KAJIAN PERTANIAN PERKOTAAN KHUSUS TANAMAN SELADA REVIEW: URBAN AGRICULTURE WITH A SPECIAL REFERENCE TO LETTUCE PLANTS - Unika Repository

(1)

77 DAFTAR PUSTAKA

Abidin, S. Z., Oktavianus, & Adimihardja, S. A. (2017). PERTUMBUHAN DAN PRODUKSI VARIETAS SELADA (Lactuca sativa L) PADA BERBAGAI DOSIS PUPUK ORGANIK RUMPUT LAUT. Paper Knowledge . Toward a Media History of Documents, 13(Vol 7, No 1 (2014): Maret), 68–75.

https://journal.trunojoyo.ac.id/agrovigor/article/view/1428

Abu-Shahba, M. S., Mansour, M. M., Mohamed, H. I., & Sofy, M. R. (2021). Comparative Cultivation and Biochemical Analysis of Iceberg Lettuce Grown in Sand Soil and Hydroponics With or Without Microbubbles and Macrobubbles. Journal of Soil Science and Plant Nutrition, 21(1), 389–403. https://doi.org/10.1007/s42729-020-00368-x Ahmad, M., Sayyed, A. H., Saleem, M. A., & Ahmad, M. (2008). Evidence for field evolved

resistance to newer insecticides in Spodoptera litura (Lepidoptera: Noctuidae) from

Pakistan. Crop Protection, 27(10), 1367–1372.

https://doi.org/10.1016/j.cropro.2008.05.003

Ahmed, S., Ahmed, S., Roy, S. K., Woo, S. H., Sonawane, K. D., & Shohael, A. M. (2019).

Effect of salinity on the morphological, physiological and biochemical properties of lettuce (Lactuca sativa L.) in Bangladesh. Open Agriculture, 4(1), 361–373.

https://doi.org/10.1515/opag-2019-0033

Akaeze, O., & Nandwani, D. (2020). Urban agriculture in Asia to meet the food production challenges of urbanization: A review. Urban Agriculture and Regional Food Systems, 5(1), 1–7. https://doi.org/10.1002/uar2.20002

Amoozgar, A., Mohammadi, A., & Sabzalian, M. R. (2016). Impact of light-emitting diode irradiation on photosynthesis, phytochemical composition and mineral element content of lettuce cv. Grizzly. Photosynthetica, 55(1), 85–95. https://doi.org/10.1007/s11099-016- 0216-8

Armanda, D. T., Guinée, J. B., & Tukker, A. (2019). The second green revolution: Innovative urban agriculture’s contribution to food security and sustainability – A review. Global Food Security, 22(August), 13–24. https://doi.org/10.1016/j.gfs.2019.08.002

Asriyani, Aliyaman, & Azizu, M. N. (2021). PERTUMBUHAN TANAMAN SELADA BERBASIS KEPADATAN IKAN GABUS PADA SISTEM AKUAPONIK. 9(2), 104–109.

https://doi.org/10.30869/jtech.v9i2.776

Barbosa, G. L., Almeida Gadelha, F. D., Kublik, N., Proctor, A., Reichelm, L., Weissinger, E., Wohlleb, G. M., & Halden, R. U. (2015). Comparison of land, water, and energy requirements of lettuce grown using hydroponic vs. Conventional agricultural methods.

(2)

International Journal of Environmental Research and Public Health, 12(6), 6879–6891.

https://doi.org/10.3390/ijerph120606879

Barla, S.-A., Salachas, G., & Abeliotis, K. (2020). Assessment of the greenhouse gas emissions from aeroponic lettuce cultivation in Greece. Euro-Mediterranean Journal for Environmental Integration, 5(2), 1–7. https://doi.org/10.1007/s41207-020-00168-w Barlas, N., Çok, I., & Akbulut, N. (2006). The contamination levels of organochlorine

pesticides in water and sediment samples in Uluabat Lake, Turkey. Environmental Monitoring and Assessment, 118(1–3), 383–391. https://doi.org/10.1007/s10661-006- 1504-8

Barro, J. H. (2021). Sustainable Cities and Communities. In For God So Loved the World.

https://doi.org/10.2307/j.ctv1v08zhx.14

Borghesi, E., Carmassi, G., Uguccioni, M. C., Vernieri, P., & Malorgio, F. (2013). Effects of Calcium and Salinity Stress on Quality of Lettuce in Soilless Culture. Journal of Plant Nutrition, 36(5), 677–690. https://doi.org/10.1080/01904167.2012.721909

BPS. (2017). Buletin Pemantauan Ketahanan Pangan indonesia Fokus Khusus: Tren konsumsi dan produksi buah dan sayur. German Humanitarian Assistance, 8(November), 1–24.

https://docs.wfp.org/api/documents/WFP-0000024091/download/

Buchanan, D. N., & Omaye, S. T. (2013). Comparative Study of Ascorbic Acid and Tocopherol Concentrations in Hydroponic- and Soil-Grown Lettuces. Food and Nutrition Sciences, 04(10), 1047–1053. https://doi.org/10.4236/fns.2013.410136

Castillo-Castellanos, D., Zavala-Leal, I., Ruiz-Velazco, J. M. J., Radilla-García, A., Nieto- Navarro, J. T., Romero-Bañuelos, C. A., & González-Hernández, J. (2015).

