MORPHOLOGICAL CHARACTERISTIC OF VIERUL LOCAL GRAPE (Vitis spp.) CUTTING SEEDS ON PODZOLIC SOIL USING VARIOUS CONCENTRATION OF AUXIN SOAK

Authors

  • Fitria Nugraheni Sukmawati Program Studi Pengelolaan Perkebunan, Politeknik LPP, Yogyakarta
  • Saktiyono Sigit Tri Pamungkas Program Studi Budidaya Tanaman Perkebunan, Politeknik LPP, Yogyakarta
  • Tusrianto Fakultas Farmasi, Universitas Muhammadiyah Purwokerto
  • Alfu Laila Program Studi Agroteknologi, Fakultas Pertanian, Universitas Sultan Ageng Tirtayasa-Banten
  • Yudhi Pramudya Program Studi Budidaya Tanaman Perkebunan, Politeknik LPP, Yogyakarta

DOI:

https://doi.org/10.24246/agric.2023.v35.i1.p115-132

Keywords:

cutting, grape, NAA, nurseries, phytohormones

Abstract

The development of grapes (Vitis vinifera) has obstacle among others are limited optimal land and difficult nurseries. Suboptimal land use for grape cuttings can use red yellow podzolic soil (ultisol). Podzolic soil has an acidic pH and low macro and micro nutrient uptake but can still be used as a growing medium. Vierul local grapes are a type of grape that has begun to be developed as root stock in nurseries but needs to be improved for its root success using a synthetic phytohormones bath of napthaline acetic acid (NAA). The purpose of this study was to determine the morphological character of vierul local grape cuttings at various concentrations of NAA
soaking in podzolic soil growing medium. This research has been carried out in a screen house from August to December 2021. This study used a non-factorial completely randomized design (CRD) with 3 treatments and 3 replications as block consisting of F0, F1, F2, F4 following by 0, 2, 4, 6 g L-1 respectively. The morphological characteristics observed is number of bud break, time of leaves appear, number of leaves, tendril length and percentage of live cuttings. The results of the study were analyzed using ANOVA at the 5% level and continued using the DMRT at the 5% level. The result showed that soaking of NAA at a concentration of 0 g L-1 (F0) had the best result for the variable number of bud break and number of leaves. Concentration of 6 g L-1 (F3) had the best result for variable length of the tendril while for the variable when the leaves appear, NAA soaking has no significant effect. The percentage of live cuttings is still low because it is influenced by the quality (material) of cuttings, the age of woodstock, growing media and water availability.

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References

Abdillah M.H., Aldi M. (2021). Aplikasi Limbah Padat Karet Remah Pada Tanah Podsolik Merah Kuning Terhadap Ketersediaan Hara Makro dan Perbaikan Sifat Fisika Tanah. Enviro Scienteae Journal. 16 (2): 264-275

Abu Zahra T. R. (2013). Effect of Plant Hormones Application Methods on Fruit Quality of Superior Seedless Grape. Biosciences Biotechnology Research Asia Journal. 10 (2): 527–531.

Aji T. G., Sugiyatno A. (2020). Rootstocks and Plant Growth Regulator to Promote Growth of Grapevine Seedling cv. Prabu Bestari. Russian Journal of Agricultural and Socio-Economic Sciences Journal. 103 (7): 3–12.

Akhtar M. N., Ul Haq T., Ahmad F., Imran M., Ahmed W., Ghaffar A., Shahid M., Saleem M. H., Alshaya H., Okla M. K., Ali S. (2022). Application of Potassium along with Nitrogen under Varied Moisture Regimes Improves Performance and Nitrogen Use Efficiency of High and Low Potassium Efficiency Cotton Cultivars. Agronomy Journal. 12 (502): 1-15.

Amalia D. R., Andrini A., Saptadi D. (2019). Toleransi Beberapa Varietas Anggur (Vitis Spp.) Terhadap Cekaman Kekeringan. Plantropica-Journal of Agricultural Science. 4 (2): 125–131.

Araus V., Swift J., Alvarez J. M., Henry A., Coruzzi G. M. (2020). A Balancing Act: How Plants Integrate Nitrogen and Water Signals. Journal of Experimental Botany. 71 (15): 4442–4451.

Asra R., Samarlina R. A., Silalahi M. (2020). Hormon Tumbuhan. Universitas Kristen Indonesia Press. 1-176.

