Climate Change and Food Security:

Andi Amran Sulaiman; Husnain Husnain; Fahmuddin Agus; Muhammad Syakir

doi:10.53555/ar.v5i1.2607

Andi Amran Sulaiman Faculty of Agriculture, University of Hasanuddin, Makassar, 90245, Indonesia.
Husnain Husnain Indonesian Soil Research Institute
Fahmuddin Agus
Muhammad Syakir IAARD, Ministry of Agriculture, Bogor, 16111, Indonesia

DOI: https://doi.org/10.53555/ar.v5i1.2607

Keywords: climate change, CO2 emissions, El Nino, La Nina, extreme climate events

Abstract

Food security is very important for Indonesia with a large population. Agricultural sector as a contributor about 5-7 percent to CO₂ emissions, is a victim of climate change as this sector is very sensitive to the change of climate such as rise of temperature, drought, El Nino and La Nina and rise sea level. The decline in production due to climate change and extreme climate is very risky for Indonesia's food security. Various studies have been conducted to evaluate the impact of climate change. However, Since 2009, voluntary commitment of Indonesian Government to reduce 26 percent of CO₂ emissions set up the strong effort in many sectors to adapt with climate change. In agriculture, improving soil quality is key in maintaining food production. Soil conservation using vegetative or engineering technique is one of the most important technology. Nutrient management by applying balance fertilization, the use of organic material and ameliorant such as biochar, zeolite and other natural mineral are beneficial for plant production. All these ameliorants will be very useful in maintain soil organic matter (SOM) and soil carbon which very important in increasing water holding capacity. Water harvesting is one option to capture high precipitation and important to irrigate agricultural area. Besides, the use of cropping calendars, high yielding varieties which adapt to biophysical stress will be very useful. Other effort is also needed to control the peat fire, peat drainage and deforestation.

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References

Agus F, Husnain, R D Yustika. 2015. Improving Agricultural Resilience to Climate Change Through Soil Management. J. Litbang Pert. Vol. 34 No. 4 Desember 2015: 147-158

Agus F. 2001. Selection of soil conservation measures in Indonesian regreening program. pp. 198202. In D.E. Stott, R.H. Mohtar, and G.C. Steinhardt (Eds.). Sustaining the Global Farm: Selected papers from the 10th International Soil Conservation Organization (ISCO) Meeting held on May 2429, 2001 at Purdue University. Purdue University Press, Purdue, USA.

Agus F and Widianto. 2004. Petunjuk Praktis Konservasi Tanah Lahan Kering (Practical Guidelines for Upland Soil Conservation). World Agroforestry Centre (ICRAF) Southeast Asia, Bogor. 102 pp.

Amedie F A. 2013. Impacts of Climate Change on Plant Growth, Ecosystem Services, Biodiversity, and Potential Adaptation Measure. Master thesis in Atmospheric Science with orientation towards Environmental Science (60 HEC). Department of Biological and Environmental Sciences University of Gothenburg. Sweden.

Amin I. 2004. Impacts and Adaptation to Climate Change: Status and Application in Agriculture Sector. 2004. Summary Report: What’s Next After the Ratification of the Kyoto Protocol.

Ashok K, S K Behera, S A Rao, H Weng and T Yamagata. 2007. El Nino Modoki and its possible teleconnection. Journal of Geophysics Research. 112, C11007.

Australian Bureau of Meteorology. 2012. Record-breaking La Nina events: An analysis of the La Niña life cycle and the impacts and significance of the 2010–11 and 2011–12 La Niña events in Australia. Commonwealth of Australia 2012. Melbourne. http://www.bom.gov.au/climate/enso/history/La-Nina-2010-12.pdf

Barber S A and J H Cushman. 1981. Nitrogen uptake model for agronomic crops. In: I.K. Iskandar (Ed.). Modeling Waste Water Renovation-Land Treatment. Wiley-Interscience, New York, pp. 382–409.