Implementation of an experimental nutrient film technique-type aquaponic system.

Aquaculture International, 24(2), 637–646. https://doi.org/10.1007/s10499-015-9954-z Chen, H., Tong, X., Tan, L., & Kong, L. (2020). Consumers’ acceptability and perceptions

toward the consumption of hydroponically and soil grown broccoli microgreens. Journal of Agriculture and Food Research, 2(March), 100051.

https://doi.org/10.1016/j.jafr.2020.100051

Ciriello, M., Formisano, L., Pannico, A., El-Nakhel, C., Fascella, G., Duri, L. G., Cristofano, F., Gentile, B. R., Giordano, M., Rouphael, Y., Fusco, G. M., Woodrow, P., & Carillo, P.

(2021). Nutrient solution deprivation as a tool to improve hydroponics sustainability:

Yield, physiological, and qualitative response of lettuce. Agronomy, 11(8), 1–15.

https://doi.org/10.3390/agronomy11081469

Cohen, A., Malone, S., Morris, Z., Weissburg, M., & Bras, B. (2018). Combined Fish and

(3)

Lettuce Cultivation: An Aquaponics Life Cycle Assessment. Procedia CIRP, 69(May), 551–556. https://doi.org/10.1016/j.procir.2017.11.029

Cometti, N. N., Bremenkamp, D. M., Galon, K., Hell, L. R., & Zanotelli, M. F. (2013).

Resfriamento e concentração da solução nutritiva em cultivo hidropônico da alface.

Horticultura Brasileira, 31(2), 287–292. https://doi.org/10.1590/S0102- 05362013000200018

Crush, J., Frayne, B., & Pendleton, W. (2012). The Crisis of Food Insecurity in African Cities.

Journal of Hunger and Environmental Nutrition, 7(2–3), 271–292.

https://doi.org/10.1080/19320248.2012.702448

Crush, J., Hovorka, A., & Tevera, D. (2011). Food security in Southern African cities: The place of urban agriculture. Progress in Development Studies, 11(4), 285–305.

https://doi.org/10.1177/146499341001100402

Damerum, A., Chapman, M. A., & Taylor, G. (2020). Innovative breeding technologies in lettuce for improved post-harvest quality. Postharvest Biology and Technology, 168(June), 111266. https://doi.org/10.1016/j.postharvbio.2020.111266

De Vries, I. M. (1997). Origin and domestication of Lactuca sativa L. Genetic Resources and Crop Evolution, 44(2), 165–174. https://doi.org/10.1023/A:1008611200727

Dharmadewi, A. A. I. M. (2020). Analisis Kandungan Klorofil Pada Beberapa Jenis Sayuran Hijau Sebagai Alternatif Bahan Dasar Food Suplement Analysis of Chlorophyll Content in Several Types of Green Vegetables as an Alternative to Food Supplement. Jurnal Emasains, 9(Ix), 171–176. https://doi.org/https://doi.org/10.5281/zenodo.4299383 Duaja, M. D. (2012). PENGARUH BAHAN DAN DOSIS KOMPOS CAIR TERHADAP

PERTUMBUHAN SELADA (Lactuca sativa sp.). Jurnal Bioplantae, 1(1), 19–25.

https://online-journal.unja.ac.id/bioplante/article/view/1738

El-Essawy, H., Nasr, P., & Sewilam, H. (2019). Aquaponics: a sustainable alternative to conventional agriculture in Egypt – a pilot scale investigation. Environmental Science and Pollution Research, 26(16), 15872–15883. https://doi.org/10.1007/s11356-019-04970-0 El-Helaly, M. A., & Darwish, O. S. (2019). Effect of culture system; aerponic, hydroponic and

sandy substrate on growth, yield and chemical compositionsoflettuce. Plant Archives, 19(2), 2543–2550. http://www.plantarchives.org/19-2/2543-2550 (5238).pdf

El-Nakhel, C., Pannico, A., Graziani, G., Kyriacou, M. C., Giordano, M., Ritieni, A., De Pascale, S., & Rouphael, Y. (2020). Variation in macronutrient content, phytochemical constitution and in vitro antioxidant capacity of green and red butterhead lettuce dictated by different developmental stages of harvest maturity. Antioxidants, 9(4).

(4)

https://doi.org/10.3390/antiox9040300

Ellis, F., & Sumberg, J. (1998). Food production, urban areas and policy responses. World Development, 26(2), 213–225. https://doi.org/10.1016/S0305-750X(97)10042-0

Erwin, M. R. S., Putrada, A. G., & Triawan, M. A. (2021). Deteksi Hama Ulat Pada Tanaman Selada Berbasis Aquaponic Menggunakan CNN (Convolutional Neural Network). E-

Proceeding of Engineering, 8(5), 10254–10263.

https://openlibrarypublications.telkomuniversity.ac.id/index.php/engineering/article/vie w/15699

Esturk, O., Yakar, Y., & Ayhan, Z. (2014). Pesticide residue analysis in parsley, lettuce and spinach by LC-MS/MS. Journal of Food Science and Technology, 51(3), 458–466.

