Universitas Muhammadiyah Malang, East Java, Indonesia 

 

JPBI (Jurnal Pendidikan Biologi Indonesia) 
 

p-ISSN 2442-3750, e-ISSN 2537-6204 // Vol. 7 No. 2 July 2021, pp. 126-135  

 

 

        10.22219/jpbi.v7i2.13675                              http://ejournal.umm.ac.id/index.php/jpbi                     jpbi@umm.ac.id  126 

Research Article 

The learning continuum of anatomical and 
physiological aspects based on the difficulty levels  
 

Hanida Listiani a,1,*, Bambang Subali a,2  
a Biology Education Department,  Postgraduate Program,  Universitas Negeri Yogyakarta,  Jl. Colombo No.1 Sleman, Daerah Istimewa  

  Yogyakarta 55281, Indonesia  
1 hanidalistiani.2018@student.uny.ac.id *; 2 bambangsubali@uny.ac.id 

* Corresponding author 

 

INTRODUCTION   

A good teaching and learning system is reflected in the currently implemented curriculum, curriculum 
development becomes inevitably important to consider (Orizasativa et al., 2019) and its implementation has to 
be assessed periodically (Suyanto, 2018). A curriculum has some main components, including the 
competences to achieve and learning materials to master in the learning process (Pramesti & Subali, 2017). 
Learning materials are the content given to students in the learning process (Pane & Dasopang, 2017). They 
consist of a sequence of materials that are sourced from the curriculum’s content standards and core 
competencies aimed to achieve graduate competencies (Pramesti & Subali, 2017; Situmorang, 2016). 
Instructional materials are substances existing in learning activities, and they will be striven to be mastered by 
students (Pane & Dasopang, 2017). In fact, the materials currently available have possibly not been adjusted to 
learners’ needs (Meilan, 2018). Besides, the learning materials provided to students in the learning process still 
overlap and are not in accordance with the level of student development (Astuti & Subali, 2017; Juniati & 

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

 

Article history 
Received: 15 September 2020 
Revised: 21 May 2021 
Accepted: 5 July 2021 
Published: 29 July 2021 

 Determining the level of difficulty and student development is important in the learning 
continuum, especially the anatomical and physiological aspects. This study aimed to 
collect teachers' opinions about the learning continuum of anatomical and physiological 
aspects based on its difficulty level. This survey research was conducted in the cities of 
Bantul and Yogyakarta using a questionnaire. The selection of respondents through 
convenience sampling, totaling 111 teachers consisting of 68 junior high school science 
teachers and 43 junior high school biology teachers. The data were analyzed using 
descriptive statistics to determine the mode of teachers’ opinions. The results of this 
study indicate that the learning continuum in grade X of senior high school based on 
difficulty level in anatomical and hysiological aspects, especially multicellular and 
unicellular concept has not yet been formed, with the difficulty at level 4. Therefore it is 
necessary to the provision of subject matter is sorted from easy to difficult and adjusted 
to the level of development of students at each level. 
 

Copyright © 2021, Listiani & Subali  

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

 

 
Keywords 
Anatomical and physiological 
Difficulty levels 
Learning continuum 
 

 

 

 

 

 

 

 

 

  

 
How to cite:  Listiani, H., & Subali. B. (2021). The learning continuum of anatomical and physiological aspects based on the    

difficulty levels. JPBI (Jurnal Pendidikan Biologi Indonesia), 7 (2), 126-135. doi: https://doi.org/10.22219/jpbi.v7i2. 
13675 

 

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 Listiani and Subali (The learning continuum of anatomical …) 

Subali, 2017), within both levels of education and grades at the same level of education, which will make the 
assessment process difficult (Ofianto, 2017).  

