Universitas Muhammadiyah Malang, East Java, Indonesia 

 

JPBI (Jurnal Pendidikan Biologi Indonesia) 
 

p-ISSN 2442-3750, e-ISSN 2537-6204 // Vol. 5 No. 2 July 2019, pp. 197-206 

 

 

        10.22219/jpbi.v5i2.7219                               http://ejournal.umm.ac.id/index.php/jpbi                     jpbi@umm.ac.id  197 

Research Article 

Ethnobotanical study of medicinal plants utilized by the 
Baduy tribe used as a learning resource 
Rida Oktorida Khastini a,b,1,*, Indria Wahyuni b,2, Irma Saraswati c,3, Alimuddin c,4,  
Prasart Nuangchalerm d,5 
a Department of Biology Education, Faculty of Teacher Training and Education, University of Sultan Ageng Tirtayasa, Jl Raya Jakarta  

  Km 4, Pakupatan, Serang, Banten, 42422. Indonesia  
b Indonesia Center of Excellence for Food Security (I-CIFORY) University of Sultan Ageng Tirtayasa, Jl Raya Jakarta Km 4, Pakupatan,  

  Serang, Banten, 42124. Indonesia. 
c Department of Electrical Engineer, Faculty of Engineer, University of Sultan Ageng Tirtayasa, Indonesia Jl. Jenderal Sudirman Km 3,  

  Kotabumi, Purwakarta, Kota Cilegon, Banten 42435 Indonesia 
d Department of Curriculum and Instruction, Faculty of Education, Mahasarakham University, Nakhonsawan Road,Ta-Lad Sub-district,Muang  

  District, Maha Sarakham Province 44000, Thailand  
1rida.khastini@untirta.ac.id*; 2indriasudarman@gmail.com; 3irma.saraswati@untirta.ac.id; 4alimuddin@untirta.ac.id; 5prasart.n@msu.ac.th  

*Corresponding author 

 

INTRODUCTION  

The paradigm of teacher-centered delivery for learning process in school need to be changed into student-
centered as it can lead to various problems such as lecturers most often acts as an important resource (Fry, 
Ketteridge, & Marshall, 2009; Karimi, 2011; Strømme & Furberg, 2015), dominates most of the learning 
activities, and learning acquisition can be very limited due to much reliance on information by lecturers. 
Student-centered has been proven effective in the learning process where memorizing the information and 
knowledge is not only student activity. The active engagement in the learning process is a key factor in 

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

 

Article history 
Received December 14, 2018  
Revised June 15, 2019  
Accepted June 21, 2019 
Published June 30, 2019 
 

 The existence of contextual learning resources has been known to be able to improve 
the meaningful learning, particularly biology learning. This research provides the 
information about the medicinal plant utilized by the Baduy tribe as well as its 
endeavour in developing the results obtained as a contextual-based module. This 
research and development was designed using Thiagarajans’ model, which was limited 
in three phases (define, design, and development). The data was collected using 
interview guideline, validation sheets, and students' response questionnaires. The 
research findings inform that there were 67 species utilized by the Baduy tribe as the 
medicinal plants. These species belong to Spermatophyte and divided into 31 families. 
Furthermore, the validation results showed that the media developed was valid; in 
which the best component of module, based on students' response, was its 
presentation (the mean value was 89.5%). It can be concluded that the media 
developed is feasible to use as a learning resource. 

 
Copyright © 2019, Khastini et al  

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

    

 

 
Keywords 
Baduy tribe 
Contextual-based module 
Ethnobotanical study 
Learning resource 

  

 
How to cite:  Khastini, R. O., Wahyuni, I., Saraswati, I., Alimuddin, A., & Nuangchalerm, P. (2019). Ethnobotanical study of 

medicinal plants utilized by the Baduy tribe used as a learning resource. JPBI (Jurnal Pendidikan Biologi Indonesia), 
5(2), 196-206. doi: https://doi.org/10.22219/jpbi.v5i2.7219 

 

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improving students' conceptual understanding by constructing knowledge based on their interaction in the 
environment (Sadler et al., 2013). The concepts on what they learned through to knowledge and experience 
need to discover by the student itself. It is in accordance with Piaget's opinion in 1983 that through the learning 
process, student students will have many activities on trying to do new things by relating their experiences and 
building their knowledge. This statement also may develop when the student learns about plant biodiversity, 
especially traditional plant-based medicines, knowledge, customs, and uses of plants. However, the new era of 
instructional practices seems to be different than previous, due to the growing a lot of information is rapidly 
reported. The education systems should help the student understand without neglect cultural values. According 
to DeDonno (2016), a key component to succeed in any environment is the ability to learn. The rapid changes 
in technology and societal changes due to globalization, make the ability to learn is a necessity in functioning in 
society. Therefore, traditional and modernize information should be in balance for student education. A student 
learning material has the potential as a solution to contribute to the goals of education, by supporting 
autonomous, life-long, student-centered learning.  

Indonesia is one of the world's richest nations in terms of its biodiversity as the country is archipelago made 
up of about 17,000 islands. Each island has unique ecosystems containing a large number of diverse species, 
including plant (Baines & Hendro, 2010; Woodruff, 2010). However, most of the Indonesian people do not 
realize the importance the biodiversity since there are a lot of human activities degrade the environment and 
will have an impact of biodiversity loss. Experiences of biodiversity for students seemed to be important for the 
future development of their understanding. The student can construct the information by their own experiences 
of biodiversity in nature and develop the ideas the necessity for conserving nature as lifelong learning and for a 
sustainable future. Fieldwork is an alternative to conventional lecture and laboratory classes and offers much 
scope for student-centered process in Biodiversity learning. According to Berg, Jäkel, and Penzes (2016) and 
Jäkel (2014), teaching and learning about plant biodiversity, in general, should give preference to outdoor 
ecological settings and fieldwork methods can facilitate student to explore and experience nature. However, 
fieldwork cannot frequently be used in the classrooms since the method has disadvantages such as difficult to 
organize with a large number of students, risks of injury, etc.  