https://doi.org/10.1007/s13197-011-0531-9

Ezziddine, M., & Liltved, H. (2021). Quality and yield of lettuce in an open-air rooftop hydroponic system. Agronomy, 11(12). https://doi.org/10.3390/agronomy11122586 Fadhil, M., Argo, B. D., & Hendrawan, Y. (2015). Rancang Bangun Prototype Alat Penyiram

Otomatis dengan Sistem Timer RTC DS1307 Berbasis Mikrokontroler Atmega16 pada Tanaman Aeroponik. Jurnal Keteknikan Pertanian Tropis Dan Biosistem, 3(1), 37–43.

https://jkptb.ub.ac.id/index.php/jkptb/article/view/255

FAO. (2001). A briefing guide for the successful implementation of Urban and Peri-urban Agriculture in Developing Countries and Countries of Transition. Revision 2 Handbook Series, Volume III. https://doi.org/10.1007/s00181-003-0192-2

Fariudin, R., Sulistyaningsih, E., & Waluyo, S. (2013). PERTUMBUHAN DAN HASIL DUA KULTIVAR SELADA (Lactuca sativa, L.) DALAM AKUAPONIKA PADA KOLAM

GURAMI DAN KOLAM NILA. Vegetalika, 2(1).

https://jurnal.ugm.ac.id/jbp/article/view/1619

Fauzi, A. R., Ichniarsyah, A. N., & Agustin, H. (2016). Pertanian Perkotaan : Urgensi, Peranan,

dan Praktik Terbaik. Agreoteknologi, 10(01), 49–62.

https://jurnal.unej.ac.id/index.php/JAGT/article/view/4339

Fitriansah, T., Roviq, M., & Karyawati, A. S. (2019). Pertumbuhan Tanaman Selada (Lactuca Sativa L) pada Dosis dan Interval Penambahan AB Mix dengan Sistem Hidroponik Growth of Lettuce (Lactuca sativa L.) at Dosage and Interval Addition of AB Mix with Hydroponic System. Jurnal Produksi Tanaman, 7(3), 538–544.

http://protan.studentjournal.ub.ac.id/index.php/protan/article/view/1086/1104

Gil, M. I., & Tudela, J. A. (2020). Leafy vegetables: Lettuce, escarole, and radicchio. In Controlled and Modified Atmospheres for Fresh and Fresh-Cut Produce. Elsevier Inc.

(5)

https://doi.org/10.1016/b978-0-12-804599-2.00043-0

Giménez, A., Fernández, J. A., Pascual, J. A., Ros, M., & Egea-Gilabert, C. (2020). Application of directly brewed compost extract improves yield and quality in baby leaf lettuce grown hydroponically. Agronomy, 10(3). https://doi.org/10.3390/agronomy10030370

Ginting, C. (2010). Kajian Biologis Tanaman Selada dalam Berbagai Kondisi Lingkungan pada

Sistem Hidroponik. Agriplus, 20(02), 107–113.

http://faperta.uho.ac.id/agriplus/Fulltext/2010/AGP2002002.pdf

Goddek, S., & Vermeulen, T. (2018). Comparison of Lactuca sativa growth performance in conventional and RAS-based hydroponic systems. Aquaculture International, 26(6), 1377–1386. https://doi.org/10.1007/s10499-018-0293-8

Googoolee, A. M., Takooree, S. D., Goburdhun, D., & Neetoo, H. (2020). Characterizing the cultivation practices and microbiological quality of watercress. Journal of Agriculture and Food Research, 2(April), 100057. https://doi.org/10.1016/j.jafr.2020.100057

Gumelar, W. R., Nurruhwati, I., Sunarto, & Zahidah. (2017). TERHADAP KONSENTRASI TOTAL AMONIA NITROGEN MEDIA PEMELIHARAAN IKAN KOI Widi Restu Gumelar , Isni Nurruhwati , Sunarto , Zahidah Universitas Padjadjaran. Jurnal Perikanan Dan Kelautan, VIII(2), 36–42. http://journal.unpad.ac.id/jpk/article/view/15485

Hamilton, A. J., Burry, K., Mok, H. F., Barker, S. F., Grove, J. R., & Williamson, V. G. (2014).

Give peas a chance? Urban agriculture in developing countries. A review. Agronomy for Sustainable Development, 34(1), 45–73. https://doi.org/10.1007/s13593-013-0155-8 Hanin, N. N. F., & Pratiwi, R. (2017). Kandungan Fenolik, Flavonoid dan Aktivitas

Antioksidan Ekstrak Daun Paku Laut (Acrostichum aureum L.) Fertil dan Steril di Kawasan Mangrove Kulon Progo, Yogyakarta. Journal of Tropical Biodiversity and Biotechnology, 2(2), 51. https://doi.org/10.22146/jtbb.29819

Helm, J. (1954). Lactuca sativa L. in morphologisch-systematischer Sicht. Die Kulturpflanze, 2(1), 72–129. https://doi.org/10.1007/BF02095730

Iakimova, E. T., & Woltering, E. J. (2015). Nitric oxide prevents wound-induced browning and delays senescence through inhibition of hydrogen peroxide accumulation in fresh-cut lettuce. Innovative Food Science and Emerging Technologies, 30, 157–169.

https://doi.org/10.1016/j.ifset.2015.06.001

Imani, F., Charina, A., Karyani, T., & Mukti, G. W. (2018). Penerapan Sistem Pertanian Organik Di Kelompok Tani Mekar Tani Jaya Desa Cibodas Kabupaten Bandung Barat.

