Ahmed, A. A., Dawood, M. F., Elfarash, A., Mohamed, E. A., Hussein, M. Y., Börner, A., & Sallam, A. (2022). Genetic and morpho-physiological analyses of the tolerance and recovery mechanisms in seedling stage spring wheat under drought stress. Frontiers in Genetics, 13, 1010272.

Ali, A. A., Ibrahim, M. M., & Hassanin, A. A. (2019). Evaluation two different bananas ecotypes (cv. Grand Nine) under in vitro culture conditions. Middle East Journal of Applied Sciences, 9(1), 201-209.

Ali, M. M., Yousef, A. F., Li, B., & Chen, F. (2021). Effect of environmental factors on growth and development of fruits. Tropical Plant Biology, 14, 226–238.

Anjasmara, G. P., Ernawiati, E., Pratami, G., & Setyaningrum, E. (2020). Studi keragaman struktur morfologi dan anatomi petiole (tangkai daun) dari berbagai kultivar pisang kepok (Musa paradisiaca L.). Jurnal Penelitian Pertanian Terapan, 20(1), 74-79.

Astuti, R. D., Aspahani, F., & Gultom, T. (2017). Keragaman genetik pisang (Musa sp.) berdasarkan morfologi di kecamatan Percut Sei Tuan Sumatera Utara. In Prosiding Seminar Nasional III Biologi dan Pembelajarannya Universitas Negeri Medan, 08 September 2017, 88-99.

Auliya, I., Hapsari, L., & Azrianingsih, R. (2019). Comparative study of leaf stomata profiles among different ploidy levels and genomic groups of bananas (Musa L.). IOP Conf. Series: Earth and Environmental Science 391, 012037, 1-10.

Ashokkumar, K., Elayabalan, S., Shobana, V. G., Sivakumar, P., & Pandiyan, M. (2018). Nutritional value of cultivars of Banana ( Musa spp .) and its future prospects. Journal of Pharmacognosy and Phytochemistry, 7(3), 2972–2977.

Aziz, M. A., & Masmoudi, K. (2025). Molecular breakthroughs in modern plant breeding techniques. Horticultural Plant Journal, 11(1), 15-41.

Blandina, B., Siregar, L.A.M, dan Setiado, K. (2019). Identifikasi fenotipe Pisang Barangan (Musa acuminata Linn.) di Kabupaten Deli Sedang Sumatera Utara. Jurnal Agroekoteknologi, 7(1), 94-105.

BPS (2024). Produksi tanaman buah-buahan, 2021-2023. https://www.bps.go.id/id/ statistics-table/2/NjIjMg/produksi-tanaman-buah-buahan.html

Catoni, R., Gratani, L., Sartori, F., Varone, L., & Granata, M. U. (2015). Carbon gain optimization in five broadleaf deciduous trees in response to light variation within the crown: correlations among morphological, anatomical and physiological leaf traits. Acta Bot. Croat, 74, 71–94.

Charrier, G., Ngao, J., Saudreau, M., & Améglio, T. (2015). Effects of environmental factors and management practices on microclimate, winter physiology, and frost resistance in trees. Frontiers in Plant Science, 6(259), 1-18.

Cho. L. H., Yoon, J., &An, G. (2017). The control of fowering time by environmental factors. The Plant Journal, 90(4), 708–719.

Dagnew, A., Assefa, W., Kebede, G., Ayele, L., Mulualem, T., Mensa, A., Kenbon, D., Gabrekirstos, E., Minuye, M., Alemu, A., Beker, J., & Seyoum, M. (2021). Evaluation of banana (Musa spp.) cultivars for growth, yield, and fruit quality. Ethiopian Journal of Agricultural Sciences, 31(3), 1-25.

Darmansyah & Yefriwati. (2018). Identifikasi sifat morfologi dan fisiologi isolat bakteri blood disease bacteria (BBD) pada bibit pisang (Musa sp) Ambon Hijau. Lumbung, 17(2), 83–88.

Dixit, S., Kumar, A., Srinivasan, K., Vincent, P. M., & Ramu Krishnan, N. (2024). Advancing genome editing with artificial intelligence: Opportunities, challenges, and future directions. Frontiers in Bioengineering and Biotechnology, 11.

Ernawiati, E., Pratami, G., Setyaningrum, E., Kiascha, G., & Anggelika, D. (2021). Karakterisasi struktur morfologi dan viabilitas polen dari lima kultivar pisang kepok (Musa paradisiaca L.). Buletin Kebun Raya, 24(1), 35-41.

Everingham, S. E., Catherine A. O., & Manon, E. B. (2024). Leaf morphological traits show greater responses to changes in climate than leaf physiological traits and gas exchange variables. Ecology and Evolution, 14(3), 1-16.

Handayani, T. T. & Pramono, E. (2022). Anatomi paradermal daun anggrek Dendrobium discolour dan Phalaenopsis amabilis secara kuantitatif dan deskriptif. Jurnal Ilmiah Biologi Eksperimen dan Keanekaragaman Hayati, 9(2), 84-90.

