Aktivitas Larvasida Ekstrak Daun Tumih (Combretocarpus rotundatus (Miq.) Danser) terhadap Larva Aedes aegypti
Renhart Jemi(1*), Royda Dara Ertini Damanik(2), Lies Indrayanti(3)
(1) Jurusan Kehutanan Fakultas Pertanian Universitas Palangka Raya
(2) Jurusan Kehutanan Fakultas Pertanian Universitas Palangka Raya
(3) Jurusan Kehutanan Fakultas Pertanian Universitas Palangka Raya
(*) Corresponding Author
Abstract
Penelitian ini bertujuan untuk mengukur kadar ekstrak daun tumih dan menguji aktivitas larvasidanya terhadap Aedes aegypti. Daun tumih dimaserasi dan difraksinasi dengan pelarut metanol, n-heksana, etil asetat, dan etanol. Aktivitas larvasida ekstrak diuji dengan konsentrasi 0, 5, 10, 25, 50, 75, dan 100 ppm. Hasil penelitian menunjukkan rendemen dari ekstraksi daun tumih pada berbagai larutan adalah sebagai berikut ekstrak metanol sebesar 15%, n-heksana 51%, etil asetat 35% dan etanol 85%. Hasil uji fitokimia menunjukkan bahwa ekstrak metanol daun tumih positif mengandung senyawa alkaloid, flavonoid, saponin, dan tanin. Pengujian larvasida ekstrak daun tumih menunjukkan pengaruh terhadap mortalitas larva Aedes aegypti. Aktivitas larvasida ekstrak daun tumih optimum pada ekstrak etil asetat dengan LC(50) = 24,54 ppm, ekstrak metanol LC(50) = 45,65 ppm, ekstrak etanol LC(50) = 46,77 ppm dan ekstrak n-heksana LC(50) = 48,97 ppm. Ekstrak etil asetat daun tumih merupakan ekstrak teraktif dalam aktivitas larvasidanya. Selanjutnya, analisis FT-IR menunjukkan adanya gugus fungsi C-H alkana dan C = C aromatik. Gugus fungsi tersebut diduga penyusun senyawa alkaloid, flavanoid, saponin, dan tanin. Hasil analisis LCMS mengindikasikan adanya 7 senyawa bioaktif yaitu hexadecyl-ferulate, 21-o-methyl toosendanopentaol, 23-acetate alismaketone, dehydroxy-24-acetate alisol, physanol, prosapogenin 2, dan stigmastan-3,6-dione
Larvacide Activity of Tumih (Combretocarpus rotundatus (Miq.)Danser) Leaf Extracts against Aedes aegypti
Abstract
This research aimed to measure the content of Combretocarpus Rotundatus (Miq.) Danser leaf extracts and to test its larvicidal activity against Aedes aegypti. The leaves were macerated and fractionated using methanol, n-hexane, ethyl acetate, and ethanol. The extract contents from the leaves extraction were metanol extract of 15%, n-hexane extract of 51%, ethyl acetate extract of 35% and ethanol extract of 85%. The larvicidal activity of extracts was tested with concentration of 0, 5, 10, 25, 50, 75, and 100 ppm. Phytochemicals test exhibited that the methanol extract of Combretocarpus rotundatus (Miq.) Danser leaves contained alkaloids, flavonoids, saponins, and tannins. Larvicidal test conducted on the extracts exhibited an effect on the mortality levels against Aedes aegypti larvae. The larvicidal activity of leaf extracts was optimum in the ethyl acetate extract at LC(50) = 24.54 ppm, methanol extract at LC(50) = 45.65 ppm, ethanol extract at LC(50) = 46.77 ppm, and n-hexane extract at LC(50 = 48.97 ppm. It was found that the ethyl acetate extract was the most active larvicide. FT-IR analysis showed existing functional groups of C-H alkanes and C=C aromatics. Those functional groups were assumed to be flavanoid, alkaloid, saponin, and tannin constituents. Results of LC-MS analysis indicated 7 bioactive compounds i.e.hexadecyl-ferulate, 21-o-methyl toosendanopentaol, 23-acetate alismaketone, dehydroxy-24-acetate alisol, prosapogenin 2, and stigmastan-3,6- dione.
