Global warming has adverse effects on human life, which can be prevented by planting many trees. Sapindaceae family has various purposes, particularly as fruit producers. However, research on the potential of the Sapindaceae family as a carbon sequester is still lacking. This study aimed to determine the annual increment of biomass and carbon absorption of 22 species from the Sapindaceae family in Purwodadi Botanic Garden. Data were collected using a non-destructive method in the Purwodadi Botanic Garden in July-September 2019. The research tool used in this research included stationery, roll meter, and tally sheet. Biomass was measured with the Kettering equation. The results revealed variations in the value of biomass and the carbon increment of each species. Three species of the Sapindaceae family that have biomass and high carbon increment were Litchi chinensis, Filicium decipiens, and Schleichera oleosa.

Keywords: biomass increment, carbon increment, global warming, sapindaceae family

Anderson, T. R., Hawkins, E., and Jones, P. D. 2016. CO2, the Greenhouse Effect and Global Warming: From the Pioneering Work of Arrhenius and Callendar to Today’s Earth System Models. Endeavour 40(3): 178–187. DOI: 10.1016/j.endeavour.2016.07.002

Anitha, K., Verchot, L. V, Joseph, S., Herold, M., Manuri, S., and Avitabile, V. 2015. A Review of Forest and Tree Plantation Biomass Equations in Indonesia. Annals of Forest Science 72(8): 981–997. DOI: 10.1007/s13595-015-0507-4

Aprianto, D., Wulandari, C., and Masruri, N. W. 2016. Karbon Tersimpan pada Kawasan Sistem Agroforestry di Register 39 Datar Setuju KPHL Batutegi Kabupaten Tanggamus. Jurnal Sylva Lestari 4(1): 21–30. DOI: 10.23960/jsl1421-30

Banjarnahor, K. G., Setiawan, A., and Darmawan, A. 2018. Estimasi Perubahan Karbon Tersimpan di Atas Tanah di Arboretum Universitas Lampung. Jurnal Sylva Lestari 6(2): 51–59. DOI: 10.23960/jsl2651-59

Bisjoe, A. R., and Muin, N. 2015. Persepsi dan Harapan Masyarakat terhadap REDD di Hutan Desa Kabupaten Bantaeng Sulawesi Selatan. Info Teknis Eboni 12(1): 13–21.

Borah, M., Das, D., Kalita, J., Deka Boruah, H. P., Phukan, B., and Neog, B. 2015. Tree Species Composition, Biomass and Carbon Stocks in Two Tropical Forest of Assam. Biomass and Bioenergy 78: 25–35. DOI: 10.1016/j.biombioe.2015.04.007

Danarto, S. A., and Hapsari, L. 2015. Biomass and Carbon Stock Estimation Inventory of Indonesian Bananas (Musa Spp.) and Its Potential Role for Land Rehabilitation. Biotropia 22(2): 102–108. DOI: 10.11598/btb.2015.22.2.376

Danarto, S. A., and Yulistyarini, T. 2019. Seleksi Tumbuhan Dataran Rendah Kering yang Berpotensi Sekuestrasi Karbon Tinggi untuk Rehabilitasi Kawasan Terdegradasi. in: Prosiding Seminar Nasional Masyarakat Biodiversitas Indonesia 33–37. DOI: 10.13057/psnmbi/m050107

Daud, M., Bustam, B. M., and Arifin, B. 2019. A Comparative Study of Carbon Dioxide Absorption Capacity of Seven Urban Forest Plant Species of Banda Aceh, Indonesia. Biodiversitas 20(11): 3372–3378. DOI: 10.13057/biodiv/d201134

Dubey, R. S., Shukla, R., Pandey, V., and Shukla, A. K. 2019. Investigations on Drosera regia and Schleichera oleosa Leaves for Anthelmintic Activity. Advance Pharmaceutical Journal 4(4): 97–99. DOI: 10.31024/apj.2019.4.4.1

Elsawi, S. A., Aboutabl, E. A., Rashed, K. N., Ragab, N. A., Marzouk, M. M., and Sleem, A. A. 2017. Phenolic Investigation and Potential Therapeutic Activities of Alectryon tomentosus (F. Muell.) Radlk Leaves Family Sapindaceae. Journal of Materials and Environmental Science 8(5): 1518–1525.

