinking skills scores is shown in Figure 1. 
 
 

Table 3. Result of normality test with one-sample Kolmogorov-Smirnov test of students critical thinking skills score 
 Female Male 
N 46 11 

Normal Parametersa,b 
Mean 2.9937 2.6027 
Std. Deviation .55622 .59803 

Most Extreme 
Differences 

Absolute .096 .221 
Positive .079 .221 
Negative -.096 -.139 

Kolmogorov-Smirnov Z .650 .734 
Asymp. Sig. (2-tailed) .793 .654 
a. Test distribution is Normal. 
b. Calculated from data. 

 
 

Table 4. The t-test results of student’s critical thinking skills score data 

 Levene's Test 
for Equality of 

Variances 
t-test for Equality of Means 

F Sig. t df 
Sig. (2-
tailed) 

Mean 
difference 

Std. error 
difference 

95% confidence interval 
of the difference 

Lower Upper 

Critical 
Thinking  

Equal variances 
assumed 

.371 .545 -2.065 55 .044 -.39097 .18931 -.77036 -.01157 

Equal variances 
not assumed 

  
-1.974 14.428 .068 -.39097 .19809 -.81464 .03271 

 

 
Figure 1. Chart of the percentage of students critical thinking skills score overall  

 
The average score of critical thinking skills of male students is 2.60, and the average score of critical thinking 

skills of female students is 2.99, both of which are included in the criteria of not yet increased or underdeveloped. 
Next, the average score of students' critical thinking skills based on gender is summarized in the chart in Figure 
2. 

 
 
 

 
 
 
 
 
 
 
 

Figure 2. The average score of students critical thinking skills based on gender 

 
The results of data analysis based on Table 4 show that there are differences in the scores of critical thinking 

skills between male and female students. Through the written test answers of students, it can find out the 
students' critical thinking skills. Someone who thinks critically can show their thoughts well through the use of the 
right language when speaking or writing. These are the sample of student answers toward questions number one 
and two of the research instrument (Table 5). 

Related to the students' answers, they have almost the same result due to the discrepancies in critical 
thinking skills among students (Boa et al., 2018; Lloyd & Bahr, 2010; Mawaddah et al., 2018). Furthermore, from 
the results of research conducted by Butler et al., (2017), it presents that women's critical thinking skills are better 



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than men's. According to Fahim & Bagheri, (2012) have proven that gender differences contribute to critical 
thinking scores. 
 

Table 5. Sample of student answers toward questions number one and two of the research instrument 
No Question Answer 

1 Smoking is a habit that many Indonesian 
people do. Although the dangers of smoking 
are known to both themselves and others 
around them, they still do so for a variety of 
reasons. They smoke in various places, even 
in public places. Do you think they need to 
be given a special place to smoke? What do 
you think about that? Explain your reasons 
and provide solutions to these problems! 

1. These are the students' answers for question number 1 which belong to 
were not increased or underdeveloped critical thinking skills criteria: 
a. FDs answer (female): 

I think we don't need to provide smoking areas since there are numerous 
smokers in Indonesia. If we provide smoking areas, then how many areas 
should we build? However, if we must provide the smoking areas, I think we 
need to build them in certain places, especially public areas 

b. GRs answer (male): 
It's necessary to provide the smoking area because not all smokers have 
awareness about the people around them. 

2. These are the students' answers for question number 1 which belong to 
well-developed critical thinking skills criteria: 
a. NFs answer (female): 

We need to provide smoking areas because cigarette smoke can annoy 
other people who are nonsmokers. By providing smoking areas, at least 
there is no one complaining about cigarette smoke. The smoke can make 
people who are allergic to it cough. These smoking areas can indirectly 
minimize the effect of the smoke on passive smokers who can get sick or 
die. As we know, passive smokers get more harmful effects than active 
smokers. 

b. AGBs answer (male): 
Smoking areas are necessary because the smoke harms both the 
smokers and the nonsmokers. Even according to researches, passive 
smokers have a higher risk than active smokers. Because of this reason, 
smoking areas are needed, especially in public facilities, so that the 
nonsmokers won't be exposed by the negative effect of the smoke. 

2 Nowadays, we can find a lot of food, which is 
an added coloring and flavor enhancer, to 
attract consumers' attention. Some people 
think that this food is consumable. What do 
you think about this kind of food? Please 
explain your answer! 

1. These are the students' answers for question number 1, which belong to not 
yet increased or underdeveloped critical thinking skills criteria. 
a. NPPMs answer (female): 

Food which contains artificial food additive is inconsumable because it can 
cause health problem such as tumors, cancers, etc. 

b. ASAs answer (male): 
If the flavor enhancer and coloring contain harmful substances, it's better 
for us not to consume that kind of food. 

