BAB IV HASIL DAN PEMBAHASAN

V. KESIMPULAN DAN SARAN

5.2 Saran

Untuk dapat menekan emisi CO2 di lahan gambut yang digunakan untuk budidaya kelapa sawit secara berkelanjutan dan mendukung kegiatan budidaya kelapa sawit, pengelolaan air harus dilakukan dengan menjaga kedalaman muka air gambut pada kedalaman 0,4 – 0,6 m.

Dibutuhkan penelitian lebih lanjut dan berkala untuk menginventarisir faktor lain yang mempengaruhi nilai emisi CO2 pada lahan gambut yang digunakan untuk budidaya kelapa sawit.

DAFTAR PUSTAKA

Agus, F. 2009. Cadangan karbon, emisi gas rumah kaca dan konservasi lahan gambut. Prosiding Seminar Dies Natalis Universitas Brawidjaya ke 46, 31 Januari 2009, Malang.

Agus, F. 2009. Metode pengukuran karbon tersimpan di lahan gambut. Bahan pelatihan penaksiran karbon cepat sebagai bagian dari aktivitas Proyek Accountability and Local Level Initiativebto Reduce Emission from Deforestation and Degradation in Indonesia (All-REDDI). World Agroforestry Centre. Balai Besar Litbang Sumberdaya Lahan Pertanian.

Bogor.

Agus, F., Adimihardja A., Harjowigeno S., Fagi A. M., dan Hartatik W. 2004.

Tanah Sawah dan Teknologi Pengelolaannya. Puslitbangtanak: Bogor.

Agus, F. A. Mulyani, Wahyunto, Herman, A. Dariah, E. Susanti, N.L. Nurida, Jubaedah. 2010. Penggunaan lahan gambut: Trade offs antara emisi CO2 dan keuntungan ekonomi. Program Kegiatan Pengendalian Perubahan Iklim.

Kerjasama antara: Asisten Deputy Iptek Pemerintah, Deputy Bidang Pendayagunaan Iptek, Kementrian Riset dan Teknologi dengan Balai Besar Litbang Sumberdaya Lahan Pertanian, Badan Litbang Pertanian, Kementerian Pertanian.

Agus, F., Suyanto, Wahyunto, and M. van Noorwijk. 2007. Educing emissions from peatland deforestation and degradation: carbon emission and oppprtunity costs. In International Symposium and Workshop on Tropical Peatland. Yogyakarta 27-31 Agustus 2007.

Andriesse, J.P. 1988. Nature and Management of Tropical Peat Soils. First edition, Food & Agriculture Organisation (FAO), Rome, 29–38.

Anonim. 2007. Climate change 2007: Impacts, Adaptions and Vulnerability.

Cambridge University Press. Cambridge, UK.

Aswandi, R. Sadono, H. Supriyo, Hartono. 2016. Kehilangan Karbon Akibat Drainase Dan Degradasi Lahan Gambut Tropika Di Trumon Dan Singkil Aceh. J. Manusia Dan Lingkungan, Vol. 23, No.3, September 2016: 334-341 Baldoch, J.A. and J.O. Skjemstad. 2000. Role of the soil matrix and minerals in

protecting naturalorganic materials againsts biological attack. Org. Geochem, 31:697-710.

BB Litbang SDLP (Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian. 2008. Laporan Tahunan 2008, Konsorsium Penelitian dan Pengembangan Perubahan Iklim pada Sektor Pertanian. Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian, Bogor.

Berglund, O., dan Berglund, K., 2011. Influence of Water Table Level and Soil Properties on Emisssions of Greenhouse Gases from Cultivated Peat Soil.

Soil Biology & Biochemistry, 43:923-931.

Bertrand, I., O. Delfossed, andB.Marry. 2007. Carbon and nitrogen mineralization in acidic, limed, and calcareous agricultural soils: Apparent and actual effects.

Biochem 39:276-288.

Blodau, C. 2002. Carbon cycling in peatland – a review af process and controls.

Environ. Rev. 10:111-134.

Ceotto, E., M. D. Candilo, F. Castelli, F.W. Badeck, F. Rizza, C. Soave, V.

Marletto. 2013. Comparing solar radiation interception and use efficiency for the energy crops giant reed (Arundo donax L.) and sweet sorghum (Sorghum bicolor L. Moench). Field Crops Res. 149:159-166.

Chimner RA, Cooper DJ. 2003. Influence of water table position on CO2 emissions in a Colorado Subalpine Fen: An in situ microcosm study. Soil Biology and Biogeochemistry 35:345-351.

Donnoura, M. And M. Jomura. 2005. Measurement of Root Respiration Before and After Forest Fire-evaluation of The Role of Root in the Soil Respiration.

http://www.ars.usda.gov/research/publication.htm. Diakses 14 Juli 2014 Handayani, E. Meine, V. Noowidwijk, K. Idris, S. Sabiham. and S. Djuniwati.