Hariyono, D. (2017). Climatic variables study on generative characters of some types of durian (Durio zibethinus Murr.). Bioscience Research, 14(4), 1143-1149.

Hendaru, I. H., Hidayat, Y., & Ramdhani, M. (2017). Karakter morfologi tujuh aksesi pisang dari Maluku Utara. Buletin Plasma Nutfah, 23(1), 13-22.

International Plant Genetic Resources Institute. (1996). Description for Bananas (Musa sp). IPGRI, Rome. 58 p.

Jena, P., Swain, S., Pradhan, B. K., Sahu, P. P., & Rath, S. (2020). Evaluation of new banana (Musa spp.) genotypes under Odisha conditions. International Journal of Chemical Studies, 8(3), 1091-1097.

Jie, L., Jiajian, C., Chunhua, W., Ning, H., Xiaolan, Z., Mingyue, L., & Tao, W. (2022). Research progress on leaf morphology, fruit development and plant architecture of the cucumber. Plants, 11(16), 21-28.

Kanazawa, K. & Sakakibara, H. (2000). High content of dopamine, a strong antioxidant, in cavendish banana. Journal of Agricultural and Food Chemistry, 48(3), 844–848.

Kane, C. D., Jordan, G. J., Jansen, S., & McAdam, A. M. (2020). A Permeable cuticle, not open stomata, is the primary source of water loss from expanding leaves. Frontier in Plant Science, 11, 1-9.

Kurnianingsih, R., Ghazali, M., & Astuti, S.P. (2018). Karakterisasi morfologi tanaman pisang di daerah lombok. Jurnal biologi tropis, 18(2), 235-240.

Lestari, E. G. (2006). Hubungan antara kerapatan stomata dengan ketahanan kekeringan pada somaklon padi Gajahmungkur, Towuti, dan IR 46. Biodiversitas, 7(1), 44-48.

Liu, C., Li, Y., Xu, L., Chen, Z., & He, N. (2019). Variation in leaf morphological, stomatal, and anatomical traits and their relationships in temperate and subtropical forests. Nature, 9, 1-8.

Liu, X., Wu, S., Xu, J., Sui, C., & Wei, J. (2017). Application of CRISPR/Cas9 in plant biology. Acta Pharmaceutica Sinica B, 7(3), 292-302.

Madail, R. H., Pio, L. A. S., Rezende, R. A. L. S., Pasqual, M., & Silva, S. D. O. E. (2022). Banana leaf anatomy characteristics related to ploidy levels. Acta Scientiarum, 44, 1-8.

Makaruku, M.H., Wattimena, A.Y., Tanasale, V.L., & Nendissa, J.I. (2022). Kajian karakteristik morfologi pisang Tongka Langit di Kota Ambon Provinsi Maluku. In Pattimura Proceeding: Conference of Science and Technology, Ambon 26 Maret 2022, 23-27.

Mansoor, S., Karunathilake, E. M. B. M., Tuan, T. T., & Chung, Y. S. (2024). Genomics, phenomics, and machine learning in transforming plant research: Advancements and challenges. Horticultural Plant Journal.

Morais, A. L. D., Alvarenga, B. L., Aoyama, E. M., Zucoloto, M., & Oliveira, V. D. S. (2023). Stomatal characterization in leaves of banana cultivars of type prata and maca. Revista I fes Ciencia, 9(1),1-9.

Nansamba, M., Sibiya, J., Tumuhimbise, R., Karamura, D., Ssekandi, J., Tinzaara, W., & Karamura, E. (2022). Response of banana (Musa spp.) to drought stress based on phenotypic and physiological traits. Journal of Crop Improvement, 37 (6), 751-775.

Nayak, P. K., Jena, P., & Swain, S. (2020). Studies on vegetative characterization of some elite banana genotypes (Musa spp.). International Journal of Chemical Studies, 8(3), 1877-1879.

Nyainleta, G., Pesik, A., & Hiariej, A. (2022). Epidermal structure and leaf stomata of several accessions of banana plants (Musa spp.). Jurnal Penelitian Pendidikan IPA, 8(6), 2974–2979.

Ode, W., Sariamanah, S., Munir, A., & Agriansyah, A. (2016). Karakterisasi morfologi tanaman pisang (Musa paradisiaca L.) di Kelurahan Tobimeita Kecamatan Abeli Kota Kendari. AMPIBI: Jurnal Alumni Pendidikan Biologi, 1(3), 32–41.

Oliveira, E. C. & Miglioranza, E. (2014). Densidade e distribuição estomática em mandioca Manihot esculenta Crantz cultivar IAC 576-70. Scientia Agropecuaria, 5(3), 135-140.

Oyeyinka, B. O. & Afolayan, A. J. (2019). Comparative evaluation of the nutritive, mineral, and antinutritive composition of Musa sinensis L. (banana) and Musa paradisiaca L. (plantain) fruit compartments. Plants, 8(12).

