Literature Review: Pemanfaatan Jenis-Jenis Syzigium di Indonesia

  • Ajeng Mudaningrat Pascasarjana Universitas Negeri Semarang
  • Betty Shinta Indriani Pascasarjana Universitas Negeri Semarang
  • Naila Istianah Pascasarjana Universitas Negeri Semarang
  • Amin Retnoningsih Pascasarjana Universitas Negeri Semarang
  • Enni Suwarsi Rahayu Pascasarjana Universitas Negeri Semarang
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Keywords: biodiversity; Syzygium; role in agriculture; environment; natural medicine.

Abstract

Syzygium is one of the flora from the Myrtaceae family which is used by Indonesian people in various ways. This article is structured to analyze the various roles of the Syzygium species. The method used in preparing this article is a study of literature from various reputable international journals. Several types of Syzygium discussed in this article are S. jambos, S. fibrosum, S. cumini, S. malaccense, S. samarangense, S. densiflorum, S. grande, S. aromaticum and others. Plants belonging to the Syzygium have various roles including as a food ingredient, a role in agriculture, as a bioremediation agent for polluted environments and as a medicinal ingredient. The role of Syzygium in agriculture includes as a natural pesticide and as a weed control agent. The role of Syzygium in the environmental field is as a bioremediation agent for environments polluted by heavy metals, soil polluted by industrial waste and waterlogged soil with high salinity. Phytochemical compounds found in Syzygium cumini have the potential to be used as medicinal ingredients because they have therapeutic effects because they contain anthocyanins, phenols and polyphenols, compounds that function as antioxidants and anti-inflammatories that function to control oxidative stress in preeclampsia. With this article, it is hoped that the public will be able to find out the various roles of plants from members of the Syzygium so that they can make maximum use of them.

References

Abiala, M. A., Abdelrahman, M., Burritt, D. J., & Tran, L. S. P. (2018). Salt stress tolerance mechanisms and potential applications of legumes for sustainable reclamation of salt‐degraded soils. Land Degradation & Development, 29(10), 3812-3822.

Afifudin, A. F. M., & Irawanto, R. (2022). Fitoremediasi. Padang. Global Eksekutif Teknologi.

Aguilar, Dora Luz. Juan Pablo Miranda & Octabio Jose. 2022. Fruit Peels as a Sustainable Waste for the Biosorption of Heavy Metals in Wastewater: A Review. Molecules (27)

Ahmad Nazarudin Mohd Roseli, Tsan Fui Ying & Mohd Fauzi Ramlan.2012. Morphological And Physiological Response Of Syzygium Myrtifolium (Roxb.) Walp. To Paclobutrazol. Sains Malaysiana: 4(10)

Ahmed J, Mulla M, Jacob H, Luciano G, Bini TB, Almusallam A. (2019). Polylactide/poly(Ɛ-caproplactone)/zinboxide/clove essential oil composite antimicrobial films for scrambled egg packaging. Food Packaging and Shelf Life, 21:100355. https://doi.org/10.1016/j.fpsl.2019.100355

Anas Raklami, Abdelilah Meddich, Khalid Oufdou, and Marouane Baslam. (2022). Plants—Microorganisms-Based Bioremediation for Heavy Metal Cleanup: Recent Developments, Phytoremediation Techniques, Regulation Mechanisms, and Molecular Responses. Molecular science: 25

Arif, A. (2015). Pengaruh bahan kimia terhadap penggunaan pestisida lingkungan. Jurnal Farmasi UIN Alauddin Makassar, 3(4), 134-143.

Arshad, J., and S. Samad. (2012). Screening of allelopathic trees for their antifungal potential against Alternaria alternata strains isolated from dying-back Eucalyptus spp. Nat. Prod. Res. 26: 1697–1702.

Ayyanar, M. and Subash-Babu, P. (2012). Syzygium cuminii (L.) Skeels: A review of its phytochemical constituents and traditional uses. Asian Pac. J. Trop. Biomed., 2(3): 240-246

Batiha, G.-E.-S., Alkazmi, L. M., Wasef, L. G., Beshbishy, A. M., Nadwa, E. H., & Rashwan, E. K. (2020). Syzygium aromaticum L. (Myrtaceae): Traditional uses, bioactive chemical constituents, pharmacological and toxicological activities. Biomolecules, 10(2), 1–16.

