Morphological diversity of arabica coffee (Coffea arabica) by in-situ exploration in three agroecosystems West Java, Indonesia

Authors

  • Yudithia Maxiselly Department of Agronomy, Faculty of Agriculture, Universitas Padjadjaran, Sumedang, West Java, Indonesia. https://orcid.org/0000-0002-7402-6727
  • Fukita Ghaury Atiningsih Bachelor Program of Agrotechnology, Faculty of Agriculture, Universitas Padjadjaran, Sumedang, West Java, Indonesia. https://orcid.org/0009-0006-6041-7192
  • Siska Rasiska Department of Plant Pest and Diseases, Faculty of Agriculture Universitas Padjadjaran, Sumedang, West Java, Indonesia. https://orcid.org/0000-0003-2394-7056
  • Dedi Hutapea Research Center for Horticulture, Research Organization for Agriculture and Food, National Research and Innovation Agency, Cibinong, West Java, Indonesia. https://orcid.org/0000-0002-1801-1918
  • Citra Bakti Department of Agronomy, Faculty of Agriculture, Universitas Padjadjaran, Sumedang, West Java, Indonesia. https://orcid.org/0000-0001-9011-2679
  • Abdillah Azzam Wahyudin Bachelor Program of Agrotechnology, Faculty of Agriculture, Universitas Padjadjaran, Sumedang, West Java, Indonesia. https://orcid.org/0009-0009-7951-5106
  • Yani Maharani Department of Plant Pest and Diseases, Faculty of Agriculture Universitas Padjadjaran, Sumedang, West Java, Indonesia. https://orcid.org/0000-0002-0748-0647

DOI:

https://doi.org/10.25186/.v20i.2345

Abstract

Arabica coffee, a type of coffee in high demand, is cultivated in various regions. West Java is a significant contributor to Arabica coffee production in Indonesia. This region has various coffee agroecosystems. The research aims to identify the diversity of West Java Arabica coffee cultivated in different agroecosystems. The research involved observing plantation locations of Arabica coffee in Cimaung, Cilengkrang, and Pangalengan, West Java, in three agroecosystems (agroforestry, intercropping area, and residential area). Fifty-two accessions were found and analyzed using the Shannon diversity index for qualitative characters, Principal Component Analysis (PCA), and Cluster analysis. The Shannon diversity index revealed the range between 0.221 and 1.55; the PCA results show a variability of 43.208% on two main components (PC1-PC2), indicating a wide variation for Arabica coffee accessions. The characteristics of fruit, seed, and leaf qualitative traits were influential in determining diversity. The cluster analysis explained the distribution patterns of
agroecosystems and the relationship of each accession. It showed a close relationship between agroforestry and residential areas. The cluster analysis also revealed distinct variations of accessions in the agroforestry and residential area at Cilengkrang compared to others. Based on the results, these findings could potentially be used as basic knowledge to develop a new Arabica coffee clone, especially in West Java. 

Key words: Accession; agroecosystem; cluster analysis; diversity index; principal component analysis.

References

ASEGID, A.; GAREDEW, W.; TEFERA, F. Cluster and principal component analysis of coffee (Coffea arabica L.) diversity using quantitative traits in the South Western Ethiopian. International Journal of Research Studies in Science, Engineering and Technology, 10:20-27, 2023.

ANDINI, R. et al. Making biodiversity work for coffee production. A case study of Gayo Arabica coffee in Indonesia. MOJ Ecology and Environmental Science, 6:156-162, 2021.

AZAM, M. G. et al. Genetic analyses of mungbean [Vigna radiata (L.) Wilczek] breeding traits for selecting superior genotype (s) using multivariate and multi-traits indexing approaches. Plants, 12:1984, 2023.

BONNY, B. S. et al. Agromorphological divergence among four agro-ecological populations of Bambara groundnut (Vigna subterranea (L.) Verdc.) in Côte d'Ivoire. Annals of Agricultural Sciences, 64:103-111, 2019.

