KARAKTERISTIK, POTENSI GENERASI MILENIAL DAN PERSPEKTIF PENGEMBANGAN PERTANIAN PRESISI DI INDONESIA

Authors

  • Joula Sondakh Balai Pengkajian Teknologi Pertanian Sulawesi Utara
  • Janne H.W. Rembang Balai Pengkajian Teknologi Pertanian Sulawesi Utara
  • Syahyuti Pusat Sosial Ekonomi dan Kebijakan Pertanian

Keywords:

agricultural development policy, agricultural labor, millennial generation, precision agriculture, generasi milenial, kebijakan pembangunan pertanian, pertanian presisi, tenaga kerja pertanian

Abstract

Precision agriculture requires appropriate characters of human resources to implement it. It is an integrated agricultural system based on information and production to increase business efficiency, productivity and profitability. The concept of precision agriculture, as one of the latest agricultural technology packages, was born along with the emergence of the millennial generation, namely those born between 1980 and 2000.This paper discusses the character of precision agriculture and necessity to apply it and its link to the millennial generation in terms of their character suitability and capacity. Application of precision agriculture requires the millennial generation’s ability to create, engineer and operate modern agricultural systems based on this new technology. Applying precision agriculture in Indonesia deals with various characteristics of the millennial generation due to different regional and socio-economic conditions. The government should provide infrastructure and conduct millennial farmers training to achieve social, economic, and environmental benefits of precision agriculture implementation.

References

Amanda ECR, Seminar KB, Syukur M, Noguchi R. 2015. Development of expert system for selecting tomato (Solanum lycopersicum L.) varieties. The proceedings of the 3rd International Conference on Adaptive and Intelligent Agroindustry (ICAIA) 2015.

Andrea B, Gabriella HC, Timea J. 2016. Y and Z generations at workplaces. J Compet. 8(3):90–106.

Aristyo RW, Susandi A. 2018. Konsep forecast-based-financing untuk pertanian presisi di Indonesia [Internet]. [diunduh 2020 Dec 1]. Tersedia dari: http://jurnal.umj.ac.id/index.php/ semnastek.

Ahsyar TK, Seminar KB, Hermadi, Suyatma NE. 2015. Decision support system for selecting of meat product packaging. Int J of Information Tech and Business Manag. 42(1):17–24.

[BPS] Badan Pusat Statistik. 2018. Survey pertanian antar sensus. Jakarta (ID): Badan Pusat Statistik.

Berkup SB. 2014. Working with Generations X and Y in Generation Z period: management of difference. Mediterranean J of Soc Sci. 5(19): 218–229. https://doi.org/10.5901/mjss.2014. v5n19 p218

Clarke WE. 2013. Genomic DNA enrichment using Sequence Capture Microarrays: a novel approach to discover Sequence Nucleotide Polymorphisms (SNP) in Brassica napus L. PloS ONE 8(12):1–14.

Dobermann A, Fairhurst T. 2000. Rice: nutrient disorders and nutrient management. PPI, PPIC and IRRI. Oxford (US): Oxford Graphic Printers Pte Ltd.

Fagi AM, Kartaatmaja S. 2004. Teknologi budi daya padi: perkembangan dan peluang. Dalam Ekonomi padi dan beras Indonesia. Hal 397–418. Jakarta (ID): Badan Penelitian dan Pengembagan Pertanian, Departemen Pertanian.

Faroka FR, Seminar KB, Muljono P. 2013. Pengaruh adopsi teknologi PHSL (Pemupukan Hara Spesifik Lokasi) berbasis pertanian presisi terhadap pendapatan petani padi di Desa Jembungan, Kabupaten Boyolali, Jawa Tengah. Jurnal Komunikasi Pembangunan 11(1). Bogor (ID): IPB University. https://doi.org/10.46937/ 1120139066.

Faroque MAA, Asaduzamman M, Hossain D. 2013. Sustainable agricultural development under climate change in Bangladesh. J of Sci Found. 11(1):17–28.

Firmansyah A. 2015. Penggunaan Vis-NIR untuk deteksi serangan Huanglongbing pada daun jeruk [Skripsi]. [Bogor (ID)]: Fakultas Teknologi Pertanian, IPB.

Gallup. 2016. How millenials want to work and live [Internet]. [diunduh 2020 Oct 1]. Tersedia dari: https://enviableworkplace.com/wp-content/ uploads/Gallup-How-Millennials-Want-To-Work.pdf.

