Analisis Laju Perkecambahan Kacang Tanah (Arachis hypogaea (L.) Merr.) yang Diberikan Kombinasi Perlakuan Suhu dan Lama Perendaman Asap Cair (Liquid Smoke)


  • Basry Yadi Tang Politeknik Pertanian Negeri Kupang
  • Stormy Vertygo Politeknik Pertanian Negeri Kupang
  • Abner Tonu Lema Politeknik Pertanian Negeri Kupang
  • Wahyu Dani Swari Universitas Muhamadiyah Kupang



Germination velocity, Liquid smoke, Peanuts, Temperature.


The research aims to get to analyze the effect of temperature and liquid smoke soaking combination on the velocity of peanut germination. Parameters measure were; Mean Germinatin Time (MGT), Mean Germinatin Rate (MGR), Final Germintaion Percentage (GT), Coefficient Velocity Of Germination (CVG), Germination Rate Index (GRI). The treatment combinations used were temperature 250C (1), 300C (2), 350C (3) dan 400C (4) and liquid smoke in which the seeds were soaked for 1 hour (a), 2 hours (b) and 3 hours (c). This resulted in 12 treatment combinations. Results showed that the best treatments were control 1 (K0 250C), control 4 (K0 400C) and 4a (K1 400C), with germination velocity as folows: 1.67, 1.50 and 2.00 respectively . However, it is recommended to use soaking in liquid smoke for an hour (1a) in order to further initiate germination development that could hopefully lead to a much higher peanut crop yield during cultivation.


Al-Ansari, Fatima dan Taoufik Ksi-Ksi. 2016. A Quantitave Assessment of Germination Parameters: The Case of Crotalaria persica and Tephrosia apollinea. The Open Ecology Journal. 9: 13-21.

Al-Mudareis, M. A. 1998. Notes on Various Parameters Recording the Speed of Seed Germination. Journal of Agriculture in the Tropics and Subtropics 99(2): 147-154.

Badan Pusat Statistik (BPS). 2017. Produktivitas Kacang Tanah Menurut Provinsi 2017.

Carbonnel et al. 2019. Duplicated KAI2 Receptors With Divergent Ligand-Binding Specificities Control Distinct Developmental Traits in Lotus japonicas. The Preprint Server Biology. 10.1101/754937.

Elsadek, Mohamed, Yousef Eltohamy. 2019. Smoke-Water Enhances Germination and Seedling Growth of Four Horticultural Crops. Plants (Basel). 8(4): 104.

Flematti et al. 2013. Karrikin and Cyanohydrin Smoke Signals Provide Clues to New Endogenous Plant Signaling Compounds. Molecular Plant. 6(1): 29-37.

Flematti et al. 2015. What are karrikins and how were they ‘discovered’ by plants?. BMC Biology. 13(108): N.pag.

Ghebrehywot et al. 2008. Smoke‐Water and a Smoke‐Isolated Butenolide Improve Germination and Seedling Vigour of Eragrostis tef (Zucc.) Trotter under High Temperature and Low Osmotic Potential. Journal of Agronomy and Crop Science. 194(4): 270-277

Iqbal, Muhammad et al. 2013. Effect of Plant Derived Smoke On Germination and Post Germination Expression On Wheat (Triticum aestivum L.). American Journal of Plant Sciences 7: 806-813.

Jenjira Chumpookam, Huey-Ling Lin , Ching-Chang Shiesh. 2012. Effect of Smoke-water on Seed Germination and Seedling Growth of Papaya (Carica papaya cv. Tainung No. 2). American Society for Horticultural Science. 47(6): 741-744

Light, M E. 2009. Smoke-Derived Butenolide: Towards Understanding Its Biological Effects. The Preprint Server Biology. South African Journal of Botany. 75(1): 1-7

Kulkarni, M.G., Light, M.E., dan J. Van Staden. 2011. Plant-Derived Smoke: Old Technologies with Possibilities Economic Applications in Agriculture and Holticulture. South African Journal of Botany. 77: 972-979.

Malone, Jamie. 2019. What is A Good Climate for Growing Peanuts?. Web. 22 Apr. 2019.

Mussadad, Arif. 2005. Teknologi Produksi Kacang-kacangan dan Umbi-umbian. In: Achmad Winarto (eds). Teknologi Produksi Kacang Tanah di Lahan Alfisol Alkalis. Malang: Balai penelitian Tanaman Aneka kacang dan Umbi (BALITKABI). hal 15-20.

Rahmianna, Agustina Asri, Pratiwi, Herdina, dan Didik Harnowo. 2015. Kacang Tanah Inovasi Teknologi dan Pengembangan Produk. In: Achmad Winarto (eds). Budidaya Kacang Tanah. Malang: Balai penelitian Tanaman Aneka kacang dan Umbi (BALITKABI). hal 133-169.

Soós's, Vilmos et al 2019. Fire-Borne Life: A Brief Review of Smoke-Induced Germination. Natural Product Communication. 10.1177/1934578X19872925: 1-5

Trustinah. 2015. Kacang Tanah Inovasi Teknologi dan Pengembangan Produk. In : Achmad Winarto (eds). Sumber Daya Genetik Kacang Tanah. Malang: Balai penelitian Tanaman Aneka kacang dan Umbi (BALITKABI). hal 60-83.

Van Staden, Johannes et al. 2001. Post-Germination Effects of The Smoke-Derived Compound 3-methyl-2 H-furo [2,3-c] pyran-2-one, and Its Potential as a Preconditioning Agent. Field Crops Research 98 : 98-105.

Villaecija-aguilar, Jose Antonio et al. 2019. SMAX1/SMXL2 Regulate Root And Root Hair Development Downstream of KAI2-Mediated Signaling in Arabidopsis. Plos Genetics 15(8). N. pag.

Zhou, Jhunfang et al. 2014. Effects of smoke water and karrikin on seed germination of 13 species growing in China. Central Europian Journal of Biology. 9(11): 1108-1116.




How to Cite

Tang, B. Y., Vertygo, S., Lema, A. T., & Swari, W. D. (2020). Analisis Laju Perkecambahan Kacang Tanah (Arachis hypogaea (L.) Merr.) yang Diberikan Kombinasi Perlakuan Suhu dan Lama Perendaman Asap Cair (Liquid Smoke). Jurnal Penelitian Pertanian Terapan, 20(1), 65-73.