The high phosphate retention in Andisols causes the availability of P to be low, can not be absorbed by plants. Actinomycetes are capable of solubilizing bound phosphates. This research aimed to identify Actinomycetes in Andisols Namanteran, assess their ability to increase phosphate availability, and understand how they work to increase phosphate availability in this soil. The research design used a factorial randomized block design with 2 factors; factor 1 was Actinomycetes isolate, consisting of A₀ = No Inoculant, A₁ = Inoculant A₁₃₂ (vegetable crops; 32 × 10⁸ CFU mL⁻¹), A₂ = A₄₆₈ (forest plants; 41 × 10⁸ CFU mL⁻¹), A₃ = A₄₅₈ (forest plant; 58 × 10⁸ CFUmL⁻¹), A₄ = A₄₇₁ (coffee plant; 35 × 10⁸ CFU mL⁻¹), A₅ = A₄₅₉ (forest plant; 63 × 10⁸ CFU mL⁻¹), A₆ = A₃₂₁ (hibiscus plant; 37 × 10⁸ CFU mL⁻¹), and A₇ = A₃₅₆ (vegetable plant; 33 × 10⁸ CFU mL⁻¹), and factor 2 was soil water content, consisting of K₁ = 50%, K₂ = 75% and K₃ = 100% of field capacity. The results showed that the availability of P in Andisols increased due to the application of Actinomycetes from 42.46 ppm to 159.20−266.60 ppm. The population of Actinomycetes in Actinomycetes treatment ranged from 27.33−31.58 × 10⁸ CFU mL⁻¹), with a soil pH of 4.41. Water content of 100% was the best in increasing soil pH and Actinomycetes population, but not having significant effects on the available P of the soil. The results of molecular identification of Actinomycetes that have the best potential in dissolving P include A₃>A₅>A₂>A₄>A₁.

Actinomycetes, Andisol, phosphate, moisture content, available P

Ajidirman. (2010). Kajian Kandungan Mineral Alofan dan Fenomena Fiksasi Fosfor Pada Andisols. J.Hidrolitan, 1(2), pp. 15−20.

Alfikri, M.R., Sabrina, T., and Sahar, A. (2019). Isolation, Purification and Potential Test of Actinomycetes in Increasing Phosphate Availability. The 3rd International Conference Community Research and Service Engagements, IC2RSE 2019, 4th December 2019, North Sumatra, Indonesia.

Alori, E.T., Glick, B.R., and Babalola, O.O. (2017). Microbial phosphorus solubilization and its potential for use in sustainable agriculture. Front Microbiol, 8, 971.

Bhatti, A. A., Shamsul, H., and Rouf, A. B. (2017). Actinomycetes benefaction role in soil and plant health. Jurnal Microbial Pathogenesis, 111, pp. 458−467.

Biglari, N., Hasnuri, M. H., and Javid, A. (2016). The Ability of Streptomyces spp. Isolatd from Iranian Soil to Solubilize Rock Phosphate. Advances in Bioscience & Clinical Medicine, 4(3), 15−25.

Havlin, J.L., Beaton, J.D., Tisdale, S.L., and Nelson, W.L. (2013). Soil fertility and fertilizers: An introduction to nutrient management. 8th ed. Upper Saddle River, NJ: Pearson, pp. 528.

Javed, Z., Gyan, D. T., Mansi, M., and Kavya, D. (2021). Actinomycetes – The microbial machinery for the organic-cycling, plant growth, and sustakantinable soil health. Biocatalysis and Agricultural Biotechnology, 31, 101893.

Kavitha, P. G., and Doble, M. (2014). Production and characterization of antibacterial compounds from Streptomyces species under optimized conditions. International Journal of Pharmacy and Pharmaceutical Sciences, 6(4), pp 24−430.

Li, W., Guo, L., Li, Y., and Liu, Y. (2021). Mechanisms of phosphorus solubilization by soil microorganisms and plants. Journal of Soils and Sediments, 21(3), pp. 1263−1277.

Marbun, S., Sembiring, M., and Bintang. (2015). Aplikasi Mikroba Pelarut Fosfat dan Bahan Organik untuk Meningkatkan Serapan P dan Pertumbuhan Kentang Pada Andisol Terdampak Erupsi Gunung Sinabung. Jurnal Agroekoteknologi, 4(1), 1651−1658.

Siddiqui, Z. A., and Akhtar, M. S. (2017). Plant growth promoting rhizobacteria as biofertilizers. Singapore: Springer.

Susilowati, L.E and Syekhfani, S. (2014). Characterization of phosphate solubilizing bacteria isolatd from Pb contaminated soils and their potential for dissolving tricalcium phosphate. Journal of Degraded and Mining Lands Management, 1(2), pp. 57−62.

Wahbi, S., Bonhomme, M., Ainouche, A., and Jemo, M. (2016) Managing the soil mycorrhizal infectivity to improve the agronomic efficiency of key processes from natural ecosystems integrated in agricultural management systems. In: Hakeem, K.R., Akhtar, M.S., and Abdullah, S.N.A., Plant, Soil and Microbes. Springer International Publishing, pp. 17−27.

Widawati, S., Arif, N., and I Made, S. (2008). Aktivitas Pelarutan Fosfat oleh Actinomycetes yang Diisolasi dari Waigeo, Kepulauan Raja Ampat, Papua Barat. Jurnal Biodiversitas, 9(2), pp. 87−90.

Zuo, Y. Y., Guo, Y. N., and Xue, Y. F. (2022). Organic acid exudation by plant roots affects soil nutrient availability and microbial community composition in an agroforestry system. Applied Soil Ecology, 170, 104173.