4(2), 139–152. https://jurnal.unigal.ac.id/index.php/mimbaragribisnis/article/view/1173 Karimah, A., Purbajanti, E. D., & Sumarsono. (2019). Hasil Tanaman Selada (. Agromedia,

(6)

37(1). https://doi.org/10.47728/ag.v37i1.241

Kaufman, J., & Bailkey, M. (2000). Farming Inside Cities : Entrepreneurial Urban Agriculture in the United States Lincoln Institute of Land Policy Working Paper Lincoln Institute. 124.

http://www.urbantilth.org/wp-content/uploads/2008/10/farminginsidecities.pdf

Kementerian Kesehatan Republik Indonesia. (2018). Tabel Komposisi Pangan Indoensia 2017.

In Kementerian Kesehatan Republik Indonesia. http://repo.stikesperintis.ac.id/1110/1/32 Tabel Komposisi Pangan Indonesia.pdf

Kim, M. J., Moon, Y., Tou, J. C., Mou, B., & Waterland, N. L. (2016). Nutritional value, bioactive compounds and health benefits of lettuce (Lactuca sativa L.). Journal of Food Composition and Analysis, 49, 19–34. https://doi.org/10.1016/j.jfca.2016.03.004

Kleiber, T. (2014). Effect of manganese nutrition on content of nutrient and yield of lettuce (Lactuca Sativa L.) in hydroponic. Ecological Chemistry and Engineering S, 21(3), 529–

537. https://doi.org/10.2478/eces-2014-0039

Kleiber, T., Starzyk, J., & Bosiacki, M. (2013). Effect of nutrient solution, effective microorganisms (EM-A), and assimilation illumination of plants on the induction of the growth of lettuce (Lactuca sativa L.) in hydroponic cultivation. Acta Agrobotanica, 66(1), 27–38. https://doi.org/10.5586/aa.2013.004

Kolankaya, D. (2006). Organochlorine pesticide reidues and their toxic effects on the environment and organisms in Turkey. International Journal of Environmental Analytical Chemistry, 86(1–2), 147–160. https://doi.org/10.1080/03067310500247918

Laksono, R. A. (2021). Interval Waktu Pemberian Nutrisi Terhadap Produksi Tanaman Selada Hijau (Lactucasativa L) Varietas New Grand Rapid Pada Sistem Aeroponik Rommy.

Jurnal Paspalum, 9(1), 2–6.

https://www.journal.unwim.ac.id/index.php/paspalum/article/view/194

Lal, R. (2020). Home gardening and urban agriculture for advancing food and nutritional security in response to the COVID-19 pandemic. Food Security, 12(4), 871–876.

https://doi.org/10.1007/s12571-020-01058-3

Lee, J. S., & Chandra, D. (2018). Effects of different packaging materials and methods on the physical, biochemical and sensory qualities of lettuce. Journal of Food Science and Technology, 55(5), 1685–1694. https://doi.org/10.1007/s13197-018-3081-6

Lee, S., & Lee, J. (2015). Beneficial bacteria and fungi in hydroponic systems: Types and characteristics of hydroponic food production methods. Scientia Horticulturae, 195, 206–

215. https://doi.org/10.1016/j.scienta.2015.09.011

Lei, C., & Engeseth, N. J. (2021). Comparison of growth characteristics, functional qualities,

(7)

and texture of hydroponically grown and soil-grown lettuce. Lwt, 150(May), 111931.

https://doi.org/10.1016/j.lwt.2021.111931

Lennard, W., & Goddek, S. (2019). Aquaponics : The Basics.

https://link.springer.com/chapter/10.1007/978-3-030-15943-6_5

Li, Q., Li, X., Tang, B., & Gu, M. (2018). Growth responses and root characteristics of lettuce grown in Aeroponics, Hydroponics, and Substrate Culture. Horticulturae, 4(4).

https://doi.org/10.3390/horticulturae4040035

Lindqvist, K. (1960). on the Origin of Cultivated Lettuce. Hereditas, 46(3–4), 319–350.

https://doi.org/10.1111/j.1601-5223.1960.tb03091.x

Llorach, R., Martínez-Sánchez, A., Tomás-Barberán, F. A., Gil, M. I., & Ferreres, F. (2008).

Characterisation of polyphenols and antioxidant properties of five lettuce varieties and

escarole. Food Chemistry, 108(3), 1028–1038.

https://doi.org/10.1016/j.foodchem.2007.11.032

Love, D. C., Fry, J. P., Li, X., Hill, E. S., Genello, L., Semmens, K., & Thompson, R. E. (2015).