Budin, S, Normariah Che Maideen, Koay Mei Hyie, Hamid Yussof and Halim Ghafar. (2022). Comparative Study on Degradatio Of Polylactic Acid/ Syzygium Aromatic Composites Ageing In Outdoor EnvironmentAnd Soil Burial: IIUM Engineering Journal, Vol. 23, No.1, 2022. https://doi.org/10.31436/iiumej.v23i1.2138

Chang & W Hogland. (2021). Phytoremediation development in Sweden. Ecobalticafeb:109

Chen C, Xu Z, Ma Y, Liu J, Zhang Q, Tang Z, Fu K, Yang F, Xie J. (2018) Properties, vapourphase antimicrobial and antioxidant activities of active poly(vinyl alcohol) packaging films incorporated with clove oil. Food Control, 88:105-112. https://doi.org/10.1016/j.foodcont.2017.12.039

Cock, I., & Cheesman, M. (2018). Plants of the genus Syzygium (Myrtaceae): A review on ethnobotany, medicinal properties and phytochemistry. In Bioactive Compounds of Medicinal Plants: Properties and Potential for Human Health (pp. 35–84)

Cock, I. E., & Cheesman, M. (2019). The potential of plants of the genus Syzygium (Myrtaceae) for the prevention and treatment of arthritic and autoimmune diseases. Bioactive Food as Dietary Interventions for Arthritis and Related Inflammatory Diseases, 401-424.

Darmanti, S. (2018). Interaksi Alelopati dan Senyawa Alelokimia: Potensinya Sebagai Bioherbisida. Buletin Anatomi dan Fisiologi (Bulletin Anatomy and Physiology), 3(2), 181-187.

Dharani, N. (2016). A review of traditional uses and phytochemical constituents of indigenous Syzygium species in east Africa. Pharmaceutical Journal of Kenya, 22(4), 123–127.

Elansary, H. O., M. Z. M. Salem, N. A. Ashmawy, and M. M. Yacout. (2012). Chemical composition, antibacterial and antioxidant activities of leaves essential oils from Syzygium cumini L., Cupressus sempervirens L. and Lantana camara L. from Egypt. J. Agric. Sci. 4: 144–152.

ElGawad, A. M., El Gendy, A. E. N. G., Assaeed, A. M., Al-Rowaily, S. L., Alharthi, A. S., Mohamed, T. A., ... & Elshamy, A. I. (2020). Phytotoxic effects of plant essential oils: A systematic review and structure-activity relationship based on chemometric analyses. Plants, 10(1), 36.

El‑Hadji Malick Cisse, Juan Zhang, Da‑Dong Li1, Ling‑Feng Miao, Li‑Yan Yin and Fan Yang. (2022). Exogenous ABA and IAA modulate physiological and hormonal adaptation strategies in Cleistocalyx operculatus and Syzygium jambos under long-term waterlogging conditions. BMC Plant Biolog: 25

Gole, A., John, D., Krishnamoorthy, K., Wagh, N. S., Lakkakula, J., Khan, M. S., ... & Islam, M. (2022). Role of Phytonanotechnology in the Removal of Water Contamination. Journal of Nanomaterials, 2022.

Gupta, M., and R. Bhadauria. (2012). Evaluation of anti-fungal potential of aqueous extract of Syzygium cumini Linn. against Alternaria alternata Nees. and Fusarium oxysporum Schle. Int. J. Pharma Bio Sci. 3 (B): 571–577.

Handayanto, E., Nuraini, Y., Muddarisna, N., Syam, N., & Fiqri, A. (2017). Fitoremediasi dan phytomining logam berat pencemar tanah. Universitas Brawijaya Press.

Irawan, P. D., Tallei, T. E., & Kolondam, B. J. (2016). Analisis sekuens dan filogenetik beberapa tumbuhan Syzygium (Myrtaceae) di Sulawesi Utara berdasarkan gen matK. Jurnal Ilmiah Sains, 16(2), 43-50.

Jadda, A. A. (2019). Tinjauan Hukum Lingkungan Terhadap Perlindungan dan Pengelolaan Keanekaragaman Hayati. Madani Legal Review, 3(1), 39-62.

Jeyaseelan, A., S. Pandiyan, and P. Ravi. 2013. Production of polyhydroxyalkanoate (PHA) using hydrolyzed grass and Syzygium cumini seed as low cost substrates. J. Microbiol. Biotechnol. Food Sci. 2: 970–982

Jose, A. M., & Surendran, D. (2020). Comparative Allelopathic Effect Of Syzygium aromaticum And Myristica fragrans On Seed Germination Of Amaranthus cruentus. Journal of Advanced Scientific Research, 11(04), 347-349.

