This study aims to determine the differences in the growth response of green curly lettuce to the differentiation treatment of LED lighting with different spectrum in indoor hydroponics. The research was conducted from October to November 2017. The experimental design used was experimental with 1 lighting factor with 5 levels, there are sunlight (P0), LED 20% blue: 80% red (P1), LED 80% blue: 20% red (P2), 50% blue LED: 50 % red (P3), and 100% white daylight (P4). Observational variables included plant height, leaf number, leaf area, leaf color, total wet weight, leaf wet weight, wet root weight and dry weight of the plant. The result of this experiment showed that LED irradiation have affect the treatment are plant height, leaf number, leaf area, chlorophyll content, fresh weight of harvest, root length, and dry weight of brackets. While those that have no significant effect are the wet weight of the roots. The results showed that between LED irradiation treatment L1, L2, L3, and L4 showed that treatment L2 with 80% blue spectrum composition: 20% red showed better growth based on: high plant, chlorophyll content, and root length. Treatment with L4 with white LED showed better growth based on the number of leaves, leaf area, fresh weight of harvest, root wet weight, and dry weight of total biomass. The results below the sunlight better than the LED irradiation treatment, because the intensity of LED far low and lack of controlled environmental conditions technology and management for growing lettuce. In all of LED treatment still looked etiolation because light intensity was not optimal yet.

Indoor Hydroponics; Artificial Light; Vertikal Farming

Ai NS. 2012. Evolusi fotosintesis pada tumbuhan. J. Ilmiah Sains 1(12): 28-34.

Aldaghi M, Anderson R, Lopez M, Odom H, Pearse M. 2016. Controlled environment for plant production. Thesis Biosystem Engineering. 11 May 2016. University of Arizona.

Annisa, Febri, dan Leni. 2016. Urban farming bertani kreatif sayur, hias, & buah. Jakarta: AgriFlo.

Bian ZH, Cheng RF, Yang QC, Wang J. 2016. Continuous light from red, blue, and green lightemitting diodes reduces nitrate content and enhances phytochemical concentrations and antioxidant capacity in lettuce. J. Amer. Soc. Hort. Sci. 141 (2): 186-195.

Carney MJ, Venetucci P, Gesick E. 2015. LED lighting in controlled environment agriculture. Minnesota Departement of Commerce. Outsourched Innovation LLC. URL:http://www.Outsourcedinnovation.com.

Gardner FP, Pearce RB, dan Mitchell RI. 1991. Fisiologi Tanaman Budidaya (Terjemahan). Jakarta: Universitas Indonesia Prees.

Ginting C. 2008. Pengaruh suhu zona perakaran terhadap pertumbuhan dan kadar klorofil tanaman selada sistem hidroponik. J. AGRIPLUS. No. 3(18): 169-178.

Ginting C. 2010. Kajian biologis tanaman selada dalam berbagai kondisi lingkungan pada sistem hidroponik. J. AGRIPLUS. No. 2(20): 107-113.

He J, Qin L, Liu Y, Choong TW. 2015. Photosynthetic capacities and productivity of indoor hydroponically grown brassica alboglabra Bailey under different light sources. J. Amer. Plant Sci. 6: 554-563.

Hogewoning SW. 2010. On the photosynthetic and developmental response of leaves to the spectral composition of light. Wageningen University Wageninge Netherlands. p. 140.

Kobayashi K, Amore T, Lazaro M. 2013. Light-EmitingDiodes (LEDs) for miniatur hydrophonic lettuce. J. Optics and Photonics. 3: 74-77.

Kremes MR, Shchekin B, Mueller-Mach R, Mueller GO, Zhou L, Harbers G, Craford MG. 2007. Status and future of high-power light-emitting diodes for solidstate lighting. J. Display Techno. 3(2): 160-175.

Lin KH, Huang MY, Huang WD, Hsu MH, Yang ZH, Yang CM. 2012. The effect of red, blue, and white light-emitting diodes on the growth, development, and edible quality of hydroponically grown lettuce (Lactuca sativa L. var. capitata). J. Scientia Hortikulturae. 150: 86-91.

Lindawati Y, Triyono S, Suhandy D. 2015. Pengaruh lama penyinaran komposisi lampu LED dan lampu neon terhadap pertumbuhan dan hasil tanaman pakcoy (Brassica rapa L.) dengan hiroponik sistem sumbu (wick system). J. Teknik Pertanian Lampung. 4(3): 191-200.

Manuhuttu AP, Rehatta H, Kailola JJG. 2014. Pengaruh konsentrasi pupuk hayati bioboost terhadap peningkatan produksi tanaman selada (Lactuca sativa. L). J. Agrologia. No. 3(1): 18-27.

Mas’ud H. 2009. Sistem hidroponik dengan nutrisi dan media tanam berbeda terhadap pertumbuhan dan hasil selada. J. Media Litbang Sulteng. 2(2): 131136.

Morrow RC. 2008. LED Lighting in Horticulture. J. Hort. Sci. 48 (7): 1947-1950.

Olle M. dan Virsille A. 2013. The effects of light-emitting diede lighting on greenhouse plant growth and quality. J. Agric Food Sci. 22: 223 – 234.

Pardo GP. Aguilar CH, Martinez FR, Pacheco FAD, Claudia LMG, Ortiz EJM. 2013. High intensity led light in lettuce seed physiology (Lactuca sativa L.). J. Acta Agrophysica. 20(4): 665-677.

Pinho P, Jokiken K, Halolen L. 2016. The influence of the LED light spectrum on the growth and nutrient uptake of hydroponically grown lettuce. J. Lighting Research and Technology. 49 (7): 866-881.

Promratrak L. 2017. The effect of using LED lighting in the growth of crops hydroponics. Int. J. Smart Grid and Clean Energy. 6(2): 133-140.

Restiani AR, Triyono S, Tusi A, Zahab R. 2015. Pengaruh jenis lampu terhadap pertumbuhan dan hasil produksi tanaman selada (Lactuca sativa L.) dalam sistem hidroponik indoor. Jurnal teknik pertanian Lampung. 4 (3): 219 – 226.

Sarkar A and Majumder M. 2013. Opportunities and Challenges in Sustainability of Vertical EcoFarming: A Review. J. of Advanced Agricultural Technologies. 2 (2): 98 - 105. Sasmitamihardja D dan AH

Siregar. 1996. Fisiologi Tumbuhan. Proyek Pendidikan Akademik Dirjen Dikti. Bandung: Depdikbud.

Siregar J, Triyono S, Suhandy D. 2015. Pengujian beberapa nutrisi hidroponik pada selada (Lactuca sativa L.) dengan teknologi hidroponik sistem terapung (THTS) termodifikasi. J. Teknik Pertanian Lampung 4(1): 65-72.

Syafriyuddin. 2015. Pengaruh variabel warna lampu led terhadap pertumbuhan tanaman krisan. Dalam

Priyambondo S, Saudah S, dan Ledhe NT. Prosiding seminar nasional teknik industri Sustainable Manufacturing. Yogyakarta, 3 Sep 2015. Institut Sains dan Teknologi AKPRIND.

Zakrzewska AS, Kleiber T. 2014. The effect of light colour and type of lamps on rooting and nutrient status in cuttings of Michaelmas daisy. Bulg. J. Agric. Sci. 20: 1426-1434.

Sarkar