Commercial aquaponics production and profitability: Findings from an international survey. Aquaculture, 435, 67–74. https://doi.org/10.1016/j.aquaculture.2014.09.023 Magwaza, S. T., Magwaza, L. S., Odindo, A. O., & Mditshwa, A. (2020). Hydroponic

technology as decentralised system for domestic wastewater treatment and vegetable production in urban agriculture: A review. Science of the Total Environment, 698, 134154.

https://doi.org/10.1016/j.scitotenv.2019.134154

Mampholo, B. M., Maboko, M. M., Soundy, P., & Sivakumar, D. (2016). Phytochemicals and Overall Quality of Leafy Lettuce (Lactuca sativa L.) Varieties Grown in Closed Hydroponic System. Journal of Food Quality, 39(6), 805–815.

https://doi.org/10.1111/jfq.12234

Mampholo, B. M., Maboko, M., Soundy, P., & Sivakumar, D. (2019). Postharvest responses of hydroponically grown lettuce varieties to nitrogen application rate. Journal of Integrative Agriculture, 18(10), 2272–2283. https://doi.org/10.1016/S2095- 3119(19)62664-X

Manullang, R. Ri., Roby, Mentari, F. S. D., & Rusmini. (2021). PERTUMBUHAN DAN PRODUKSI TANAMAN SELADA (Lactuca sativa L.) PADA SISTEM HIDROPONIK NFT DENGAN BERBAGAI KONSENTRASI PUPUK AB MIX DAN GROWMORE.

Jurnal Agriment, 6(2), 147–153. https://doi.org/10.51967/jurnalagriment.v6i2.786 Margolang, R., Jamilah, J., & Sembiring, M. (2015). Karakteristik Beberapa Sifat Fisik, Kimia,

Dan Biologi Tanah Pada Sistem Pertanian Organik. Jurnal Agroekoteknologi Universitas

(8)

Sumatera Utara, 3(2), 104544. https://doi.org/10.32734/jaet.v3i2.10358

Maulido, R. N., Tobing, O. L., & Adimihardja, S. A. (2016). Pengaruh Kemiringan Pipa Pada Hidroponik Sistem NFT Terhadap Pertumbuhan Dan Produksi Selada (Lactuca sativa L.).

Jurnal Agronida, 2(2), 62–68. https://ojs.unida.ac.id/JAG/article/view/939

Meilasari, F., Muljowati, J. S., & Mumpuni, A. (2020). Pengaruh Asam Askorbat terhadap Pertumbuhan Colletotrichum coccodes Penyebab Antraknosa pada Tanaman Cabai Merah. BioEksakta : Jurnal Ilmiah Biologi Unsoed, 2(2), 203.

https://doi.org/10.20884/1.bioe.2020.2.2.1918

Meriaty, Arvita, S., & Dwi, P. K. (2021). PERTUMBUHAN DAN HASIL TANAMAN SELADA ( Lactuca. Jurnal Agroprimatech, 4(2), 75–84.

https://doi.org/https://doi.org/10.34012/agroprimatech.v4i2.1698

Miceli, A., Vetrano, F., & Moncada, A. (2021). Influence of Ecklonia maxima extracts on growth, yield, and postharvest quality of hydroponic leaf lettuce. Horticulturae, 7(11).

Miceli, A., Vetrano, F., Sabatino, L., D’Anna, F., & Moncada, A. (2019). Influence of preharvest gibberellic acid treatments on postharvest quality of minimally processed leaf lettuce and rocket. Horticulturae, 5(3). https://doi.org/10.3390/horticulturae5030063 Miska, M. E. E., & Arti, I. M. (2020). RESPON PERTUMBUHAN SELADA (Lactuca sativa

L.) DENGAN BERBAGAI MEDIA TANAM PADA SISTEM BUDIDAYA AKUAPONIK Growth. Jurnal Pertanian Presisi, 18(4), 346.

https://doi.org/10.3176/chem.geol.1969.4.07

Mok, H. F., Williamson, V. G., Grove, J. R., Burry, K., Barker, S. F., & Hamilton, A. J. (2014).

Strawberry fields forever? Urban agriculture in developed countries: A review. Agronomy for Sustainable Development, 34(1), 21–43. https://doi.org/10.1007/s13593-013-0156-7 Mou, B. (2012). Nutritional Quality of Lettuce. Current Nutrition & Food Science, 8(3), 177–

187. https://doi.org/10.2174/157340112802651121

Naufal, R., Karna, N. B. A., & Raniprima, S. (2021). Aeroponik Untuk Tanaman Selada Design and Implementation of Aeroponic Monitoring and Control. 8(5), 4883–4890.

https://openlibrarypublications.telkomuniversity.ac.id/index.php/engineering/article/vie w/15766

Nikzad, N., & Parastar, H. (2021). Evaluation of the effect of organic pollutants exposure on the antioxidant activity, total phenolic and total flavonoid content of lettuce (Lactuca sativa L.) using UV–Vis spectrophotometry and chemometrics. Microchemical Journal, 170(July), 106632. https://doi.org/10.1016/j.microc.2021.106632

(9)

Novinanto, A., & Setiawan, A. W. (2019). PENGARUH VARIASI SUMBER CAHAYA LED TERHADAP PERTUMBUHAN BUDIDAYA HIDROPONIK RAKIT APUNG EFFECT OF LED LIGHT SOURCE VARIATION TOWARD CURLY LETTUCE ( Lactuca sativa var . Crispa L ) GROWTH AND YIELD IN HYDROPONIC RAFT SYSTEM PENDAHULUAN Selada merupakan sal. AGRIC Jurnal Ilmu Pertanian, 378(mm). https://ejournal.uksw.edu/agric/article/view/3254

Nugroho, S. A., Taufika, R., & Novenda, I. L. (2020). ANALISIS KANDUNGAN ASAM ASKORBAT PADA TANAMAN KANGKUNG (Ipomoea reptana Poir), BAYAM (Amaranthus spinosus), dan KETIMUN (Cucumis sativus L). Jurnal TAMBORA, 4(1), 26–31. https://doi.org/10.36761/jt.v4i1.567

