Analisis dan Optimalisasi Potensi Lahan Pertanian Sebagai Kajian Dampak Positif Erupsi Gunungapi Kelud 2014

https://doi.org/10.22146/mgi.27738

Syamsul Bachri(1*), Sugeng Utaya(2), Farizki Dwitri Nurdiansyah(3), Alif Erfika Nurjanah(4), Lela Wahyu Ning Tyas(5), Denny Setia Purnama(6), Akhmad Amri Adillah(7)

(1) ID SCOPUS: 48961044300, Department of Geography, Faculty of Social Sciences, State University of Malang.
(2) Department of Geography, Faculty of Social Sciences, State University of Malang.
(3) Department of Geography, Faculty of Social Sciences, State University of Malang.
(4) Department of Geography, Faculty of Social Sciences, State University of Malang.
(5) Department of Geography, Faculty of Social Sciences, State University of Malang.
(6) Department of Geography, Faculty of Social Sciences, State University of Malang.
(7) Department of Geography, Faculty of Social Sciences, State University of Malang.
(*) Corresponding Author

Abstract


Abstract

The 2014 eruption of Kelud Volcano has brought various effects on the surrounding agriculture. Aside from negative impact, it affected the potentials of agricultural land positively. This research analyzed the optimization of eruption-affected land using several steps. The first step was land suitability analysis with multicriteria assessment and Geographic Information System (GIS) technology. In addition to the physical analysis, Focus Group Discussion (FGD) was performed in the second step to identify the community’s perception of the eruption impact. The research produced land suitability maps consisting of the following classification: S1 (64.74%), S2 (31.51%), and S3 (3.75%). The maps revealed that the majority of the land in Kelud Volcano had the potentials for agricultural development. These findings were supported by the perception of the local community, which argued that they could significantly benefit from the positive impact of the eruption.

Abstrak

Erupsi gunungapi Kelud pada tahun 2014 membawa dampak yang beragam terhadap kondisi pertanian di sekitarnya. Selain dampak negatif, erupsi gunungapi Kelud membawa dampak positif khususnya pada potensi lahan terdampak yang perlu dioptimalkan. Melalui penelitian ini, kajian optimalisasi potensi lahan terdampak erupsi dilakukan dengan beberapa tahapan. Tahap pertama berupa analisis kesesuaian lahan melalui penilaian multikriteria dan teknologi Sistem Informasi geografis (SIG). Selain kajian fisik, kegiatan Focus Group Discussion (FGD) merupakan tahapan kedua yang dilakukan untuk mengetahui bagaimana persepsi masyarakat terkait dengan dampak erupsi Gunungapi Kelud. Hasil penelitian menghasilkan peta kesesuaian dengan kelas kesesuaian S1 (64,74%), S2 (31,51%), S3 (3,75%). Berdasarkan hasil pemetaan ini, sebagian besar wilayah Gunungapi Kelud berpotensi untuk pengembangan pertanian. Hal ini didukung dengan persepsi masyarakat kawasan Gunungapi Kelud yang berpendapat bahwa dampak positif erupsi dirasakan secara signifikan.

 

 


Keywords


Kelud; dampak positif; kesesuaian lahan; AHP

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References

Achmad, S. R., & Hadi, H. (2015). Identifikasi Sifat Kimia Abu Vulkanik Dan Upaya Pemulihan Tanaman Karet Terdampak Letusan Gunung Kelud (Studi Kasus: Kebun Ngrangkah Pawon, Jawa Timur). Warta Perkaretan, 34(1), 19–30.

Afandi, F. N., Siswanto, B., & Nuraini, Y. (2017). Pengaruh Pemberian Berbagai Jenis Bahan Organik Terhadap Sifat Kimia Tanah Pada Pertumbuhan Dan Produksi Tanaman Ubi Jalar Di Entisol Ngrangkah Pawon, Kediri. Jurnal Tanah Dan Sumberdaya Lahan, 2(2), 237–244.

Akıncı, H., Özalp, A. Y., & Turgut, B. (2013). Agricultural land use suitability analysis using GIS and AHP technique. Computers and Electronics in Agriculture, 97, 71–82.

Al-Mashreki, M. H., Akhir, J. B. M., Rahim, S. A., Lihan, K., & Haider, A. R. (2011). GIS-based sensitivity analysis of multi-criteria weights for land suitability evaluation of sorghum crop in the Ibb Governorate Republic of Yemen. Journal of Basic and Applied Scientific Research, 1(9), 1102–1111.

Bachri, S., Stötter, J., Monreal, M., & Sartohadi, J. (2015). The calamity of eruptions, or an eruption of benefits? Mt. Bromo human–volcano system a case study of an open-risk perception. Natural Hazards and Earth System Science, 15(2), 277–290.

Blake, D., & GNS Science (N.Z.). (2015). The 2014 eruption of Kelud Volcano, Indonesia: impacts on infrastructure, utilities, agriculture and health.

Ceballos-Silva, A., & López-Blanco, J. (2003). Delineation of suitable areas for crops using a Multi-Criteria Evaluation approach and land use/cover mapping: a case study in Central Mexico. Agricultural Systems, 77(2), 117–136.

Collins, M. G., Steiner, F. R., & Rushman, M. J. (2001). Land-Use Suitability Analysis in the United States: Historical Development and Promising Technological Achievements. Environmental Management, 28(5), 611–621.