The curriculum developed in Indonesia should be prepared based on the mental development of students 
(Situmorang, 2016). In addition to the curriculum, teachers have to consider the effectiveness of the 
arrangement of subject matter appropriately according to time and sequence as well (Fakhrurrazi, 2018). The 
learning continuum can be developed based on the teacher's opinion because they are directly dealing with 
students (Astuti & Subali, 2017). If the curriculum development process does not consider the importance of 
continuous materials at every level of education, the learning process might be ineffective (Andriani & Subali, 
2017; Juniati & Subali, 2017; Situmorang, 2016). One of the considerations in the preparation of continuous 
learning materials is to pay attention to their level of difficulty. The development of the learning continuum, 
additionally, should show the gradation of difficulty from the easiest to the most difficult materials, from the ES 
to SHS level (Kusumawati et al., 2019; Subali et al., 2018). A strong foundation in basic science, for instance, 
will be a prerequisite for science learning at the next level (Mumuni et al., 2016). In other words, the basic 
materials become the basis for the next materials (Perkins, 2013).  

Considering this, the learning continuum has many benefits for the learning process. It allows teachers to 
understand general and specific learning objectives, deliver the learning materials sequenced from easy to 
difficult as stipulated in the continuum, monitor differences in student learning outcomes, and choose learning 
strategies that best suit the mental development of their students (Juniati & Subali, 2017). The learning 
continuum can also be used as a basis for selecting instructional sources and materials suitable for the mental 
development of students. In addition, it can also be used as a basis for compiling, improving, and developing 
a curriculum (Mendala et al., 2019). Learning continuum also can be applied in various branches of education, 
including Biology (Pramesti & Subali, 2017).Biology is one of the subjects in schools that must be learned by 
students (Astuti & Subali, 2017). Biology is a branch of science, this science studies about life-related things 
(Fauzi & Mitalistiani, 2018). Gul and Kose consider biology as a subject that is difficult for learners to learn 
(Gül & Kose, 2017). It was revealed that there are still many students who get low academic achievement in 
this subject (Hasibuan & Djulia, 2017; Kusumawati, 2016).  

One branch of biology that has low academic value is the anatomy and physiology of living things. This 
can be proven from the results of the national exams, for the structural and physiological aspects of junior 
high school and senior high school. Based on the 2019 national exam results report, the national percentage 
for students who answered correctly on the aspects of the structure and function of living things at the junior 
high school level was 50, 41% and high school was 49.50%. The low learning outcomes indicate that the 
characteristics and scope of the anatomcal and physiological aspects are difficult and some materials have 
not been adapted to the level of development of students. Anggara et al., (2018) considers that identifying the 
difficulties of learning materials needs to be considered in order to prepare the appropriate learning process 
so that it can resolve obstacles that may appear in the next learning process.  

The main reasons of the students' difficulties in learning biology is the characteristics of the learning topic 
(Firmanshah et al., 2020; Mardin et al., 2017), such as circulation and coordination systems are often 
considered difficult by students. This is due to the characteristics of the material (Mardin et al., 2017). 
According to Kusumawati (2016), there are three areas that students consider difficult, such as the structure 
of plant tissues, the function of plant tissues and relationship between structure and function of plant tissues.  
furthermore the learning materials provided to students in the learning process still overlap and are not in 
accordance with the level of development of students (Astuti & Subali, 2017; Juniati & Subali, 2017). Learning 
should be sequential, or often referred to as the learning continuum, so that le arning is more focused and 
appropriate with the depelovement of learners (Situmorang, 2016). Therefore the characteristics of the subject 
matters need to be considered before being given to the students. The subject matter needs to be arranged 
according to the order of characteristics from easy to difficult.  

The learning continuum has many benefits for the learning process. The learning continuum allows 
teachers to understand general and specific learning objectives, can be used as a reference for teachers in 
teaching the learning materials that are sequential from easy to difficult, monitor differences in student 
learning outcomes and choose learning strategies that best suit with the mental development of students 
(Juniati & Subali, 2017). The learning continuum can also be used as a basis for selecting learning sources 
and learning materials that are suitable for the mental development of students. In addition, it can also be 
used as a basis for compiling, improving and developing a curriculum (Mendala et al., 2019). The curriculum 
developed in Indonesia must be arranged based on the mental development of students (Situmorang, 2016). 
If the curriculum development process does not consider the importance of continuous material at every level 



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 Listiani and Subali (The learning continuum of anatomical …) 

of education continuously, the learning process will be ineffective (Andriani & Subali, 2017; Juniati & Subali, 
2017; Situmorang, 2016).  