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Aberoinmand A. 2012. Screening of phytochemical compounds and toxic proteinaceous protease inhibitor in some lesser-known food based plants and their effects and potensial application in food. International Journal of Food Science and Nutrition Engineering 2(2): 1-5.
Adityo R, Kurniawan B, Mustofa S. 2013. Uji efek fraksi metanol ekstrak batang Kecombrang (Etlingera elatior) sebagai larvasida terhadap larva instar III Aedes aegypti. MAJORITY (Medical Journal of Lampung University) 10(3):156-164.
Amir H, Butt BZ, Vehra SE. 2017. Evaluation of larvicidal activity of Parthenium hysterophorus against Aedes aegypti. International Journal of Mosquito Research 4(2): 01-04
Ardiyanto WN. 2011. Fenologi jenis-jenis pohon hutan rawa gambut.Hlm. 96-102.Prosiding Seminar Hasil Hasil Penelitian BPTKSDA Samboja. Balikpapan, 3 November 2011.
Bagavan A, Rahuman AA, Kamaraj C, Geetha K. 2008. Larvicidal activity of saponin from Achyranthes aspera against Aedes aegypti and Culex quinquefasciatus (Diptera: Culicidae). Journal Parasitology 103(3): 223–229.
Banu KS, Cathrine I. 2015. General techniques involved in pyhtochemical analysis. International Journal of Advanced Research in Chemical Science 3(4): 25-32.
Bargah KR. 2015. Preliminary test of phytochemical screening of crude ethanolic and aqueus extract of Moringa pterygosperma Gaeth. Journal of Pharmacognosy and Phytochemistry 4(1): 07-09.
Cania F, Setyaningrum E. 2013. Uji efektivitas larvasida ekstrak daun legundi (Vitex trifolia) terhadap larva Aedes aegypti.Medical Journal of Lampung University 2(4): 10-15
Chandra RA. 2012. Isolasi uji aktivitas antitoksid dan senyawa alkaloid dari ekstrak daun Phoebe decliana Ness. Skripsi (Tidak dipublikasikan). Fakultas Matematika dan Ilmu Pengetahuan Alam UI, Depok.
Edewor TI, Owa SO, Ologan AO, Akinfemi F. 2016.Quantitative determination of the saponin content and GC-MS study of the medicinal plant Cassytha filiformis (linn.) leaves. Journal of Coastal Life Medicine 4(2): 154-156.
Florence AR, Solomon J. 2016. Larvicidal activity of Gmelina asiatica L. leaf extracts against Aedes aegypti and Culex quinquefasciatus. Annals of Biological Research 7(1): 12-20.
Gautam K, Kumar P, Poonia S. 2013. Larvicidal activity and GC-MS analysis of flavonoids of Vitex negundo,and Andrographis paniculata against two vector mosquitoes Anopheles stephensi and Aedes aegypti. Journal of Vector Borne Diseases 50(3): 171-178.
Gaspasr EMM, Higuinaldo JC,Neves. 1993. Steroid constituents from mature wheat straw. Phytochemistry 34(2):523-527.
Geris R, Ribeiro. RP, Brandão DSM, Heloísa HGDSH, Ionizete. GDS. 2012. Bioactive natural products as potential candidates to control Aedes aegypti, the vector of dengue. Studies in Natural Products Chemistry 37(4): 277-376
Guierrez MP, Aubrey, Antepuese NA, Adrian AI, Eugenio, Flieurelle MI, Santos. 2014. Larvicidal activity of selected plant extracts against the dengeue vector Aedes aegypti mosquito. International Research Journal of Biological Science 3(4): 23-32.