Karolinoerita, V., & Yusuf, W. A. (2020). Salinisasi lahan dan permasalahannya di Indonesia. Jurnal Sumberdaya Lahan, 14(2), 91-99.

Lei, W., J. Liu, D. Wang, J. Li Jiao and H. Fan. 2012. Inhibition effect of four plants compound fungicides against Fusarium oxysporum. Vegetables 16: 80–85.

Milićević, Z., Krnjajić, S., Stević, M., Ćirković, J., Jelušić, A., Pucarević, M., & Popović, T. (2022). Encapsulated clove bud essential oil: A new perspective as an eco-friendly biopesticide. Agriculture, 12(3), 338.

Muhammad Qamar, Saeed Akhtar, Tariq Ismail, Muqeet Wahid, Malik Waseem Abbas, Mohammad S. Mubarak, Ye Yuan, Ross T. Barnard, Zyta M. Ziora and Tuba Esatbeyoglu. (2022). Phytochemical Profile, Biological Properties, and Food Applications of the Medicinal Plant Syzygium cumini. Food: 11

Nair, K. N. (Ed.). (2017). The genus Syzygium: Syzygium cumini and other underutilized species. CRC Press.

Nikolova, M. T., & Berkov, S. H. (2018). Use of essential oils as natural herbicides. Ecologia Balkanica, 10(2).

Nokande, Saber, Mohammad Ali Khodabandeh2, Ali Besharatinezhad, Gábor Nagy, Ákos Török. (2022). Effect of Oil Contamination on the Behavior of Collapsible Soil. Periodica polutechica civil engineering: 66 (3)

Osman, T. M., Algam, S. A., Ali, M. E., Osman, E. H., & Mahdi, A. A. (2016). In vitro screening of some biocontrol agents against Xanthomonas axonopodis pv. malvacearum isolated from infected cotton plants. Int J Agric, For Plantat, 2, 270-278.

Palmolina, M. Partisipasi Masyarakat Dalam Pembangunan Demplot Agroforestri Berbasis Jamblang (Syzygium cumini). Jurnal Agroforestri Indonesia Vol. 2 No. 2: 113-125.

Paulo J.C. Favas, João Pratas, Mayank Varun, Rohan D’Souza and Manoj S. Paul. 2014. Phytoremediation of Soils Contaminate

Preethi, R., P. Sasikala, and J. Aravind. 2012. Microbial production of polyhydroxyalkanoate

(PHA) utilizing fruit waste as a substrate. Res. Biotechnol. 3: 61–69

Rachmadiarti, F., Purnomo, T., Azizah, D. N., & Fascavitri, A. (2019). Syzigium oleina and Wedelia trilobata for Phytoremediation of Lead Pollution in the Atmosphere. Nature Environment & Pollution Technology, 18(1).

Ramiz Raja, Supriya Pal, Arindam Karmakar. 2022. In-Situ Remediation Of Heavy Metal Contaminated Sites Through Mechanical Stabilization Using Industrial Waste Products. Vilnius Tech: 30 (2)

Reis, A. S., de Sousa Silva, L., Martins, C. F., & de Paula, J. R. (2021). Analysis of the volatile oils from three species of the gender Syzygium. Research, Society and Development, 10(7), e13510716375–e13510716375. https://doi.org/10.33448/rsd-v10i7.16375

Retnowati, A., Rugayah, J. S. R., & Arifiani, D. (2019). Status keanekaragaman hayati Indonesia: Kekayaan jenis tumbuhan dan jamur Indonesia. Jakarta. LIPI Press.

Rubina AltafID, Sikandar Altaf, Mumtaz Hussain, Rahmat Ullah Shah, Rehmat Ullah, Muhammad Ihsan Ullah, Abdul Rauf, Mohammad Javed AnsariID, Sulaiman Ali Alharbi, Saleh Alfarraj, Rahul Datta. 2021. Heavy metal accumulation by roadside vegetation and implications for pollution control. Plos One: 16 (5).

Saeed, H. S., RasulF, S. M., Mubeen, M., & Nasim, W. (2013). Allelopathic Potential Assessment of Jaman (Syzygium cumini L.) on Wheat. Int. Poster J. Sci. Tech, 3(1), 09-14.

Sanito, R. C. (2018). Potensi Tumbuhan Xanthostemon novaeguineensis Valeton (Myrtaceae) dalam Fitoteknologi. Biologi Papua, 10(1), 38-47.