These problems can be solved by providing contextual material such as module, which helps students to 
connect the learning content with the life contexts. The module is a learning material which has systematically 
compiled and designed to help students achieve a specific learning objective. Learning depends on the active 
involvement of the learner (Collins, 2004). As they strive to attain learning objectives, they draw upon their 
previous experiences and build upon existing knowledge. By learning the subjects in an integrated, 
multidisciplinary manner and inappropriate contexts, they are able to use the acquired knowledge and skills in 
applied contexts. Thus, contextual learning module refers to the materials that let the student processes new 
information or knowledge in such a way that it makes sense to them in their own frames of reference. This 
assumes that the mind naturally seeks meaning in context, that is in relation to the person's current 
environment, and that it does so by searching for relationships that make sense and appear useful. The 
contextual learning module also serves as independent learning. It contains self-instruction by various kinds of 
methods, the entire learning material from one unit of competency studied contains in just one complete 
module and stand-alone (Daryanto, 2013). The module is not depending on any other media, or should not be 
used in conjunction with other media  

Ministry of National Education of Indonesia, regulation number 22 of 2006, each educational unit must 
develop its own curriculum based on local content. Local content is a study material which is intended to form 
the students understanding of the potential in the area where the student lives. In Article 77 of Government 
Regulation, No. 32 the Year 2013 about National Education Standards states that local content for each 
educational unit should introduce on the local potential and uniqueness. Local content is developed and 
implemented at any educational institution. Local content itself further constitute the study materials in the 
education unit that contains the content and process of learning about the local potential and uniqueness that is 
intended to form the students understanding of the potential in the area where he lives such as knowledge of 
the various characteristic natural environment of the region.  

Based on the results of interviews with high school biology teachers in Banten province, the student faced 
were some obstacles in learning Plant biodiversity concept. Poor identification skills among the student become 
a fundamental limitation and may contribute to a reduced ability or willingness to engage in documenting plant 
biodiversity. How student exploit and conserve plant diversity if they cannot recognize it. Identity and giving 
names of plant species will facilitate student on sharing about the utilization of the species (Silalahi, 2017). 
Many benefits and roles possessed by plants as a source of food, and also as medicine (Fernando, 2012). 
Also, learning material accessed by the student also lacked information and knowledge regarding the 
surrounding environment and traditional value. One of strategy to overcome the obstacle in the learning 



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process is by developing the module's content based on ethnobotany study on medicinal plants carried out in 
Inner Baduy, Cibeo Hamlet, Kanekes village, sub-district of Leuwidamar, district of Lebak, Banten Province.  

Baduy is inhabitants of the Kendeng mountain region, less than 200 km from Jakarta, the capital of 
Indonesia. The Baduy traditional community depend on the biodiversity of the forest resources for their 
livelihood. They practice norms and beliefs that are articulated in the form of a code of conduct, and they have 
taboos that mediate their daily behavior. The natural resources utilization by Baduy traditional community 
depends on the traditional knowledge which influenced the paradigm of the people on health and local wisdom 
to conserve the biodiversity of their region (El Islami, Nuangchalerm, & Sjaifuddin, 2018; Parmin, 
Nuangchalerm, & El Islami, 2019). This information needs to be introduced to the student. In addition, since 
there is poor documentation related to Baduy biodiversity, inventory activities to record and process this 
information is a vital component to sustain biodiversity management. Many specimens provided in the 
developed module are photographed, drawn and used to produce an illustrated group report on plant 
biodiversity utilize by the Baduy tribe will give student chance students to examine, identify and interpret the 
concept. The students potentially acquire in-depth knowledge about the specimens provided. This research 
aimed to develop a contextual-based module as a learning resource in medicinal plant diversity and 
ethnobotany from Inner Baduy community in West Java, Indonesia. 

METHOD 

This research was employed research and development (R & D) method with three phases of Thiagarajan, 
Semmel, and Semmel (1974) model: define, design, and development for developing a contextual-based 
module as a learning resource. The dissemination phase was not conducted in this research since the research 
objectives were to develop a valid media which have been obtained at a development phase. Data were 
collected through qualitative methods by teaching materials and curriculum analysis, questionnaire assessment 
of module and material analysis supported by medicinal plant exploration and ethnobotany. The steps carried 
out in the research are described in Table 1. 

 
Table 1. Steps of instructional development 

Steps Work Log Descriptions 

Define  

Identification 
of needs, 
contents, 
objectives, 
evaluation, 
materials, 
instructional 
media 
curriculum 
analysis 

1. Identified a problem in the plant diversity learning activities 5 five state senior high school 
(SSHS): SSHS 1 of Rangkas Bitung, SSHS 1 of Pandeglang, SSHS 1 of Cilegon, SSHS 1 of 
Tangerang and SSHS 8 of Serang, represented district and city in Banten Province.  