Erly, H., Wulandari, C., Safe’i, R., Kaskoyo, H., and Winarno, G. D. 2019. Keanekaragaman Jenis dan Simpanan Karbon Pohon di Resort Pemerihan, Taman Nasional Bukit Barisan Selatan. Jurnal Sylva Lestari 7(2): 139–149. DOI: 10.23960/jsl27139-149

Franklin, P. J. C., Kumurur, V. A., and Poluan, R. J. 2017. Daya Serap Gas Rumah Kaca (GRK) Vegetasi Jalur Hijau Jalan Sam Ratulangi Manado. in: Prosiding Konferensi ASPI : 1-5. DOI: 10.32315/ti.6.b029

Fu, X., Zhou, L., Huang, J., Mo, W., Zhang, J., Li, J., Wang, H., and Huang, X. 2013. Relating Photosynthetic Performance to Leaf Greenness in Litchi: A Comparison among Genotypes. Scientia Horticulturae 152: 16–25. DOI: 10.1016/j.scienta.2013.01.001

Gestama. 2019. Peta Jawa Timur. (Jan. 21, 2020).

Gosling, S. N., and Arnell, N. W. 2016. A Global Assessment of the Impact of Climate Change on Water Scarcity. Climatic Change 134(3): 371–385. DOI: 10.1007/s10584-013-0853-x

Hairiah, K., Ekanata, A., Sari, R. R., and Rahayu, S. 2011. Pengukuran Cadangan Karbon: Dari Tingkat Lahan ke Tingkat Bentang Alam. World Agroforestry Centre, Bogor.

Hidayati, N., Mansur, M., and Juhaeti, T. 2013. Variasi Serapan Karbondioksida (CO2) Jenis-Jenis Pohon di “Ecopark”, Cibinong dan Kaitannya dengan Potensi Mitigasi Gas Rumah Kaca. Buletin Kebun Raya 16(1): 37–50.

Hidayati, N., Reza, M., Juhaeti, T., and Mansur, M. 2011. Serapan Karbondioksida (CO2) Jenis-Jenis Pohon di Taman Buah" Mekar Sari" Bogor, Kaitannya dengan Potensi Mitigasi Gas Rumah Kaca. Jurnal Biologi Indonesia 7(1): 133-(1): 133–145.

Ibrahim, S. R. M., and Mohamed, G. A. 2015. Litchi chinensis: Medicinal Uses, Phytochemistry, and Pharmacology. Journal of Ethnopharmacology 174: 492–513. DOI: 10.1016/j.jep.2015.08.054

Indriyani, L. I., Sabaruddin, L., Rianse, R., and Baco, L. 2016. Management of Green Open Space (RTH) in Kendari to Reduce Air Pollution. European Journal of Sustainable Development 5(4): 403–408. DOI: 10.14207/ejsd.2016.v5n4p403

Irawan, E., Mansur, I., and Hilwan, I. 2020. Pendugaan Biomassa Atas Permukaan Acacia mangium Willd. pada Areal Revegetasi Pertambangan Batu Bara. Jurnal Sylva Lestari 8(1): 20–31. DOI: 10.23960/jsl1820-31

Kilari, E. K., and Putta, S. 2016. Biological and Phytopharmacological Descriptions of Litchi chinensis. Pharmacognosy Reviews 10(19): 60–65. DOI: 10.4103/0973-7847.176548

Kumar, R. 2016. Effect of Ambient Air Pollution on Photosynthetic Pigments of Litchi chinensis near Muzaffarpur Thermal Power Station, Muzaffarpur, Bihar. Nature Environment and Pollution Technology 15(3): 939–942.

Lailati, M. L. 2013. Carbondioxide Sink Ability of 15 Plant Species Collection in Bogor Botanical Garden. Widyariset 16(2): 277–286. DOI: 10.14203/widyariset.16.2.2013.277-286

Locatelli, B., Catterall, C. P., Imbach, P., Kumar, C., Lasco, R., Marín-Spiotta, E., Mercer, B., Powers, J. S., Schwartz, N., and Uriarte, M. 2015. Tropical Reforestation and Climate Change: Beyond Carbon. Restoration Ecology 23(4): 337–343. DOI: 10.1111/rec.12209

Ma, S., He, F., Tian, D., Zou, D., Yan, Z., Yang, Y., Zhou, T., Huang, K., Shen, H., and Fang, J. 2018. Variations and Determinants of Carbon Content in Plants: A Global Synthesis. Biogeosciences 15(3): 693–702. DOI: 10.5194/bg-15-693-2018

