Vatica venulosa Blume merupakan jenis tumbuhan langka dengan kategori Critically Endangered A1c ver 2.3. Benih V. venulosa bersifat rekalsitran dan studi mengenai penentuan waktu panen, standar pengujian viabilitas, kadar air kritis benih untuk mendukung konservasi V. venulosa belum banyak dilakukan. Penelitian ini dilakukan dengan tujuan mempelajari periode perkecambahan, waktu masak fisiologi buah, kadar air kritis dan metode konservasi embrio V. venulosa. Periode perkecambahan V. venulosa memiliki hitungan awal dan akhir pada 23 hari setelah semai (HSS) dan 33 HSS. Benih V. venulosa mencapai masak fisiologi pada 101±3 hari setelah antesis (HSA) sampai 106±3 HSA. Kadar air kritis benih V. venulosa sebesar 38,63%-39,59%. Pertumbuhan embrio V. venulosa menggunakan Woody Plant Medium (WPM) memiliki tingkat keberhasilan sebesar 70% pada kadar air 34,1%. Woody Plant Medium hanya bisa digunakan hingga 15 hari setelah tanam (HST) untuk eksplan embrio tumbuhan berkayu yang memiliki kandungan fenolik tinggi. Benih V. venulosa memiliki daya berkecambah sebesar 78,75%-81,25% dan akan menjadi bibit dengan 2 helai daun pada 45 HSS. Hasil penelitian ini memberikan informasi bahwa benih V. venulosa dapat dipertahankan melalui metode konservasi secara invitro untuk mendukung program konservasi benih tanaman langka.

embrio, hitungan akhir, hitungan awal, kadar air kritis, masak fisiologi

Atmoko, T., Arifin, Z., & Priyono. (2011). Struktur sebaran tegakan dipterocarpaceae di sumber benih Merapit, Kalimantan Tengah. Jurnal Penelitian Hutan dan Konservasi Alam, 8(3), 399-413. doi: 10.20886/jphka.2011.8.4.399-413.

Ashton, P. (1998). Vatica venulosa. The IUCN Red List of Threatened Species 1998: e.T33458A9785745. Diakses dari https://dx.doi.org/10.2305/ IUCN.UK.1998.RLTS.T33458A9785745.en.

Ballesteros, D., Nebot, A., & Pritchard, H. W. (2019). Cryobiotechnology for the long-term preservation of oak. (Quercus sp.) genetic resources. International Society for Horticultural Society Acta Horticulturae 1234. doi: 10.17660/ActaHortic.2019.1234.5

Chin, H. F. (2016). Saving endangered plants through seed storage. Utar Agriculture Science Journal, 2(3), 57-60.

El-Taguri, H. M. A., & Latiff, A. (2016). Ecology and distribution of Vatica L. (Dipterocarpaceae) in Peninsular Malaysia. Malayan Nature Journal, 68(3), 5-11.

Fatonah, K., & Rozen, N. (2017). Penetapan metode uji daya hantar listrik untuk benih sorgum (Sorghum bicolor L.). Jurnal Agroteknologi Universitas Andalas, 1(1), 19-25.

Hasnat, G. N. T., Hossain, M. K., & Hossain, M. A. (2016). Flowering fruiting and seed maturity of common plantation tree species in Bangladesh. Journal of Bioscience and Agriculture Research, 07(01), 583-589. doi: 10.18801/jbar.070216.70

Hoque, M. M. U., Mariam, H., Alam, Z., Rahman, M. A., & Hossain, M. A. (2020). Effect of storage condition and duration on germination of Anisoptera scaphula (Roxb.) Pierre seed. IOSR Journal of Environmental Science, Toxicology and Food Technology, 14(1/2), 49-53. www.iosrjournals.org. doi: 10.9790/2402-1401024953.

International Seed Testing Association (ISTA). (2018). International Rules for Seed Testing 2018. The International Seed Testing Association (ISTA) Zurichstr 50 CH-8303 Bassersdorf, Switzerland. 298p. https://doi.org/10.15258/istarules.2018.F.

Kalima, T., & Denny. (2019). Komposisi jenis dan struktur hutan rawa gambut Taman Nasional Sebangau, Kalimantan Tengah. Jurnal Penelitian Hutan dan Konservasi Alam, 16(1), 51-72. doi: 10.20886/jphka.2019.16.1.51-72.

Kijak, H., & Ratajczak, E. (2020). What do we know about the genetic basis of seed desiccation tolerance and longetivity? International Journal of Molecular Science, 21(3612), 1-21. https://doi.org/10.3390/ijms21103612.

Lan, Q. Y., Luo, Y. L., Ma, S. M., Lu, X., Yang, M. Z., Tan, Y. H., Jiang, X. N., Tan, Y. P., Wang, X. F., & Li, Z. Y. (2012). Development and storage of recalcitrant seeds of Hopea hainanensis. Seed Science and Technology, 40, 200-208.

