Effect of Bacillus mesonae H20-5 on Fruit Yields and Quality in Protected Cultivation |
Yoo, Sung-Je
(Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration)
Kim, Jeong Woong (Central Research Institute, Kyung Nong Corporation) Kim, Sang Tae (Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration) Weon, Hang-Yeon (Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration) Song, Jaekyeong (Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration) Sang, Mee Kyung (Division of Agricultural Microbiology, National Institute of Agricultural Science, Rural Development Administration) |
1 | Anonymous. 1968. Laboratory manual for food canners and processors. 3rd ed. National Canners Association, Westport, CT, USA. 444 pp. |
2 | Bernabeu, P. R., Pistorio, M., Torres-Tejerizo, G., Estrada-de los Santos, P., Galar, M. L., Boiardi, J. L. et al. 2015. Colonization and plant growth-promotion of tomato by Burkholderia tropica. Sci. Hortic. 191: 113-120. DOI |
3 | Cicek, N. and Cakirlar, H. 2002. The effect of salinity on some physiological parameters in two maize cultivars. Bulg. J. Plant Physiol. 28: 66-74. |
4 | Hallmann, E. 2012. The influence of organic and conventional cultivation systems on the nutritional value and content of bioactive compounds in selected tomato types. J. Sci. Food Agric. 92: 2840-2848. DOI |
5 | Kuti, J. O. and Konuru, H. B. 2005. Effects of genotype and cultivation environment on lycopene content in red-ripe tomatoes. J. Sci. Food Agric. 85: 2021-2026. DOI |
6 | Martinez, R., Torres, P., Meneses, M. A., Figueroa, J. G., Perez-Alvarez, J. A. and Viuda-Martos, M. 2012. Chemical, technological and in vitro antioxidant properties of mango, guava, pineapple and passion fruit dietary fibre concentrate. Food Chem. 135: 1520-1526. DOI |
7 | Sainju, U. M., Dris, R. and Singh, B. 2003. Mineral nutrition of tomato. J. Food Agric. Environ. 1: 176-183. |
8 | Mena-Violante, H. G. and Olalde-Portugal, V. 2007. Alteration of tomato fruit quality by root inoculation with plant growthpromoting rhizobacteria (PGPR): Bacillus subtilis BEB-13bs. Sci. Hortic. 113: 103-106. DOI |
9 | Munns, R. and Gilliham, M. 2015. Salinity tolerance of crops - what is the cost? New Phytol. 208: 668-673. DOI |
10 | Nzanza, B., Marais, D. and Soundy, P. 2012. Yield and nutrient content of tomato (Solanum lycopersicum L.) as influenced by Trichoderma harzianum and Glomus mosseae inoculation. Sci. Hortic. 144: 55-59. DOI |
11 | Singh, V. K., Singh, A. K., Singh, P. P. and Kumar, A. 2018. Interaction of plant growth promoting bacteria with tomato under abiotic stress: A review. Agric. Ecosyst. Environ. 267: 129-140. DOI |
12 | Tigchelaar, E. C. 1986. Tomato breeding. In: Breeding vegetables crops, ed. by M. J. Bassett, pp.135-171. AVI Publishing Company, Westport, USA. |
13 | Vasco, C., Ruales, J. and Kamal-Eldin, A. 2008. Total phenolic compounds and antioxidant capacities of major fruits from Ecuador. Food Chem. 111: 816-823. DOI |
14 | Yoo, S.-J., Shin, D. J., Weon, H.-Y., Song, J. and Sang, M. K. 2018. Selection of bacteria for enhancement of tolerance to salinity and temperature stresses in tomato plants. Korean J. Organic Agric. 26: 463-475 (in Korean). DOI |