2. These are the students' answers for question number 2 which belong to 
well-developed critical thinking skills criteria. 
a. AFKs answer (female): 

The food which contains food colorings and flavor enhancers is more 
appealing than the ones without them. Nevertheless, artificial food 
additives contain high-risk chemical substances that endanger humans’ 
health. We may use food additives moderately or apply the correct dose. 
However, we can choose natural food additives that are safe for our 
health. 

  b. Sas answer (male): 
I think the food which is added with artificial coloring and flavor enhancer is 
not consumable because that food is harmful for our health. We must use 
natural food coloring and flavor enhancers instead. 

 
Furthermore, female student’s show better performance in reading literacy, and meanwhile, male student’s 

show better performance in math and science subjects. Related to that, through the results of his research 
Gloudemans et al (2013) reported that female students have higher learning achievement in science compared to 
male student’s. According to Heijltjes et al (2014) stated that relating to the brain's anatomy of males and 
females, men have more developed brains and have more complex abilities in planning, memorizing direction, 
abstraction, and visualization. A male has a brain with the area of cortex working on spatial functions more so 
that the ability of a man to produce and process words becomes less. Meanwhile, the female has a corpus 
callosum, which is four times larger than man, so that a man cannot focus on more works at the same ti me. 

Male and female have differences in problem-solving. The results of research conducted by Istiyono et al 
(2019) show that female student’s can solve problems better than male student’s. In line with the findings of 
Jones and Morris, (2007) that female student’s complete complex tasks such as problem-solving better than 
male student’s. The same resource that female student’s tend to do better tasks that require knowledge and 
skills in problem-solving, such as mathematics. Based on the explanations, that female students were more 
careful and through to re-examine what they had done and had better debating skills than males. Female 
students tend to ask questions more precisely and credibly compared to male students, which means that female 
students have better critical thinking skills than male students. Briefly, gender impacts students' critical thinking 
skills. 



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According to Azin and Tabrizi (2016) findings showed there is no significant difference between male and 
female in critical thinking, male and female students will have different ways to explore their critical thinking skills 
when they are faced with a particular problem. Besides, according to Peeters and Boddu, (2016) the age 
difference between students can cause variations in critical thinking. According to Ramdiah and Corebima (2014) 
said that the age difference affects the growth and development of a person's level of thinking maturity, including 
thinking in solving tasks or problems. Furthermore, they explained that differences in biological growth that occur 
in terms of gender cause significant differences between students' critical thinking skills. Concerned with that,  
according to Ruder and Martich, (2015) evidence of gender differences in problem-solving tasks, where women 
lagged behind boys in developing logical thinking skills. The same resource also explained that the difference 
began to be seen around the age of 11 years. A moderate correlation has been found between a positive attitude 
towards science and higher achievement in science. Moreover, according to Souf & See, (2019) it seems that the 
issue of why boys perform better than girls in science or why women do not choose science as a career is 
complex and very controversial. 

Critical thinking skills of students need to be developed to achieve well-developed criteria. It is essential to 
provide activities to encourage critical thinking in the classroom and introduce active reading, free discussion, 
analytic writing, dynamic assessment as techniques that contribute to empowering critical thinking (Carter, 
Creedy, & Sidebotham, 2016; Fahim & Bagheri, 2012; Kawashima & Petrini, 2004). Besides that, it is also 
suggested the application of problem-based learning, active learning, and constructivist approaches to facilitate 
critical thinking skills, meaningful and long-lasting learning (Lauder & James, 2001; Pieterse, Lawrence, & Nel, 
2016; Tiruneh et al., 2018; Yue et al., 2017). In learning science especially Biology, critical thinking skills can be 
applied in cooperative learning type cooperative script and think pair share (Blattner & Frazier, 2002; Ruder & 
Martich, 2015), problem based learning (Boleng & Maasawet, 2019), and guided inquiry (Ardian, Hariyati, & 
Afifah, 2019). 

 

CONCLUSION 

 According to the results of the study, it can be deduced that there are discrepancies in critical thinking skills 
between male and female students with a significance value of 0.044. The results of data analysis showed that 
the average score of critical thinking skills of male students was 2.60, and female students were 2.99, both of 
them have criteria not yet increased or underdeveloped. Disparities in critical thinking skills between male and 
female students are natural because men and women have different ways of thinking. Eventually, we suggest 
that to enhance the student's critical thinking skills, learning model variation should be implemented. 
 

ACKNOWLEDGMENT 

Many thanks from authors to Prof. Dr. Siti Zubaidah, M.Pd as a validator of the research instrument, and the 
Directorate of Research and Community Service, Directorate General of Research and Technology Strengthening 
Ministry of Research, Technology and Higher Education of the Republic of Indonesia, for funding provided in 
2019 for the Beginner Lecturer Research so that this research can be completed with good and produces the 
output as expected. 

 

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