Universitas Muhammadiyah Malang, East Java, Indonesia 

 

JPBI (Jurnal Pendidikan Biologi Indonesia) 
 

p-ISSN 2442-3750, e-ISSN 2537-6204 // Vol. 5 No. 3 Nov 2019, pp. 443-450  

 

 

        10.22219/jpbi.v5i3.10037                              http://ejournal.umm.ac.id/index.php/jpbi                     jpbi@umm.ac.id  443 

Research Article 

The mapping of science teacher candidate’s prior 
knowledge in cellular respiration topic  
 

Safira Permata Dewi a,1,*, Djunaidah Zen a,2, Maefa Eka Haryani b,3 
a  Department of Biology Education, Faculty of Teacher Training and Education, Universitas Sriwijaya, Jalan Raya Palembang  

   - Prabumulih KM. 32 Ogan Ilir, South Sumatera 30662, Indonesia 
b  Department of Chemistry Education, Faculty of Teacher Training and Education, Universitas Sriwijaya, Jalan Raya Palembang 

  - Prabumulih KM. 32 Ogan Ilir, South Sumatera 30662, Indonesia 
1 saphire2687@gmail.com *, 2  djunaidah_zen@fkip.unsri.ac.id, 3  meafachan@yahoo.com 

* Corresponding author 

 

INTRODUCTION   

Biology is one of the fields of science taught at the junior secondary level. Difficulties faced by science 
teachers are caused, by the large number of laboratory activities to be carried out, the insufficient time 
allocation with the number of materials that must be delivered and the severity of the demands of the science 
curriculum (Kadbey, Dickson, & McMinn, 2015). Ideally, learning biology and other fields are taught in an 
integrated manner so that it shows synchronization of a material from various sides, but in practice integrated 
science learning is still taught separately. To overcome this difficulty, the Biology, Chemistry and Physics 
Education Study Program facilitates by adding General Biology courses for students in the Chemistry and 
Physics Education Study program. In this general Biology lecture, Chemistry and Physics Education 
Department students are taught basic biological concepts to equip students as natural science teacher 
candidates. One of the concepts taught in this lecture is the concept of cellular respiration. 

Based on observations made in the previous academic year, it is known that the concept of cellular 
respiration is one of the concepts that are difficult for students to understand as science teacher candidates. 

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

 

Article history 
Received October 14, 2019 

Revised October 30, 2019 

Accepted November 23, 2019 

Published November 30, 2019 

 The proper learning strategy, mainly in cellular respiration topic, can be determined as 
mapping teacher candidate’s prior knowledge was done. This study aimed to get the 
profile of prior knowledge of teacher candidates in cellular respiration topic. This survey 
research used four-tier diagnostic test as data collection instrument. The number of 
samples was 183 of teacher candidates from three study programs in Faculty of 
Teacher Training and Education, Universitas Sriwijaya. The data was analyzed using 
percentage. The results showed that the best understanding of the concept was in the 
utilization of carbohydrates, proteins, and fats during cellular respiration process. The 
highest misconception tended to occur in general concept of cellular respiration. Thus, 
the studies which emphasize the undergirding reasons of the high misconception 
occurred. 

 

Copyright © 2019, Dewi et al  

This is an open access article under the CC–BY-SA license 

    

 

 
Keywords 
Cellular respiration misconceptions 

Prior knowledge 

Science teacher candidate 

 

  

 
How to cite:  Dewi, S. P., Zen, D., & Haryani, M. E. (2019). The mapping of science teacher candidate’s prior knowledge in cellular 

respiration topic. JPBI (Jurnal Pendidikan Biologi Indonesia), 5(3), 443-450. doi: https://doi.org/10.22219/jpbi.v5i3. 
10037 

 

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This is caused by the very abstract characteristics of the material and the process cannot be observed directly. 
In addition, there is not enough time available to teach a large number of concepts. This is also explained by 
Cimer (2012), that limited time allocation is one of the reasons biology learning is difficult for students to 
understand. These time constraints can be overcome by choosing learning strategies, models, media and even 
concepts that must be focused in the learning process. Rice (2013) further explained that cellular respiration 
material is a complex material and the learning used so far is less interactive and the learning media used by 
teachers do not support the formation of student concepts.  