Barnston A G, M Chelliah and S B Goldenberg. 1997. Documentation of the highly ENSO-related SST regional in the equatorial Pacific. Atmospheric-Ocean, 33: 367-383.

Baumert K, T Herzog and J Pershing. 2005. Navigating the Numbers: Greenhouse Gas Data and International Climate Policy. Washington, DC: World Resources Institute. Available at: http://www.wri.org/publication/navigating-the-numbers.

Boer R, A Faqih and R Ariani. 2014. Relationship between Pacific and Indian Ocen Sea Surface Temperature Variability and Rice Production, Harvesting Area and Yield in Indonesia. Paper presented in EEPSEA conference on the Economics of Climate Change, 27-28 Ferbuary, Siem Reap, Cambodia.

Brouder S M and J J Volenec. 2008. Impact of climate change on crop nutrient and water use efficiencies. Physiologia Plantarum 133: 705-724.

Campbell B M, S J Vermeulen, P K Aggarwal, C C Dolloff, E Girvetz, A M Loboguerrero, J R Villegas, T Rosenstock, L Sebastian, P K Thornton, E Wollenberg. 2016. Reducing risks to food security from climate change. Global Food Security11: 34–43

Chen De, X Hunt, H W and J A Morgan. 1996. Responses of a C3 and C4 perennial grass to CO2 enrichment and climate change: Comparison between model predictions and experimental data. Ecological Modeling 87, 11-27.

Claassen N and S A Barber. 1976. Simulation model for nutrient uptake from soil by a growing plant root system. Agron. J. 68: 961–964.

Dariah A, S Marwanto, F Agus. 2014. Root- and peat-based CO2 emissions from oil palm plantations. Mitig Adapt Strateg Glob Change 19:831–843

Directorate General of Agricultural Infrastructure and Facilities. 2017. Guidance for Farmer Insurance Subsidy. Directorate General of Agricultural Infrastructure and Facilities. Ministry of Agriculture.

Feely R A, R Wannnkhof, T Takahashi, P Tans. 1995. CO2 distributions in the equatorial Pacific during the 1991–92 ENSO event. Deep-Sea Res. II 42(2–3), 365–386 (1995).

Fischer G, K Frohberg, M L Parry, C Rosenzweig. 1996. The potential effects of climate change on world food production and security. In Fakhri Bazzaz, Wim Sombroek (Ed) Global climate change and agricultural production. Direct and indirect effects of changing hydrological, pedological and plant physiological processes. Food and Agriculture Organization of The United Nations and John Wiley & Sons. Chichester, New York, Brisbane, Toronto, Singapore.

Golden Gate Weather Service. 2018. El Niño and La Niña Years and Intensities Based on Oceanic Niño Index (ONI). Updated thru Sept-Oct-Nov 2018. Available online at https://ggweather.com/enso/oni.htm

Gunderson C A, N T Edwards, A V Walker, K H O’Hara, C M Campion and P J Hanson. 2012. Forest phenology and a warmer climate - growing season extension in relation to climate provenance: In Global Change Biology, 18, 2008-2025.

Hasegawa T, S. Fujimori, R. Boer, G S Immanuel, T Masui. 2016. Land-Based Mitigation Strategies under the Mid-Term Carbon Reduction Targets in Indonesia. Sustainability, 8, 1283. doi:10.3390/su8121283

Hidayat R, M D Juniarti, U Ma’rufah. 2018. Impact of La Niña and La Niña Modoki on Indonesia rainfall variability. IOP Conf. Series: Earth and Environmental Science 149: 012046. doi :10.1088/1755-1315/149/1/012046.

Hillel D. 1998. Soil Physics and the Environment. Academic Press, San Diego, USA.