Lee, S. L., Chua, L. S. L., Ng Kevin, K. S., Hamidah, M., Lee, C. T., Ng Chin, H., Tnah, L. H., & Hong, L. T. (2013). Conservation management of rare and predominantly selfing tropical trees: an example using Hopea bilitonensis (Dipterocarpaceae). Biodiversity and Conservation, 22, 2989-3006. doi: 10.1007/s10531-013-0566-5.

Lloyd, G., & Mc Cown, B. (1981). Commercially feasible micropropagation of mountain laurel Kalmia latifolia by use of shoot tip culture. Proceedings of the International Plant Propagator’s Society, 30, 421-427

Marzalina, M. (2013). Diversity and conservation of tropical forestry species in Southeast Asia. Chapter 14, 317-345. dalam Normah M N, Chin H F, Reed B M. 2013. Conservation of Tropical Plant Species. 537p. doi:10.1007/978-1-4614-3776-5_14.

Nadarajan, J., Walt, K. V. D., & Pathriana, R. (2019). Assessing cryopreservation potential for recalcitrant Myrtaceae germplasm. Plant & Food Research, 1-2. https://www.researchgate.net/publication/333005426.

Phartyal, S. S., Thapliyal, R. C., Nayal, J. S., & Rawat, M. M. S. (2002). Late maturation changes in Sal (Shorea robusta) seed and their evaluation as indices for proper timing of seed collection. Journal of Tropical Forest Science. 14(2), 191-197.

Plants of the World Online (POWO). (2020). Vatica venulosa Blume. Diakses dari http://www.plantsoftheworldonline.org/taxon/urn:lsid:ipni.org:names:321742-1. Royal Botanic Gardens Kew Science.

Plant Resources of South-East Asia (PROSEA). (2019). Vatica venulosa Blume. Diakses dari https://uses.plantnet-project.org/en/ Vatica_venulosa_(PROSEA).

Rahmi, A. F., Purwito, A., Husni, A., & Dinarti, D. (2017). Embriogenesis dan desikasi embrio somatik Jeruk Keprok Batu 55 (Citrus reticulata Blanco.) untuk meningkatkan frekuensi perkecambahan. Jurnal Hortikultura Indonesia, 8(2), 79-87.

Rohandi, A., & Widyani, N. (2011). Analisis perubahan fisiologi dan biokimia benih Tengkawang selama pengeringan. Jurnal Penelitian Hutan Tanaman, 8(1), 31-40.

Rusmin, D, Darwati, I., Suwarno, F. C, & Ilyas, S. (2016). Viabilitas benih Purwoceng (Pimpinella pruatjan) pada berbagai perlakuan stimulasi perkecambahan. Buletin Penelitian Tanaman Rempah dan Obat, 27(2), 115-122. http://dx.doi.org/10.21082/bullittro.v27n2.2016.115-122.

Sadjad, S. (1994). Kuantifikasi Metabolisme Benih. Jakarta: Grasindo.

Sasaki, S. (2008). Physiological characteristics of tropical rain forest tree species: a basis for the development of silvicultural technology. Proceeding of The Japan Academy, Series B Physical and Biological Sciences, 84(2), 31-57. doi: 10.2183/pjab/84.31.

Suharsi, T. K, Syukur, M., & Wijaya, A. R. (2015). Karakterisasi buah dan penentuan saat masak fisiologi benih beberapa genotipe cabai (Capsicum annum L.). Jurnal Agronomi Indonesia, 43(3), 207-212.

Sukesh, & Chandrashekar, K.R. (2013). Effect of temperature on viability and biochemical changes during storage of recalcitrant seeds of Vatica chinensis L. International Journal of Botany, 9(2), 73-79.

Sudarmonowati, E. (2000). Cryopreservation of tropical plants: current research status in Indonesia. Session, 4, 291-297 dalam Maeno, N., Hawtin, G. H. (2000). Cryopreservation of tropical plant germplasm. Japan International Research Center for Agricultural Sciences; International Plant Genetic Resources Institute, 539p.

Umarani, R., Aadhavan, E. K., & Faisal, M. M. (2015). Understanding poor storage potential of recalcitrant seeds. Current science, 108(11), 2023-2034.

Vujosevic, B., Canak, P., Babic, M., Mirosavljevic, M., Mitrovic, B., Stanisavljevic, D., & Tatic, M. (2018). Field performance of abnormal maize seedlings. Ratarstvo i Povrtarstvo, 55(1), 34-38.

Wawrzyniak, M. K., Michalak, M., & Chmielarz, P. (2020). Effect of different conditions of storage on seed viability and seedling growth of six European wild fruit woody plants. Annals of Forest Science, 77(58), 1-20. http://doi.org/10.1007/s13595-020-00963-z.

Widjaya, A. H., Suhartanto, M. R., Palupi, E. H., Latifah, D., & Hardwick, K. A. (2021). Reprpductive biology of Vatica venulosa Blume (Dipterocarpaceae). Biodiversitas.