Determination of strategies, models, and suitable media can be done with the help of prior knowledge 
analysis conducted by the teacher before the learning process begins. This prior knowledge test can provide 
information about the weaknesses and strengths that are owned by students so that the teacher gets an 
overview of the mapping of students 'abilities, including information on the tendency of misconceptions, lack of 
knowledge and the extent of understanding students' concepts. The results of research that have been done 
show that there is a positive relationship between prior knowledge tests conducted before learning with the 
results of student achievement (Tan Geok Shim, Shakawi, & Azizan, 2017). Prior knowledge tests can be done 
in various ways and have advantages and disadvantages of each (Gurel, Eryilmaz, & McDermott, 2015). One 
form of test that can be used is the four-tier test. Many studies have been conducted to determine the prior 
knowledge of students with other forms of tests, but there are no studies that use four-tier tests in biology. 

Research on the use of multiple-tiered tests has been carried out to study prior knowledge of students, but 
so far no research has been conducted to examine prior knowledge of students using four-tier test instruments 
(Gurel, Eryilmaz, & McDermott, 2017). This is due to the amount of time used to apply this instrument to 
students (Gurel et al., 2015). However, this problem can be overcome by utilizing online media with the help of 
Google form in implementing the instrument. Online tests can minimize implementation time and the costs 
involved, which are more effective and efficient (Alruwais, Wills, & Wald, 2018). The results of research 
conducted by Mondal, Mondal, Ghosal, & Mondal (2018) also shows that the instruments given using Google 
form are simpler and easier to use because students use their own android devices. Therefore, researchers are 
interested in using the four-tier test instrument through online media by using the Goggle form to find out the 
prior knowledge of science teacher candidates on cellular respiration material. This study aimed to get the 
profile of prior knowledge of teacher candidates in cellular respiration topic.  

This study was conducted to obtain an overview of prior knowledge of science teacher candidates on the 
concept of cellular respiration using a four-tier test. The results of this study are expected to help lecturers to 
determine learning strategies, media, and focus concepts that will be emphasized so as to minimize the 
possibility of misconceptions on the science teacher candidates after the learning process is carried out. 

 

METHOD 

Research subject 
This research is a survey research to find out prior knowledge of science teacher candidates on cellular 

respiration material before learning about the concept through online by using Goggle form. The subject in this 
study were science teacher candidates and currently undergoing General Biology lectures (n = 183), who came 
from biology, chemistry, and physics education majors. In this study, no special treatment was given because it 
only wanted to get a prior knowledge of the science teacher candidates. 

 
Research instrument  

The prior knowledge picture of a science teacher candidate was taken using four-tier multiple choice test 
problems on the concept of cellular respiration. The number of questions used is 20 questions that have been 
developed based on material analysis, literature analysis of concepts, and the needs of the desired learning 
objectives. The development of this instrument was only carried out at the first and third levels, whereas for the 
second and fourth stages there was no specific development because these two levels only asked the level of 
confidence of the sciences teacher candidates when answering the questions given, which were "sure" and 
"not sure". Questions at the first and third levels are multiple choice questions with two alternative answers for 
the second level questions and four alternative answers for questions at the third level. The development of the 
first level questions is preceded by a linear study related to similar research, while the development of the third 
level questions is preceded by observations by giving open-ended questions to science teacher candidates to 
assist in the preparation of alternative answers. The topic uses this research can be seen in Table 1. 

The question instrument to find out the prior knowledge of science teacher candidates on Cellular 
Respiration material that has been developed is entered into the Google form. In the technical implementation 
of data retrieval, researchers can provide a direct link obtained from the Google form application to the 



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research sample. The research sample directly works on the problems given through the android device. After 
the sample has finished answering the questions, it can be sent directly to the system which is then accepted 
by the researcher. 
 

Table 1. The topic used in the prior knowledge analysis of science teacher candidates on the concept of cellular respiration 

No Topic Question 

1. Aerobic and anaerobic cellular respiration  1, 2, 3, 11, 12, 13, 15, 17,  
2. Cellular respiration process 4, 5, 6, 7, 10, 14, 16, 18, 19, 20 
3. Carbohydrates, protein and lipid metabolism 8, 9,  

 
Data analysis 

The research results obtained were analysed by grouping the results of these achievements into three 
categories, understanding the concept; lack of knowledge; and misconceptions (Table 2). This prior knowledge 
category analysis is carried out for each sample on each item tested. 

