Respons pertumbuhan dan hasil tanaman kedelai hitam (Glycine max (L) Merril) terhadap berbagai konsentrasi biourine dan pupuk KCl
DOI:
https://doi.org/10.37577/composite.v6i1.637Abstract
Abstract belum tersedia.References
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Aminudin, M.I, & Anam, C. (2020). Kajian pupuk VAM (Vesicular Arbuscular Micorrhiza) dan biourine plus terhadap pertumbuhan dan produksi tanaman kedelai (Glycine Max (L) Merr.). Jurnal Folium. 1(1), 14-27.
Andayanie, W.R., Adinurani, P.G., & Lukito, M. (2022). Response of soybean lines to soybean mosaic virus under drought stress. Journal of Tropical Plant Pests and Diseases. 22(1), 41-47.
Balboa, G.R., & Ciampitti, I.A. (2020). Estimating biological nitrogen fixation in field-grown soybeans: Impact of B value. Plant and Soil. 446, 195-210.
Batubara, S.F., Santoso, A.B., & Ramija, K.E. (2021). Potential of goat manure as organic fertilizer in North Sumatera. BIO Web of Conferences 33, 05001 (2021).
Budiharti, N., & Wardana, I. (2018). The use of indonesian soybean variety with time and planting location to the production to meet the demand. MATEC Web of Conferences 204, 03005 (2018).
Chen, Y., Zhou, X., Ma, L., Lin, Y., & Huang, X. (2023). Chinese yam yield is affected by soil nutrient levels and interactions among N, P, and K fertilizers. Chin Herb Med. 15(4), 588-593.
Databoks. (2022). 10 Provinsi Penghasil Kedelai Terbesar Nasional 2022, Jawa Timur Juaranya. https://databoks.katadata.co.id/datapublish/2023/11/24/10-provinsi-penghasil-kedelai-terbesar-nasional-2022-jawa-timur-juaranya [Diakses 26 Februari 2024].
Hamid, A., Linda, R., & Mukarlina. (2020). Pertumbuhan kedelai (Glycine Max [L.] Merrill) varietas anjasmoro dengan pemberian biourin kambing (Capra aegagrus bircus). Protobiont. 9(1), 65-72.
Jamidi, Zuliati, S., & Wirda, Z. (2023). Effect of cow urine concentration and NPK fertilizer doses on the growth of oil palm seedlings (Elaeis Guineensis Jacq). IOP Conf. Ser.: Earth Environ. Sci. 1287 012008.
Lal, R. (2015). Restoring soil quality to mitigate soil degradation. Sustainability. 7(5), 5875-5895.
Lambin, E.F., Gibbs, H.K., Heilmayr, R., Carlson, K.M., Fleck, L.C., Garrett, R.D., Waroux, Y.L.P.D., McDermott, C.L., McLaughlin, D., Newton, P., Nolte, C., Pacheco, P., Rausch, L.L., Streck, C., Thorlakson, T., & Walker, N.F. (2018). The role of supply-chain initiatives in reducing deforestation. Nature Climate Change. 8(2), 109-116.
Li, Y., Liu, C., Wang, N., Zhang, Z., Hou, L., Xin, D., Qi, Z., Li, C., Yu, Y., Jiang, H., &Chen, Q. (2021). Fine mapping of a QTL locus (QNFSP07-1) and analysis of candidate genes for four-seeded pods in soybean. Molecular Breeding. 41(71).
Murdaningsih, & Ugha, M.N. (2020). Pengaruh pemberian pupuk cair bio urine sapi terhadap pertumbuhan dan hasil tanaman kedelai (Glycine max L.). Agrica. 5(2), 96-105.
Naylor, R.L., & Higgins, M.M. (2018). The rise in global biodiesel production: Implications for food security. Global Food Security. 16, 75-84.
Paiman. (2015). Perancangan Percobaan untuk Pertanian. Yogyakarta: UPY Press.