Nugroho, Y. A., Sugito, Y., Agustina, L., & Soemarno, S. (2013). Kajian Penambahan Dosis Beberapa Pupuk Hijau dan Pengaruhnya Terhadap Pertumbuhan Tanaman Selada (Lactuca sativa L.). The Journal of Experimental Life Sciences, 3(2), 45–53.

https://doi.org/10.21776/ub.jels.2013.003.02.01

Nurza, I. S. A., & Venesia, D. (2020). Penggunaan AB Mix dan Media Tanam terhadap Viabilitas Tanaman Selada (Lactuca sativa L. Var. New Grand Rapids) dalam Hydroponic Wick System. Risenologi, 5(1), 14–19. https://doi.org/10.47028/j.risenologi.2020.51.68 Palupi, H. D., & Dawam, M. (2020). Pengaruh Konsentrasi Nitrogen pada Pertumbuhan dan

Hasil Dua Kultivar Tanaman Selada ( Lactuca sativa L .) dengan Sistem Hidroponik The Effect of Nitrogen Concentration on Growth and Yield of Two Lettuce Cultivars ( Lactuca sativa L .) with Hydroponic Sys. Jurnal Produksi Tanaman, 8(2), 241–247.

https://core.ac.uk/download/pdf/324204929.pdf

Pantanella, E. (2018). Sustainable Aquaculture. In Sustainable Aquaculture. Springer International Publishing. https://doi.org/10.1007/978-3-319-73257-2

Peng, X., Li, R., Zou, R., Chen, J., Zhang, Q., Cui, P., Chen, F., Fu, Y., Yang, J., & Xia, X.

(2013). Allicin Inhibits Microbial Growth and Oxidative Browning of Fresh-Cut Lettuce (Lactuca sativa) During Refrigerated Storage. Food and Bioprocess Technology, 7(6), 1597–1605. https://doi.org/10.1007/s11947-013-1154-0

Petropoulos, S. A., Chatzieustratiou, E., Constantopoulou, E., & Kapotis, G. (2016). Yield and quality of lettuce and rocket grown in floating culture system. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 44(2), 603–612. https://doi.org/10.15835/nbha44210611 Pinstrup-Andersen, P. (2009). Food security: definition and measurement. Food Security, 1(1),

5–7. https://doi.org/10.1007/s12571-008-0002-y

Poulsen, M. N., McNab, P. R., Clayton, M. L., & Neff, R. A. (2015). A systematic review of

(10)

urban agriculture and food security impacts in low-income countries. Food Policy, 55, 131–146. https://doi.org/10.1016/j.foodpol.2015.07.002

Prawoto, B. R., & Kartika, J. G. (2016). Pengelolaan Aspek Produksi dan Pasca Panen Sayuran Daun Secara Aeroponik dan Hidroponik : Studi Kasus Lembang, Bandung.

15(2), 1–23. https://doi.org/10.29244/agrob.v4i1.14994

Puccinelli, M., Landi, M., Maggini, R., Pardossi, A., & Incrocci, L. (2021). Iodine biofortification of sweet basil and lettuce grown in two hydroponic systems. Scientia

Horticulturae, 276(October 2020), 109783.

https://doi.org/10.1016/j.scienta.2020.109783

Qadeer, A., Zia-Ul-Haq, Butt, S. J., Asam, H. M., Mehmood, T., Nawaz, M. K., & Haidree, S.

R. (2020). Hydroponics as an innovative technique for lettuce production in greenhouse environment. Pure and Applied Biology, 9(1), 20–26.

https://doi.org/10.19045/bspab.2020.90130

Ramos-Sotelo, H., Pérez-Ramírez, I. F., Figueroa-Pérez, M. G., Fierro-Sañudo, J. F., León- Cañedo, J. A., Alarcón-Silvas, S. G., Reyes-Moreno, C., & Páez-Osuna, F. (2021).

Metabolite profiling and antioxidant capacity of lettuce Lactuca sativa var. longifolia grown in aquaponic system irrigated with shrimp effluents. Biotecnia, 23(3), 101–108.

https://doi.org/10.18633/biotecnia.v23i3.1454

Rantung, L. E., Lengkey, L. C. C. E., & Wenur, F. (2020). ANALISIS KUALITAS SELADA (Lactuca sativa L.) YANG DITANAM PADA DUA MEDIA SELAMA PENYIMPANAN DINGIN. Jurnal Teknologi Pertanian (Agricultural Technology Journal, 11(1). https://doi.org/10.35791/jteta.11.1.2020.29985

Rivai, R. S., & Anugrah, I. S. (2011). Konsep dan Implementasi Pembangunan Berkelanjutan (Concept and Implementation of Sustainable Agricultural Development in Indonesia).