 
Table 2. Analysis of prior knowledge categories of science teacher candidates on the concept of cellular respiration 

First tier Second tier Third tier Fourth tier Criteria 

Correct  Sure  Correct  Sure  SC 
Correct  Sure  Correct Not sure  LK 
Correct  Not sure Correct  Sure  LK 
Correct  Not sure  Correct  Not sure LK 
Correct  Sure  Wrong  Sure  MSC 
Correct  Sure  Wrong  Not sure  LK 
Correct  Not sure  Wrong  Sure  MSC 
Correct  Not sure Wrong  Not sure LK 
Wrong Sure  Correct  Sure  MSC 
Wrong  Sure  Correct  Not sure  MSC 
Wrong  Not sure  Correct  Sure  LK 
Wrong  Not sure  Correct Not sure  LK 
Wrong  Sure  Wrong  Sure  MSC 
Wrong  Sure  Wrong  Not sure MSC 
Wrong  Not sure  Wrong  Sure  MSC 
Wrong  Not sure  Wrong  Not sure  LK 

 
The results of the prior knowledge grouping analysis are followed by a percentage calculation for the group 

"sure concept" (Formula 3), "lack of knowledge" (Formula 2), and "misconceptions" (Formula 1).  
 

Percentage Misconception =                                                                                                      (1) 
 

Percentage Lack of knowledge =                                                                                                       (2) 
 

Percentage Sure concept =                                               (3) 
 

RESULTS AND DISCUSSION 

Prior knowledge analysis is carried out to determine the extent of understanding of concepts possessed by 
students at the previous level of education. This can streamline the learning process undertaken so that the 
utilization of learning time allocation is better. Analysis of prior knowledge can be done in various ways, both by 
giving questions and giving questionnaires to students before the learning process begins (Hailikari, 2009). 
Prior knowledge studies conducted have a positive effect on the development of learning design and 
curriculum planning on learning (Hailikari, Katajavuori, & Lindblom-Ylanne, 2008; Yuksel, 2012). Prior 
knowledge also has a very important role in the formation of individual characteristics and impacts on 
conceptual change that may occur after the learning process (Lin, Yen, Liang, Chiu, & Guo, 2016). Analysis of 
prior knowledge through the provision of questions has been done, among others, by providing open-ended 
questions, image analysis, concept maps, two-tier tests, three-tier tests, and others (Bergan, Galt, Helikar, & 
Dauer, 2018; Kirbulut & Geban, 2014; Saat et al., 2016). 

The topics studied in the prior knowledge analysis of science teacher candidates on cellular respiration 
material consisted of three topics, aerobic and anaerobic respiration; stages of cellular respiration; and 
carbohydrate, protein, and lipid metabolism. Each of these topics is a development of a literature study that has 
been carried out (Ameyaw, 2016; Bergan et al., 2018; Saat et al., 2016). This literature review is the result of 



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previous research on prior knowledge analysis using other forms of test instruments. It is intended that the 
instruments used can really provide an overview of the prior knowledge of science teacher candidates on 
cellular respiration material. 

The first topics tested were aerobic and anaerobic respiration. The concepts tested on this topic include the 
definition of cellular respiration, the difference between aerobic and anaerobic respiration, the amount of ATP 
produced, and the fermentation process. The results showed that on this topic the tendency of misconception 
was very high (average = 72.88%). The highest percentage of misconceptions occurred in problem number 1 
about the definition of cellular respiration as much as 84.70% (Figure 1). This problem compared to other 
questions tested shows a very high tendency for misconception. The response of science teacher candidates 
to question number 1 (Figure 2) shows that the understanding of science teacher candidates about cellular 
respiration is still very low. Science teacher candidates assume that cellular respiration is highly dependent on 
the presence of oxygen, whereas anaerobic respiration is a respiration that does not use oxygen at all in the 
process (Urry et al., 2017). These results contradict the results of research conducted by Saat et al., (2016) 
which shows that science teacher candidates in Malaysia have understood the basic concepts of cellular 
respiration. 