Madurapperuma, B. D., and Kuruppuarachchi, K. A. J. M. 2016. Rehabilitating a Landfill Site of Lowland Tropical Landscape into an Urban Green Space: A Case Study from the Open University of Sri Lanka. International Journal of Sustainable Built Environment 5(2): 400–410. DOI: 10.1016/j.ijsbe.2016.09.001

Mansur, M. 2016a. Laju Penyerapan CO2 pada Kantong Semar (Nepenthes gymnamphora Nees) di Taman Nasional Gunung Halimun-Salak, Jawa Barat. Jurnal Teknologi Lingkungan 13(1): 59–65. DOI: 10.29122/jtl.v13i1.1405

Mansur, M. 2016b. Potensi Serapan CO2 pada Beberapa Jenis Pohon Tumbuh Cepat di Hutan Rawa Gambut Hampangen, Kalimantan Tengah. Jurnal Teknologi Lingkungan 15(1): 21–25. DOI: 10.29122/jtl.v15i1.1453

Mansur, M., and Pratama, A. 2014. Potensi Serapan Gas Karbondioksida (CO2) pada Jenis-Jenis Pohon Pelindung Jalan. Jurnal Biologi Indonesia 10(2): 149–158.

Mulyana, E. 2019. Bencana Kabut Asap Akibat Kebakaran Hutan dan Lahan serta Pengaruhnya terhadap Kualitas Udara di Provinsi Riau Februari – Maret 2014. Jurnal Sains dan Teknologi Indonesia 16(3): 1–7. DOI: 10.29122/jsti.v16i3.3417

Nitteranon, V. 2018. Anti-Inflammatory, Antioxidant and Quinone Reductase Inducing Effects of Lumyai Thao (Dimocarpus longan var. obtusus) Seed Extract. Journal of Food Science and Agricultural Technology 4: 29–35.

Pangli, M. 2013. Analisis Ekonomi Komoditi Cengkeh, Rambutan dan Lengkeng pada Lahan Marginal di Desa Didiri Kecamatan Pamona Timur. Agropet 10(1): 1–11.

Pragasan, L. A. 2016. Assessment of Carbon Stock of Tree Vegetation in the Kolli Hill Forest Located in India. Applied Ecology and Environmental Research 14(2): 169–183. DOI: 10.15666/aeer/1402_169183

Prasetyo, A., Hikmat, A., and Prasetyo, L. B. 2016. Pendugaan Perubahan Cadangan Karbon di Tambling Wildlife Nature Conservation Taman Nasional Bukit Barisan Selatan. Media Konservasi 16(2): 87–91. DOI: 10.29244/medkon.16.2.

Rajput, A., Rajput, S. S., and Jha, G. 2017. Physiological Parameters Leaf Area Index, Crop Growth Rate, Relative Growth Rate and Net Assimilation Rate of Different Varieties of Rice Grown Under Different Planting Geometries and Depths in SRI. International Journal of Pure & Applied Bioscience 5(1): 362–366. DOI: 10.18782/2320-7051.2472

Rindyastuti, R. 2017. Carbon Storage of Medium-Sized Tree: A Case Study on Dillenia Collection in Purwodadi Botanic Garden. Journal of Biological Researches 22(2): 74–80. DOI: 10.23869/bphjbr.22.2.20177

Rindyastuti, R., and Sancayaningsih, R. P. 2018. The Growth Strategies Analysis of Ten Woody Plant Species for Effective Revegetation. Biotropia 25(1): 43–55. DOI: 10.11598/btb.2018.25.1.705

Santoso, B., Jamil, A. H., and Machfud, M. 2016. Manfaat Kenaf (Hibiscus cannabinus L.) dalam Penyerapan Karbondioksida (CO2). Perspektif 14(2): 125–133. DOI: 10.21082/p.v14n2.2015.125-133

Setiawan, B., Yulistyarini, T., and Harianie, L. 2013. The Potential of Lauraceae Family As CO2 Absorber and Carbon Storage in Purwodadi Botanic Garden. in: International Conference The 4th Green Technology Faculty of Science and Technology Islamic State Maulana Malik Ibrahim, Malang, Indonesia.