Dahlgren, R. A., Saigusa, M., & Ugolini, F. C. (2004). The Nature, Properties and Management of Volcanic Soils. In Advances in Agronomy (Vol. 82, pp. 113–182). Elsevier.

Ebrahim, E., & Mohamed, A. (2017). A GIS based land suitability analysis for sustainable agricultural planning in Gelda catchment, Northwest Highlands of Ethiopia. Journal of Geography and Regional Planning, 10(5), 77–91.

Eswaran, H., Van Den Berg, E., & Reich, P. (1993). Organic carbon in soils of the world. Soil Science Society of America Journal, 57(1), 192–194.

FAO. (1984). Land evaluation. Part III: Crop environmental requirements; Technical report 5. Retrieved July 18, 2017, from http://www.fao.org/docrep/018/t0412e/t0412e.pdf

FAO. (1986). Ethiopian Highlands Reclamation Study: Ethiopia. Retrieved July 18, 2017, from http://www.fao.org/docrep/field/009/ar863e/ar863e.pdf

FAO. (2007). Land Evaluation: towards a Revised Framework. Retrieved July 18, 2017, from http://www.fao.org/3/a-a1080e.pdf

Feizizadeh, B., & Blaschke, T. (2013). Land suitability analysis for Tabriz County, Iran: a multi-criteria evaluation approach using GIS. Journal of Environmental Planning and Management, 56(1), 1–23.

Himayah, S., Hartono, & Danoedoro, P. 2017. Pemanfaatan Citra Landsat 8 Multitemporal dan Model Forest Canopy Density (FCD) untuk Analisis Perubahan Kerapatan Kanopi Hutan di Kawasan Gunung Kelud Jawa Timur. Majalah Geografi Indonesia, 31(1), 65 - 72.

Kalogirou, S. (2002). Expert systems and GIS: an application of land suitability evaluation. Computers, Environment and Urban Systems, 26(2), 89–112.

Lebon, S. L. (2009). Volcanic activity and environment. Impacts on agriculture and use of geological data to improve recovery processes. Retrieved from http://skemman.is/stream/get/1946/3303/10384/1/Sylviane_Lebon_fixed.pdfJun

Malczewski, J. (1999). GIS and multicriteria decision analysis. John Wiley & Sons. Retrieved from https://books.google.com/books?hl=id&lr=&id=2Zd54x4_2Z8C&oi=fnd&pg=PR1&dq=spatial+multi+criteria+malczewski&ots=FI4nJOQK3W&sig=lwYJ6L8Be8vGJ_x_rBK6jireDOY

Malczewski, J. (2004). GIS-based land-use suitability analysis: a critical overview. Progress in Planning, 62(1), 3–65. https://doi.org/10.1016/j.progress.2003.09.002

Meng, Y., Malczewski, J., & Boroushaki, S. (2011). A GIS-Based Multicriteria Decision Analysis Approach for Mapping Accessibility Patterns of Housing Development Sites: A Case Study in Canmore, Alberta. Journal of Geographic Information System, 03(01), 50–61. https://doi.org/10.4236/jgis.2011.31004

Prakash, T. N. (2003). Land suitability analysis for agricultural crops: a fuzzy multicriteria decision making approach. International Institute for Geo-Information Science and Earth Observation, Enschede, The Netherlands. Retrieved from http://www.itc.nl/library/Papers_2003/msc/gfm/prakash.pdf.

Purnamasari, A.N.C., Sartohadi, J. & Wahyudi. (2015). Perhitungan Volume dan Karakterisasi Material Endapan Erupsi Gunungapi Kelud Tahun 2014 di Sungai Bladak Bagian Hulu dengan Metode Geofisika. Majalah Geografi Indonesia, 29(2), 111 - 116.

Reshmidevi, T. V., Eldho, T. I., & Jana, R. (2009). A GIS-integrated fuzzy rule-based inference system for land suitability evaluation in agricultural watersheds. Agricultural Systems, 101(1), 101–109.

Saaty, T. L. (2004). Decision making — the Analytic Hierarchy and Network Processes (AHP/ANP). Journal of Systems Science and Systems Engineering, 13(1), 1–35.

Shoji, S., & Takahashi, T. (2002). Environmental and agricultural significance of volcanic ash soils. GLOBAL ENVIRONMENTAL RESEARCH-ENGLISH EDITION-, 6(2), 113–135.

Thapa, R. B., & Murayama, Y. (2008). Land evaluation for peri-urban agriculture using analytical hierarchical process and geographic information system techniques: A case study of Hanoi. Land Use Policy, 25(2), 225–239.

Wardhana, G. M. K., Maritimo, F., Maulana, E., & Ammarullah, A. (2014). Pemetaan-Daerah-Rawan-Jatuhan-Material-Piroklastik-Kasus-Erupsi-Gunungapi-Kelud-2014.pdf. Retrieved July 17, 2017, from https://www.researchgate.net/profile/Edwin_Maulana2/publication/303967643_Pemetaan_Daerah_Rawan_Jatuhan_Material_Piroklastik_Kasus_Erupsi_Gunungapi_Kelud_2014/links/5760b55308ae244d0370d399/Pemetaan-Daerah-Rawan-Jatuhan-Material-Piroklastik-Kasus-Erupsi-Gunungapi-Kelud-2014.pdf



DOI: https://doi.org/10.22146/mgi.27738

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