 
 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

 
Figure 1. Percentage of prior knowledge achievements of science teacher candidates on the topic of aerobic and anaerobic respiration 

 
Question Number 1 

The correct statement regarding cellular respiration is ... 
27.32% 
72.68% 

a.* 
b. 

sometimes oxygen is not needed in the cellular respiration process 
carbon dioxide is always produced during cellular reactions 

The reason you chose the answer is ... 
84.15% a. 

 
b. 
c. 

the process of respiration is a process that requires oxygen and releases carbon dioxide 
carbon dioxide does not have an important role in the process of respiration 
the presence of oxygen and water is the most important factor in cellular respiration 
some organisms in respiration reactions do not reach the mitochondrial organelles 

 

 
Figure 2. The response of science teacher candidates to question number 1 

 
The response of science teacher candidates to question number 1 (Figure 2) shows that carbon dioxide is a 

gas produced during the cellular respiration process (72.68%) with the most reason being chosen is the 
respiration process is a process related to the use of oxygen and carbon dioxide release. This shows that 
science teacher candidates have a low understanding of the basic concepts of cellular respiration because 
anaerobic respiration and fermentation do not involve oxygen in the process. Studies on the high school 
curriculum show that cellular respiration is studied by science teacher candidates in class XII of high school; 
however, this concept has a close relationship with the concept of respiration system that has been studied by 
science teacher candidates since they were at the elementary level of education. This incident indicates that 
the possibility of new concepts about cellular respiration is distorted by old concepts understood by students. 
This can be seen in the response of the science teacher candidates to question number 15 who asks about 



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breathing and respiration. Science teacher candidates have an understanding that breathing and respiration 
are the same thing (66.1%). Confidence in understanding strong concepts can result in students rejecting new 
knowledge delivered by the teacher (Campbell, 2008; Star, Johnson, Lynch, & Perova, 2009; Yusrizal & Halim, 
2017). 

The second topic in this study is the metabolism of carbohydrates, proteins and lipids. The results of this 
study indicate that science teacher candidates already have a good understanding of the concept but are still 
inadequate. This can be seen from the high tendency of lack of knowledge in questions about this topic (Figure 
3). This topic also shows a good understanding of concepts for sub-concepts of the use of protein, 
carbohydrates, and lipids in the body's metabolism. This good understanding is due to the connection between 
this topic and the digestive system concept material that has been repeatedly studied by teacher candidates 
from previous levels of education. This repetitive learning can improve one's understanding of a concept. 
 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

 
Figure 3. Percentage of prior knowledge achievement of science teacher candidates on the topic of carbohydrates, protein, and lipid. 

 
The tendency of misconception and the lack of knowledge that can be seen from the results of prior 

knowledge testing of science teacher candidates can be caused by misconceptions that have occurred at the 
previous educational level. This topic is closely related to the digestive system material that has been studied 
by science teacher candidates from basic education. Research conducted by (Cardak, 2015) indicates that 
teachers have a huge opportunity to experience misconceptions on the digestive system material. This 
misconception has the opportunity to be passed on to students, resulting in students also experiencing 
misconceptions (Widiyatmoko & Shimizu, 2018). 

The third topic tested in this study is the process of cellular respiration. The focus of the study of prior 
knowledge instruments tested relates to the results of each cellular respiration process. The results showed 
that understanding the concept of a science teacher candidates on cellular respiration material was better than 
the other topics tested. The highest understanding of the concept is seen in the concept of the use of NADH 
and FADH as a result of the cellular respiration process (35.52%) and the main results of the glycolysis process 
(31.15%) (Figure 4). The results of this study, although they have shown a higher understanding of concepts 
compared to other topics, still show a tendency towards misconceptions and a lack of understanding of science 
teacher candidates on cellular respiration material. The results of this study show the same tendency with the 
results of research conducted by Bergan, et.al. (2018) which examines the understanding of students for each 
stage of cellular respiration and the understanding of the concept of glycolysis is higher compared to other 
stages of cellular respiration.  

