![]() Response of shoot and rot development of seven tomato cultivars in hydrophonic system under water stress. ![]() Lopes, M.S., Araus, J.L., var Herdeen, P.D.R., and Foyer, C.H. Biomass partitioning, specific leaf area, and water use efficiency of vegetable amaranth (Amarathus spp.) in response to drought stress. ![]() ![]() Plant Responses to Environmental Stresses : from Phytohormones to Genome Reorganization. Sugar signals and the control of plant growth and development. Lastdrager, J., Hanson, J., and Smeekens, S. Effects of shading at different stages after anthesis on maize grain weight and quality at cytology level. Effect of low light intensity on growth and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis Fisch. Hou, J-L., Li, W-D., Zheng, Q-Y., Wang, W-Q., Xiao, B., and Xing, D. Effects of temperature changes on maize production in Mozambique. Harrison, L., Michaelsen, J., Funk, C., and Husak, G. The growth and development of maize (Zea mays L.) at five temperatures. Increased soil moisture content increases plant N uptake and the abundance of 15N in plant biomass. The effects of temperature on leaf growth in Cyperus longus, a temperate C4 species. Water deficit stress effects on Corn (Zea mays L.) root : shoot ratio. Temperature affects expansion rate of maize leaves without change spatial distribution of cell length : analysis of the coordination between cell division and cell expansion. Responses to light and water availability of four invasive Melastomaceae in the hawaian islands. Studies of growth and development in the genus Fragaria : III. Plant molecular stress response face climate change. seedlings under different levels of drought stress. Biomass production and allocation in Jatropha curcas L. Keywords: maize, growth, light intensity, wateringĪchten, W.M.J., Maes, W.H., Reubens, B., Mathijs, E., Singh, V.P., Verchot, L., and Muys, B. The results showed that L1W1 treatment increased all parameters of growth. Data were analyzed by Anava and DMRT test with significance level of 5%. Maize was harvested in 75 days after the treatment and the measured parameters were plant height, leaf total number, leaf ratio, root-shoot ratio, and plant biomass. Each combination was done with 3 replications and it was done in Sawitsari, Yogyakarta. This research used Randomized Completed Design with 3 regimes of light intensity (L1 : 63694, L2 : 11408 dan 元 : 3897 Lux) and 3 regimes of watering (W1 : 2 L, W2 : 1,6 L and W3 : 1,2 L). The aim of this research was to evaluate the effect of light intensity and watering in maize growth. The light intensity and water availability are the factors both supporting and supressing plant growth and it depends on which level that plant can accept. Kata kunci : jagung, pertumbuhan, intensitas cahaya, penyiraman Hasil penelitian menunjukkan bahwa L1W1 (63694 Lux 2 L) menyebabkan semua karakter pertumbuhan meningkat. Data dianalisis menggunakan Analisis Sidik Ragam Varian (Anava) dilanjutkan dengan uji Duncan’s Multiple Range Test (DMRT) pada tingkat signifikansi 5%. Jagung dipanen saat berumur 75 hari dengan karakter pertumbuhan yang diamati meliputi tinggi tanaman, jumlah daun, rasio daun, berat kering tanaman, dan rasio akar-tajuk. Penanaman jagung dilakukan di lahan Sawitsari, Yogyakarta. Tiap kombinasi perlakuan dibuat tiga ulangan. Rancangan penelitian yang digunakan adalah Rancangan Acak Lengkap dengan 3 faktor intensitas cahaya (L1 : 63694 L2 : 11408 dan 元 : 3897 Lux) dan 3 faktor penyiraman (pemberian air sebanyak W1 : 2 L W2 : 1,6 L W3 : 1,2 L). Tujuan penelitian ini adalah untuk mengetahui pengaruh intensitas cahaya dan penyiraman terhadap pertumbuhan tanaman jagung. Intensitas cahaya dan ketersediaan air merupakan faktor-faktor yang menjadi penunjang maupun penghambat pertumbuhan tergantung kisaran yang mampu diterima tanaman.
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