PEMETAAN KARBON ORGANIK TANAH LAHAN SAWAH DI KECAMATAN PALLANGGA KABUPATEN GOWA

Saida Saida, Anwar Robbo, Rani Iswanti A

Abstract


Carbon is an important nutrient for building soil organic matter which is needed in agricultural activities. Cultivation activities in paddy fields increase carbon gas emissions into CO2 into the atmosphere, especially in irrigated rice fields. This study aims to determine the level of content and map the distribution of organic carbon in paddy fields in Pallangga District, Gowa Regency. The research was carried out in Pallangga District, Gowa Regency from December 2021–January 2022. The research method used the free grid method with a total of 33 samples and map interpolation using ArcGIS software. The results showed that the status of the level of organic carbon content was in the very low to low criteria. The level of organic carbon content is very low, namely T8 8.83 tons/ha, T9 7.85 tons/ha, T10 9.74 tons/ha, and T11 9.20 tons/ha. While the low organic carbon content is T1 which is 12.76 tons/ha, T2 points 11.76 tons/ha, T3 10.92 tons/ha, T4 12.98 tons/ha, T5 12.90 tons/ha, T6 11 .66 tons/ha, and T7 is 13.06 tons/ha. The mapping area of low criteria organic carbon distribution is only 27% or 850 ha of the total area, while 73% or 2,338 ha is categorized as very low. Based on these results, it is necessary to take action on agricultural land management, especially rice fields that are friendly to carbon emissions, one of them is stabilizing the use of chemical and organic fertilizers, the organic material produced by such cultivation activities as straw is not burned and returned to the soil so that it could maintain fertility and quality of soil and improve the physical, chemical, and biological conditions needed for sustainable agricultural development.

Keywords


Carbon; Soil; Rice Fields; Mapping

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References


Abera, G dan E.W. Meskel. 2013. Soil Properties, and Soil Organic Carbon Stocks of Tropical Andosol under Different Land Uses. http://dx.doi.org /10.4236/ojss.2013.3301. Journal of Soil Science, 2013, 3, 153-162.

Agus, F., A. Adimihardja., S. Hardjowigeno., A. M. Fagi., dan W. Hartatik, 2004. Tanah Sawah Dan Teknologi Pengelolaannya. Badan Penelitian Dan Pengembangan Pertanian. Departemen Pertanian. Jakarta.

Annisa, W. and Nursyamsi, D. 2016. Pengaruh Amelioran, Pupuk dan Sistem Pengelolaan Tanah Sulfat Masam terhadap Hasil Padi dan Emisi Metana. Jurnal Tanah dan Iklim, 40(2), pp. 135–145.

Anny, M., D. Setyorini., S. Rochayati Dan I. Las, 2010. Karakteristik Dan Sebaran Lahan Sawah Terdegradasi Di 8 Provinsi Sentra Produksi Padi. Balai Besar Litbang Sumberdaya Lahan Pertanian. Bogor.

Balai Penelitian Tanah, 2008. Petunjuk Teknis Pengamatan Tanah. Badan Penelitian Dan Pengembangan Pertanian. Departemen Pertanian. Jakarta.

Bhooshan, N., Prasad, C. 2011. Organic Farming: Hope of posterity. In: Hope of Posterity. editors. Organic Agriculture. UP Council of Agricultural Research (UPCAR), Lucknow, India. p. 1-10.

Bobihoe J, 2007. Pengelolaan Tanaman Terpadu (PTT) Padi Sawah. Inovasi Teknologi Untuk Meningkatkan Produktivitas Tanaman Padi. Balai Pengkajian Teknologi Pertanian Jambi. Jambi

BPS. 2023. Kecamatan Pallangga dalam Angka 2023. Kabupaten Gowa:Badan Pusat Statistik.

BSN, 2011. Pengukuran dan penghitungan cadangan karbon –Pengukuran lapangan untuk penaksiran cadangan karbon hutan (ground based forest carbon accounting). SNI (StandarNasional Indonesia), Badan Standadisai Nasional, Jakarta.