BUCHANAN, S. et al. Functional traits of coffee along a shade and fertility gradient in coffee agroforestry systems. Agroforestry Systems, 93:1261-1273, 2019.

BADAN PUSAT STATISTIK - BPS. Indonesia coffee statistics 2022. Jakarta, 2023. Available at: <https://www.bps.go.id/id/publication/2023/11/30/abde293e6c0fc5d45aaa9fe8/statistik-kopi-indonesia-2022.html> Accessed on November, 17, 2024.

DI PIETRANTONIO, D. et al. Protective effect of caffeine and chlorogenic acids of coffee in liver disease. Foods, 13(14):2280, 2024

FITHRIYYAH, D.; WULANDARI, E.; SENDJAJA, T. P. Knowledge level of farmers and the importance of coffee seedling attributes and accessibilities in Bandung Regency, West Java, Indonesia. Pelita Perkebunan (a Coffee and Cocoa Research Journal), 36:249-263, 2020.

GEBRESELASSIE, H.; TESFAYE, B.; GEDEBO. Genetic diversity of Arabica coffee genotypes in south Ethiopia using quantitative agro-morphological traits. Genetic Resources and Crop Evolution, 71:3485-3506, 2024.

INTERNATIONAL PLANT GENETIC RESOURCES INSTITUTE-IPGRI. Descriptors for coffee (Coffea Spp. and Psilanthus Spp.). Rome: IPGRI, 1-39, 1996.

ISAAC, M. E. et al. Shade tree trait diversity and functions in agroforestry systems: A review of which traits matter. Journal of Applied Ecology, 61:1159-1173, 2024.

ISKANDAR, B. S. et al. Planting coffee and take care of forest: A case study on coffee cultivation in the forest carried out among people of Palintang, Highland of Bandung, West Java, Indonesia. Biodiversitas Journal of Biological Diversity,19:2183-2195, 2018.

JARWAR, A. H. et al. Genetic divergence on the basis of principal component, correlation and cluster analysis of yield and quality traits in cotton cultivars. Pakistan Journal of Botany, 51(3):1-6, 2019.

KHEMIRA, H. et al. Diversity among Coffea arabica populations in southwestern Saudi Arabia as revealed by their morphometric features. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 52(1):13452-13452, 2024.

MAHMOOD, T. et al. Morphological standard based genetic diversity among maize (Zea mays L.) Accessions Indigenous to Pakistan. International Journal of Agriculture and Biosciences, 11(4):212-221, 2022.

MAULANA, H. et al. Heritability and selection using GGE biplots and the sustainability index (SI) of maize mutants under different cropping systems in upland. Sustainability, 15:1-22, 2023.

MAXISELLY, Y. et al. Morpho-Physiological traits and phytochemical compositions of Coffea canephora beans from Lampung for various harvesting stages and soaking durations. International Journal of Plant Biology, 14:746-754, 2023a.

MAXISELLY, Y. et al. Relationship analysis based on phytochemical contents among coffee pulp from three coffee species collected in Southern Thailand and Jambi, Indonesia. Biodiversitas Journal of Biological Diversity, 24:5439-5445, 2023b.

MAXISELLY, Y. et al. Diversity pattern on phytochemical traits of coffee bean skin from various species and harvesting methods. Coffee Science, 19:e192251, 2024.

MELESE, Y.Y.; KOLECH, S.A. Coffee (Coffea arabica L.): methods, objectives, and future strategies of breeding in Ethiopia. Sustainability, 13:10814, 2021.

OGUZ, M. C. et al. Drought stress tolerance in plants: interplay of molecular, biochemical and physiological responses in important development stages. Physiologia, 2:180-197, 2022.

PATHIRANA, R.; CARIMI, F. Management and utilization of plant genetic resources for a sustainable agriculture. Plants, 11:2038, 2022.

PIATO, K. et al. Effects of shade trees on robusta coffee growth, yield and quality. A meta-analysis. Agronomy for Sustainable Development, 40:1-13, 2020.