Handford CE, Dean M, Henchion M, Spence M, Elliott CT, Campbell K. 2014. Implications of nanotechnology for the agri-food industry: Opportunities, benefits and risks. Trends in Food Science and Technology. 40:226–241.

Heriyanto H, Seminar KB, Solahudin M, Subrata IDM, Supriyanto, Liyantono, Noguchi R, Ahamed T. 2016. Water supply pumping control system using PWM based on precision agriculture principles. Int Agric Engineer J (IAEJ). 25(2):1–8.

Hidayatullah S, Waris A, Devianti RC, Sari SR, Wibowo IA, Pande MPW. 2018. Perilaku generasi milenial dalam menggunakan aplikasi Go-Food. J Manaj dan Kewirausa. 6(2):240–249.

Jones J. 2018. Spanish millennials are reshaping their goals to afford life. 28th November 2018 [Internet]. [diunduh 2020 Dec 1]. Tersedia dari: https://www.bbc.com/worklife/article/20181108-spanish-millennials-are-reshaping-their-goals-to-afford-life.

[Kementan] Kementerian Pertanian RI. 2020. Grand design pengembangan pertanian 4.0. Jakarta (ID): Kementerian Pertanian.

[Kemen PPPA dan BPS] Kementerian Pemberdayaan Perempuan dan Perlindungan Anak dan Badan Pusat Statistik. 2018. Profil generasi milenial Indonesia. Jakarta (ID): Kementerian Pemberdayaan Perempuan dan Perlindungan Anak.

Klerkx L, Hall A, Leeuwis C. 2009. Strengthening agricultural innovation capacity: are innovation brokers the answer? Int J Agric Resour, Governance and Ecology. 8(6):409–437.

Mahdi R. 2011. Teknik Budidaya. Serial online [Internet]. [diunduh 2020 Nov 17]. Tersedia dari: http://rizalmahdi.files.wordpress.com/2011/01/bab-9.pdf.

Maiers M. 2017. Our future in the hands of millennials. J Can Chiropr Assoc [Internet]. [diunduh 2020 Nov 7]; 61(3):212–217. Tersedia dari: https://www.ncbi.nlm.nih.gov/pmc/articles/ PMC5799841/.

Mardianto S. 2014. Reformasi sistem inovasi pertanian di Indonesia dalam reformasi kebijakan menuju transformasi pembangunan pertanian. Dalam: Haryono. eds. 2014. Transformasi Pembangunan Pertanian: Reformasi Kebijakan Menuju Transformasi Pembangunan Pertanian. Jakarta (ID): IAARD Press.

McBratney AB, Pringle MJ. 1999. Estimating Average and Proportional Variograms of Soil Properties and Their Potential Use in Precision Agriculture. Precision agriculture 1: 125–152 [Internet]. [diunduh 2020 Nov 17]. Tersedia dari: https://doi.org/10.1023/A:1009995404447.

Muqodas AU. 2015. Pengembangan perangkat evaluasi mutu teh hitam menggunakan image processing [Skripsi]. [Bogor (ID)]: Fakultas Teknologi Pertanian, IPB.

Murdaningsih D. 2018. Warga Temanggung buat drone penyemprot tanaman. Harian Republika, 4 Februari 2018 [Internet]. [diunduh 2020 Nov 17]. Tersedia dari: https://www.republika.co.id/ berita/nasional/daerah/18/02/03/p3ko0w368-warga-temanggung-buat-drone-penyemprot-tanaman.

Nishiguchi O, Yamagata N. 2009. Agricultural information management system using GIS technology: Improving agricultural efficiency through information technology. Hitachi Review. 58(6):265–269.

Nugroho AP. 2018. Strategi implementasi pertanian presisi pada pertanian konvensional: smart farming teknik pertanian dan biosistem. Yogyakarta (ID): Universitas Gadjah Mada Press.

Oberman R, Dobbs R, Budiman A, Thompson F, Rossé. 2012. The archipelago economy: unleashing Indonesia's potential. Jakarta (ID): McKinsey Global Institute.

Papp R, Matulich E. 2011. Negotiating the deal: using technology to reach the millennials. J Behav Stud Bus. 4(2011):1–12.

Permani R, Sahara, Suprehatin. 2020. Agrifood e-commerce profiles in Indonesia. Policy Brief. Jakarta (ID): Australia Indonesia Institute.