Paudel, D., Neupane, R.C., Sigdel, S., Poudel, P., & Khanal, A.R. (2023). COVID-19 pandemic, climate change, and conflicts on agriculture: A trio of challenges to global food security. Sustainability. 15(10): 8280.
Permadi, K., & Haryati, Y. (2015). Pemberian pupuk N, P, dan K, berdasarkan pengelolaan hara spesifik lokasi untuk meningkatkan produktivitas kedelai (Review). AGROTROP. 5(1) 1-8.
Pimentel, D. Hepperly, P., Hanson, J., Douds, D., & Seidel, R. (2014). An environmental, energetic and economic comparison of organic and conventional farming systems. BioScience. 55(7), 573-582.
Pradana, A.P., Putri, D., & Munif, A. (2014). Analisis populasi nematoda parasit pada lahan tanaman tomat dengan sistem tanam monokultur dan polikultur. Seminar Nasional Pengendalian Penyakit pada Tanaman Pertanian Ramah Lingkungan. Universitas Gadjah Mada. 147-55.
Qibtiyah, M., & Kusumawati, D. (2018). Kajian peningkatan produksi kedelai (Glycine max (L) Merr.) dengan pemberian macam dosis dan konsentrasi biourine plus. Agroradix. 2(1), 55-62.
Reckling, M., Bergkvist, G., Watson, C.A., Stoddard, F.L., & Bachinger, J. (2020). Re-designing organic grain legume cropping systems using systems agronomy. European Journal of Agronomy. 112, 125951.
Rueda, X., Garrett, R.D., & Lambin, E.F. (2017). Corporate investments in supply chain sustainability: selecting instruments in the agri-food industry. Journal of Cleaner Production. 142(4), 2480-2492.
Sakthivel, S., Dhanapal, A.R., Balakrishnan, E., & Selvapitchai, S. (2022). Quantitative and qualitative analysis of bottle gourd (Lagenaria siceraria): Impact of organic liquid fertilizer. Energy Nexus. 5, 100055.
Santosa, M., Suryanto, A., & Maghfoer, M.D. (2015). Application of biourine on growth and yield of shallot fertilized with inorganic and organic fertilizer in Batu, East Java. Agrivita. 37(3), 290-295.
Schouten, G., & Bitzer, V. (2015). The emergence of Southern standards in agricultural value chains: a new trend in sustainability governance?. Ecological Economics. 120, 175-184.
Subandi. (2013). Peran dan pengelolaan hara kalium untuk produksi pangan di Indonesia. Pengembangan Inovasi Pertanian. 6(1), 1-10.
Sulistiyani, D.P., & Napoleon, A. (2022). The goat liquid fertilizer (biourine) quality by addition various types of decomposers to support organic agriculture. IOP Conf. Ser.: Earth Environ. Sci. 995 012009.
Syafria, H., & Jamarun, N. (2021). Growth and results forage hymenachne amplexicaulis (rudge) nees in former coal mining land. Agricultural Science Digest. 41(4), 628-631.
Tamagno, S., Sadras, V.O., Haegele, J.W., Armstrong, P.R., & Ciampitti, I.A. (2018). Interplay between nitrogen fertilizer and biological nitrogen fixation in soybean: Implications on seed yield and biomass allocation. Scientific reports, 8(1), 17502.
Wahyudin, A. (2017). Respons tanaman kedelai (Glycine max (L.) Merrill) varietas Wilis akibat pemberian berbagai dosis pupuk N, P, K, dan pupuk guano pada tanah Inceptisol Jatinangor. Jurnal Kultivasi. 16(2), 333-339.
Widiastuti, D.P., Marzuki, S.U., & Hatta, M. (2021). Utilization of organic fertilizer in response to mitigate CO2 emission. IOP Conf. Ser.: Earth Environ. Sci. 648 012120.