PRASTOWO, E.; ARIMARSETIOWATI, R. Morphological variations of robusta coffee as a response to different altitude in Lampung. Pelita Perkebunan (a Coffee and Cocoa Research Journal), 35:103-118, 2019.

RICO. et al. Problems identification of Arabica coffee commodities on traditional farming in Indonesia: A review. IOP Conference Series: Earth and Environmental Science, 886:012069, 2021.

ROBA, R.; MOHAMMED, W. Genetic variability of fenugreek (Trigonellafoenum-graecum L.) accessions from agroecological and morphoagronomic traits, Ethiopia. Beverage Plant Research, 4:e014, 2024.

SOLIHIN, E. et al. Soil nutrient and invertase producing bacteria relation impact on cilembu sweet potato (Ipomoea batatas L.) growth: A study based on dry fields and paddy fields cultivation in Cilembu village Sumedang district. Jurnal Kultivasi, 22:85-93, 2023.

SURMA, S.; SAHEBKAR, A.; BANACH, M. Coffee or tea: Anti-inflammatory properties in the context of atherosclerotic cardiovascular disease prevention. Pharmacological Research, 187:106596, 2023.

TAMPUBOLON, J. et al. Indonesian coffee development path: production and international trade. Asian Journal of Agricultural Extension, Economics & Sociology, 41:316-328, 2023.

WAHYUDI, A. et al. Evaluation of qualitative and quantitative traits of ten lowland chili genotypes. Indonesian Journal of Agronomy, 51:389-401, 2023.

WANG, C. et al. Association of coffee consumption and striatal volume in patients with Parkinson’s disease and healthy controls. CNS Neuroscience and Therapeutics, 29:2800-2810, 2023.

WELDEMICHAEL, G. Phenotypic diversity of Ethiopian coffee, Coffea arabica L. accessions collected from gomma district in jimma zone for qualitative traits. International Journal of Research Studies in Science, Engineering and Technology, 7:8-14, 2020.

WIBOWO, B. S.; ATMAJAWATI, Y.; ALI, U. The evolution and growth of the coffee industry in Indonesia: From Colonial History to Modern Cafes. Jurnal Ekonomi Kreatif dan Manajemen Bisnis Digital, 2:302-317, 2024.

YIRGA, M. Phenotypic characterization of coffee (Coffea arabica L.) Germplasm, in Ethiopia. American Journal of BioScience, 9:34-41, 2021.

YIRGA, M.; GEBRESELASSIE, W.; TESFAYE, A. Correlation and path coefficient analysis in coffee (Coffea arabica L.) germplasm accessions in Ethiopia. Science Research, 9:27-34, 2021.

ZASARI, M.; KARTIKA, K.; ALTIN, D. Eksplorasi-karakterisasi morfologi kopi robusta lokal di pulau bangka. Jurnal Agrikultura, 34:200-209, 2023.

Downloads

Published

2025-05-20

How to Cite

MAXISELLY, Yudithia; ATININGSIH, Fukita Ghaury; RASISKA, Siska; HUTAPEA, Dedi; BAKTI, Citra; WAHYUDIN, Abdillah Azzam; MAHARANI, Yani. Morphological diversity of arabica coffee (Coffea arabica) by in-situ exploration in three agroecosystems West Java, Indonesia. Coffee Science - ISSN 1984-3909, [S. l.], v. 20, p. e202345, 2025. DOI: 10.25186/.v20i.2345. Disponível em: https://coffeescience.ufla.br/index.php/Coffeescience/article/view/2345. Acesso em: 24 jan. 2026.

Issue

Vol. 20 (2025): Continuous Publication

Section

Articles

License

Copyright (c) 2025 Coffee Science - ISSN 1984-3909

The copyright of the articles published in this journal belongs to the authors, with the journal holding the first publication rights. As the articles are published in this journal under open access, they may be freely used, with proper attribution, for educational and non-commercial purposes