Learning continuum of anatomical and physiological aspects has done reported by several previous 
researchers (Astuti & Subali, 2017; Hadi & Subali, 2017). In previous studies, learning continuum of 
anatomical and physiological aspects were in term of the level of cognitive prosesses and specific 
pedagogical materials based on teacher opinions. The findings reported in the previous studies show that 
many teachers still follow to the implemented curriculum not according to their original thought (Astuti & 
Subali, 2017; Hadi & Subali, 2017). Other studies related to the learning continuum had been reported such 
as Genetics (Orizasativa et al., 2019) and reproduction (Trilipi & Subali, 2020), in previous studies the 
arrangement of the learning continuum was based on the level of cognitive processes.  The recent studies on 
the learning continuum, the arrangement of the learning continuum was based on the level of complexity 
(Faridah & Subali, 2021). The arrangement of the learning continuum based on the difficulty level of learning 
material (content knowledge) have not been studied previously. The compilation of material levels from level 
easy to difficult also needs to be considered to make it easier for teachers to provide subject matter and 
students understand the subject matter gradually according to the level of mental development.    

Based on the descriptions above, the researcher is interested in conducting research that aims to 
formulate a learning continuum on the anatomical and physiological aspects based on the opinion of science 
teachers in junior high school and biology teachers in senior high school which is focused on the difficulty 
levels of learning material. The availability of a learning continuum that fits between the difficulty level of 
content knowledge and the level of development of students can help students receive a lesson well so that 
the objectives of learning will be achieved, especially in the anatomical and physiological aspects. The results 
of this study can be used as a basic reference for the development of learning continuum and curriculum in 
accordance with the development of students at each level of education.  

METHOD 

This research is a descriptive by using a survey method aiming to collect the opinion of science teachers in 
junior high school and biology teachers in senior high school toward the teaching and assessment of 
anatomical and physiological aspects based on the difficulty levels in the schools. This research was conducted 
in two regencies / cities in the Special Region of Yogyakarta Province from July to August 2020. The two 
regencies / cities are Bantul regency and Yogyakarta city. The populations used in this study were Junior High 
School (JHS) and Senior High School (SHS) teachers. Sample members were selected through convenience 
sampling, consisting of 111 respondents as representatives of the hypothetical population who had the 
predetermined characteristics. They comprised 68 JHSs science teachers and 43 SHSs biology teachers. 
Respondents’ demographics are presented in Table 1. 

 
Table 1. Demographic data of the participating teachers 

Group of respondents 
Based on education programs 

Total 
Education Department n (%) Non-education Department n (%) 

JHS Teachers 53 (78) 15 (22) 68 
SHS Teachers 37(86) 6 (14) 43 

 
Data were collected using a questionnaire about the level of difficulty of the anatomical and physiological 

aspects that is given to the respondents (science and biology teachers). The questionnaire was then 
distributed to respondents via a Google form. The anatomical and physiological aspects are presented in the 
questionnaire consisted of three sub-aspects, namely 1) The internal structure (anatomical) of the multicellular 
organism's body and its functions, 2) The anatomical structure of the unicellular organism and its functions, 3) 
The anatomical structure of the virus body and its functions. In this study, the difficulty level was determined 
which consisted of five levels, namely "very easy" (1), "easy" (2), "rather difficult" (3), "difficult" (4), "very 
difficult" (5). The questionnaire given to respondents is equipped with an explanation of the level of difficulty 
along with an example at the beginning of the questionnaire to equalize the perceptions of all respondents on 
the difficulty level criteria. The organization of teaching materials is also based on the level of difficulty of facts 
and concepts (from the very easy to the most difficult). For example, the fact of the body of a virus is very 
difficult to observe because it can only be observed using an electron microscope. Likewise, the facts about 
bacteria and single-cell organisms are difficult to observe because they require a microscope to observe 



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 Listiani and Subali (The learning continuum of anatomical …) 

them, while the facts about large animals and plants are very easy to observe. The concept of how viruses 
can function in living cells is also elusive.  

All opinions from the questionnaire will be recapitulated. The data were analyzed by searching for the 
mode of respondents’ opinions and then compiled as a teaching material grid. This mode shows an 
agreement between the respondents (junior high school science teachers and biology teachers). The mode 
value obtained can show how difficult the anatomical and physiological aspects are and what grade these 
aspects should be taught, so that the learning continuum sequence can be arranged. 