Astrit B., Glenda S. (2017). Exogenous Auxin Improves Root Morphology and Restores Growth of Grafted Cucumber Seedlings. Horticultural Science Journal. 4 (2): 82–90.

Balla J., Medveďová Z., Kalousek P., Matiješčuková N., Friml J., Reinöhl V., Procházka S. (2016). Auxin Flow Mediated Competition Between Axillary Buds to Restore Apical Dominance. Scientific Reports. 6 (1): 35955.

Bannoud F., Bellini C. (2021). Adventitious Rooting in Populus Species: Update and Perspectives. Frontiers in Plant Science Journal. 12 (1): 668837.

Basri E., Prayitno T. A., Pari, G. (2012). Pengeringan Kayu Waru Gunung (Hibiscus macrophyllus Roxb.). Jurnal Penelitian Hasil Hutan. 30 (4): 243-253.

Bauri F. K., Dey K., Ghosh A., Chakraborti K., Misra D. K. (2017). Effects of Indole Butyric Acid on Rooting In Cuttings of Burmese Grape Baccaurea Sapida. Food and Nutrition Journal. 5 (6): 1-4.

Benedetto A., Galmarini C., Tognetti J. (2015). Effects of Combined or Single Exogenous Auxin and/or Cytokinin Applications on Growth and Leaf Area Development in Epipremnum aureum. The Journal of Horticultural Science and Biotechnology. 90 (6): 643–654.

Bhat Z. A., Rashid R., Bhat J. A. (2011). Effect of Plant Growth Regulators on Leaf Number Leaf Area and Leaf Dry Matter in Grape. Notulae Scientia Biologicae Journal. 3 (1): 87–90.

Bielczynski L. W., Łącki M. K., Hoefnagels I., Gambin A., Croce R. (2017). Leaf and Plant Age Affects Photosynthetic Performance and Photoprotective Capacity. Plant Physiology Journal. 175 (4): 1634–1648.

Cabahug R. A., Soh S.Y., Nam S. Y. (2016). Effects of Auxin and Cytokinin Application on Leaf Cutting Propagation in Echeveria Species. Flower Research Journal. 24 (4): 264–273.

Caspa R., Kuoudiekong L., Nwegueh B., Njeudeng S., Lahjou J., Onana J. (2010). Effect of Different Substrates on Rooting and Shoot Development of Juvenile Stem Cuttings of Nauclea diderrichii (De Wild & T. Durand) Merrill. International Journal of Biological and Chemical Sciences. 3 (5): 1124-1132.

Chen H., Tan J., Liang X., Tang S., Jia J., Yang Z. (2021). Molecular Mechanism of Lateral Bud Differentiation of Pinus Massoniana Based on High Throughput Sequencing. Scientific Reports. 11 (9033): 1-11.

Choiron M., Suwasono S. (2013). Pengaruh Ketersediaan Oksigen pada Produksi Epiglukan oleh Epicoccum nigrum Menggunakan Media Molases. Jurnal Agrointek 7 (1): 11-20.

Choudhury A. G., Sen J., Bhutia S. O. (2017). Tropical and Subtropical Fruit Crops in the Arena of Climate Change. Journal of Pharmacognosy and Phytochemistry. 6 (5): 574-575.

Chrysargyris A., Xylia P., Akinci G., Moustakas K., Tzortzakis N. (2020). Printed Paper Waste as an Alternative Growing Medium Component to Produce Brassica Seedlings Under Nursery Conditions. Sustainability Journal. 12 (5922): 1-19.

Cline M. (1996). Exogenous Auxin Effects on Lateral Bud Outgrowth in Decapitated Shoots. Annals of Botany Journal. 78 (2): 255–266.

Dariah A., Heryani N. (2014). Pemberdayaan Lahan Kering Suboptimal untuk Mendukung Kebijakan Diversifikasi dan Ketahanan Pangan. Jurnal Sumberdaya Lahan Edisi Khusus. 1 (1), 1–16.

Diana S. (2014). Respon Pertumbuhan Setek Anggur (Vitis vinifera L.) Terhadap Pemberian Ekstrak Bawang Merah (Allium cepa L.). Jurnal Klorofil. 9 (2): 50–53.