Chan, K.Y. 2008. Increasing soil organic carbon of agricultural land. (Prime Fact 735). New South Wales: NSW Department of Primary Industries.

Chan, K.Y., Cowie, A., Kelly, G., Singh, B., & Slavich, P. 2008. Scoping paper-soil organic carbon sequestration potential for agriculture in NSW. NSW: DPI Science & Research Technical Paper.

Crews, T.E. and M.B. Peoples. 2004. Legume versus fertilizer sources of nitrogen: Ecological tradeoffs and human needs. Agriculture Ecosystems & Environment 102:279-297.

Damanik M.M., B. E Hasibuan., Fauzi., Sarifuddin Dan H. Hanum, 2010. Kesuburan Tanah Dan Pemupukan. Universitas Sumatera Utara Press. Medan.

Diara I.W., 2017. Degradasi Kandungan C-Organik dan Hara Makro pada Lahan Sawan dengan Sistem Pertanian Konvensional. [Skripsi]. Isntitut Pertanian Bogor. Bogor.

Edwin, M. 2016. Penilaian Stok Karbon Tanah Organik pada Beberapa Tipe Penggunaan Lahan di Kutai Timur, Kalimantan Timur (Jurnal AGRIFOR Vol XV.No.2, Oktober 2016).

Hairah, 2000. Agroforestri Pada Tanah Masam Di Daerah Tropika Basah: Pengelolaan Interaksi Antara Pohon–Tanah-Tanaman Semusim. ICRAF, Bogor.

Halder, J.C. 2013. Land Suitability Assessment for Crop Cultivation by Using Remote Sensing and GIS. Department of Geography, University of Calcutta, Kolkata, India.

Hudson B.D. 1994. Soil organic matter and available water capacity. J Soil Water Conserv. 49(2):189–194

Iowa State University. 2009. Determine your corn and soybean rotation. Iowa State University Soybean Extension and Research Program. Extension.agron.iastate.edu/soybean/Mei 2009.

IPCC (International Panel on Climate Change). 2007. “Changes in Atmospheric Constituents and in Radiative Forcing” 2007. Available at http://www.ipcc.ch/pdf/assessment -report/ar4/wg1/ar4-wg1-chapter2.pdf (last accessed on March 29, 2011).

IPCC. 2016. IPCC Guideline for national greenhouse gas inventories. IGES: Japan

Jamil, Muhammad. 2016. Pemetaan Karbon Organik Dan Salinitas Lahan Sawah Pada Pola Ip100 Dan Ip200 Di Desa Tanjung Rejo Kecamatan Percut Sei Tuan Kabupaten Deli Serdang. Vol.5.No.4, Oktober 2017 (117): 908- 91.

Kohnke, H. 2003. Korelasi antara Fraksi Pasir Debu dan Liat dengan Kadar Bahan

Organik, Nitrogen dan Kadar Air Tanah dari Beberapa Contoh Tanah di Bali.AGRITROP (Jurnal Ilmu-ilmu Pertanian). 22. (2) : 67 - 72

Lal, R. 2009. The potential for soil carbon sequestration. In Agriculture and climate change: An agenda for negotiation in Copenhagen. (Brief 5). Focus 16.

McLaren, R. G., Cameron, K. C. 1996: “Soil Science - Sustainable Production and Environmental Protection”. Oxford University Press, 304 pp.

Muhklis. 2007. Analisis Tanah Tanaman. USU Press. Medan.

Nishina, Silvia, Subagyono K.A, dan Nata Suharta. 2013. Teknologi Mengurangi Emisi Gas Rumah Kaca dan Lahan Sawah. Iptek Tanaman Pangan Vol.3 No.2.

Olsson M. T., M. Erlandsson, L. Ludin, T. Nilsson, Å. Nilsson and J. Stendah. 2009. “Organic Carbon Stocks in Swe-dish Podzol Soils in Relation to Soil Hydrology and Other Site Characteristics,” Silva Fennica, Vol. 43, No. 2, 2009, pp. 209-222.