RESULTS AND DISCUSSION 

The results of the teacher's opinion about the difficulty levels of the anatomical and physiological aspects 
that must be taught in schools were obtained from 111 teachers consisting of 68 junior high schools (JHSs) 
science teachers and 43 senior high schools (SHSs) biology teachers in two regencies/cities in the Special 
Region of Yogyakarta Province. Aspects of anatomy and physiology have three sub-aspects including sub-
aspects the internal structures (anatomical) of the body of multicellular organisms and their functions, sub-
aspect of the anatomical structures of the virus and their functions, the anatomical structures of the virus and 
their functions. Data on the difficulty levels of sub-aspect the internal structures (anatomical) of the body of 
multicellular organisms and their functions have resulted the findings as shown in Table 2 as follows: 
 
Table 2. The JHS and SHS teachers’ opinions about the difficulty level of the anatomy and physiology aspects in the sub-aspect of the 

internal structures (anatomical) of the body of multicellular organisms and their functions 

 

Sub-aspects 1:  the internal structure (anatomical) of 
the body of multicellular organisms and their 

functions 

JHSa teachers’ 
oOpinion (nc=68) 

SHSb teachers' 
opinion(nc=43) 

Mod Clse/DLf Mod Clse/DLf 

1. The Fern 
Organ  

a. The anatomical structure of the fern organs and their 
functions 

45 VIII/4j 25 X/3i 

b. Factors that affect the anatomical structure and 
function  

41 VIII/4 j 22 X/3i 

2. The Mosses 
Organs 

a. The anatomical structure of the mosses organs and 
their functions 

46 VII/4 j 24 X/3 i 

b. Factors that affect the anatomical structure and 
function  

45 VII/4 j 25 X/4 j 

3. The Algae 
Organs 

a. The anatomical structure of the algae organs (plant-like 
protists) and their functions 

45 VII/4 j 25 X/3 i 

b. Factors that affect the anatomical structure and 
function  

42 VII/4 j 22 X/4 j 

4. The Tissues 
that Make Up 
The Organs of 
Algae 

a. The anatomical structure of the tissues that make up 
the organs of algae (plant-like protists) and their 
functions 

43 X/4 j 20 X/4 j 

b. Factors that affect the anatomical structure and 
function  

42 X/4 j 23 X/4 j 

5. Flowering Plant 
Organs 

a. The anatomical structures of flowering plant organs 
and their functions 

45 VIII/3 i 23 XI/3 i 

b. Factors that affect the anatomical structure and 
function  

39 VIII/3 i 25 XI/4 j 

6. The Tissue 
Composing 
Fern Organs 

a. The anatomical structure of the tissue composing fern 
organs and their functions 

43 VIII/4 j 21 X/4 j 

b. Factors that affect the anatomical structure and 
function  

45 X/4 j 24 X/4 j 

7. The Tissue of 
The Mosses 

a. The anatomical structure of the tissue of the mosses 
and their functions 

46 X/4 j 21 X/4 j 

b. Factors that affect the anatomical structure and function  41 X/4 j 25 X/4 j 

8. Cells that Make 
Up Fungal 
Tissues 

a. The anatomical structure cells that make up fungal 
tissues and their functions 

42 X/4 j 23 X/4 j 

b. Factors that affect the anatomical structure and 
function  

41 X/4 j 25 X/4 j 

9. The Fungal 
Body Cells 

a. The anatomical structure of the fungal body cells and 
their functions 

39 X/4 j 22 X/4 j 

b. Factors that affect the anatomical structure and 
function  

39 X/4 j 23 X/4 j 

10. Human and 
Animal Organ 
Systems 

a. The anatomical structures of human and animal organ 
systems and their functions 

38 VIII/4 j 22 XI/4 j 

b. Factors that affect the anatomical structure and 40 VIII/4 j 28 XI/4 j 



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Sub-aspects 1:  the internal structure (anatomical) of 
the body of multicellular organisms and their 

functions 

JHSa teachers’ 
oOpinion (nc=68) 

SHSb teachers' 
opinion(nc=43) 