Dierck R., De Keyser E., De Riek J., Dhooghe E., Van Huylenbroeck J., Prinsen E., Van Der Straeten D. (2016). Change in Auxin and Cytokinin Levels Coincides with Altered Expression of Branching Genes during Axillary Bud Outgrowth in Chrysanthemum. Plos One Journal Open Access. 11 (8): 1-30.

Evizal R., Esatika E. C., Septiana L. M., Salam A. K., Sanjaya P., Pramono S. (2022). Pengaruh Dosis Pupuk NPK Terhadap Pertumbuhan dan Produksi Stek Pohon Induk Lada Sambung (Piper nigrum/Piper colubrinum). Jurnal Agrotek Tropika. 10 (1): 117-126.

Faizan M., Faraz A., Sami F., Siddiqui H., Yusuf M., Gruszka D., Hayat S. (2020). Role of Strigolactones: Signalling and Crosstalk with Other Phytohormones. Open Life Sciences Journal. 15 (1): 217–228.

Franzluebbers A. J. (2020). Holding Water With Capacity to Target Porosity. Agricultural and Environmental Letters. 5 (1): 1-6.

Frebort I., Kowalska M., Hluska T., Frebortova J., Galuszka P. (2011). Evolution of Cytokinin Biosynthesis and Degradation. Journal of Experimental Botany. 62 (8): 2431–2452.

Gonzalez Dugo V., Durand J. L., Gastal F. (2010). Water Deficit and Nitrogen Nutrition of Crops: A Review. Agronomy for Sustainable Development Journal. 30 (3): 529–544.

Hartati S. (2006). Tanggapan Jagung Terhadap Pemupukan Fosfat pada Podzolik Merah Kuning dan Regosol. Jurnal Agrivet. 10 (1): 44–58.

Hossain Md. S., Urbi Z. (2016). Effect of Naphthalene Acetic Acid on the Adventitious Rooting in Shoot Cuttings of Andrographis paniculata (Burm.f.) Wall. ex Nees: An Important Therapeutical Herb. International Journal of Agronomy. 2016: 1–6.

Hou M., Wu D., Li Y., Tao W., Chao L., Zhang Y. (2021). The Role of Auxin in Nitrogen Modulated Shoot Branching. Plant Signaling and Behavior Journal. 16 (4): 1-5.

Hussain S., Nanda S., Zhang J., Rehmani M. I. A., Suleman M., Li G., Hou H. (2021). Auxin and Cytokinin Interplay During Leaf Morphogenesis and Phyllotaxy. Plants Journal. 10 (1732): 1-14.

Isobe K., Ohte N. (2014). Ecological Perspectives on Microbes Involved in N Cycling. Microbes and Environments Journal. 29 (1): 4–16.

Istomo, A., Subiakto A., Rahmadianto S. (2014). Pengaruh Asal Bahan dan Media Stek Terhadap Keberhasilan Stek Pucuk Tembesu Fagraea fragrans (Roxb.). Jurnal Berita Biologi. 13 (3): 275-281.

Jaleta A. (2019). A Review on the Effect of Rooting Media on Rooting and Growth of Cutting Propagated Grape (Vitis vinifera L). World Journal of Agriculture and Soil Science. 3 (4): 1-8.

Jamal Uddin A. F. M., Rakibuzzaman M., Raisa I., Maliha M., Husna M. A. (2020). Impact of Natural Substances and Synthetic Hormone on Grapevine Cutting. Journal of Bioscience and Agriculture Research. 25 (1): 2069–2074.

Jiang Y., Li Y., Nie G., Liu H. (2016). Leaf and Root Growth, Carbon and Nitrogen Contents and Gene Expression of Perennial Ryegrass to Different Nitrogen Supplies. Journal of the American Society for Horticultural Science. 141 (6): 555–562.

Kaiser S., Scheuring D. (2020). To Lead or to Follow: Contribution of the Plant Vacuole to Cell Growth. Frontiers in Plant Science Journal. 11 (553): 1-7.

Kamiloglu Ö. (2014). Effects of Water Stress on Plant Growth and Physiological Characteristics of Some Grape Varieties. Fresenius Environmental Bulletin. 23 (9): 2155-2163.

Karatas I., Ozturk L., Ersahin Y., Okatan Y. (2010). Effects of Auxin on Photosynthetic Pigments and Some Enzyme Activities During Dark Induced Senescence of Tropaeolum Leaves. Pak. J. Bot. 42 (3): 1881-1888.