Guiterres A, Rio JCL, Matines MJ, Martines AT. 1999. Fungal degradation of lipophilic extractives in Eucalyptus globules wood. Applied and Environmental Microbiology 64(4): 1367-1371
Haditomo I. 2010. Efek larvasida ekstrak daun cengkeh (Syzgium Aromaticum L) terhadap Aedes Aegypti L. Skripsi (Tidak dipublikasikan). Fakultas Kedokteran Universitas Sebelas Maret, Surakarta.
Handayani S. 2013. Kandungan flavonoid kulit batang dan daun pohon api-api (Avicennia marina (Forks.)Vierh.) sebagai senyawa aktif antioksidan. Skripsi (Tidak dipublikasikan). Fakultas Perikanan dan Ilmu Kelautan IPB, Bogor.
Hampel D, Robinson AL, Johnson AJ, Ebeler SE. 2014. Direct hydrolysis and analysis of glycosidically bound aroma compounds in grapes and wines: comparison of hydrolysis conditions and sample preparation methods. Australian Journal of Grape and Wine Research 20(3): 1-17.
Hill RA, Krik DN, Makin HLJ, Murphy GM. 1991. Dictionary of steroid index. Chapman & Hall, London.
Hong JM, Kwon OK, Shin HH, Jeon CM, Oh SR, Han SB, Ahn KS. 2015. Anti-inflammatory activities of Physalis alkekeng va. Francheti extract through the inhibition of MMP-9 and AP-1 activation. Immunobiology 220(1): 1-9.
Huang RC, Suenaga H, Jian-Bo Z, Nakatani M. 1995. Insect antifeeding property of limonoids from Okinawan and Chinese Melia azedarach and from Chinese Melia toosendan (Meliaceas). Bioscience Biotechnology and Biochemistry 59(9): 1755-1757.
Jeradat N, Hussen F, Ali AA. 2015. Preliminary phytochemical screening, quantitative estimation of total flavanoid, total phenol and antioxidant activity of Ephedra alata Deene. Journal of Material and Environmental Science 6(6): 1771-1778.
Jian-Long Z, Hai-Yan T, Li J, Jun L, Luo C, Wen-Cai Y, Ren- Wang J. 2012. Steroids with inhibitory activity against the prostate cancer cells and chemical diversity of marine alga Tydemania expeditionis. Fitoterapi 83(5): 973-978.
Kissinger, Thamrin G, Muhanayah R. 2012. Konservasi keanekaragaman hayati hutan kerangas berbasis penemuan bioaktivitas tumbuhan sebagai antidiabetes. Prosiding InSiNes 1316 (3): 238-241.
Kissinger, Zuhud EAM, Latifah, Darusman, Iskandar. 2013. Penapisan senyawa fitokimia dan pengujian antioksidan ekstrak daun pohon merapat (Combretocarpus rotundatus (Miq.) dari hutan kerangas. Jurnal Penelitian Hasil Hutan 31(1): 9-18.
Kim S, Ahn Y. 2017. Larvicidal activity of lignans and alkaloid identified in Zanthoxylum piperitum bark toward insecticide-susceptible and wild Culex pipiens pallens and Aedes aegypti. Journal Parasit Vectors 10(2): 221-226.
Konoshima T, Fukushima H, Inul H, Sato K, Sawada T. 1981. The structure of prosapogenin obtained from the saponin of Gleditsia japonica. Phytochemistry 20(1): 139-142.
Kovganko NV, Survilo VL. 2000. New sysnthesis of ecdysteroids based on stigmasterol. Chemistry of Natural Compounds 36(4):377-380.
Kuljanabhagavad T, Thongphasuk P, Chamulitrat W, Wink M. 2008. Triterpene saponins from Chenopodium quinoa Willd. Phytochemistry 69(1):1919–1926.