2. Instruments used in this step was a questionnaire to find out the needs of students and 
teachers. The items consisted of the students' questionnaire were the student's perception of 
learning material and resources and study experience. While on teacher questionnaire were 
same as the student but based on teacher point of view. The analysis used was qualitative 
analysis based on the results of questionnaires were obtained. The interview was also carried 
out to support the data on the need assessment.  

3. Curriculum analysis was conducted in order to get information on basic competencies, 
indicators, the essential material, and students needs. 

4. Prior to documenting ethnobotany data, semi-structured interviews and focus group 
discussions, personal conversations with locals included several Dukun (traditional healer) and 
indigenous people who were interviewed in order to record their household recipes for the 
preparation of medicinal plant into traditional medicine, and field surveys were carried out on 
February-April 2018 

Design  

Create 
module 
design, cover, 
story board & 
module 
content 

Prepared the initial draft of the module with several aspects of consideration: feasibility, linguistic 
and presentation, graphics, and local knowledge of biodiversity and ethnobotany, local wisdom in 
exploration and interview the Baduy traditional community.  

Development  

Produce 
modules, 
validation 
material and 
modules by 
experts, and 
determine the 
level of 
effectiveness 

The questionnaire instruments used are a validation questionnaire for media experts (construct, 
language, and media) and material experts (biodiversity and local wisdom) used in the design 
validation stage by education professionals and peers. 
Revise the comment given by experts for developing contextual-based module; experts raised 
their opinions and ways to develop a module as well. Then, the module was implemented with 
students for correcting the appropriateness and feasibility. 

 



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RESULTS AND DISCUSSION 

Based on need assessment analysis through the students and teacher questionnaires indicated that 
many of the student have difficulties on mastering plant diversity concept as 70% of learning resources 
provided the related information without any supporting images and the language used is difficult to 
understand. According to the teachers there is a little reference used as student learning resources based on 
local content, even though Banten Province has a variety of habitat types, natural potential and high levels of 
biodiversity. In addition, learning resources available on the market generally do not match the conditions of 
the school or the characteristics of students, and a lot of adjustments need to be made. Therefore, there is an 
urgency to develop the student learning materials which adapted to the conditions of students and usefulness 
of the instructional materials throughout the student daily activities. Beside that it is also necessary to develop 
learning materials that can facilitate the the student to implement the learning process independently, such as 
the research-based module.  

Based on need assessment analysis through the students and teacher questionnaires indicated that 
many of the students have difficulties in mastering plant diversity concept as 70% of learning resources 
provided the related information without any supporting images and the language used is difficult to 
understand. According to the teachers, there is a little reference used as student learning resources based on 
local content, even though Banten Province has a variety of habitat types, natural potential, and high levels of 
biodiversity. In addition, learning resources available on the market generally do not match the conditions of 
the school or the characteristics of students, and a lot of adjustments need to be made. Therefore, there is an 
urgency to develop the student learning materials which adapted to the conditions of students and usefulness 
of the instructional materials throughout the student daily activities. Besides that, it is also necessary to 
develop learning materials that can facilitate the student to implement the learning process independently, 
such as the research-based module.  

Learning materials available today already meet the needs of students of the theory curriculum but cannot 
lead students to develop a critical mindset to be able to apply the theory (Flores, Matkin, Burbach, Quinn, & 
Harding, 2012; Serdyukov, 2018). Students should be empowered, facilitated, motivated, and allowed to 
construct knowledge according to their interests and needs and give the freedom to learn by themselves 
(Mahbub, Imtiaz, Roy, Rahman, & Ahad, 2013). Therefore, learning material in the form of the module was 
developed in aiming to help the students understand the concept of theory but also common in doing scientific 
activities to dig their knowledge. Scientific activity is the process that involves students in forming a hypothesis 
including identifying variables and selecting a variable, planning and carrying out the investigation, recording, 
presenting, and interpreting the results, evaluating the hypothesis in relation to the results of the investigation, 
drawing any inference from the results, and communicating the findings (Supasorn & Waengchin, 2014). 
Utilization of appropriate learning resources can improve the student learning process so that it can be 
effective and efficient. In accordance with Bahri, Syamsuri, and Mahanal (2016), the existence of modules in 
the learning process can provide learning resources that contain material, methods, and methods of 
evaluating systematically designed to help students achieve learning competencies.  

The development of Contextual based Student's Medicinal Plant Diversity and Ethnobotany Module as 
learning media for Plant Diversity was preceded by designing the module according to the Curriculum 2013. In 
general, it contains the Biodiversity general concept, Biodiversity level, Ecosystem, and Biodiversity Utilization. 
The materials are delivered simply and supported by interesting pictures and cultural contents such as Baduy 
traditional culture. The development stage is necessary because according to Amin (2010), the development 
of learning materials based on contemporary research will provide the strengthening of education 
development based on the development of contemporary biological knowledge. Contextual learning used as 
an approach for student activity in learning plant diversity by involving seven major aspects: constructivism, 
questioning, inquiry, learning community, modeling, and authentic assessment. 

The constructivism aspect in the developed module was applied through the illustrations of guava 
(Psidium guajava L.) plants morphology which has familiar to students. Guava is an exquisite, nutritionally 
valuable, and remunerative fruit crop of tropical and subtropical regions of the world. Guava cultivation 
became a commercial proposition in recent years due to its high nutritive value and popular processed 
products (Amin, 2010). According to Henson (2003), constructivist theory places the student at the center of 
the learning experience, and learner-centered education can be facilitated in a variety of ways. In addition, the 
benefit of guava plant utilization also provided in order to give information related to daily life activities. The 
student also suggested a similar plant which can be easily found in their surroundings and try to identify the 



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morphology and its utilization. The activity can give students opportunities to develop deep explanations; 
learning is enhanced across content areas.  