Karunadasa S. S., Kurepa J., Shull T. E., Smalle J. A. (2020). Cytokinin Induced Protein Synthesis Suppresses Growth and Osmotic Stress Tolerance. New Phytologist Journal. 227 (1). 50–64.

Kebrom T. H. (2017). A Growing Stem Inhibits Bud Outgrowth: The Overlooked Theory of Apical Dominance. Frontiers in Plant Science Journal. 8 (1874): 1-7.

Kementerian Pertanian (2022). Database Nilai Impor Ekspor Komoditas Buah Anggur. http://database.pertanian.go.id/eksim/index1.asp (diakses pada tanggal 24 Juli 2022).

Kieber J. J., Schaller G. E. (2018). Cytokinin Signaling in Plant Development. Development Journal. 2018 (145): 1-7.

Küplemez H., Yildirim M. U. (2020). Effects of Cytokinin and Auxin on Plant Development and Vascular Tissues in Lens Culinaris. Commagene Journal of Biology. 4 (1): 16-21.

Kurepa J., Smalle J. A. (2022). Auxin/Cytokinin Antagonistic Control of the Shoot/Root Growth Ratio and Its Relevance for Adaptation to Drought and Nutrient Deficiency Stresses. International Journal of Molecular Sciences. 23 (1933): 1-15.

Lang C. P. (2019). Interaction Between Grapevines and Trees: Effects on Water Relations, Nitrogen Nutrition, and Wine. Archives of Agronomy and Soil Science Journal. 65 (2019): 224-239.

Leghari S. J., Wahocho N. A., Laghari G. M., Hafeez Laghari A., Mustafa Bhabhan G., Hussain Talpur K., Bhutto T. A., Wahocho S. A., Lashari A. A. (2016). Role of Nitrogen for Plant Growth and Development: A Review. Advances in Environmental Biology Journal. 10 (9): 209-218.

Li S.W. (2021). Molecular Bases for the Regulation of Adventitious Root Generation in Plants. Frontiers in Plant Science Journal. 12 (614072): 1-14.

Liu H., Gao Y., Song X., Ma Q., Zhang J., Pei D. (2018). A Novel Rejuvenation Approach to Induce Endohormones and Improve Rhizogenesis in Mature Juglans Tree. Plant Methods Journal. 14 (1): 1-13.

Liu Y., von Wirén N. (2022). Integration of Nutrient and Water Availabilities Via Auxin Into the Root Developmental Program. Current Opinion in Plant Biology. 65 (102117): 1-9.

Liu Y., Xu J., Ding Y., Wang Q., Li G., Wang, S. (2011). Auxin Inhibits the Outgrowth of Tiller Buds in Rice (Oryza sativa L.) by Downregulating OsIPT Expression and Cytokinin Biosynthesis in Nodes. Australian Journal of Crop Science. 5 (2): 169-174.

Majda M., Robert S. (2018). The Role of Auxin in Cell Wall Expansion. International Journal of Molecular Sciences. 19 (951): 1-25.

Mansyah E., Sutanto A. (2020). Tropical Fruit Research and Development Programs of Indonesian Tropical Fruits Research Institute (ITFRI). IOP Science Journal: Earth and Environmental Science. 583 (012013): 1-5.

Monder M. J. (2019). Rooting and Growth of Root Cuttings of Two Old Rose Cultivars Harison’s Yellow and Poppius Treated With IBA and Biostimulants. Acta Agrobotanica Journal. 72 (2): 1-14.

Nakhooda M., Watt M. P., Mycock D. (2012). The Properties and Interaction of Auxins and Cytokinins Influence Rooting of Shoot Cultures of Eucalyptus. African Journal of Biotechnology. 11 (100): 16568-16578.

Neri D., Cioccolanti T., Zuccherelli G., Navacchi O., Giorgi V., Lodolini E. M. (2020). Micropropagation Effects on Juvenile Traits Flower Differentiation and Tree Architecture in Young Olive Trees. Agronomy Journal. 10 (1742): 1-18.

Ngomuo M., Mneney E., Ndakidemi P. (2013). The Effects of Auxins and Cytokinin on Growth and Development of (Musa sp.) Var. Yangambi Explants in Tissue Culture. American Journal of Plant Sciences. 4 (11): 2174–2180.