Mod Clse/DLf Mod Clse/DLf 

function  

11. Human and 
Animal Organs 

a. The anatomical structures of human and animal organs 
and their functions 

39 VIII/4 j 23 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

39 VIII/4 j 24 XI/4 j 

12. Human and 
Animal Tissues 

a. The anatomical structures of human and animal 
tissues and their functions 

40 VIII/4 j 24 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

46 VIII/4 j 29 XI/4 j 

13. Plant Tissue 
Composing 
Flowering 
Organs 

a. The anatomical structure of plant tissue composing 
flowering organs and their functions 

41 VIII/4 j 22 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

38 VIII/4 j 23 XI/4 j 

14. Cells that Make 
Up Human and 
Animal Tissues 

a. The anatomical structure of cells that make up human 
and animal tissues and their functions 

44 VIII/4 j 29 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

47 VIII/4 j 30 XI/4 j 

15. The Tissue 
Making Cells in 
The Plant Body 

a. The anatomical structure of cells making tissue in the 
plant body and their functions 

45 VIII/4 j 22 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

44 VIII/4 j 23 XI/4 j 

16. Human and 
Animal Cells 
and Their 
Function 

a. The anatomical structure of human and animal cells 
and their functions 

41 VIII/4 j 29 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

40 XI/4 j 31 XI/4 j 

17. Cells in The 
Plant Body 

a. The anatomical structure of cells in the plant body and 
their functions 

43 VIII/4 j 29 XI/4 j 

b. Factors that affect the anatomical structure and 
function  

42 VIII/4j 30 XI/4 j 

Note: (a) Junior High School; (b) Senior High School; (c) Total Respondent; (d) Mode; (e) Class; (f) Difficulty Level; (g) Very Easy; (h) 
Easy; (i) Rather Difficult, (j) Difficult, (k) Very Difficult 
 

Table 2 shows that the level of understanding each groups of practitioners (teachers) is quite high based 
on the resulting mode values. The JHS and SHS teachers had the same perceptions regarding the level of 
difficulty in most of the material in the sub-aspects internal structures (anatomical) of the multicellular 
organism body and their functions. The JHS and SHS teachers opine that most of the material in this sub-
aspect has a level of difficulty at level 4 (difficult), except in material of the fern organs, the mosses organs 
(indicator a), the algae organs (indicator a) and flowering plant organs (indicator b) which have a difficulty 
level at level 3 (rather difficult). The JHS teachers believe that most of the material in sub-aspect international 
structures (anatomical) of multicelullar organism body and their functions can be taught at JHS level. The 
mosses organs and the algae organs can be taught in grade VII while the fern organ, flowering plant organs, 
the tissue composing fern organs (indicator a), human and animal organ systems, human and animal organs, 
human and animal tissues, plant tissue composing flowering organs, cells that make up human and animal 
tissues, the tissue making cells in the plant body, human and animal cells and their function (indicator a) and 
cells in the plant body are taught in grade VIII and some other material such as the tissues that make up the 
organs of algae, the tissue composing fern organs (indicator b), the tissue of the mosses, cells that make up 
fungal tissues, the fungal body cells and human and animal cells and their function (indicator b) not suitable 
for the development level of JHS students. The difficulty of students in understanding the material can be 
seen from the implementation of the curriculum, if it is appropriate then the teacher is easier to prepare the 
material according to the development of the students (Juniati & Subali, 2017).  

Based on previous research, (Hadiprayitno et al., 2019) reported that cell structure and function consider 
difficult by students. On other hand, according to SHS teachers, some sub-aspects internal structures 
(anatomical) of the multicellular organism body and their functions such as the fern organ, the mosses organs, 
the algae organs, the tissues that make up the organs of algae, flowering plant organs, the tissue composing 
fern organs, the tissue of the mosses, cells that make up fungal tissues, and the fungal body cells can be 
taught in grade X while flowering plant organs, human and animal organ systems, human and animal organs, 
human and animal tissues, plant tissue composing flowering organs, cells that make up human and animal 
tissues, the tissue making cells in the plant body, human and animal cells and their function and cells in the 



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 Listiani and Subali (The learning continuum of anatomical …) 

plant body are taught in grade XI SHS. Data on the difficulty levels of sub-aspects of the anatomical structure 
of unicellular organisms and their functions have resulted the findings as shown in Table 3. 