Zahrah, S. (2011). Respons berbagai varietas kedelai (Glycine max (L) Merril) terhadap pemberian pupuk NPK organik. J. Teknobiol. 2(1), 65-69.
Aminudin, M.I, & Anam, C. (2020). Kajian pupuk VAM (Vesicular Arbuscular Micorrhiza) dan biourine plus terhadap pertumbuhan dan produksi tanaman kedelai (Glycine Max (L) Merr.). Jurnal Folium. 1(1), 14-27.
Andayanie, W.R., Adinurani, P.G., & Lukito, M. (2022). Response of soybean lines to soybean mosaic virus under drought stress. Journal of Tropical Plant Pests and Diseases. 22(1), 41-47.
Balboa, G.R., & Ciampitti, I.A. (2020). Estimating biological nitrogen fixation in field-grown soybeans: Impact of B value. Plant and Soil. 446, 195-210.
Batubara, S.F., Santoso, A.B., & Ramija, K.E. (2021). Potential of goat manure as organic fertilizer in North Sumatera. BIO Web of Conferences 33, 05001 (2021).
Budiharti, N., & Wardana, I. (2018). The use of indonesian soybean variety with time and planting location to the production to meet the demand. MATEC Web of Conferences 204, 03005 (2018).
Chen, Y., Zhou, X., Ma, L., Lin, Y., & Huang, X. (2023). Chinese yam yield is affected by soil nutrient levels and interactions among N, P, and K fertilizers. Chin Herb Med. 15(4), 588-593.
Databoks. (2022). 10 Provinsi Penghasil Kedelai Terbesar Nasional 2022, Jawa Timur Juaranya. https://databoks.katadata.co.id/datapublish/2023/11/24/10-provinsi-penghasil-kedelai-terbesar-nasional-2022-jawa-timur-juaranya [Diakses 26 Februari 2024].
Hamid, A., Linda, R., & Mukarlina. (2020). Pertumbuhan kedelai (Glycine Max [L.] Merrill) varietas anjasmoro dengan pemberian biourin kambing (Capra aegagrus bircus). Protobiont. 9(1), 65-72.
Jamidi, Zuliati, S., & Wirda, Z. (2023). Effect of cow urine concentration and NPK fertilizer doses on the growth of oil palm seedlings (Elaeis Guineensis Jacq). IOP Conf. Ser.: Earth Environ. Sci. 1287 012008.
Lal, R. (2015). Restoring soil quality to mitigate soil degradation. Sustainability. 7(5), 5875-5895.
Lambin, E.F., Gibbs, H.K., Heilmayr, R., Carlson, K.M., Fleck, L.C., Garrett, R.D., Waroux, Y.L.P.D., McDermott, C.L., McLaughlin, D., Newton, P., Nolte, C., Pacheco, P., Rausch, L.L., Streck, C., Thorlakson, T., & Walker, N.F. (2018). The role of supply-chain initiatives in reducing deforestation. Nature Climate Change. 8(2), 109-116.
Li, Y., Liu, C., Wang, N., Zhang, Z., Hou, L., Xin, D., Qi, Z., Li, C., Yu, Y., Jiang, H., &Chen, Q. (2021). Fine mapping of a QTL locus (QNFSP07-1) and analysis of candidate genes for four-seeded pods in soybean. Molecular Breeding. 41(71).
Murdaningsih, & Ugha, M.N. (2020). Pengaruh pemberian pupuk cair bio urine sapi terhadap pertumbuhan dan hasil tanaman kedelai (Glycine max L.). Agrica. 5(2), 96-105.
Naylor, R.L., & Higgins, M.M. (2018). The rise in global biodiesel production: Implications for food security. Global Food Security. 16, 75-84.
Paiman. (2015). Perancangan Percobaan untuk Pertanian. Yogyakarta: UPY Press.
Paudel, D., Neupane, R.C., Sigdel, S., Poudel, P., & Khanal, A.R. (2023). COVID-19 pandemic, climate change, and conflicts on agriculture: A trio of challenges to global food security. Sustainability. 15(10): 8280.