Sarvade, Gautam, Bhalawe & Bisen. 2016. An overview of potential multipurpose agroforestry tree species, Syzygium cuminii (L.) Skeels in India. Journal of Applied and Natural Science 8 (3)

Silalahi, M. (2017). Syzygium polyanthum (Wight) Walp. Jurnal Dinamika Pendidikan, 10(1), 1-16.

Singh Sanjay, Mishra, A.K. Singh. S. Pradhan, Tarai & Panigrahi. 2020. Plant Growth Regulators in Jamun (Syzygium cumini).

Singh B & K. Garg. 2007. Phytoremediation of A Sodic Forest Ecosystem: Plant Community with Metals and Metalloids at Mining Areas: Potential of Native Flora. Intech:17 Response To Restoration Process. Agrobot: 35(1).

Singh, S., Singh, A. K., Saroj, P. L., & Mishra, S. (2019). Research status for technological development of jamun (Syzygium cumini) in India: A review. Indian Journal ofAgricultural Sciences, 89(12), 1991-1998.

Suleiman, W., Ibrahim, M., & El Baz, H. (2019). In vitro evaluation of Syzygium aromaticum L. ethanol extract as biocontrol agent against postharvest tomato and potato diseases. Egyptian Journal of Botany, 59(1), 81-94.

Talahatu, D. R., & Papilaya, P. M. (2015). Pemanfaatan ekstrak daun cengkeh (Syzygium aromaticum L.) sebagai herbisida alami terhadap pertumbuhan gulma rumput teki (Cyperus rotundus L.). Biopendix: Jurnal Biologi, Pendidikan Dan Terapan, 1(2), 160-170.

Uddin, A. N., Hossain, F., Reza, A. A., Nasrin, M. S., & Alam, A. K. (2022). Traditional uses, pharmacological activities, and phytochemical constituents of the genus Syzygium: A review. Food Science & Nutrition.

Uma, T., S. Mannam, J. Lahoti, K. Devi, R. D. Kale, and D. J. Bagyaraj. 2012. Biocidal activity of seed extracts of fruits against soil borne bacterial and fungal plant pathogens. J. Biopest 5:103–105.

Wangkhem, M., Sharma, M., & Sharma, C. L. (2020). Comparative wood anatomical properties of genus syzygium (family Myrtaceae) from Manipur, India. Indonesian Journal of Forestry Research, 7(1), 27-42.

Wasis1 B, M Y G Putri1, B, B Winata1. 2019. Study of Syzygium polyanthum (Wight) Walp. Growth on the Ex-limestone Mining Soil with Goat Manure and NPK Fertilizer Increment. IOP Conference Series: Earth and Environmental Science.

Wulandari, S., Baktiyani, S. C. W. & Winarsih, S., 2014. Pengaruh Pemberian Ekstrak Etanol Juwet (Syzygium cumini) terhadap Ekspresi ICAM-1 dan VCAM-1 pada Model HUVECs yang dipapar Plasma Preeklampsia, s.l.: s.n.

Yousaf, M. S., Ahmad, I., Anwar-ul-Haq, M., Siddiqui, M. T., Khaliq, T., & Berlyn, G. P. (2020). Morphophysiological response and reclamation potential of two agroforestry tree species (Syzygium cumini and Vachellia nilotica) against salinity. Pak. J. Agri. Sci, 57(5), 1393-1401.

Yousaf, M., Farrakh Nawaz, M., Yasin, G., Ahmad, I., Gul, S., Ijaz, M., ... & Ur Rahman, S. (2022). Effect of Organic Amendments in Soil on Physiological and Biochemical Attributes of Vachellia nilotica and Dalbergia sissoo under Saline Stress. Plants, 11(2), 228.

Zikria Zafar, Fahad Rasheed, Waseem Razzaq Kha, Muhammad Mohsin, Muhammad Zahid Rashid, Mohamad Maulana Magiman, Zohaib Raza, Zamri Rosli, Shazia Afzal and Fauziah Abu Bakar. 2022. The Change in Growth, Osmolyte Production and Antioxidant Enzymes Activity Explains the Cadmium Tolerance in Four Tree Species at the Saplings Stag. Forest: 13

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Published
2023-10-29
How to Cite
Mudaningrat, A., Indriani, B. S., Istianah, N., Retnoningsih, A., & Rahayu, E. S. (2023). Literature Review: Pemanfaatan Jenis-Jenis Syzigium di Indonesia. Jurnal Biologi Dan Pembelajarannya (JB&P), 10(2), 135-156. https://doi.org/10.29407/jbp.v10i2.20815