 
Table 3. The JHS and SHS teachers’ opinions about the difficulty level of the anatomy and physiology aspects in the sub-aspect of the 

anatomical structure of unicellular organisms and their functions 

Sub-aspect 2: Anatomical structure of unicellular organisms and their 
functions 

JHSa teachers' 
opinion (nc=68) 

SHSb teachers’ 
opinion (nc=43) 

Mod Clse/DLf Mod Clse/DLf 

The anatomical structure of the cells that make up the body of the Protista 
and their functions 

39 X/4 j 22 X/4 j 

The anatomical structure of the cells that make up Monera's body and their 
functions 

39 X/4 j 23 X/4 j 

The anatomical structure of the cells that make up the body of bacteria and 
their functions 

38 X/4 j 22 X/4 j 

Factors that affect the anatomical structure of the cells that make up the body 
of unicellular organisms 

40 X/4 j 26 X/4 j 

Note: (a) Junior High School; (b) Senior High School; (c) Total Respondent; (d) Mode; (e) Class; (f) Difficulty Level; (g) Very Easy; (h) 
Easy; (i) Rather Difficult, (j) Difficult, (k) Very Difficult 
 

Table 3 shows that the level of understanding each groups of practitioners (teachers) is quite high based 
on the resulting mode values. The JHS and SHS teachers had the same perceptions regarding the level of 
difficulty and when this sub-aspect can be taught in the sub-aspects of the anatomical structure of unicellular 
organisms and their functions. The JHS and SHS teachers opine that most of the material in this sub-aspect 
has a level of difficulty at level 4 (difficult) and and more suitable to be taught in grade X SHS. Based on 
previous report, Archaebacteria and Eubacteria (Hidayatussaadah et al., 2016; Hadiprayitno et al., 2019) were 
biological topics that are often considered difficult by students. Hidayatussaadah et al., (2016) also reported 
that explaining the classification of Eubacteria based on cell wall characteristics being the most difficult 
competency for students. Several previous reports also confirmed that Protista (Sukiya & Sudarsono, 2017) 
was biological topic that is often considered difficult by students. Data on the difficulty levels of sub-aspects of 
the structure of the virus and its functions have resulted the findings as shown in Table 4 as follows: 
 
Table 4. The JHS and SHS teachers’ opinions about the difficulty level of the anatomical and physiological aspects of in the sub-

aspect of the anatomical structures of the virus and their functions 

Sub-aspect 3: of the anatomical structure of the virus and its 
functions 

JHSa Teachers' 
Opinion (nc=68) 

SHSb Teachers’ 
Opinion (nc=43) 

Mod Clse/DLf Mod Clse/DLf 

The anatomical structure of the virus body and its functions 37 X/4j 22 X/4 j 
Factors affecting the anatomical structure of the virus body and its function 42 X/4j 24 X/4 j 

Note: (a) Junior High School; (b) Senior High School; (c) Total Respondent; (d) Mode; (e) Class; (f) Difficulty Level; (g) Very Easy; (h) 
Easy; (i) Rather Difficult, (j) Difficult, (k) Very Difficult 
 

Table 4 shows that the level of understanding each groups of practitioners (teachers) is quite high based on 
the resulting mode values. The JHS and SHS teachers had the same perceptions regarding the level of 
difficulty and when the sub-aspects of the structure of the virus and its functions can be taught. The JHS and 
SHS teachers opine that two material in this sub-aspect has a level of difficulty at level 4 (difficult) and more 
suitable to be taught in grade X SHS. Previous reports also confirmed that difficult topics in biology are 
bacteria and viruses (Hadiprayitno et al., 2019) because most students consider these concepts as abstract 
and complex (Harahap & Nasution, 2018). Previous reports also confirmed that virus (Hasibuan & Djulia, 
2017) often considered difficult by students. Therefore this aspect is more suitable to be taught at the high 
school level. The presentation of the learning continuum grid for the anatomical and physiological aspects of 
living things based on science  teachers' opinions in JHS and biology teachers in SHS is described in Table 5. 