Forum Penelitian Agro Ekonomi, 29(1), 13–25.

https://doi.org/http://dx.doi.org/10.21082/fae.v29n1.2011.13-25

Rosdiana, Agusta, W., & Kurniawan, E. (2021). Pengaruh Teknik Pencucian dan Suhu Ruang Terhadap Kualitas Selada (Lactuca sativa L) Selama Penyimpanan. Jurnal Agribisnis Perikanan, 14(2), 416–426. https://doi.org/https://doi.org/10.52046/agrikan.v14i2.818 Rosdiana, R., Apriyanto, E., Putri, D., & Nur, N. (2020). REKAYASA MEDIA TANAM

BERBASIS LIMBAH SERAT BUAH SAWIT UNTUK PERTUMBUHAN TANAMAN SELADA (Lactuca sativa L). Jurnal AGROSAINS Dan TEKNOLOGI, 5(2), 65.

https://doi.org/10.24853/jat.5.2.65-76

Rosnina, R., & Mauliza, S. (2020). Optimization of AB-mix Fertilizer on Varieties of

(11)

Hydroponic Lettuce (Lactuca sativa L.). Journal of Tropical Horticulture, 3(2), 86.

https://doi.org/10.33089/jthort.v3i2.56

Ru, D., Liu, J., Hu, Z., Zou, Y., Jiang, L., Cheng, X., & Lv, Z. (2017). Improvement of aquaponic performance through micro- and macro-nutrient addition. Environmental Science and Pollution Research, 24(19), 16328–16335. https://doi.org/10.1007/s11356- 017-9273-1

Russo, A., Escobedo, F. J., Cirella, G. T., & Zerbe, S. (2017). Edible green infrastructure: An approach and review of provisioning ecosystem services and disservices in urban environments. Agriculture, Ecosystems and Environment, 242(October 2016), 53–66.

https://doi.org/10.1016/j.agee.2017.03.026

Sadono, D. (2008). Pemberdayaan Petani: Paradigma Baru Penyuluhan Pertanian di Indonesia.

Jurnal Penyuluhan, 4(1). https://doi.org/10.25015/penyuluhan.v4i1.2170

Sapkota, S., Sapkota, S., & Liu, Z. (2019). Effects of nutrient composition and lettuce cultivar on crop production in hydroponic culture. Horticulturae, 5(4).

Sari, W., Idrus, M., & Surya. (2015). Produktivitas Air Beberapa Varietas Selada dengan Sistem Irigasi NFT ( Nutrient Film Technique ) di PT . Momenta Agrikultura Lembang Bandung Barat Water Productivity on several varieties of Salad with Irrigation System Nutrient Film Technique ( NFT ) at P. Jurnal Ilmiah Teknik Pertanian, 7(3), 157–168.

https://doi.org/10.25181/tektan.v7i3.861

Serea, C., Barna, O., Manley, M., & Kidd, M. (2014). EFFECT OF STORAGE TEMPERATURE ON THE ASCORBIC ACID CONTENT , TOTAL PHENOLIC CONTENT AND ANTIOXIDANT ACTIVITY IN LETTUCE ( LACTUCA SATIVA L .). The Journal of Animal & Plant Sciences, 24(4), 1173–1177.

http://www.thejaps.org.pk/docs/v-24-4/29.pdf

Setiawan, B., & Rahmi, D. H. (2004). Ketahanan Pangan, Lapangan Kerja, dan Keberlanjutan Kota: Studi Pertanian Kota di Enam Kota Indonesia. In Warta Penelitian (Vol. 5, Issue 2004, pp. 34–42). http://i-lib.ugm.ac.id/jurnal/detail.php?dataId=7541

Singh, H., Dunn, B., & Payton, M. (2019). Hydroponic pH Modifiers affect Plant Growth and Nutrient Content in Leafy Greens. Journal of Horticultural Research, 27(1), 31–36.

https://doi.org/10.2478/johr-2019-0004

Somerville, C., Cohan, M., Pantanella, E., Stankus, A., & Lovatelli.A. (2014). Producción de alimentos en acuaponía a pequeña escala. In FAO Fisheries and Aquaculture Techinical Paper (Vol. 589). https://www.fao.org/3/i4021e/i4021e.pdf

(12)

Son, K. H., Lee, J. H., Oh, Y., Kim, D., Oh, M. M., & In, B. C. (2017). Growth and bioactive compound synthesis in cultivated lettuce subject to light-quality changes. HortScience, 52(4), 584–591. https://doi.org/10.21273/HORTSCI11592-16

Stefanelli, D., Winkler, S., & Jones, R. (2011). Reduced nitrogen availability during growth improves quality in red oak lettuce leaves by minimizing nitrate content, and increasing antioxidant capacity and leaf mineral content. Agricultural Sciences, 02(04), 477–486.

https://doi.org/10.4236/as.2011.24061

Subandi, M., Frasetya, B., & Resminiasari, N. (2021). Effect of saline condition and application of rice husk silica extract on lettuce growth in hydroponics. IOP Conference Series:

Materials Science and Engineering, 1098(5), 052080. https://doi.org/10.1088/1757- 899x/1098/5/052080

Sudalmi, E. R. (2010). Pembangunan Pertanian Berkelanjutan. Inovasi Pertanian, 9(2), 15–28.

http://www.ejurnal.unisri.ac.id/index.php/innofarm/article/viewFile/28/2

Suhl, J., Dannehl, D., Kloas, W., Baganz, D., Jobs, S., Scheibe, G., & Schmidt, U. (2016).