A questioning aspect is provided in the module by giving student higher-order thinking questions rather 
than a conventional question, which is a heavy emphasize on memory-based. The activity can give students 
opportunities to develop deep explanations based on analysis so that learning is enhanced across content 
areas. By modeling good questioning and encouraging students to ask questions of themselves, it can help 
students learn independently and improve their learning (Corley & Rauscher, 2013). This is in agreement with 
Albergaria-Almeida (2011) that analytical, creative, and practical abilities are directly related to questioning, 
critical thinking, and creativity. Therefore, in the module, a questioning aspect provided in the form of 
independently evaluated or assignment which consists of multiple choices questions.  

Material aspects for module content were obtained based on medicinal plant exploration and interview 
with Baduy traditional community. A total of 67 medicinal plant species belongs to the division Spermatophyte 
recorded and divided into 31 families. For each species, the scientific name with voucher number, family, 
vernacular name in Sundanese, ailments treated, parts used, forms of preparation, and uses were 
documented. The reported plant families were Asteraceae (5 species), Fabaceae, and Euphorbiaceae (4 
species each), Acanthaceae, Poaceae, and Rubiaceae (3 species each), Lamiaceae, Crassulaceae and 
Melastomataceae (2 species each), Amaranthaceae, Convolvulaceae, Moraceae, Urticaceae, Myrtaceae, 
Meliaceae, Annonaceae, Anacardiaceae, Piperaceae, Polygalaceae, Apiaceae, Apocynaceae, Arecaceae, 
Verbenaceae, Malvacaea, Cucurbitaceae, Solanaceae, Caesalpiniaceae, Elaeocarpaceae, Lauraceae, and 
Orchidaceae (3 species each). 

All reported plants are commonly used in medicines to treat several diseases and disorders by the Baduy 
because they are commonly cultivated or grow as wild plants that can be harvested in the forest environment 
near where the Baduy reside. Out of total species used for medicinal value, the majority are herb (41%) 
followed by tree (31%), shrub (19%), climber (7%) and epiphyte (2%) climber (7%) (Figure 1). The most 
widely used family of medicinal plants was the Zingiberaceae, and the highest usability value was the jukut 
bau/babadotan (Ageratum conyzoides) with a value of 0.2. The most practice of drugs' preparation and 
administration was powder. Leaves were the most frequently used plant parts in the preparation of 
ethnomedicinal recipes. 
 

 
Figure 1. Type of medicinal plants 

 
Traditional management and resource use of traditional community based on local knowledge, beliefs, and 

practice have much to contribute to the conservation of biodiversity and environment (Berkes, 2008; 
Chunhabunyatip, Sasaki, Grünbühel, Kuwornu, & Tsusaka, 2018; Finn, Herne, & Castille, 2017; Kanene, 2016; 
Negi, 2010), included in this case is the traditional Baduy community (El Islami et al., 2018; Ichwandi & 
Shinohara, 2007; Iskandar, 2017; Iskandar & Iskandar, 2017). Baduy traditional community has a philosophy of 
life implemented in their life activities; the mountains may not be destroyed, the valleys may not be damaged, 
what is a long may not be cut short, what is short may not be lengthened, the ancestral injunctions may not be 
changed. There are also many prohibitions locally called buyut or teu wasa. It means that their territory is 



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sacred and therefore they do not allow anything (they called teu wasa) to disturb the ecosystem. If it is 
disobeyed, there will be a great disaster upon human life. This norm and belief are articulated in the form of a 
code of conduct, and it is imposed as a taboo on their daily behavior (Ichwandi & Shinohara, 2007). That's a 
valuable knowledge in which transfer from generation to generation along time. 

Inquiry activity contained in the developed module is applied through student instruction for carrying out 
some observations inside and outside the classroom (Dostál, Nuangchalerm, Stebila, & Bal, 2016). Through 
the observation activity, students are expected to obtain meaningful experience. Based on observation, the 
student will have opportunities to clarify, justify their own preconceptions, and describe the result based on 
what they see. The student also needs to analyze the material aspect provided on plant biodiversity used by 
Baduy traditional community and additional information about it. Minner, Levy, and Century (2010) claimed that 
students learning through inquiry activity such as scientific investigations are more likely to increase conceptual 
understanding than rely on more passive techniques. 

According to Lenning and Ebbers (1999), learning communities take four generic forms which are curricular 
learning communities are made up of students co-enrolled in two or more courses (often from different 
disciplines) that are linked by a common theme; classroom learning communities treat the classroom as the 
locus of community-building by featuring cooperative learning techniques and group process learning activities 
as integrating pedagogical approaches; residential learning communities organize on-campus living 
arrangements so that students taking two or more common courses live in close physical proximity, which 
increases the opportunities for out-of-class interactions and supplementary learning opportunities; and student-
type learning communities are specially designed for targeted groups, such as academically underprepared 
students. Application of the learning community component on the developed module is in the form of 
observation are carried out in the classroom. Learning communities were formed by divided the classroom 
member into several groups of students. There are three characteristics in learning community formation 
according to Intanam and Wongwanich (2014), the student can work collaboratively together with reflective 
dialogue or discussion among them, collective focus on student learning and their professional goals and 
gathering and using the results of the evaluation to make decisions regarding the learning progress. In the 
module, the student will conduct an interview on a key person who will give information on medicinal plant 
surrounding their environment.  