The results of learning continuum grid of anatomical and physiological aspects based on difficulty level 
presented in the Table 5 ilustrates that this aspect is started to be taught at grade VII JHS to grade XI SHS. 
Some indicators in the sub-aspects internal structures (anatomical) of the multicellular organism body and their 
functions presented in the Table 5 has not shown the hierarchical level between the difficulty levels and the 
class level where an aspect is thaught. This indicate that the opinion of the teachers has not paid attention to 
the learning continuum, this can be seen from the acquisition of difficulty level mode and class level. For 
example, indicator e in the sub-aspects internal structures (anatomical) of the multicellular organism body and 
their functions with a mode that are at level 4 (difficult) to be taught in eighth grade Senior high school then re-



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 Listiani and Subali (The learning continuum of anatomical …) 

taught in grade X high school with a lower level (level 3). In other cases for some indicators, for example, 
indicator f in sub-aspects internal structures (anatomical) of the multicellular organism body and their functions 
is taught in grade VII JHS with a level of difficulty at level 4 (difficult) and then re-taught in grade X with the 
same level of difficulty. Difficult learning can be overcome by adjusting the indicators and the level of the 
material (Mendala et al., 2019). 

 
Table 5. Learning continuum grid of anatomical and physiological aspects 

Anatomcal and Physiological Aspects Education Level 

ESa JHSb SHSc 

DLd Clse DLd Clse DLd Clse 

Sub-aspects 1:  the internal structure (anatomical) of the body of 
multicellular organisms and their functions 

      

a. The anatomical structures of flowering plant organs and their 
functions 

- - 3 h  VIII 3 h -4 i XI 

b. The anatomical structure of the mosses and their functions - - 4 i VIII 3 h -4 i X 

c. The anatomical structure of the algae organs (plant-like protists) 
and their functions 

- - 4 i VII 3 h -4 i X 

d. The anatomical structure of the tissues that make up the organs of 
algae (plant-like protists) and their functions 

- - - - 4 i X 

e. The anatomical structure of the fern organs and their functions - - 4i VIII 3h X 

f. Anatomical structure of the tissue composing fern organs and their 
functions 

- - 4 i VIII 4 i X 

g. The anatomical structure of the tissue of the mosses and their 
functions 

- - - - 4 i X 

h. The anatomical structure cells that make up fungal tissues and their 
functions 

- - - - 4 i X 

i. The anatomical structure of the fungal body cells and their functions - - - - 4 i X 

j. The anatomical structures of human and animal organ systems and 
their functions 

- - 4 i VIII 4 i XI 

k. The anatomical structures of human and animal organs and their 
functions 

- - 4 i VIII 4 i XI 

l. The anatomical structures of human and animal tissues and their 
functions 

- - 4 i VIII 4 i XI 

m. The anatomical structure of plant tissue composing flowering organs 
and their functions 

- - 4 i VIII 4 i XI 

n. The anatomical structure of cells that make up human and animal 
tissues and their functions 

- - 4 i VIII 4 i XI 

o. The anatomical structure of the tissue making cells in the plant body 
and their functions 

- - 4 i VIII 4 i XI 

p. The anatomical structure of human and animal cells and their 
functions 

- - 4 i VIII 4 i XI 

q. The anatomical structure of cells in the plant body and their 
functions 

- - 4 i VIII 4 i XI 

Sub-aspect 2: Anatomical structure of unicellular organisms and their 
functions 

      

a. The anatomical structure of the cells that make up the body of the 
Protista and their functions 

- - - - 4 i X 

b. The anatomical structure of the cells that make up Monera's body 
and their functions 

- - - - 4 i X 

c. The anatomical structure of the cells that make up the body of 
bacteria and their functions 

- - - - 4 i X 

d. Factors that affect the anatomical structure of the cells that make up 
the body of unicellular organisms 

- - - - 4 i X 

Sub-aspect 3: of the anatomical structure of the virus body and its 
functions 

      

a. The anatomical structure of the virus body and its functions - - - - 4 i X 

b. Factors affecting the anatomical structure of the virus body and its 
function 

- - - - 4 i X 

Note: (a) Elementary School; (b) Junior High School; (c) Senior High School; (d) Difficulty Level; (e) Class, (f) Very Easy; (g) Easy; (h) 
Rather difficult; (i) Difficult; (j) Very Difficult 