Rayes, L. M. 2007. Metode Inventarisasi Sumber Daya Lahan. Penerbit Andi. Yogyakarta.

Robert, R. 2001. Soil carbon sequestration for improved land management. (World Soil Resources Reports 96). Rome: Food and Agriculture Organization of the United Nations.

Rossiter, D.G. 2000. Methodology For Soil Resource Inventories. ITC Lecture Notes And Reference. Soil Science Division International Institute For Aerospace Survey And Earth Sciences (ITC).

Setyanto, Prihasto. 2018. Teknologi Mengurangi Emisi Gas Rumah Kaca dan Lahan Sawah. Iptek Tanaman Pangan Vol.3 No.2.

Setyorini, D. 2003. Persyaratan mutu pupuk organik untuk menunjang budidaya pertanian organik. Disampaikan pada Seminar Sehari Penggunaan Pupuk Organik. BPTP Yogyakarta. Yogyakarta.

Siburian, W. 2020. Pemetaan Status Hara Karbon Organik dan Fraksi Tanah pada Lahan Sawah di Daerah Irigasi Aek Simare Kecamatan Laguboti Kabupaten Toba Samosir. Penelitian Tanaman Pangan, 1(1), 27-28.

Siregar, H. M., Priyambodo. 2017. Perkembangan populasi tikus sawah pada lahan sawah irigasi dalam pola indeks pertanaman padi 300. Penelitian Pertanian Tanaman Pangan, 1(2), 125-131.

Soil Survey Division Staff. 1993. Soil Survey Manual. Soil Conservation Service. U.S. Department Of Agriculture (USDA).

Surmaini, E., Runtunuwu, E. and Las, I. 2011. Upaya sektor Pertanian dalam Menghadapi Perubahan Iklim. Bogor: Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian

Sutrisno, Wahyu. 2018. Jurnal Pemetaan dan Implikasi Kebutuhan Ruang Kelas Fasilitas Pendidikan Menyongsong Bonus Demografi di Purwokerto Barat: Universitas Muhammadiyah Purwokerto. Vol 1 (1), pp 6-8.

Sutanto, R. 2006. Penerapan Pertanian Organik. Kanisius. Jakarta

Suwarno, Unang G. Kartasasmita, Dan Djuber Pasaribu. 2009.

Pengayaan Kandungan Bahan Organik Tanah Mendukung Keberlanjutan Sistem Produksi Padi Sawah.

Usmadi, D.S, et al. 2015. Potensi Bioassa dan Cadangan Karbon Kebun Raya Balikpapan, Kalimantan Timur.Pusat Konservasi Tumbuhan Kebun Raya-LIPI. BuletinKebun Raya Vol 18 No 1.

Wahyuni, A., Alamsyah, Z. and Damayanti, Y. 2018. ‘Analisis Komparasi Pendapatan Usahatani Kelapa dalam Pola Monokultur dan Tumpangsari di Kecamatan Mendahara Kabupaten Tanjung Jabung Timur’, Ilmiah Sosio- Ekonomika Bisnis, 21(1), pp. 1–13.

Walcott, J., Bruce, S. & Sims, J. 2009. Soil carbon for carbon sequestration and trading: a review of issues for agriculture and forestry. Canberra: Bureau of Rural Sciences, Department of Agriculture, Fisheries & Forestry.

Wetria, O., Hermansah Dan N. E. Putri, 2013. Karakteristik Kesuburan Tanah Dan Potensi Hara Dari Bahan Organik Sisa Panen Padi Sawah Pada Beberapa Lokasi Di Sumatera Barat. Fakultas Pertanian Universitas Andalas. Padang.

Teddlie, C dan F. Yu. 2009. Mixed Methods Sampling: A Typology With Examples. Journal of Mixed Methods Research. DOI: 10.1177/2345678906292430. 2007; 1; 77.




DOI: https://doi.org/10.33096/agrotek.v9i1.714

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AGROTEK: Jurnal Ilmiah Ilmu Pertanian
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