The application of the reflection component is applied to the developed module in the form of a column. In 
this column, the student needs to write conclusions and summary of the material that has been studied, which 
performed after learning process finished. Student reflection is an effective way in the learning process. 
Students sometimes are hesitant to ask related questions with the teacher. Bolton (2009) stated that reflective 
practice as the process of paying critical attention to the practical values and theories which inform everyday 
actions, by examining the practice of reflection. Through the provided column, they have the opportunity to ask 
questions and share information through written dialogue. Through written reflections, students often shared 
things that confused them about the week's content or lessons. They asked extended questions about the 
week's objectives, or seek clarification on information shared during class lessons.  

The authentic assessment considers teaching, learning, and assessment as an ongoing, inter-wined, and 
all happening at the same time (Puckett & Black, 2000), and that they strongly influence each other. In this 
module, the authentic assessment does not only measure students' theoretical ability but rather the application 
of their skill and manner. Application of this component to the developed module is through the assessment of 
all activities carried out by students. These activities include quizzes, observations homework, and competency 
tests. Each activity supplied 15% in averages except the competency test. 

Then, a contextual-based module in medicinal plant diversity and ethnobotany was developed and 
assessed by two experts. The results of the learning material validation analysis based on the material aspects 
as well as the aspects of contextual learning component, constructs, and language are shown in Table 2. 
Experts showed valid category with the percentage of 85,75%. This indicates that there was the conformity of 
the content of the learning material with the guidance of the preparation of learning material, so the learning 
material was valid to be used. The module has included core competence, basic competence, and 
achievement indicators of competence inside. 

 
Table 2. Expert’s validation results on contextual module 

No. Validation Validation value (%) Category 

1 Content (Biodiversity and Local wisdom) 93 Valid 
2 Construct 80 Valid 
3 Language 80 Quite valid 
4 Media 90 Valid 

 Average 85,75 Valid 

 



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After the validation from the experts has been carried out, several aspects need to be revised and 
improved. The material used had to be varied to avoid monotony, instructions were given also need a slightly 
revised to further refers to measures scientific approach. The use of language was also slightly revised by 
taking into account the grammatical structure of General Guidelines for Indonesian Spelling called PUEBI 
(Pedoman Umum Ejaan Bahasa Indonesia). Some revisions were also conducted in aspects such as the 
appearance of the size and font type used, the empty space available as the characteristics of the module, and 
some colored composition. The attractiveness of learning materials can be placed in several parts such as the 
cover, the content of the section by placing stimuli in the form of pictures or illustrations, and interestingly 
packaged exercises as in agreement with Molina, Navarro, Ortega, and Lacruz (2018) that the design mainly of 
images and text can influence the efficiency of learning materials. The contents or cover of teaching materials 
can be packaged by combining attractive colors. According to Arsyad (2009) color is used as a determinant and 
attracting attention to important information.   

The suggestions are used as guidance in the improvement of the module to produce the appropriate 
module as learning materials. The next stage was the implementation of the product. In this stage, the revised 
module based on the assessment of the experts has to be tested. The small-scale trial was conducted by the 
simulation to 8-12 student randomly to determine the quality of the module based on the aspects of practicality. 
Students, as respondents were asked several questions by filling out a questionnaire, included five indicators: 
content, linguistic, presentation, graphic, implementation (Figure 2). 

 

 
Figure 2. Students’ opinion towards contextual-based module 

 

Students have an opinion towards contextual-based module, in general, is 83.53% with a very feasible 
category. The student gave a positive response to the developed module. Presentation aspect gets the highest 
score (89.5%) with the category very decent. It can be indicated that the module has been developed in a 
systematic structure and interesting. According to Bahtiar (2015), good teaching materials must contain 
adequate substance and presented systematically to achieve goals learning. In addition, Suryawati and Osman 
(2018) state that the module developed in this study can facilitate contextual learning by providing real samples 
on the concept explanation and have a positive impact on students.  

CONCLUSION 

The module provided Ethnobotany-based learning process which compiles works that explore traditional 
plant-based medicines and knowledge, customs, and uses of plants have been developed through define, 
design, and development stages of Thiagarajans’ model.  Based on the judgment and validation proved that 
the media was very properly able to be used in classroom and instruction. The response of students to the 
learning material was very good with 83.5%. Overall it can be concluded that the use of learning media were 
very proper to develop students’ understanding of plant biodiversity concept based on the National Education 
Standardization Agency.  

ACKNOWLEDGMENT 

The study was conducted with financial support from the Islamic Development Bank, arranged by University 
of Sultan Ageng Tirtayasa (No. 356/UN43.9/PL/2017). The authors would like to express their gratitude to the 



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Baduy community for participating in the study as well as for sharing their indigenous knowledge and their 
hospitality. The authors would also like to acknowledge all of the students of biology education at the University 
of Sultan Ageng Tirtayasa, who contributed to the study in various ways. 