IPCC. 1994. Radiative Forcing of Climate Change and an Evaluation of the IPCC 1992 Emission Scenarios ( J.T. Houghton, L.G. Meira Filho, J. Bruce, Hoesung Lee, B.A. Callander, E. Haites, N. Harris and K. Maskell (Eds.)) Cambridge University Press, UK. pp 339 Available from Cambridge University Press, The Edinburgh Building Shaftesbury Road, Cambridge CB2 2RU ENGLAND

Husnain H, I G P Wigena, A Dariah, S Marwanto, P Setyanto, F Agus. 2014. CO2 emissions from tropical drained peat in Sumatra, Indonesia. Mitig Adapt Strateg Glob Change 19:845–862 DOI 10.1007/s11027-014-9550-y

IAARD. 2005. Revitalisasi Pertanian, Perikanan, dan Kehutanan 2005– 2025. Indonesian Agency for Agricultural Research and Development (IAARD), Jakarta, Indonesia.

IAARD. 2011. Road Map, Agricultural Sector Strategy Facing Climate Change (Revision). Indonesian Agency for Agricultural Research and Development. Ministry of Agriculture.

Inoue H and Y Sugimura. 1992. Variations and distributions of CO2 in and over the equatorial Pacific during the period from 1986/88 El Niño event to the 1988/89 La Niña event. Tellus B 44, 1–22.

Intergovernmental Panel on Climate Change. 2006. IPCC Guidelines for National Greenhouse Gas Inventories; Eggleston, H.S., Buendia, L., Miwa, K., Ngara, T., Tanabe, K., Eds.; Institute for Global Environmental Strategies: Hayama, Japan, 2006.

Irawan B. 2013. Impact of El Nino and La Nina on the rice and palawija production. Page 29-51 in Politics of Agricultural Development to Anticipate Climate Change (Eds. Soeparno et al). IAARD-PRESS. Jakarta.

Itoh S and S A Barber. 1983. A numerical solution of whole plant nutrient uptake for soil-root systems with root hairs. Plant Soil 70: 403–413.

Kovats R S, M J Bouma, A Haines. 1999. World Health Organization: Sustainable Development and Healthy Environments. WHO/SDE/PHE/99.4. Protection of the Human Environment Task Force on Climate and Health. Geneva.

Lal R, J A Delgado, P M Groffman, N Millar, C Dell and A Rotz. 2011. Management to mitigate and adapt to climate change. J. Soil Water Conserv. 66(4): 276-285 www.swcs.org.

Las I, E Surmaini, N Widiarta and G Irianto. 2018. The potential impact of the El Nino-La Nina climate anomaly on food production, strategies and coping technologies. Paper presented in FGD of Drought Strategy and Technology.

Lepetz V, M Massot, D S Schmeller and J Clobert. 2009. Biodiversity monitoring: some proposals to adequately study species’ responses to climate change. Biodiversity and Conservation 18, 31853203.

Lukac M, C Calfapietra C, A Lagomarsino A and F Loreto. 2010. Global climate change and tree nutrition: effects of elevated CO2 and temperature: Tree physiology [0829-318X] Lukac yr. 30, 1209 -1220.

Marwanto S, F Agus. 2014. Is CO2 flux from oil palm plantations on peatland controlled by soil moisture and/or soil and air temperatures? Mitig Adapt Strateg Glob Change 19:809–819.

Ministry of Environment. 2010. Indonesia Second National Communication. Under The United Nations Framework Convention On Climate Change. Ministry of Environment. Jakarta.

Morison J I L and D W Lawlor. 1999. Interaction between increase CO2 concentration and temperature on plant growth. Plant Cell and Environment volume 22, 659-682.

Mulyadi R, Nuriwan, I J Sasa dan S Partohardjono. 2001a. Emisi gas metan dari berbagai varietas dan bahan organik di lahan sawah tadah hujan. Laporan Hasil Penelitian T.A. 2000. Loka Penelitian Tanaman Pangan Jakenan.

Mulyadi, R Nuriwan, I J Sasa, dan S Partohardjono. 2001b. Emisi gas metan dari berbagai varietas dan bahan organik di lahan sawah tadah hujan. Laporan Hasil Penelitian T.A. 2000. Loka Penelitian Tanaman Pangan Jakenan.

