The demand for butternut squash which continues to increase every year makes farmers try to increase their production, one of which is by applying biological and organic fertilizers. This study aims to determine the response of growth and production of butternut squash to the application of mycorrhiza and quail manure. This study used a randomized block design with 2 factors and 3 replications. The first factor was the application of mycorrhiza which consisted of 3 levels, namely: 0, 2.5, and 5 g/plant, while the second factor was quail manure which consisted of 4 levels, namely: 0, 1, 2 and 3 kg/plot. The results showed that the application of mycorrhizae had a significant effect on fruit length and fruit weight. The application of quail manure had a significant effect on increasing fruit weight. The interaction of mycorrhizae and quail manure did not significantly affect all observed parameters. Although it had no significant effect, the application of mycorrhiza and quail fertilizer was proven to increase the growth and production of butternut squash compared to the control (without the application of mycorrhiza and quail manure). The combination of mycorrhizal 2.5 g/plant and quail manure 1 kg/plot could increase butternut squash production.

Alridiwirsah A, Lubis R, Novita A. The effect of pruning and chicken manure on vegetative growth of Honey Deli (Syzygiumaqueum Burn F.) in 9 months age. Proceeding International Conference Sustainable Agriculture and Natural Resources Management (ICoSAaNRM). 2.

Barłóg P, Grzebisz W, Łukowiak R. 2022. Fertilizers and Fertilization Strategies Mitigating Soil Factors Constraining Efficiency of Nitrogen in Plant Production. Plants. 11(14):1855. doi:10.3390/plants11141855.

Danial E, Sakalena F. 2020. Respon pertumbuhan dan produksi tanaman bawang merah (Allium ascalonicum l.) terhadap pemberian pupuk kandang puyuh pada tanah pmk. J LANSIUM 1(2): 25-32. https://doi.org/10.25077/jijcs.4.2.41-43.2022.

Dermawan R, Kaimuddin, Dungga NE, Sjahril R, Mollah A, Yuniarti NS. 2020. Response of growth and development of butternut squash (Cucurbita moschata) to the combination of bioslurry and NPK fertilization. IOP Conf Ser: Earth Environ Sci. 575(1):012119. doi:10.1088/1755-1315/575/1/012119.

Diagne N, Ngom M, Djighaly PI, Fall D, Hocher V, Svistoonoff S. 2020. Roles of Arbuscular Mycorrhizal Fungi on Plant Growth and Performance: Importance in Biotic and Abiotic Stressed Regulation. Diversity. 12(10):370. doi:10.3390/d12100370.

Dwidjoseputro D. 1999. Jakarta: Gramedia Pustaka Utama.

Fitter A, Hay R. 1998. Fisiologi lingkungan tanaman. Yogyakarta: Gajah Mada University Press.

Kurniati F, Hodiyah I, Hartoyo T, Nurfalah I. 2018. Respon labu madu (Cucurbita moschata Dusrch) terhadap zat pengatur tumbuh alami berbagai dosis. Agrotech Res J. 2:16-21. https://doi.org/10.20961/agrotechresj.v2i1.19466.

Kusuma ME. Pengaruh takaran pupuk kandang kotoran burung puyuh terhadap pertumbuhan dan hasil tanaman sawi putih (Brassica Juncea L.). J Ilmu Hewani Tropika. 1: 7-11.

Leghari SJ, Wahocho NA, Laghari GM, Laghari AH, Bhabhan HM, Talpur KH, Bhutto TA, Wahocho SA, Lashari AA. 2016. Role of nitrogen for plant growth and development: A review. Adv Environ Biol. 10(9):209-218

Matondang AM, Jumini J, Syafruddin S. 2020. Pengaruh jenis dan dosis pupuk hayati mikoriza terhadap pertumbuhan dan hasil tanaman cabai (Capsicum annuum l.) pada tanah andisol lembah seulawah aceh besar. JIMFP. 5(2):101–110. doi:10.17969/jimfp.v5i2.15025.

Nasution N, Saputra SI. 2013. Pertumbuhan bibit kakao (Theobroma cacao L.) dengan aplikasi Trichoderma sp dan pupuk majemuk. Fakultas Pertanian, Universitas Riau, Riau.

Nurmasyitah, Syafrudin S, Sayuthi M. 2013. Pengaruh Jenis Tanah dan Dosis Fungi Mikoriza Arbuskular pada Tanaman Kedelai Terhadap Sifat Kimia Tanah. J Agrista. 17(3).

Ortaş I, Rafique M. 2017. The mechanisms of nutrient uptake by Arbuscular Mycorrhizae. Springer. doi:https://doi.org/10.1007/978-3-319-68867-1_1.

Safriyani E, Purnamasari A, Lubuklinggau K. 2021. Aplikasi mikoriza dalam meningkatkan pertumbuhan dan produksi tanaman tomat. LANSIUM. 2:36-39. https://doi.org/10.54895/lansium.v2i2.910.

Setiadi Y. 2011. Studi status fungi mikoriza arbuskula di areal rehabilitasi pasca penambangan nikel (Studi Kasus PT INCO Tbk. Sorowako, Sulawesi Selatan). J Silvi Tropik. 3:88-95.

Sitompul S, Guritni B. 1995. Analisis pertumbuhan tanaman. Yogyakarta: Gadjah Mada University Press.

Tarigan D, Utami S, Siregar H, Novita A, Hayati R, Bimantara Y. 2020. Seedling growth in response to seedling growth response of cocoa (Theobroma cacao L.) for the provision of guano fertilizer and mycorrhizal organic fertilizer in the nursery. Proceeding International Conference Sustainable Agriculture and Natural Resources Management (ICoSAaNRM). 2.

Waluyo P. 2020. Respon pemberian pupuk kandang ayam dan MOL buah pepaya terhadap pertumbuhan dan produksi tanaman timun suri (Cucumis melo L). Kumpulan Karya Ilmiah Mahasiswa Fakultas sains dan Tekhnologi, 1: 67-67. 1(1):67–67.

Weaver R. 1972. "Plant growth substances in agriculture," WH. Freeman Co., San Fransisco.

Wicaksono MI, Rahayu M, Samanhudi S. 2014. Pengaruh pemberian mikoriza dan pupuk organik terhadap pertumbuhan bawang putih. J Caraka Tani. 29(1):35. doi:10.20961/carakatani.v29i1.13310.

Xu X, Du X, Wang F, Sha J, Chen Q, Tian G, Zhu Z, Ge S, Jiang Y. 2020. Effects of potassium levels on plant growth, accumulation and distribution of carbon, and nitrate metabolism in apple dwarf rootstock seedlings. Front Plant Sci. 11:904. doi:10.3389/fpls.2020.00904.