Ojeda H., Deloire A., Carbonneau A. (2001). Influence of Water Deficits on Grape Berry Growth. Vitis Journal. 40 (3), 141–145.

Okao M., Ogwal L., Mutoni G., Oyuko Alip S., Okullo J. B. L., Akais Okia C. (2016). Effect of Mode of Auxin Application on Rooting and Bud Break of Shea Tree (Vitellaria paradoxa) Cuttings. American Journal of Plant Sciences. 07 (15): 2199–2208.

Pandey V. P., Awasthi M., Singh S., Tiwari S., Dwivedi U. N. (2017). A Comprehensive Review on Function and Application of Plant Peroxidases. Biochemistry and Analytical Biochemistry Journal. 06 (01): 1-16.

Peng X., Chen D., Zhou Z., Zhang Z., Xu C., Zha Q., Wang F., Hu X. (2022). Prediction of the Nitrogen, Phosphorus and Potassium Contents in Grape Leaves at Different Growth Stages Based on UAV Multispectral Remote Sensing. Remote Sensing Journal. 14 (2659): 1-20.

Piotrowska Niczyporuk A., Bajguz A., Kotowska U., Bralska M., Talarek Karwel M. (2018). Growth Metabolite Profile Oxidative Status and Phytohormone Levels in the Green Alga Acutodesmus Obliquus Exposed to Exogenous Auxins and Cytokinins. Journal of Plant Growth Regulation. 37 (4): 1159–1174.

Plett D. C., Ranathunge K., Melino V. J., Kuya N., Uga Y., Kronzucker H. J. (2020). The Intersection of Nitrogen Nutrition and Water Use in Plants: New Paths Toward Improved Crop Productivity. Journal of Experimental Botany. 71 (15): 4452–4468.

Prerostova S., Černý M., Dobrev P. I., Motyka V., Hluskova L., Zupkova B., Gaudinova A., Knirsch V., Janda T., Brzobohatý B., Vankova R. (2021). Light Regulates the Cytokinin-Dependent Cold Stress Responses in Arabidopsis. Frontiers in Plant Science Journal. 11 (608711): 1-21.

Qiu Y., Guan S. C., Wen C., Li P., Gao Z., Chen X. (2019). Auxin and Cytokinin Coordinate the Dormancy and Outgrowth of Axillary Bud in Strawberry Runner. BMC Plant Biology Journal. 19 (528): 1-16.

Rolaniya M. K., Bairwa M., Khushbu K., Sarvanan S. (2018). Effect of Plant Growth Regulators (IIA,IBA,GA3) on Rooting of Hardwood Cutting of Grape (Vitis vinifera L.) cv. Thompson Seedless. Journal of Pharmacognosy and Phytochemistry. 7 (1): 398–400.

Salim N. S. (2022). Response of Seedlings of Two Grape Cultivars to Different Levels of Nitrogen Fertilizers. Europian Journal of Agricultural and Rural Education. 3 (2): 105-109.

Santosa S., Umar M. R., Amir N. J. (2020). Analisis Kandungan N P K Porositas Media Pembibitan dan Pertumbuhan Bibit Sengon Paraserianthes falcataria (L) Nielsen. Biota: Jurnal Ilmiah Ilmu-Ilmu Hayati. 5 (1): 61–68.

Sardans J., Peñuelas J. (2021). Potassium Control of Plant Functions: Ecological and Agricultural Implications. Plants Journal. 10 (419): 1-31.

Sari D. K., Sutopo S., Supriyadi S. (2020). Pengaruh Pupuk Lengkap Berpelepasan Hara Lambat (Slow Release Fertilizer) terhadap Pertumbuhan Vegetatif Tanaman Jeruk Siam (Citrus nobilis var. Microcarpa Lour). Agrovigor: Jurnal Agroekoteknologi. 13 (1): 33–42.

Schaller G. E., Bishopp A., Kieber J. J. (2015). The Yin-Yang of Hormones: Cytokinin and Auxin Interactions in Plant Development. The Plant Cell Journal. 27 (1): 44–63.

Scheiner J., King A. (2019). Propagating Grapevines. Texas A & M Agrilife Extension Service. https://agrilifeextension.tamu.edu/ (diakses pada tanggal 22 Juli 2022)

Schneider H. M., Strock C. F., Hanlon M. T., Vanhees D. J., Perkins A. C., Ajmera I. B., Sidhu J. S., Mooney S. J., Brown K. M., Lynch J. P. (2021). Multiseriate Cortical Sclerenchyma Enhance Root Penetration in Compacted Soils. Proceedings of the National Academy of Sciences PNAS Journal. 118 (6): 1-11.