Siarudin, M., and Indrajaya, Y. 2017. Dinamika Cadangan Karbon Sistem Agroforestry Gmelina (Gmelina arborea roxb.) pada Hutan Rakyat di Tasikmalaya dan Banjar, Jawa Barat. Jurnal Wasian 4(1): 37–46. DOI: 10.20886/jwas.v4i1.2743

Sitanggang, M. R. B., and Norhalimah, N. 2014. Analisis Kelayakan Investasi Perkebunan Rambutan di Desa Jungkal Kecamatan Lampihong Kabupaten Balangan. Rawa Sains: Jurnal Sains Stiper Amuntai 4(2): 264–274. DOI: 10.36589/rs.v4i2.39

Soeng, S., Evacuasiany, E., Widowati, W., Fauziah, N., Manik, V. T., and Maesaroh, M. 2015. Inhibitory Potential of Rambutan Seeds Extract and Fractions on Adipogenesis in 3T3-L1 Cell Line. Journal of Experimental and Integrative Medicine 5(1): 55–60. DOI: 10.5455/jeim.200115.or.120

Solikin, M. 2015. Autekologi Elephantopus scaber L. di Kebun Raya Purwodadi. Bioeksperimen: Jurnal Penelitian Biologi 1(1): 24–32. DOI: 10.23917/bioeksperimen.v1i1.313

Sukmandari, N. S., Dash, G. K., Jusof, W. H. W., and Hanafi, M. 2017. A Review on Nephelium lappaceum L. Research Journal of Pharmacy and Technology 10(8): 2819–2822. DOI: 10.5958/0974-360X.2017.00498.X

Tarigan, S., and Faqih, A. 2019. Impact of Changes in Climate and Land Use on the Future Streamflow Fluctuation. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan 9(1): 181–189. DOI: 10.29244/jpsl.9.1.181-189

Trimanto, T. 2014. Analisis Vegetasi Dan Estimasi Biomassa Stok Karbon Pohon pada Tujuh Hutan Gunung, Suaka Alam Pulau Bawean Jawa Timur. Berita Biologi 13(3): 321–332. DOI: 10.14203/beritabiologi.v13i3.676

Untajana, S., Oszaer, R., and Latupapua, Y. T. 2019. Analisis Kebutuhan Kawasan Hutan Kota Berdasarkan Emisi Karbon Dioksidadi Kota Piru, Seram Bagian Barat. Jurnal Hutan Pulau-Pulau Kecil 3(2): 114–126. DOI: 10.30598/Jhppk.2019.3.2.114

Wang, W., Lu, J., Du, H., Wei, C., Wang, H., Fu, Y., and He, X. 2017. Ranking Thirteen Tree Species Based on Their Impact on Soil Physiochemical Properties, Soil Fertility, and Carbon Sequestration in Northeastern China. Forest Ecology and Management 404: 214–229. DOI: 10.1016/j.foreco.2017.08.047

Ward, R. D., Friess, D. A., Day, R. H., and Mackenzie, R. A. 2016. Impacts of Climate Change on Mangrove Ecosystems: A Region by Region Overview. Ecosystem Health and Sustainability 2(4): 1–25. DOI: 10.1002/ehs2.1211

Widiyono, W. 2016. Inventarisasi Jenis-Jenis Tumbuhan dan Kesesuaian Lahan untuk Konservasi Daerah Tangkapan Sumber Mata Air “Wetihu” Desa Baudaok Kecamatan Tasifeto Timur-Belu. Jurnal Teknologi Lingkungan 11(3): 353–361. DOI: 10.29122/jtl.v11i3.1180

Wu, X., Lu, Y., Zhou, S., Chen, L., and Xu, B. 2016. Impact of Climate Change on Human Infectious Diseases: Empirical Evidence and Human Adaptation. Environment International 86: 14–23. DOI: 10.1016/j.envint.2015.09.007

Yunita, L. 2016. Pendugaan Cadangan Karbon Tegakan Meranti (Shorea leprosula) di Hutan Alam pada Area Silin PT. Inhutani II Pulau Laut Kalimantan Selatan. Jurnal Hutan Tropis 4(2): 87–197. DOI: 10.20527/jht.v4i2.3606

Zulkarnaini, Z. M., Sakimin, S. Z., Mohamed, M. T. M., and Jaafar, H. Z. 2019. Changes in Leaf Area Index, Leaf Mass Ratio, Net Assimilation Rate, Relative Growth Rate and Specific Leaf Area Two Cultivars of Fig (Ficus carica L.) Treated under Different Concentrations of Brassinolide. Agrivita 41(1): 158–165. DOI: 10.17503/agrivita.v41i1.2001