Prince, S., Anower, M. R., Motes, C. M., Hernandez, T. D., Liao, F., Putman, L., ... & Monteros, M. J. (2022). Intraspecific variation for leaf physiological and root morphological adaptation to drought stress in alfalfa (Medicago sativa L.). Frontiers in Plant Science, 13.

Riandini, E. & Astuti, R.R.S. (2020). Hubungan kekerabatan fenetik pisang di Kecamatan Kabawetan, Kabupaten Kepahiang, Provinsi Bengkulu. Al-Hayat: Journal of Biology and Applied Biology, 3(2), 111-117.

Rindyastuti, R, Nurfadilah, S., Rahadiantoro, A., Hapsari, L, & Abiwijaya, I. K. (2018). Leaf anatomical characters of four eppihytic orchids of Sempu Island, East Java, Indonesia: The mportance in indentification and ecological adaptation. Biodiversitas, 19(5), 1902-1905.

Roy, S., Rupam, K., & Piyush, M. (2024). Revisiting changes in growth, phisiology and stress responses of plants under the effect of enhanced CO2 and temperature. Plant Cell Physiol, 65(1), 4–19.

Sawant, G.B., Dalvi, V.V., Ambavane, A.R., & Gadakh, S.A. (2018). Evaluation of qualitative traits in Banana (Musa spp.) genomes. International Journal of Genetics, 10, 548-551.

Sidhu, J. S. & Zafar, T. A. (2018). Bioactive compounds in banana fruits and their health benefits. Food Quality and Safety, 2(4), 183–188.

Sihotang, E. S. & Waluyo, B. (2021). Keanekaragaman tanaman pisang (Musa spp) di kecamatan secanggang, Kabupaten Langkat, Sumatera Utara. Agro Wiralodra, 4(2), 36-41.

Silva, R. A. L., Madail, R. H., Pio, L. A. S., Rodrigues, F. A., Pasqual, M., & Castro, E. M. D. (2014). Leaf anatomy of genotypes of banana plant grown under coloured shade nets. African Journal of Biotechnology, 13(23), 2359-2366.

Sumardi, I. & Wulandari, M. (2010). Anatomy and morphology character of five Indonesian banana cultivars (Musa spp.) of different ploidy level. Biodiversitas, 11(4), 167-175.

Sunandar, A. & Kahar, A.P. (2018). Karakter morfologi dan anatomi pisang diploid dan triploid. Scripta Biologica, 5(1), 31-36.

Suryanarayana, P., Panda, C., & Mishra, S. (2018). Morphological and yield attributing parameters of macro-propagated cultivars of banana (Musa spp L.). The Pharma Innovation Journal, 7(8), 240-245.

Taylor, S. H., Franks, P. J., Hulme, S. P., Spriggs, E.,. Christin, P. A., Edwards, E. J., Woodward F. I., & Osborne, C. P. (2012). Photosynthetic pathway and ecological adaptation explain stomatal trait diversity amongst grasses. New Phytologist, 193, 387–396.

Thatayaone, M., Saji, G., Meagle, J., Netravati, & Bintu, K. (2022). Morphological and horticultural characteristics of some commercial banana (Musa spp.) cultivars of Kerala. Plant Science Today, 9(2), 364–371.

Uwimana, B., Zorrilla-Fontanesi, Y., van Wesemael, J., Mduma, H., Brown, A., Carpentier, S., & Swennen, R. 2021. Effect of seasonal drought on the agronomic performance of four banana genotypes (Musa spp.) in the East African Highlands. Agronomy, 11(1).

Vilhena, R.D.O, Marson, B.M., Budel, J.M., Amano, E., Messias-Reason, I.J.D.T., & Pontarolo, R. (2019). Morpho-anatomy of the inflorescence of Musa × paradisiaca. Revista Brasileira de Farmacognosia, 29(2), 147-151.

Weihan, A. R., Zulkarnain, & Lizawati. (2020). Identifikasi keragaman karakter morfologi tanaman pisang (Musa spp.) wilayah daratan di Kabupaten Tanjung Jabung Timur. Agroscript, 2(2), 67–78.

Wijaya, A. A. (2020). Eksplorasi dan identifikasi pisang apuy sebagai kultivar unggul lokal Kabupaten Majalengka. Agromix, 11(1), 79-86.

Yang, S. J., Sun, M., Zhang, Y. J., Cochard, H., & Cao, K. F. (2014). Strong leaf morphological, anatomical, and physiological responses of a subtropical woody bamboo (Sinarundinaria nitida) to contrasting light environments. Plant. Ecol, 215, 97–109.

Yousef, A. F., Youssef, M. A., Ali, M.M., Ibrahim, M. M., Xu, Y., & Mauro, R. P. (2020). Improved growth and yield response of Jew’s Mallow (Corchorus olitorius L.) plants through biofertilization under semi-arid climate conditions in Egypt. Agronomy, 10(11), 1-14.

Zhang, M., Liu, B., Fei, Y., Yang, X., Zhao, L., Shi, C., ... & Wang, J. (2023). Genetic architecture of leaf morphology revealed by integrated trait module in Catalpa bungei. Horticulture Research, 10(4).