The Aster (Callistephus chinensis L) is an important commodity and is cultivated by using NPK fertilizer. The other nutrient source in environmental-friendly agriculture is biofertilizer contains mixed strains of beneficial microbes. The purpose of a field experiment was to observe the influence of various biofertilizer composed of mixed strain of Nitrogen-fixer bacteria and Phosphate-solubilizer microbes on Aster plant growth and yield of flower. The research design was a randomized block design consisted of four biofertilizer types and one control. The results verified that biofertilizer increased plant height at 9 weeks after application but have not affected the initial generative stadia. The consortia of Pseudomonas diminuta, P. Cepaceae, Penicillium sp., and Aspergillus sp. showed the best effect on the plant health, flower number per plot, and flower diameter. The experiment confirmed that all biofertilizers could be used as the source of biostimulants for Aster. 

Aloni, R., E. Aloni, M., Langhans, and C.I. Ullrich. 2006. Role of cytokinin and auxin in shaping root architecture: regulating vascular differentiation, lateral root initiation, root apical dominance and root gravitropism. Ann Bot 97(5):883-893.

Aloo, B.N., V. Tripathi, B.A. Makumba, E.R. Mbega. 2022. Plant growth-promoting rhizobacterial biofertilizers for crop production

on: The past, present, and future. Front Plant Sci 16(13):1002448.

Fitriatin, B.N., O. Mulyani, D. Herdiyantoro, T.A. Alahmadi, M. Pellegrini, M. 2022. Metabolic characterization of phosphate solubilizing microorganisms and their role in improving soil phosphate solubility, yield of upland rice (Oryza sativa L.), and phosphorus fertilizers eciency. Front Sustain Food Sys. 6:1032708.

Fukami, J., P. Cerezini, and M. Hungria, M. 2018. Azospirillum: benefits that go far beyond biological nitrogen fixation. AMB Expr 8:73

Hindersah, R., N. N. Kamaluddin, S. Samanta, S. Banerjee, and S. Sarkar. 2020. Role and perspective of Azotobacter in crops production. Sains Tanah- J Soil Sc Agroclim 17(2):170-179. 202

Hindersah, R., A.M. Kalay, H. Kesaulya, and C. 2021. Suherman. The nutmeg seedlings growth under pot culture with biofertilizers inoculation. Open Agric 6 (1):1-10

Hindersah, R., A.M. Kalay, A. Talahaturuson. 2022. Rice yield grown in different fertilizer combination and planting methods: Case study in Buru Island, Indonesia. Open Agric 7: 871–881

Kurepa J, and Smalle JA. 2022. Auxin/Cytokinin antagonistic control of the shoot/root growth ratio and its relevance for adaptation to drought and nutrient deficiency stresses. Int J Mol Sci 9:23(4):1933.

Orozco-Mosqueda, M. del C., G. Santoyo, and B.R. Glick. 2023. Recent advances in the bacterial phytohormone modulation of plant growth. Plants (Basel) 12(3):606.

Sajjad, Y., M. J. Jaskani, M, M. Asif, and M. Q. Pak. 2017. Application of plant growth regulators in ornamentalplants: A review. J Agri Sci 54(2):327-333.

Sepp, S-K., M. Vasar, J. Davison, J. Oja, S. Anslan, S. Al-Quraishy, et al. 2023. Global diversity and distribution of nitrogen-fixing bacteria in the soil. Front Plant Sci 14:1100235.

Shekar, C. S.Y. 2014. Effect of growth regulators on growth and flowering of china aster [Callistephus chinensis (l.) Nees.] - A review. Agri Reviews 35(1): 57-63

Shtin, M., R. D. Ioio, and M. Del Bianco. 2022. It’s time for a change: The role of gibberellin in root meristem development. Front Plant 13:882517

Song, J. 2017. The relationship of root system with the growth and development of bulbs and shoots in lilies. Hortscience 52(2):245–250

Taiz, L. and E. Zeiger. 2010. Plant Physiology, 5th Ed. Sinauer Associates, Sunderland, Massachusetts, United States.

Timofeeva, A.M., M. R. Galyamova, and S. E. Sedykh. 2023. Plant growth-promoting soil bacteria: nitrogen fixation, phosphate solubilization, siderophore production, and other biological activities. Plants 12(24):4074

Vidya, A., A. Shivpure, and B.G. Hanumantharayya. 2022. Influence of biostimulants on growth and yield of China aster (Callistephus chinensis) cv. Poornima. Pharma Innov J 11(2): 3056-3064.

Wang, Z., Z. Chen, G.A. Kowalchuk, Z. Xu, X. Fu, and E.E. Kuramae. 2021. Succession of the Resident Soil Microbial Community in Response to Periodic Inoculations. Appl Environ Microbiol 87(9):e00046-21.

Yu, X., X. Liu, T-H. Zhu, G-H. Liu, and C. Mao. 2012. Co-inoculation with phosphate-solubilizing and nitrogen-fixing bacteria on solubilization of rock phosphate and their effect on growth promotion and nutrient uptake by walnut. Eur J Soil Biol 50:112–117.