Mulyadi, Suharsih, I J Sasa, dan P Setyanto. 2002. Penggunaan bahan organik pada padi dan emisi gas metan dari lahan sawah. Prosiding Seminar Nasional Sistem Produksi Tanaman Pangan Berwawasan Lingkungan. Puslitbangtan, Bogor. hlm. 71–78 (In Indonesian).

Parry M L, A R Magalhaes and N H Nih. 1992. The potential socio-economic effects of climate change: A summary of three regional assessments. Nairobi, Kenya: United Nations Environment Programme (UNEP).

PEACE. 2007. Indonesia and Climate Charge: Current Status and Policies. World Bank. PEACE.

Rachman A, A Dariah dan E. Husen. 2004. Olah tanah konservasi (conservation tillage). Dalam Teknologi Konservasi Tanah pada Lahan Kering Berlereng. Pusat Penelitian dan Pengembangan Tanah dan Agroklimat, Bogor, Indonesia. hlm. 189-210

Reilly J. 1996. Climate Change, Global Agriculture and Regional Vulnerability. FAO and John Wiley and Sons.

Sulaiman A A, F Agus, M Noor, A Dariah, B Irawan, E Surmaini. 2018. The Right Way to Deal with the Extreme Climate EL Nino and La Nina for Stabilizing Food Security. IAARD Press. Jakarta. (In Indonesian)

Sumaryanto, B Irawan, M Suryadi, M H Sawit, A Setyanto and J Situmorang. 2011. Impact of climate change on the Temporal Food Sovereignty. Center for Socio Economic and Policy. Bogor (In Indonesian)

Sutardi. 2006. Penyelenggaraan Penanggulangan Bencana dan Partisipasi Masyarakat (Disaster Mitigation Implementation and Public Participation). Department of Public Works, Jakarta, Indonesia. (In Indonesian)

Takahashi T, R A Feely, R F Weiss, R H Wanninkhof, D W Chipman, S C Sutherland and T T Takahashi. 1997. Global air-sea flux of CO2: An estimate based on measurements of sea-air pCO2 difference. Proc. Natl. Acad. Sci. USA 94, 8292–8299 (1997).

Tans PP, I Y Fung, and T Takahashi. 1990. Observational constraints on the global atmospheric CO2 budget. Science 247, 1431–1438 (1990).

Tawang A and T A Ahmad. 2003. Stabilization of Upland Agriculture under EL Nino-induced Climatic Risk: Regional and Farm Level Risk Management and Coping Mechanism in the Kedah-Perlis Region, Malaysia. United Nations CGPRT Centre.

Ugalde D, A Brungs, A Kaerbernick, A McGregor and B Slattery. 2007. Implications of climate change for tillage practice in Australia. Soil Tillage Res. 97: 318-330.

USAID. 2017. Green House Gases Emission Factsheet. United States Agency for International Development.

Verchot L V, E Petkova, K Obidzinski, S Atmadja, E L Yuliani, A Dermawan, D Murdiyarso and S Amira. 2010. Reducing forestry emissions in Indonesia. Center for International Forestry Research All rights reserved. Indonesia

Wanninkhof R, R A Feely, H Chen, H Cosca, C and P P Murphy. 1996. Surface water CO2 values in the eastern equatorial Pacific during the 1992–93 El Niño. J. Geophys. Res. 101, 16333–16343.

Wihardjaka A. 2015. Mitigation of Methane Emission Through Lowland Management. J. Litbang Pert. Vol. 34 No. 3: 95-104 (In Indonesia).

Wolter K and M S Timlin. 1998. Measuring the strength of ENSO events-how does 1997/98 rank?, Weather, 53: 315-324.

World Bank. 2018. World Bank Development Indicators Database. Retrieved on 20 December 2018. Available at https://data.worldbank.org/.

Zhang X C and M A Nearing. 2005. Impact of climate change on soil erosion, runoff, and wheat productivity in Central Oklahoma. Catena 61: 185-195

Climate Change and Food Security

Indonesian Experience

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