2010. The Effctof VariousWater table Depth on CO2Emission at OilPalmPlantation on West Aceh Peat. J. Trop. Soils. 15,3: 255-260.

Handoko, I., T. Kodarsih, A. Ariyani. 2010. Koefisien pemadaman tajuk dan efisiensi penggunaan radiasi surya pada tanaman kentang (Solanum tuberosum L.) varietas Granola di Galudra, Cianjur, Jawa Barat. J. Agromet.

24:27-42.

Hardjowigeno, S. 1986. Genesis dan Klasifikasi Tanah. Jurusan Tanah, Fakultas Pertanian IPB: Bogor

Hooijer, A., M. Silvius, H. Wösten, and S. Page. 2006. PEAT- CO2 : Assessment of CO2 emission from drained peatlands in SE Asia. Wageningen: Delft Hydraulics in corporation with Wetland International and Alterra Wageningen.

Hooijer, A., S.E. Page, J. Jauhiainen, W. Lee, Idris, dan G. Anshari. 2012.

Subsidence and carbon loss in drained tropical peatlands. Biogeosciences 9:1053-1071.

Hooijer, Page A.S., Canadell, J.G., Silvus, M., Kwadijk, J., Wosten, H., Jauhiainen, J. 2010. Curent and future CO2 emission from drained peatlands

in Southeast Asia. Biogeosciences, 7, 1505-1514.

IPCC. 2006. 2006 IPCC Guidelines for National Greenhouse Gas Inventories.

Prepared by the National Greenhouse Gas Inventories Programme, Eggleston H.S., Buendia L., Miwa K., Ngara T. and Tanabe K. (eds). Japan: IGES.

Istomo, et al. (2007). Kajian Perolehan Karbon Sebagai Dampak Intervensi pada Lokasi Kegiatan Proyek CCFPI di Eks-PLG Blok A, Mentangai, Kalimantan Tengah dan Sekitar TN. Berbak, Jambi. Wetlands International. Bogor.

Jauhiainen, J., dan Hooijer, A., 2012. Greenhouse Gas Emissions from Plantation on Thick Tropical Peat, dalam Peatlands in Balance. Procceding of the 14th International Peat Congress, Stockholm, Sweden

Joosten, H. 2007. Peatland and carbon. pp. 99-117 In. Parish, F., Siri, A., Chapman, D., Joosten H., Minayeva, T., and Silvius M (eds.) Assessment on Peatland, Biodiversity and Climate Change.Global Environmental Centre, Kuala Lumpur and Wetland International, Wageningen.

Lim, K.H, Lim, S.S, Parish, F, Suharto, R. (eds.). 2012. RSPO Manual on Best Management Practices (BMPs) for Existing Oil Palm Cultivation on Peat.

RSPO, Kuala Lumpur, Malaysia, 214 pp.

Limpens, J., F. Berendse, C. Blaodau, J.G. Canadell, C. Freeman, J. Holden, N.

Roulet, H. Rydin, and G. SchaepmanStrub. 2008. Peatlands and the carbon cycle: from local processes to global implicans-a synthesis. Biogeosciences 5:1475-1491.

Melling, L., R. Hatano, K.J. Goh. 2005. Soil CO2 flux from tree ecosystem in tropical peatland of Sarawak Malaysia. Tellus, 57 B: 1-11

Munir’ T. M., Perkins, M. , Kaing, E. , Strack, M. 2015. Carbon dioxide flux and net primary production of a boreal treed bog: Responses to .–1111 2015 www.biogeosciences.net/12/1091/2015/ doi:10.5194/bg-12-1091-2015.

Mutalib, A.Aa, J.S. Lim, M.H. Wong and L. Koonvai. 1991. Characterization, distribution and utilization of peat in Malaysia. Proc. International Symposium on Tropical Peatland. 6-10 May 1991, Kuching, Serawak, Malaysia.

Moore, T. M. and M. Dalva. 1993. The Influence The Temperature and Water-Table Position On Carbon-Dioxode and Methane Emissions From Laboratory Columns Of Peatland Soil. J. Soil Sci. 44, 651-664.

Moore, T.R and M. Dalva, 1993 The influence of suhue and water table position on carbon dioxide and methane emissions from laboratory columns of peatland soils. J. Soil Science 44, Issue 4: 651–664.

NASA Earth Observatory. 2008. Climate and Earth’s Energy Budget.

https://earthobservatory.nasa.gov/Features/ EnergyBalance/page4.php.