Plant RE, Pettygrove S, Reinert WR. 2000. Precision agriculture can increase profits and limit environmental impacts. California Agric. 54(4):66–71. DOI:10.3733/ca.v054n04p66.

Rani A, Roy P. 2017. Youth in agriculture: role of government initiatives. J Agric Ext Manag. 18(2):167–175.

Retno S. 2018. Mengenal aplikasi drone dalam pengendalian OPT. Warta Penelitian dan Pengembangan Tanaman Industri 24(1):15–19. https://www.litbang.pertanian.go.id/infoteknologi/3387/file/MengenalDroneOPT-WLPuslitb.pdf.

Rivai RS, Anugrah IS. 2011. Konsep dan implementasi pembangunan pertanian berkelanjutan di Indonesia. Forum Penelit Agro Ekon. 29(1):13–25.

Rochman NT. 2011. Strategi pengembangan nanoteknologi dalam rangka peningkatan daya saing global agroindustri nasional [Thesis]. Bogor (ID): Institut Pertanian Bogor.

Seminar KB. 2016 a. Sistem pertanian presisi dan sistem pelacakan rantai produksi untuk mewujudkan agroindustri berkelanjutan. Orasi Ilmiah Guru Besar Tetap Fakultas Teknologi Pertanian Institut Pertanian Bogor; 2016 Nov 26. Bogor (ID): Institut Pertanian Bogor.

Seminar KB. 2016b. Food chain transparency for food loss and waste surveillance. Journal of Developments in Sustainable Agriculture (JDSA) 11(1):17–22.

Setyamidjaja D. 2000. Teh Budi Daya dan Pengolahan Pascapanen. Yogyakarta (ID): Penerbit Konisius.

Setiawan I. 2006. Peran sektor pertanian dalam penyerapan tenaga kerja di Indonesia. Jurnal Geografi Gea. 6(1). https://doi.org/10.17509/ gea.v6i1.1733.g1183.

Solahudin M, Seminar KB, Astika IW, Buono A. 2010. Pendeteksian kerapatan dan jenis gulma dengan metode Bayes dan analisis dimensi fraktal untuk pengendalian gulma secara selektif. JTEP. 24(2): 129–135.

Stafford JV. 2000. Implementing precision agriculture in the 21st century. J. Agric. Eng. Res. 76(3): 267–275.

Sumarno. 2010. Green agriculture dan green food sebagai strategi branding dalam usaha pertanian. Forum Penelit Agro Ekon 28(2): 81–90.

Tani FT. 2015. Pertanian Presisi untuk swasembada pangan [Internet]. [diunduh 2020 Nov 17]. Tersedia dari: https://www.kompasiana. com/mtf3lix5tr/559634ccd27a611212b13b4c/pertanian-presisi-untuk-swasembada-pangan

Tikmani J, Tiwari S, Khedkar S. 2015. An approach to customer classification using k-means. Int J of Innov Res in Computer and Comm Engineer. 3(11):10542–10549.

Whelan BM, McBratney A. 1995. The “Null Hypothesis” of precision agriculture management 2: 265–279, 2000. Kluwer Academic Publishers. Manufactured in The Netherlands. DOI:10.1023/A:1011838806489

White B. 2012. Agriculture and the generation problem: rural youth, employment and the future of farming. IDS Bull. 43(6):9–19.

Wibowo A. 2019. Konsep dasar pertanian presisi [Internet]. [diunduh 2020 Dec 1]. Tersedia dari: https://genagraris.id/see/pangkal-dan-perkemba ngan-peralatan-metode-dan-teknologi-pertanian-presisi.

Yofa RD, Syahyuti, Adawiyah CR. 2020. Peran kaum milenial di sektor pertanian pada era Covid-19. Buku Dampak Pandemi Covid-19: Perspektif Adaptasi dan Resiliensi Sosial Ekonomi Pertanian. Jakarta (ID): IAARD Press.

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Published

2021-06-07

How to Cite

Sondakh, J., Rembang, J. H., & Syahyuti. (2021). KARAKTERISTIK, POTENSI GENERASI MILENIAL DAN PERSPEKTIF PENGEMBANGAN PERTANIAN PRESISI DI INDONESIA. Forum Penelitian Agro Ekonomi, 38(2), 155–166. Retrieved from https://epublikasi.pertanian.go.id/berkala/fae/article/view/1095

Issue

Vol. 38 No. 2 (2020): Forum Penelitian Agro Ekonomi

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Articles