Advanced aquaponics: Evaluation of intensive tomato production in aquaponics vs.

conventional hydroponics. Agricultural Water Management, 178, 335–344.

https://doi.org/10.1016/j.agwat.2016.10.013

Suo, R., Wang, W., Ma, Y., Fu, L., & Cui, Y. (2021). Effect of different root lengths for retaining freshness of hydroponic lettuce. Journal of Agriculture and Food Research, 4(December 2020), 100151. https://doi.org/10.1016/j.jafr.2021.100151

Suryandari, R. Y. (2010). Pengembangan Pertanian Perkotaan Impian Mewujudkan. Jurnal

PLANESA, 1(November), 106–113.

https://ejurnal.esaunggul.ac.id/index.php/planesa/article/view/521

Syah, M. F., Ardian, & Yulia, A. E. (2021). PEMBERIAN PUPUK AB MIX PADA TANAMAN PAKCOY PUTIH (Brassica rapa L.) DENGAN SISTEM HIDROPONIK

RAKIT APUNG. Dinamika Pertanian, 37(1), 17–22.

https://doi.org/10.25299/dp.2021.vol37(1).7714

Syamsiah, M., & Marlina, G. (2016). RESPON PERTUMBUHAN TANAMAN SELADA (Lactuca sativa L.)VARIETAS KRIEBO TERHADAP KONSENTRASI ASAM GIBERELIN. Agroscience (Agsci), 6(2), 55. https://doi.org/10.35194/agsci.v6i2.105 Thomas, T., Biradar, M. S., Chimmad, V. P., & Janagoudar, B. S. (2021). Growth and

physiology of lettuce (Lactuca sativa L.) cultivars under different growing systems. Plant Physiology Reports, 26(3), 526–534. https://doi.org/10.1007/s40502-021-00591-3

Thornton, A. (2008). Beyond the Metropolis: Small Town Case Studies of Urban and Peri-

(13)

urban Agriculture in South Africa. Urban Forum, 19(3), 243–262.

https://doi.org/10.1007/s12132-008-9036-7

Turgut. (2002). The contamination with organochlorine pesticides and heavy metals in surface water in Küçük Menderes River in Turkey , 2000-2002 The contamination with organochlorine pesticides and heavy metals in surface water in Ku c u. 29(September), 2000–2002. 10.1016/S0160-4120(02)00127-7

Turgut, C., Ornek, H., & Cutright, T. J. (2011). Determination of pesticide residues in Turkey’s table grapes: The effect of integrated pest management, organic farming, and conventional farming. Environmental Monitoring and Assessment, 173(1–4), 315–323.

https://doi.org/10.1007/s10661-010-1389-4

Warganegara, G. R., Ginting, Y. C., & Kushendarto, K. (2017). Pengaruh Konsentrasi Nitrogen Dan Plant Catalyst Terhadap Pertumbuhan Dan Hasil Tanaman Selada (Lactuca sativa L.) Secara Hidroponik. Jurnal Penelitian Pertanian Terapan, 15(2), 100–106.

https://doi.org/10.25181/jppt.v15i2.117

Wibowo, S. (2021). Aplikasi Sistem Aquaponik Dengan Hidroponik Dft Pada Budidaya Tanaman Selada (Lactuca Sativa L.). Jurnal Penelitian Dan Pengabdian Kepada Masyarakat UNSIQ, 8(2), 125–133. https://doi.org/10.32699/ppkm.v8i2.1490

Winpenny, J., Heinz, I., & Koo-Oshima, S. (2010). The Wealth of Waste : The Economics of Wastewater Use in Agriculture. FAO Water Report, 35, 1–142.

http://www.fao.org/docrep/012/i1629e/i1629e.pdf

Yama, D. I., & Kartiko, H. (2020). Pertumbuhan dan Kandungan Klorofil Pakcoy (Brassica rapa L) Pada Beberapa Konsentrasi AB Mix Dengan Sistem Wick. Jurnal Teknologi, 12(1), 21–30. https://jurnal.umj.ac.id/index.php/jurtek/article/view/4193

Yang, T., & Kim, H. J. (2020). Comparisons of nitrogen and phosphorus mass balance for tomato-, basil-, and lettuce-based aquaponic and hydroponic systems. Journal of Cleaner Production, 274, 122619. https://doi.org/10.1016/j.jclepro.2020.122619

Yep, B., & Zheng, Y. (2019). Aquaponic trends and challenges – A review. Journal of Cleaner Production, 228, 1586–1599. https://doi.org/10.1016/j.jclepro.2019.04.290

Zezza, A., & Tasciotti, L. (2010). Urban agriculture, poverty, and food security: Empirical evidence from a sample of developing countries. Food Policy, 35(4), 265–273.

https://doi.org/10.1016/j.foodpol.2010.04.007

Zhang, Y., Zha, L., Liu, W., Zhou, C., Shao, M., & Yang, Q. (2021). Led light quality of continuous light before harvest affects growth and asa metabolism of hydroponic lettuce grown under increasing doses of nitrogen. Plants, 10(1), 1–14.

(14)

https://doi.org/10.3390/plants10010176

Zuhaida, L., Ambarwati, E., & Sulistyaningsih, E. (2011). PERTUMBUHAN DAN HASIL SELADA (Lactuca sativa L.) HIDROPONIK DIPERKAYA Fe. Vegetalika, 19(12), 1859–1867. https://doi.org/10.22146/veg.1597