The Effect of Arbuscular Mycorrhizae and Sp-36 Fertilizer Application on The Growth of Butternut Squash (Cucurbita Moschata Durch) in Swampy Land Nita Aprillia; Dewi Erika Adriani; Raihani Wahdah

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Published Feb 2, 2023
DOI https://doi.org/10.20527/twj.v8i2.110

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Nita Aprillia
Dewi Erika Adriani
Raihani Wahdah

Abstract

This study aimed to: (1) determine the effect of various doses of arbuscular mycorrhizae with SP-36 fertilizer on the growth of butternut squash in the swampy land; (2) determine the best combination of various doses of arbuscular mycorrhizae with SP-36 fertilizer on the growth and of butternut squash in the swampy land. The research was carried out in the Green House of SMK PP Negeri Banjarbaru from October 2020 to November 2021. The study used a factorial completely randomized design (CRD) with 2 factors. The fist factor was arbuscular mycorrhizae dose (M) which consisted of 4 levels, namely: m0 = Control ; m1 = 5 g tan - 1 equivalent to 0.1 ton ha - 1;m2 = 10 g tan - 1 equivalent to 0.2 ton ha - 1; m3 = 15 g tan - 1 equivalent to 0.3 ton ha - 1.The second factor was SP-36 fertilizer dose (S) fertilizer which consists of 4 levels, namely: s0 = Control; s1 = 1,39 g tan - 1 equivalent to 0,125 ton ha - 1; s2 = 2,22 g tan - 1 equivalent to 0,2 ton ha -  ; s3 = 3.06 g tan - 1 equivalent to 0.275 ton ha- 1, combination repeated 3 (three) times, with 6 polybags of them, so that there were 288 plants in total. The result showed that there was an interaction effect on the volume of roots at 2 and 4 weeks after planting, shoot dry weight, root dry weight and shoot root ratio. The single factor of application of arbuscular mycorrhizae and SP-36 fertilizer each had a very significant effect on root colonization. Combination of arbuscular mycorrhizae at a dose of 10 g ton - 1 equivalent to 0.2 ton ha- 1 and SP-36 fertilizer at a dose of 3.06 g ton - 1 equivalent to 0.275 ton ha 1 could increase the growth of butternut squash in the swampy land.

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Aprillia, N., Adriani, D., & Wahdah, R. (2023). The Effect of Arbuscular Mycorrhizae and Sp-36 Fertilizer Application on The Growth of Butternut Squash (Cucurbita Moschata Durch) in Swampy Land. TROPICAL WETLAND JOURNAL, 8(2), 1-7. https://doi.org/10.20527/twj.v8i2.110
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Vol 8 No 2 (2022): Wetland Agricultural Issues
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Articles
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Creative Commons License
TROPICAL WETLAND JOURNAL is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

References

Anggraini, E., Muslim, A., Zuriana, A., Irsan, C., & Gunawan, B. (2018). Uji Kisaran Inang Penyakit Downy Mildew (Pseudoperonospora cubensis) dan Antraknosa (Colletotrichum Sp.) pada Beberapa Tanaman Cucurbitaceae. Jurnal Lahan Suboptimal: Journal of Suboptimal Lands, 7(2), 213–224.
Fatah, H. L. (2017). Lahan rawa lebak: Sistem pertanian dan pengembangannya. IAARD Press.
Husin, E. F. (1997). Respon beberapa jenis tanaman terhadap mikoriza vesikular arbuskular dan pupuk fosfat pada ultisol. Di Dalam Prosiding Pemanfaatan Cendawan Mikoriza Untuk Meningkatkan Produksi Tanaman Pada Lahan Marginal. Asosiasi Mikoriza Indonesia, Universitas Jambi.
Imani, F. L. (2019). Pengaruh Perbedaan Media Tanam dan Konsentrasi Aplikasi PGPR pada Pertumbuhan dan Hasil Tanaman Labu Madu (Cucurbita moschata). Jurnal Produksi Tanaman, 7(10), 1–50.
Jumin, H. B. (2002). Agroekologi: suatu pendekatan fisiologis. PT. Raja Grafindo Persada, Jakarta.
Kemas Ali Hanafiah. (2010). Dasar-dasar Ilmu Tanah. Penerbit Rajawali Pers, Jakarta.
Kurniasih, B., & Wulandhany, F. (2009). Penggulungan daun, pertumbuhan tajuk dan akar beberapa varietas padi gogo pada kondisi cekaman air yang berbeda. Agrivita, 31(2), 118–128.
Nadeak, J. O. S., Delvian, D., & Elfiati, D. (2015). Pengaruh Pemberian Fungi Mikoriza Arbuskula (FMA) Terhadap Kandungan Logam Timbal (Pb) pada Tanaman Sengon (Paraserianthes falcataria). Peronema Forestry Science Journal, 4(3), 135–142.
Putra, R. D., Delvian, D., & Elfiati, D. (2016). Pengaruh Inokulasi Mikoriza Arbuskula Terhadap Pertumbuhan Bibit Tanaman Slow Growing (Glodokan Dan Tanjung. Peronema Forestry Science Journal, 5(1), 36–42.
Sallaku, G., Babaj, I., Kaciu, S., & Balliu, A. (2009). The influence of vermicompost on plant growth characteristics of cucumber (Cucumis sativus L.) seedlings under saline conditions. Journal of Food, Agriculture and Environment, 7(3–4), 869–872.
Santoso, E., Turjaman, M., & Irianto, R. S. B. (2007). Aplikasi mikoriza untuk meningkatkan kegiatan rehabilitate hutan dan lahan terdegradasi. Prosiding Ekspose Hasil-Hasil Penelitian, 71–80.
Sastrahidayat, I. R. (2011). Rekayasa pupuk hayati mikoriza dalam meningkatkan produksi pertanian. Universitas Brawijaya Press.
Sitompul, S. M., & Guritno, B. (1995). Analysis pertumbuhan tanaman.
Subagyo, H. (2006). Lahan Rawa Lebak in Karakteristik dan Pengelolaan Lahan Rawa. Balai Besar Litbang Sumberdaya Lahan Pertanian Bogor.
Sugito, Y. (2013). Metodologi penelitian. Universitas Brawijaya Press.
Wahyuni, S., Linda, R., Khotimah, S., & Penelitian, T. (2013). Pengaruh Inoculum Jamur Glomus aggregatum Dan Pupuk Fosfat Sp-36 Terhadap PertumbuhanTanaman Tomato ( Lycopersicum esculentum , Mill .) p ada Tanah Gambut. Jurnal Protobiont, 2(3), 152–156.
Zhang, S., Meru, G., & Roberts, P. D. (2021). Florida Plant Disease Management Guide: Sweet Basil. Edis, 2021(6), 32611. https://doi.org/10.32473/edis-pp113-2021
Zufahmi, & Mahajoeno, E. (2014). Variasi Labu kuning (Cucurbita moschata Duch.) Berdasarkan Morfometrik Batang, Bunga, dan Biji di Provinsi Aceh. El-Vivo, 2(2), 82–89.