Servina Y. (2019). Dampak Perubahan Iklim dan Strategi Adaptasi Tanaman Buah dan Sayuran di Daerah Tropis. Jurnal Penelitian dan Pengembangan Pertanian. 38 (2): 65-76.

Shah S. U., Ayub Q., Hussain I., Khan S. M., Ali S., Khan M. A., Haq N., Mehmood A., Khan T., Brahmi N. C. (2021). Effect of Different Growing Media on Survival and Growth of Grape (Vitus Vinifera) Cuttings. Journal Advances of Nutrition Science and Technology. 1 (3): 117-124.

Shahadha S. S., Wendroth O., Ding D. (2021). Nitrogen and Rainfall Effects on Crop Growth—Experimental Results and Scenario Analyses. Water Journal. 13 (2219): 1-16.

Shahzad U., Shahbaz T., Khan A. A., Hassan Z., Naqvi S. A., Iqbal M., Abbas T., Shahjahan M. (2019). Effects of Auxin (IBA) Concentrations with Different Dipping Time on Root Ability of Grape Cuttings (Vitis Vinifera). The International Journal of Science and Technoledge. 7 (12): 45-48.

Sharfina F. D., Mulyana N. R., Rahmadhana N., Dwi F., Rahayu Y. S., Dewi S. K. (2021). Perbandingan Aktivitas Auksin Alami dengan Auksin Sintetis terhadap Pertumbuhan Akar Sawi Hijau (Brassica juncea L.) Secara Hidroponik. Hal 725-733. Dalam Prosiding Seminar Nasional Biologi Universitas Negeri Padang. Inovasi Riset Biologi dalam Pendidikan dan Pengembangan Sumberdaya Lokal. Padang 14 Desember 2021.

Singh K. K., Chauhan J. S. (2020). A Review on Vegetative Propagation of Grape (vitis vinifera l) Through Cutting. Global Journal of Bio Science and Biotechnology. 9 (2): 50-55.

Skalický V., Kubeš M., Napier R., Novák O. (2018). Auxins and Cytokinins: The Role of Subcellular Organization on Homeostasis. International Journal of Molecular Sciences. 19 (3115): 1-21.

Solikin S. (2018). Effect of Nodes Position on the Growth and Yield of Stem Cutting of Sambiloto (Andrographis paniculata). Nusantara Bioscience Journal. 10 (4): 226–231.

Sylviana R. D., Kristanto B. A., Purbajanti E. D. (2019). Respon Umur Fisiologi Bahan Stek Mawar (Rosa Sp.) pada Pemberian Konsentrasi indole-3-butyric acid (IBA) yang Berbeda. Buletin Anatomi dan Fisiologi. 4 (2): 168–174.

Szabò I., Spetea C. (2017). Impact of the Ion Transportome of Chloroplasts on the Optimization of Photosynthesis. Journal of Experimental Botany. 68 (12): 3115–3128.

Takahashi K., Hayashi K., Kinoshita T. (2012). Auxin Activates the Plasma Membrane H+ ATPase by Phosphorylation during Hypocotyl Elongation in Arabidopsis. Plant Physiology Journal. 159 (2): 632–641.

Tamba R., Martino D., Sarman. (2020). Pengaruh Pemberian Auksin (NAA) Terhadap Pertumbuhan Tunas Tajuk Dan Tunas Cabang Akar Bibit Karet (Hevea brasillensis Muell. Arg) Okulasi Mata Tidur. Jurnal Agroecotania : Publikasi Nasional Ilmu Budidaya Pertanian. 2 (2): 11–20.

Tobing W. L., Hanum C., Sutarta E. S. (2018). Growth Response and Nitrogen Use Efficiency of Palm Oil Variety on Fertilizing in Pre Nursery. Agric Journal. 30 (1): 43–50.

Tréhin C., Planchais S., Glab N., Perennes C., Tregear J., Bergounioux C. (1998). Cell Cycle Regulation by Plant Growth Regulators: Involvement of Auxin and Cytokinin in the Re-Entry of Petunia Protoplasts Into the Cell Cycle. Planta Journal. 206 (2): 215–224.