REFERENCES 

Albergaria-Almeida, P. (2011). Critical thinking, questioning and creativity as components of intelligence. In 
Procedia-Social and Behavioral Sciences (Vol. 30, pp. 357–362). doi: https://doi.org/10.1016/j.sbspro. 
2011.10.070 

Amin, M. (2010). Implementasi hasil-hasil penelitian bidang biologi dalam pembelajaran. Seminar Nasional 
Pendidikan Biologi FKIP UNS, 7(1), 12–18. Retrieved from https://jurnal.uns.ac.id/prosbi/article/view/59 
52/5336 

Arsyad, A. (2009). Media pembelajaran. Depok, Indonesia: PT. RajaGrafindo Persada. Retrieved from 
http://www.rajagrafindo.co.id/produk/media-pembelajaran/ 

Bahri, S., Syamsuri, I., & Mahanal, S. (2016). Pengembangan modul keanekaragaman hayati dan virus 
berbasis model inkuiri terbimbing untuk siswa kelas X MAN 1 Malang. Jurnal Pendidikan: Teori, 
Penelitian, Dan Pengembangan, 1(2), 127–136. Retrieved from http://journal.um.ac.id/index.php/jptpp/ 
article/view/6113 

Bahtiar, E. T. (2015). Penulisan bahan ajar. In Pelatihan Penyusunan Bahan Ajar untuk Mendukung 
Pelaksanaan Tri Dharma Perguruan Tinggi (pp. 1–11). Medan: Fakultas Pertanian-Universitas 
Sumatera Utara. doi: https://doi.org/10.13140/RG.2.1.1441.6083 

Baines, G., & Hendro, M. (2010). Indonesia. In The status of biodiversity in Asia (pp. 131–158). Hanoi: ICEM–
International Centre for Environmental Management. Retrieved from http://www.icem.com.au/docume 
nts/biodiversity/bioplan/indonesia.pdf 

Berg, J., Jäkel, L., & Penzes, A. (2016). Digital and conventional microscopy - Learning effects detected 
through eye tracking and the use of interactive whiteboards. Universal Journal of Educational Research, 
4(6), 1319–1331. doi: https://doi.org/10.13189/ujer.2016.040609 

Berkes, F. (2008). Sacred ecology (1st ed.). New York, US: Routledge. doi: https://doi.org/10.4324/9780203 
928950 

Bolton, G. (2009). Write to learn: Reflective practice writing. InnovAiT: Education and Inspiration for General 
Practice, 2(12), 752–754. doi: https://doi.org/10.1093/innovait/inp105 

Chunhabunyatip, P., Sasaki, N., Grünbühel, C., Kuwornu, J. K. M., & Tsusaka, T. W. (2018). Influence of 
indigenous spiritual beliefs on natural resource management and ecological conservation in Thailand. 
Sustainability (Switzerland), 10(8). doi: https://doi.org/10.3390/su10082842 

Collins, J. (2004). Education techniques for lifelong learning: Principles of adult learning. Radiographics, 
24(5), 1483–1489. doi: https://doi.org/10.1148/rg.245045020 

Corley, M. A., & Rauscher, W. C. (2013). Deeper learning through questioning. TEAL Center Fact Sheet. The 
Teaching Excellence in Adult Literacy (TEAL) Center. Retrieved from https://lincs.ed.gov/sites/default/ 
files/12_TEAL_Deeper_Learning_Qs_complete_5_1_0.pdf 

Daryanto, D. (2013). Menyusun modul bahan ajar untuk persiapan guru dalam mengajar. Yogyakarta: Gava 
Media. Retrieved from http://library.fis.uny.ac.id/opac/index.php?p=show_detail&id=5752&keywords= 

DeDonno, M. A. (2016). The influence of IQ on pure discovery and guided discovery learning of a complex 
real-world task. Learning and Individual Differences, 49, 11–16. doi: https://doi.org/10.1016/j.lindif.2016. 
05.023 

Dostál, J., Nuangchalerm, P., Stebila, J., & Bal, B. (2016). Possibilities of inducing pupilsź inquiry activities 
during instruction. In Proceedings of the 8th International Conference on Computer Supported 
Education (pp. 107–111). Portugal: SCITEPRESS-Science and Technology Publications, Lda. doi: 
https://doi.org/10.5220/0005795701070111 

El Islami, R. A. Z., Nuangchalerm, P., & Sjaifuddin, S. (2018). Science process of environmental conservation: 
A cross national study of Thai and Indonesian pre-service science teachers. Journal for the Education of 
Gifted Young Scientists, 6(4), 72–80. doi: https://doi.org/10.17478/jegys.2018.84 

Fernando, W. G. D. (2012). Plants: An international scientific open access journal to publish all facets of 
plants, their functions and interactions with the environment and other living organisms. Plants, 1(1), 1–
5. doi: https://doi.org/10.3390/plants1010001 

Finn, S., Herne, M., & Castille, D. (2017). The value of traditional ecological knowledge for the environmental 

https://doi.org/10.1016/j.sbspro.2011.10.070
https://doi.org/10.1016/j.sbspro.2011.10.070
https://jurnal.uns.ac.id/prosbi/article/view/5952/5336
https://jurnal.uns.ac.id/prosbi/article/view/5952/5336
http://www.rajagrafindo.co.id/produk/media-pembelajaran/
http://journal.um.ac.id/index.php/jptpp/article/view/6113
http://journal.um.ac.id/index.php/jptpp/article/view/6113
https://doi.org/10.13140/RG.2.1.1441.6083
http://www.icem.com.au/documents/biodiversity/bioplan/indonesia.pdf
http://www.icem.com.au/documents/biodiversity/bioplan/indonesia.pdf
https://doi.org/10.13189/ujer.2016.040609
https://doi.org/10.4324/9780203928950
https://doi.org/10.4324/9780203928950
https://doi.org/10.1093/innovait/inp105
https://doi.org/10.3390/su10082842
https://doi.org/10.1148/rg.245045020
https://lincs.ed.gov/sites/default/files/12_TEAL_Deeper_Learning_Qs_complete_5_1_0.pdf
https://lincs.ed.gov/sites/default/files/12_TEAL_Deeper_Learning_Qs_complete_5_1_0.pdf
http://library.fis.uny.ac.id/opac/index.php?p=show_detail&id=5752&keywords=
https://doi.org/10.1016/j.lindif.2016.05.023
https://doi.org/10.1016/j.lindif.2016.05.023
https://doi.org/10.5220/0005795701070111
https://doi.org/10.17478/jegys.2018.84
https://doi.org/10.3390/plants1010001