Permadi, K., & Haryati, Y. (2015). Pemberian pupuk N, P, dan K, berdasarkan pengelolaan hara spesifik lokasi untuk meningkatkan produktivitas kedelai (Review). AGROTROP. 5(1) 1-8.
Pimentel, D. Hepperly, P., Hanson, J., Douds, D., & Seidel, R. (2014). An environmental, energetic and economic comparison of organic and conventional farming systems. BioScience. 55(7), 573-582.
Pradana, A.P., Putri, D., & Munif, A. (2014). Analisis populasi nematoda parasit pada lahan tanaman tomat dengan sistem tanam monokultur dan polikultur. Seminar Nasional Pengendalian Penyakit pada Tanaman Pertanian Ramah Lingkungan. Universitas Gadjah Mada. 147-55.
Qibtiyah, M., & Kusumawati, D. (2018). Kajian peningkatan produksi kedelai (Glycine max (L) Merr.) dengan pemberian macam dosis dan konsentrasi biourine plus. Agroradix. 2(1), 55-62.
Reckling, M., Bergkvist, G., Watson, C.A., Stoddard, F.L., & Bachinger, J. (2020). Re-designing organic grain legume cropping systems using systems agronomy. European Journal of Agronomy. 112, 125951.
Rueda, X., Garrett, R.D., & Lambin, E.F. (2017). Corporate investments in supply chain sustainability: selecting instruments in the agri-food industry. Journal of Cleaner Production. 142(4), 2480-2492.
Sakthivel, S., Dhanapal, A.R., Balakrishnan, E., & Selvapitchai, S. (2022). Quantitative and qualitative analysis of bottle gourd (Lagenaria siceraria): Impact of organic liquid fertilizer. Energy Nexus. 5, 100055.
Santosa, M., Suryanto, A., & Maghfoer, M.D. (2015). Application of biourine on growth and yield of shallot fertilized with inorganic and organic fertilizer in Batu, East Java. Agrivita. 37(3), 290-295.
Schouten, G., & Bitzer, V. (2015). The emergence of Southern standards in agricultural value chains: a new trend in sustainability governance?. Ecological Economics. 120, 175-184.
Subandi. (2013). Peran dan pengelolaan hara kalium untuk produksi pangan di Indonesia. Pengembangan Inovasi Pertanian. 6(1), 1-10.
Sulistiyani, D.P., & Napoleon, A. (2022). The goat liquid fertilizer (biourine) quality by addition various types of decomposers to support organic agriculture. IOP Conf. Ser.: Earth Environ. Sci. 995 012009.
Syafria, H., & Jamarun, N. (2021). Growth and results forage hymenachne amplexicaulis (rudge) nees in former coal mining land. Agricultural Science Digest. 41(4), 628-631.
Tamagno, S., Sadras, V.O., Haegele, J.W., Armstrong, P.R., & Ciampitti, I.A. (2018). Interplay between nitrogen fertilizer and biological nitrogen fixation in soybean: Implications on seed yield and biomass allocation. Scientific reports, 8(1), 17502.
Wahyudin, A. (2017). Respons tanaman kedelai (Glycine max (L.) Merrill) varietas Wilis akibat pemberian berbagai dosis pupuk N, P, K, dan pupuk guano pada tanah Inceptisol Jatinangor. Jurnal Kultivasi. 16(2), 333-339.
Widiastuti, D.P., Marzuki, S.U., & Hatta, M. (2021). Utilization of organic fertilizer in response to mitigate CO2 emission. IOP Conf. Ser.: Earth Environ. Sci. 648 012120.
Zahrah, S. (2011). Respons berbagai varietas kedelai (Glycine max (L) Merril) terhadap pemberian pupuk NPK organik. J. Teknobiol. 2(1), 65-69.
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