Nuryani, S.U,H., Mass, A., Purwanto, B.H. dan Radjaguguk, B., 2009. Effects of Surfactant and Ameliorant on Effectiveness of P Fertilizer on Hidrofobik Peat from Central Kalimantan. Jurnal Ilmu Tanah dan Lingkungan, 9(2):103- 113.

Parish, F., A. Sirin, D. Charman, H. Joosten, T. Minayeva, M. Silvius, and L.

Stringer (Eds.). 2007. Assessment on Peatlands, Biodiversity and Climate Change: Main Report. Global Environment Centre, Kuala Lumpur and Wetlands International, Wageningen.

Peterson, E. 2003. Importance of Rhizodeposition in The Coupling Of Plant and Microbial Productivity. European Journal of Soil Science., 54: 741-750.

Radjagukguk, B. 1997. Peat soil of Indonesia: Location, classification, and problems for sustainability. In: Rieley and Page (Eds.). pp. 45-54.

Biodiversity and Sustainability of Tropical Peat and Peatland. Samara Publishing Ltd. Cardigan. UK.

Rieley, J.O., and S.E. Page. 2008. Carbon budget under different land uses on tropical peatland. In: Future of Tropical peatlands in Southeast Asia as Carbon pools and sinks. Eds; J.O. Rieley, C.J. Banks and S.E. Page.

Sabiham, S. 2000. Kadar air kritis gambut Kalimantan Tengah dalam kaitannya dengan kejadian kering tidak balik (Critical water content of peatland in Central Kalimantan and its relationship with irreversible drying process). J.

Tanah Tropika 11:21-30.

Subagyo, H., Nata, S. Dan Agus, B. S. 2000. Tanah-tanah pertanian di Indonesia.

Bogor: Pusat Penelitian Tanah danAgroklimat. 78-80hal.

Subiksa, I. G. M., W. Hartatik, dan F. Agus. 2011. Pengelolaan Gambut Berkelanjutan: Pengelolaan Lahan Gambut Secara Berkelanjutan. Balai

Penelitian Tanah, Bogor.

http://balittanah.litbang.deptan.go.id/ind/dokumentasi/lainnya/subiksa2.pdf.

Szajdak, L., T. Brandyk, dan J. Szatylowicz. 2007. Chemical properties of different peat-marsh soils from the Biebrza River Valley. Agronomy Research 5:165-174

Van Gaalen, J.F., Kruse S, Lafrenz WB, Burroughs SM. 2013. Predicting Water Table Response to Rainfall Events, Central Florida- Predicting Water Table Response to Rainfall Events, Central Florida. Ground Water (3):350-362. doi:

10.1111/j.1745-6584.2012.00970.x.

Vasander, H., dan Jauhiainen, J., 2008. Uncertainties, Deficiencies and Unknowns in Greenhouse Gas Emissions from Tropical Peatlands, dalam Future of Tropical Peatlands in Southeast Asia as Carbon Pools and Sinks. Rieley, J.O.,

Banks, C.J., dan Page, S.E. (Eds).

Wahyunto, Ai Dariah, D. Pitono, dan M. Sarwani. 2013. Prospek pemanfaatan lahan gambut untuk perkebunan kelapa sawit di Indonesia. Perspektif 12(1):11-22.

Wahyunto dan Heryanto. B. 2005. Sebaran gambut dan Status terkini di Sumatera.

Dalam CCFPI. 2005. Pemanfaatan Lahan Gambut Secara Bijaksana Untuk Manfaat Berkelanjutan. Prosiding Lokakarya. Indonesia Programe. Bogor.

Wahyunto, S. Ritung, Suparto, dan Subagjo. 2005. Sebaran Gambut dan Kandungan Karbon di Sumatera dan Kalimantan 2004. Bogor, Indonesia:

Wetland International Indonesia Programme.

Yusuf, M.A, S.Rahutomo, Winarna. 2017. Emisi CO2 pada Beberapa Praktek Kultur Teknis Kelapa Sawit di Lahan Gambut. Jurnal Pertanian Tropik.

Vol.4, No.1. April 2017. (8) : 75- 83

LAMPIRAN Lampiran 1. Dokumentasi penelitian

Penempatan chamber pada lokasi Pengukuran nilai fluks CO2

Peralatan pengamatan fluks CO2 Pengamatan suhu lokasi

Pengukuran kedalaman gambut pada lokasi penelitian

Lampiran 2. Rekap data penelitian

Lampiran 3. Hasil uji statistik

Hasil uji regresi linear emisi CO2 dengan kedalaman muka air

Hasil uji regresi linear emisi CO2 dengan curah hujan

Hasil uji regresi linear emisi CO2 dengan suhu

Hasil uji regresi linear emisi CO2 dengan radiasi cahaya matahari

Hasil uji regresi linear emisi CO2 dengan subsiden

Lampiran 4. Peta lokasi penelitian

Lokasi penelitian