JPBI (Jurnal Pendidikan Biologi Indonesia) 
Vol. 5, No. 2, July 2019, pp. 197-206 

 

205  

 Khastini et.al (Ethnobotanical study of medicinal plants …) 

health sciences and biomedical research. Environmental Health Perspectives, 125(8), 1–9. doi: https:// 
doi.org/10.1289/EHP858 

Flores, K. L., Matkin, G. S., Burbach, M. E., Quinn, C. E., & Harding, H. (2012). Deficient critical thinking skills 
among college graduates: Implications for leadership. Educational Philosophy and Theory, 44(2), 212–
230. doi: https://doi.org/10.1111/j.1469-5812.2010.00672.x 

Fry, H., Ketteridge, S., & Marshall, S. (Eds.). (2009). A handbook for teaching and learning in higher 
education: Enhancing academic practice. Routledge Taylor & Francis Group (3rd ed.). New York and 
London: Routledge. doi: https://doi.org/10.1080/17439884.2010.481558 

Henson, K. (2003). Foundations for learner-centered education: A knowledge base. Education, 124(1), 5. 
Retrieved from https://pdfs.semanticscholar.org/a882/46ce7ffdf2812c77f536bdc10b6afbd8cf63.pdf 

Ichwandi, I., & Shinohara, T. (2007). Indigenous practices for use of and managing tropical natural resources: 
A case study on Baduy community in Banten, Indonesia. Tropics, 16(2), 87–102. doi: https://doi.org/10. 
3759/tropics.16.87 

Intanam, N., & Wongwanich, S. (2014). An application of the professional learning community approach to 
developing the learning process and enhancing academic achievement in the mathematics and science 
teaching of the primary school student. In Procedia - Social and Behavioral Sciences (Vol. 131, pp. 
476–483). Elsevier B.V. doi: https://doi.org/10.1016/j.sbspro.2014.04.151 

Iskandar, J. (2017). Local knowledge of the Baduy community of South Banten (Indonesia) on the traditional 
landscapes. Biodiversitas, Journal of Biological Diversity, 18(3), 928–938. doi: https://doi.org/10.13057/ 
biodiv/d180309 

Iskandar, J., & Iskandar, B. S. (2017). Various plants of traditional rituals: Ethnobotanical research among the 
Baduy community. Biosaintifika: Journal of Biology & Biology Education, 9(1), 114. doi: https://doi.org/ 
10.15294/biosaintifika.v9i1.8117 

Jäkel, L. (2014). Interest and learning in botanics, as influenced by teaching contexts. In C. P. Constantinou, 
N. Papadouris, & H. Hadjigeorgius (Eds.), E-Book Proceedings of the ESERA 2013 Conference: 
Science Education Research For Evidence-based Teaching and Coherence in Learning (pp. 1–12). 
Nicosia, Cyprus: ESERA. Retrieved from https://www.phhd-forschung.de/upload/dateien/315_187.pdf 

Kanene, K. M. (2016). Indigenous practices of environmental sustainability in the Tonga community of 
southern Zambia. Jàmbá: Journal of Disaster Risk Studies, 8(1), 1–7. doi: https://doi.org/10.4102/jamba. 
v8i1.331 

Karimi, R. (2011). Interface between problem-based learning and a learner-centered paradigm. Advances in 
Medical Education and Practice, 2, 117–125. doi: https://doi.org/10.2147/amep.s12794 

Lenning, O. T., & Ebbers, L. H. (1999). The powerful potential of learning communities: Improving education 
for the future. ASHE-ERIC Higher Education Report (Vol. 26). Washington, D.C.: ERIC Clearinghouse 
on Higher Education. Retrieved from https://files.eric.ed.gov/fulltext/ED428606.pdf 

Mahbub, U., Imtiaz, H., Roy, T., Rahman, M. S., & Ahad, M. A. R. (2013). A template matching approach of 
one-shot-learning gesture recognition. Pattern Recognition Letters, 34(15), 1780–1788. doi: https://doi. 
org/10.1016/j.patrec.2012.09.014 

Minner, D. D., Levy, A. J., & Century, J. (2010). Inquiry-based science instruction-what is it and does it 
matter? Results from a research synthesis years 1984 to 2002. Journal of Research in Science 
Teaching, 47(4), 474–496. doi: https://doi.org/10.1002/tea.20347 

Molina, A. I., Navarro, Ó., Ortega, M., & Lacruz, M. (2018). Evaluating multimedia learning materials in 
primary education using eye tracking. Computer Standards and Interfaces, 59, 45–60. doi: https://doi. 
org/10.1016/j.csi.2018.02.004 

Negi, C. S. (2010). Traditional culture and biodiversity conservation: Examples from Uttarakhand, Central 
Himalaya. Mountain Research and Development, 30(3), 259–265. https://doi.org/10.1659/mrd-journal-d-
09-00040.1 