 
Continuity needs to be considered, especially with regard to the material that will be given to students, lest 

there be repetition of material or jumps for which the level of difficulty is not clear (Sugiana, 2018). Ideally the 
materials / indicators are taught in a sequence from easy to difficult, the more difficult the material/indicator is, 



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the higher level/class the material / indicator should be taught. It is also stated by Subali et al., (2018) that if 
these sub-aspects are included in the easy-to-learn category, then these sub-aspects can be taught in the 
begining level (Kusumawati et al., 2019). It is better if the class level is chosen according to the order of 
difficulty, the higher the level of difficulty of a material / indicator, the higher grade/level the material is taught so 
as not to jump from easy to difficult then back to easy again. So that there is no overlap of learning material. A 
material that is taught repeatedly shows that the composition of the material follows the spiral curriculum rules 
(Faridah & Subali, 2021). Two sub-aspects in this aspect such as the sub-aspects of the anatomical structure of 
unicellular organisms and their functions and the sub-aspects of the structure of the virus and its functions are 
only taught at the SHS level grade X with a level of difficulty at level 4. 

Good adjustment of learning materials will help students better understand the learning topic. According to 
Feiman-Nemser (2001); Trilipi and Subali (2020), teachers must understand the subjects they teach, if they are 
responsible for supporting students to learn useful content. It is important for the teachers continuously do 
reflection and evaluation related with their learning problems encountered so that it can be obtained 
immediately the right solution (Priyayi et al., 2018). Teacher observing the inter-related processes of following 
to teaching and learning situations, and making instructional decisions is a critical part of teaching expertise 
(Ivars et al., 2018; Subali et al., 2018). Identifying the level of difficulty in learning material is important in 
teaching biology especially anatomical and physiological aspects so that it can help students understand the 
material. On the other hand, teachers can find it easier to pay attention to relevant instructional details when 
given a focus point on the problems faced by students (Ivars et al., 2018). 
 We need innovation in learning that leads directly to students. The learning continuum based on the 
difficulty level could adjust to the ability level of students so that students can carry out effective and efficient 
learning. Learning continuum represents an increase in the skills of learners from basic skills to the highest 
skills at a certain level (Ofianto, 2017). The scope of the learning material in the content standard should be 
formulated based on the development of students so that the scientific concept is in line with the knowledge 
gained and there is suitability for each level (Hadi & Subali, 2017). Therefore, the 2013 curriculum that is being 
developed must be formulated based on the level of student development (Hadi & Subali, 2017; Situmorang, 
2016). This research was still limited to the opinion of science teachers of junior high schools and biology 
teachers of senior  high schools, therefore it is necessary to do further research by asking the opinion of biology 
education experts and conducting FGD (Focus Group Discussion) between teachers and biology education 
experts to consider the results obtained. Teachers think practically because they deal directly with students 
while biology education experts think theoretically, therefore it is necessary to conduct FGD between teachers 
and biology education experts to consider the results obtained so that the learning continuum arranged will fit 
between the difficulty level of the teaching material and level of development of learners. 
 

CONCLUSION 

 Based on the results of the study according to the JHS and SHS teachers’ opinion, the learning continuum 
based on the difficulty level in the the sub-aspects internal structures (anatomical) of the multicellular organism 
body and their functions in anatomical and physiological aspects has not yet been formed. Two sub-aspects in 
this aspect such as the sub-aspects of the anatomical structure of unicellular organisms and their functions and 
the sub-aspects of the structure of the virus and its functions are only taught at the SHS level grade x with a 
level of difficulty at level 4. Finally, we suggest provision of subject matter is sorted from easy to difficult and 
adjusted to the level of development of students at each level. This research was still limited to the opinion of 
science teachers of junior high school and biology teachers of senior high school, therefore it is necessary to do 
further research by asking the opinion of biology education experts and conducting FGD (focus group 
discussion) between teachers and biology education experts to consider the results obtained. 

ACKNOWLEDGEMENT 

 The researchers give thanks to the Ministry of Research and Technology and Higher Education in Indonesia 
that already helps this research fee as well as the MGMP, Science Teachers of Junior High Schools and 
Biology Teachers of Senior High School in the Special Region of Yogyakarta province who helped this 
research. 

 



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