Kinerja Usahatani Kopi di Hulu DAS Sekampung, Tanggamus, Lampung


  • Fitriani Fitriani Politeknik Negeri Lampung\Jurusan Ekonomi dan Bisnis\Program Studi Agribisnis
  • Bustanul Arifin Universitas Lampung\ Fakultas Pertanian\Program Studi Agribisnis
  • Wan Abbas Zakaria Universitas Lampung\ Fakultas Pertanian\Program Studi Agribisnis
  • R. Hanung Ismono Universitas Lampung\ Fakultas Pertanian\Program Studi Agribisnis



Most of the coffee production areas in Lampung are in the vicinity of production forests andprotected forests, also a catchment area for watersheds in Lampung, namely Sekampung andWay Seputih watersheds. Continuity of sustainable coffee production lines is an importantdemand that needs to be done. The application of coffee production systems with shade(agroforestry) in the catchment area is very important in ensuring environmentalsustainability. This study aims to analyze the income performance of agroforestry coffeebased on the land status in Hulu Das Sekampung. The research uses survey methods. Fielddata exploration conducted in April-November 2016 is located in Datar Lebuay and SinarJawa Villages. Air Naningan, Tanggamus, Lampung. The descriptive statistical analysismethod is used to explain the performance of agroforestry coffee production at the researchlocation. Based on the results and discussion it was concluded that farmers with landownership status had the highest level of coffee farming income compared to the land statusof HKm and non-HKm. Agroforestry coffee farmers obtain sources of income from coffeeproduction, MPTS production, and other crop production (multiple cropping). The averagecontribution of coffee farming income is 22% of the total farm income. Coffee contributes22% to the total income of farmer households. Farmer's household income with the status ofland ownership is the highest compared to the land status of HKm and Non-HKm. Thediversity of income sources of upstream farmers in the watershed. The villages that comefrom various vegetation plants are important in maintaining land cover as a catchment area.The practice of agroforestry coffee is an adaptation of sustainable production in the upperwatershed Sekampung. The pattern of agroforestry coffee production in the area aroundprotected and watershed forests needs to be continuously developed.


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Arifin, B., 2013. On the Competitiveness and Sustainability of the Indonesian Agricultural Export

Commodities. , 1(June), pp.81–100.

Badan Pusat Statistik Lampung, 2015. Lampung Dalam Angka, 2015, Bandar Lampung: Lampung Statistical


Banuwa, I.S. et al., 2008. Land capability evaluation of Upper Sekampung watersheds. Jurnal Tanah

Tropika, 13(2), p.145–153 (in Indonesian with English summary).

Bernard, F. et al., 2014. Social actors and unsustainability of agriculture. Current Opinion in Environmental

Sustainability, 6(1), pp.155–161.

Binam, J.N., Place, F. & Kalinganire, A., 2015. Effects of farmer managed natural regeneration on

livelihoods in semi-arid West Africa.

BPS-Statistics Indonesia, 2015. Statistik Indonesia, Jakarta: BPS Indonesia.

Buechley, E.R. et al., 2015. Importance of Ethiopian shade coffee farms for forest bird conservation.

Biological Conservation, pp.1–11.

Buongiorno, J. & Zhou, M., 2015. Adaptive economic and ecological forest management under risk.

Eakin, H. et al., 2014. Adaptation in a multi-stressor environment: perceptions and responses to climatic and

economic risks by coffee growers in Mesoamerica. Environ Dev Sustain, 16, pp.123–139.

Ekawati, S., 2015. Integrated Watersheds Management on Climate-changing: Institutional side. In

Watersheds Restoration. Solo, Central Java, Indonesia: Surakarta State University, pp. 43–62.

Evizal, R., Prijambada, I.D. & Widada, D.A.N.J., 2012. Peranan Serasah Terhadap Sumbangan N dan P pada

Agrosistem Kopi. Agrotrop, 2(2), pp.177–183.

FAO, 2014. Evidence-Based Assessment of The Sustainability and Replicability of Itegrated Food-Energy

System, Rome, Italy: Food and Agriculture Organization of the United Natio.

Fitriani et al., 2018. Coffee Agroforestry Performance in Pulau Panggung Sub-district , Tanggamus ,

Lampung , Indonesia. Pelita Perkebunan, 34(2), pp.69–79.

Foran, T. et al., 2014. Taking complexity in food systems seriously: An interdisciplinary analysis. World

Development, 61, pp.85–101.

Fu, Y. et al., 2009. Smallholder rubber plantation expansion and its impact on local livelihoods, land use and

agrobiodiversity, a case study from Daka, Xishuangbanna, southwestern China. International

Journal of Sustainable Development and World Ecology, 16(1), pp.22–29.

Haggar, J. et al., 2015. Tree diversity on sustainably certified and conventional coffee farms in Central


ICO, 2016. Annual Review 2015 - 2016,

Noponen, M.R. a et al., 2013. Intensification of coffee systems can increase the effectiveness of REDD

mechanisms. Agricultural Systems, 119, pp.1–9.

Somura, H. et al., 2018. Relationship between water quality variations and land use in the Batutegi Dam

Watershed, Sekampung, Indonesia. Lakes & Reservoirs: Research & Management.

Xue, H. et al., 2013. Assessment of private economic benefits and positive environmental externalities of tea

plantation in China. Environmental Monitoring and Assessment, 185(10), pp.8501–8516.




How to Cite

Fitriani, F., Arifin, B., Zakaria, W. A., & Ismono, R. H. (2020). Kinerja Usahatani Kopi di Hulu DAS Sekampung, Tanggamus, Lampung. Jurnal Penelitian Pertanian Terapan, 18(3), 165-174.




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