Parmin, P., Nuangchalerm, P., & El Islami, R. A. Z. (2019). Exploring the indigenous knowledge of Java North 
Coast Community (Pantura) using the science integrated learning (SIL) model for science content 
development. Journal for the Education of Gifted Young Scientists, 7(1), 71–83. doi: https://doi.org/10. 
17478/jegys.466460 

Puckett, M. B., & Black, J. K. (2000). Authentic assessment of the young child: Celebrating development and 
learning. Des Moines, IA: Prentice-Hall. Retrieved from https://eric.ed.gov/?id=ED435653 

Sadler, P. M., Coyle, H., Smith, N. C., Miller, J., Mintzes, J., Tanner, K., & Murray, J. (2013). Assessing the life 
science knowledge of students and teachers represented by the K-8 national science standards. CBE 

https://doi.org/10.1289/EHP858
https://doi.org/10.1289/EHP858
https://doi.org/10.1111/j.1469-5812.2010.00672.x
https://doi.org/10.1080/17439884.2010.481558
https://pdfs.semanticscholar.org/a882/46ce7ffdf2812c77f536bdc10b6afbd8cf63.pdf
https://doi.org/10.3759/tropics.16.87
https://doi.org/10.3759/tropics.16.87
https://doi.org/10.1016/j.sbspro.2014.04.151
https://doi.org/10.13057/biodiv/d180309
https://doi.org/10.13057/biodiv/d180309
https://doi.org/10.15294/biosaintifika.v9i1.8117
https://doi.org/10.15294/biosaintifika.v9i1.8117
https://www.phhd-forschung.de/upload/dateien/315_187.pdf
https://doi.org/10.4102/jamba.v8i1.331
https://doi.org/10.4102/jamba.v8i1.331
https://doi.org/10.2147/amep.s12794
https://files.eric.ed.gov/fulltext/ED428606.pdf
https://doi.org/10.1016/j.patrec.2012.09.014
https://doi.org/10.1016/j.patrec.2012.09.014
https://doi.org/10.1002/tea.20347
https://doi.org/10.1016/j.csi.2018.02.004
https://doi.org/10.1016/j.csi.2018.02.004
https://doi.org/10.1659/mrd-journal-d-09-00040.1
https://doi.org/10.1659/mrd-journal-d-09-00040.1
https://doi.org/10.17478/jegys.466460
https://doi.org/10.17478/jegys.466460
https://eric.ed.gov/?id=ED435653


 JPBI (Jurnal Pendidikan Biologi Indonesia)    
 Vol. 5, No. 2, July 2019, pp. 197-206 

 

206  

 Khastini et.al (Ethnobotanical study of medicinal plants …) 

Life Sciences Education, 12(3), 553–575. doi: https://doi.org/10.1187/cbe.12-06-0078 
Serdyukov, P. (2018). Innovation in education: What works, what doesn’t, and what to do about it? Journal of 

Research in Innovative Teaching & Learning, 10(1), 4–33. doi: https://doi.org/10.1108/jrit-10-2016-0007 
Silalahi, M. (2017). Pengetahuan mahasiswa terhadap keanekaragaman tumbuhan di lingkungan kampus 

(Studi kasus prodi pendidikan biologi UKI). Al-Kauniyah: Jurnal Biologi, 9(1), 19–25. doi: https://doi.org/ 
10.15408/kauniyah.v9i1.3254 

Strømme, T. A., & Furberg, A. (2015). Exploring teacher intervention in the intersection of digital resources, 
peer collaboration, and instructional design. Science Education, 99(5), 837–862. doi: https://doi.org/10. 
1002/sce.21181 

Supasorn, S., & Waengchin, S. (2014). Development of grade 8 students’ learning achievement on chemical 
reaction by using scientific investigation learning activities. In Procedia - Social and Behavioral Sciences 
(Vol. 116, pp. 744–749). Elsevier B.V. doi: https://doi.org/10.1016/j.sbspro.2014.01.291 

Suryawati, E., & Osman, K. (2018). Contextual learning: Innovative approach towards the development of 
students’ scientific attitude and natural science performance. Eurasia Journal of Mathematics, Science 
and Technology Education, 14(1), 61–76. doi: https://doi.org/10.12973/ejmste/79329 

Thiagarajan, S., Semmel, D. S., & Semmel, M. I. (1974). Instructional development for training teachers of 
exceptional children: A sourcebook. Bloomington, Indiana: Center for Innovation in Teaching the The 
Handicappaed & Indiana University. Retrieved from https://files.eric.ed.gov/fulltext/ED090725.pdf 

Woodruff, D. S. (2010). Biogeography and conservation in Southeast Asia: How 2.7 million years of repeated 
environmental fluctuations affect today’s patterns and the future of the remaining refugial-phase 
biodiversity. Biodiversity and Conservation, 19(4), 919–941. doi: https://doi.org/10.1007/s10531-010-
9783-3 

  
 

https://doi.org/10.1187/cbe.12-06-0078
https://doi.org/10.1108/jrit-10-2016-0007
https://doi.org/10.15408/kauniyah.v9i1.3254
https://doi.org/10.15408/kauniyah.v9i1.3254
https://doi.org/10.1002/sce.21181
https://doi.org/10.1002/sce.21181
https://doi.org/10.1016/j.sbspro.2014.01.291
https://doi.org/10.12973/ejmste/79329
https://files.eric.ed.gov/fulltext/ED090725.pdf
https://doi.org/10.1007/s10531-010-9783-3
https://doi.org/10.1007/s10531-010-9783-3