This study aimed to evaluate the growth of Cichorium intybus, Brassica juncea, and Lactuca sativa at varying seed ratios, and to suggest an efficient management plan for sustainable indoor agriculture systems. It was treated with mixed sowing as follows: 30 chicory seeds (chicory alone: CC), 22 chic...
This study aimed to evaluate the growth of Cichorium intybus, Brassica juncea, and Lactuca sativa at varying seed ratios, and to suggest an efficient management plan for sustainable indoor agriculture systems. It was treated with mixed sowing as follows: 30 chicory seeds (chicory alone: CC), 22 chicory seeds + 8 lettuce seeds (C3L1), 20 chicory seeds + 10 lettuce seeds (C2L1), 15 chicory seeds + 15 lettuce seeds (C1L1) as intraspecies, and 30 mustard seeds (mustard alone: MC), 22 mustard seeds + 8 lettuce seeds (M3L1), 20 mustard seeds + 10 lettuce seeds (M2L1), 15 mustard seeds + 15 lettuce seeds (M1L1) as interspecies. The study identified the competitive response in seed germination between Cichorium intybus and Lactuca sativa, and in the C3L1 experimental group, Lactuca sativa had the highest leaf length, root length, chlorophyll content, and fresh weight. Therefore, the higher the ratio of Cichorium intybus, the higher the growth and productivity of Lactuca sativa; however, higher the ratio of Lactuca sativa, the lower the growth of Cichorium intybus. Furthermore, the nitrogen and potassium content in the substrate was the highest in the C3L1 experimental grorp which had the highest seeding rate of the Cichorium intybus. Comparing the groups Brassica juncea and Lactuca sativa, the higher the seeding ratio of Lactuca sativa, the higher the growth and productivity of Brassica juncea. Therefore, a companion seeding of Brassica juncea and Lactuca sativa is beneficial; this could be effective in having a high seeding ratio of Lactuca sativa.
This study aimed to evaluate the growth of Cichorium intybus, Brassica juncea, and Lactuca sativa at varying seed ratios, and to suggest an efficient management plan for sustainable indoor agriculture systems. It was treated with mixed sowing as follows: 30 chicory seeds (chicory alone: CC), 22 chicory seeds + 8 lettuce seeds (C3L1), 20 chicory seeds + 10 lettuce seeds (C2L1), 15 chicory seeds + 15 lettuce seeds (C1L1) as intraspecies, and 30 mustard seeds (mustard alone: MC), 22 mustard seeds + 8 lettuce seeds (M3L1), 20 mustard seeds + 10 lettuce seeds (M2L1), 15 mustard seeds + 15 lettuce seeds (M1L1) as interspecies. The study identified the competitive response in seed germination between Cichorium intybus and Lactuca sativa, and in the C3L1 experimental group, Lactuca sativa had the highest leaf length, root length, chlorophyll content, and fresh weight. Therefore, the higher the ratio of Cichorium intybus, the higher the growth and productivity of Lactuca sativa; however, higher the ratio of Lactuca sativa, the lower the growth of Cichorium intybus. Furthermore, the nitrogen and potassium content in the substrate was the highest in the C3L1 experimental grorp which had the highest seeding rate of the Cichorium intybus. Comparing the groups Brassica juncea and Lactuca sativa, the higher the seeding ratio of Lactuca sativa, the higher the growth and productivity of Brassica juncea. Therefore, a companion seeding of Brassica juncea and Lactuca sativa is beneficial; this could be effective in having a high seeding ratio of Lactuca sativa.
Cha, M. K., Kim, J. S., Cho, Y. Y., 2014, Growth model of common ice plant (Mesembryanthemum crystallinum L.) using expolinear functions in a closed-type plant production system, Kor. J. Hort. Sci. Technol., 32(4), 493-498.
Hinsinger, P., Brauman, A., Gerard, F., 2011, Acquisition of phosphorus and other poorly mobile nutrients by roots, Plant Soil 348(1), 29-61.
Jeong, S. J., Park, H. S., Oh, J. S., 1998, The analysis of fact-finding the organic agriculture in Pusan and Kyung Nam, Korean J. Organic Agric., 7(1), 63-77.
Ju, J. L., Lee, S. S., Yoo, J. H., Lee, J. J., Lee, Park, K. H., 2008, Seed blending effect on growth, yield and feed value among four winter cereals for whole crop silage, J. Kor. Grassl. Forage Sci., 28(3), 203-214.
Kim, M. J., Shim, C. K., Kim, Y. K., Jee, H. J., Yun, J. C., Park, J. H., Han, E. J., Hong, S. J., 2013, Effect of inter-and mixed cropping with attractant and repellent plants on occurrence of major insect pests in organic cultivation of Chinese cabbage, Korean J. Organic Agric., 21(4), 685-699.
Kim, J. K., Kim, I. S., Kang, H. M., Choi, K. Y., 2019, Determination of appropriate location for baby leaf vegetable in multi bench system of rice seedling nursery facility during high temperature periods, Protected Hort. Plant Fac., 28(4), 286-292.
Park, K. W., Chiang, M. H., Won, J. H., Jang, K. H., 1994, The growth pattern of chicory (Cichorium intybus L. var. foliosum) as to the level of nitrogen fertilization, J. Bio-Env. Con., 3(2), 145-150.
Ren, H., Cai, A., Rodrigues, J. L., Su, X., Wang, L., Chang, J., Wu, S., Zhou, Q., Jiang, Y., Hu, S., 2021, Species patch size at seeding affects the productivity of mixed legume-grass communities. Eur. J. Agron. 120(8), 126342.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.