Ulva M., Nurchayati Y., Prihastanti E., Setiari N. (2019). Pertumbuhan Kalus Tomat (Lycopersicon esculentum Mill.) Varietas Permata F1 dari Jenis Eksplan dan Konsentrasi Sukrosa yang Berbeda secara In Vitro. Jurnal Life Science. 8 (2): 160-169.

Umeda M. (2000). Cyclin Dependent Protein Kinases and Their Regulators in Plants. Plant Biotechnology Journal. 17 (3): 177–186.

Utami T., Hermansyah H., Handajaningsih M. (2016). Respon Pertumbuhan Stek Anggur (Vitis vinifera L.) terhadap Pemberian Beberapa Konsentrasi Ekstrak Bawang Merah (Allium ascalonicum L.). Jurnal Akta Agrosia. 19 (1): 20–27.

Verdenal T., Dienes Nagy Á., Spangenberg J. E., Zufferey V., Spring J. L., Viret O., Marin Carbonne J., Van Leeuwen C. (2021). Understanding and Managing Nitrogen Nutrition in Grapevine: A Review. OENO One Journal. 55 (1), 1–43.

Vernoux T., Besnard F., Traas J. (2010). Auxin at the Shoot Apical Meristem. Cold Spring Harbor Perspectives in Biology. 2 (2010): 1-15.

Vuyyuru M., Sandhu H., Mc Cray J., Raid R. (2018). Effects of Soil Applied Fungicides on Sugarcane Root and Shoot Growth, Rhizosphere Microbial Communities, and Nutrient Uptake. Agronomy Journal. 8 (223): 1-16.

Wakidah K., Rahayu E. S. (2020). Optimasi Jenis dan Konsentrasi Zat Pengatur Tumbuh Serta Pencahayaan untuk Pertumbuhan Plantlet Phalaenopsis sp. Secara In Vitro. Jurnal Life Science. 9 (1): 94-102.

Wimudi M., Fuadiyah S. (2021). Pengaruh Cahaya Matahari Terhadap Pertumbuhan Tanaman Kacang Hijau (Vigna radiata L.). Hal 587-592. Dalam Prosiding Seminar Nasional Biologi Universitas Negeri Padang. Padang 26 Juni 2021.

Wu W., Du K., Kang X., Wei H. (2021). The Diverse Roles of Cytokinins in Regulating Leaf Development. Horticulture Research: Nature Journal. 8 (1): 1-13.

Yoon A., Oh H. E., Kim S. Y., Park Y. G. (2021). Plant Growth Regulators and Rooting Substrates Affect Growth and Development of Salix Koriyanagi Cuttings. Rhizosphere: Elsevier Journal. 20 (2021): 1-4.

Yulia E., Baiti N., Handayani R. S., Nilahayati N. (2020). Respon Pemberian Beberapa Konsentrasi BAP dan IAA Terhadap Pertumbuhan Sub Kultur Anggrek Cymbidium (Cymbidium finlaysonianum Lindl.) Secara In Vitro. Jurnal Agrium. 17 (2): 156–165.

Zerche S., Haensch K.T., Druege U., Hajirezaei M.R. (2016). Nitrogen Remobilisation Facilitates Adventitious Root Formation on Reversible Dark Induced Carbohydrate Depletion in Petunia Hybrida. BMC Plant Biology Journal. 16 (2019): 1-20.

Zhang K., Diederich L., John P. C. L. (2005). The Cytokinin Requirement for Cell Division in Cultured Nicotiana plumbaginifolia Cells Can Be Satisfied by Yeast Cdc25 Protein Tyrosine Phosphatase: Implications for Mechanisms of Cytokinin Response and Plant Development. Plant Physiology Journal. 137 (1), 308–316.

Agric Volume 53 Nomor 1 2023

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2023-08-16

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Sukmawati, F. N., Pamungkas, S. S. T., Tusrianto, T., Laila, A., & Pramudya, Y. (2023). MORPHOLOGICAL CHARACTERISTIC OF VIERUL LOCAL GRAPE (Vitis spp.) CUTTING SEEDS ON PODZOLIC SOIL USING VARIOUS CONCENTRATION OF AUXIN SOAK. Agric, 35(1), 115–132. https://doi.org/10.24246/agric.2023.v35.i1.p115-132

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Vol. 35 No. 1 (2023)

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