The high tendency of misconception and the low understanding of concepts in prior knowledge of science 
teacher candidates on cellular respiration material is an event that must be anticipated by the teacher by 
choosing the right learning strategy (Fisher, Frey, & Lapp, 2012). The formation of the understanding of science 
teacher candidates is not an instant process. Understanding a person's concept is influenced by many things, 
namely conceptual understanding and confidence, experiences in daily life, beliefs about a concept that he has, 
the environment in which he learns, mental development, and contradictions of concepts that are just accepted 
with old concepts that he has understood (Pekel, 2019; Yusrizal & Halim, 2017). All factors forming this 
understanding can lead to misconceptions. learning approaches and logical thinking abilities (Gurcay & Gulbas, 
2018). The learning process carried out at school also has a role in shaping students' misconceptions, 



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including terminology that is widely used, textbooks used, and misconceptions originating from teachers and 
passed on to students (Bayuni, Sopandi, & Sujana, 2018; Erman, 2017; Widiyatmoko & Shimizu, 2018). 

 
 

 
 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

 

Figure 4. Percentage of prior knowledge achievement of science teacher candidates on the topic of Cellular Respiration Stages 

 
The granting of this four-tier instrument is done through online media with the help of the Google form. The 

use of Google form media is very effective to help speed up the process of data analysis, the efficiency of the 
time needed for science teacher candidates in completing the tests provided and to minimize funding budgets 
when compared with tests conducted in writing. The prior knowledge test using Google form for science 
teacher candidates on the concept of cellular respiration, researcher enters these questions into the Goggle 
form to get a link which is then disseminated to the research sample. Samples solve these problems through 
an android device they have. The process of collecting data is easier to do through this technique, because 
researchers simply disseminate links from Google forms. After all the questions have been answered, the 
science teacher candidates send the answers into the system and is immediately collected. Google Forms 
motivates students’ self-regulatory learning (Kato, Kambayashi, & Kodama, 2016). This technique is much 
easier compared to conventional tests. Alruwais et al., (2018) revealed that the advantages of tests conducted 
online are the ease of providing feedback to students, making it easier for teachers to administer tests, 
efficiency of time, reducing costs that might be reviewed, and improving student performance. However, before 
conducting online tests, it is important to consider the availability of internet network facilities for the sake of the 
smoothness of the tests conducted. 

The results of this study indicate that science teacher candidates still lack knowledge of the basic concepts 
in cellular respiration material (Figure 5).  
 

Question Number 10 
The following are true statements regarding NADH and FADH resulting from cellular respiration are ... 

38.25% 
61.75% 

a. 
b.* 

NADH and FADH can be directly used by living things 
NADH and FADH are raw materials that cannot be used yet 

The reason you chose the answer is ... 

 
55.75% 

a. 
b.* 
c. 
d. 

Humans are complex living things that have complete physiological completeness 
Electron release from NADH and FADH produces NAD + and FAD + and ATP 
Energy needed by living things can be anything 
NADH and FADH are the biggest contributors of energy and are produced the most 

 

 

Figure 5. The response of science teacher candidates to question number 1 
 

The tendency of each misconception often occurs on the topic being tested. The results of this study can be 
used as a main reference for lecturers to emphasize concepts that show high misconceptions, for example on 
the concepts of aerobic and anaerobic respiration. Animation and video media can be used to help science 
teacher candidates understand this concept. Using visual aids (e.g., pictures, animation videos, projectors and 



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films) make the teachers and students had positive perceptions (Islam, Ahmed, Islam, & Shamsuddin, 2014; 
Shabiralyani, Hasan, Hamad, & Iqbal, 2015). This relates to the very abstract characteristics of cellular 
respiration material in which a lot of cellular processes cannot be seen by science teacher candidates. 
Choosing the right media and focusing the concept emphasis is expected to eliminate the tendency to 
misconceptions of science teacher candidates. 

 

CONCLUSION 

 The tendency of the misconception of science teacher candidates on the concept of cellular respiration is 
still high. The highest percentage occurs in the basic concepts of cellular respiration. The lowest misconception 
is shown in the concept of cellular respiration stages, because the learning process at the previous level only 
focuses on cellular respiration stages but does not focus on the basic concepts. It is recommended to conduct 
knowledge analysis before learning begins to find out the weaknesses and strengths of students so that the 
learning process is more effective and efficient. Provision of online tests can be done to assist teachers in 
disseminating questions and analyzing data. 
 

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