Lawrens FIJ, Wahoyongan GJ, Bernaad JB. 2014. Pengaruh dosis abate terhadap jumlah populasi jentik nyamuk Ades aegypti di Kecamatan Malayang Kota Manado. Skripsi (Tidak dipublikasikan). Fakultas Pertanian Universitas Sam Ratulangi, Manado.
Lee AS, Jo KH, Im OB, Kim S, Whang KW, Ko KS. 2012. Change in the contents of prosapogenin in the red ginseng (Panax ginseng) depending on steaming batches. Journal Gingseng Research 36(1): 102-106.
Lelono RAA, Tachibana S, Toh K. 2009. Isolation of antifungal compounds from Gardenia jasminoides. Pakistan Journal of Biological Sciences 12(3):949-956.
Limin ZA. 2014. Keawetan alami kayu tumih (Combretocarpus rotundatus (Miq.) Danser) dari serangan rayap kayu kering, rayap tanah dan jamur pelapuk kayu. Skripsi (Tidak dipublikasikan). Fakultas Kehutanan IPB, Bogor.
Liu Y, Nyberg NT, Jäger AK, Staerk D. 2017. Facilitated visual interpretation of scores in principal component analysis by bioactivity-labeling of 1H NMR spectra - metabolomics investigation and identification of a new -glucosidase inhibitor in Radix Astragali. Molecules 22(3): 2-12.
Maitera ON, Chukkol IB. 2016. Phytochemical and Fourier Transform Infrared Spectroscopy analysis of Faidherbia Albida (Del) as a preservative agent. World Journal of Research and Review 3(3): 25-29.
Matsuda H, Toguchida I, Kageura T, Yoshikawa M. 1999. Effects of sesquiterpenes and triterpenes from the rhizome of Alisma orientale on nitric oxide production in lipopolysaccharide-activated macrophages: Absolute stereostructures of alismaketones-b 23-acetate and -c 23-acetate. Bioorganic & Medicinal Chemistry Letters 9(21): 3081-3086.
Munawaroh S, Handayani PA. 2010. Ekstraksi minyak daun jeruk purut (Cirus hystrix D.C.) dengan pelarut etanol dan n-heksana. Jurnal Kompetensi Teknik 2(1): 73-78.
Nakajima Y, Satoh Y, Katsuma M, Tsujiyama K, Ida Y, Shoji J. 1994. Terpenoid of Alisma oreintale rhizome and the crude drug alismatis rhizome. Phytochemistry 36(1): 119-127.
Ningsih D, Zusfahir, Kartika D. 2016. Identifikasi senyawa metabolit sekunder serta uji aktivitas ekstrak daun sirsak sebagai antibakteri. Molekul 11(1):101 – 111.
Nugroho A. 2011. Kematian larva Aedes aegypti setelah pemberian abate dibandingkan dengan pemberian serbuk serai. Jurnal Kesehatan Masyarakat 7(1): 91-96.
Ogihara Y, Chen Y, Kobayashi Y. 1987. A new prosapogenin from Hovenia saponin D by mild alkaline degradation. Chemical and Pharmaceutical Bulletin 35(6): 2574-2575..
Putri WS, Warditiani NK. Larasanty LPF. 2013. Skrinning fitokimia ekstrak etil asetat kulit buah Manggis (Garcinia mangostana L.). Skripsi (Tidak Dipublikasikan). Jurusan Farmasi Universitas Udayana, Bali.
Putri LN. 2013. Uji aktivitas larvasida fraksi etil asetat ekstrak etanol kulit batang karet India (Ficus elastica Nois exb Blume) serta skrining fitokimianya. Skripsi (Tidak dipublikasikan). Fakultas Farmasi Universitas Surakarta, Solo
Radulović NS, Derdević ND. 2011. Steroids from poison hemlock (Conium maculatum L.): a GC–MS analysis. Journal of the Serbian Chemical Society 76(11): 1471–1483.
DOI: https://doi.org/10.22146/jik.46208
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