Potential Land Suitability For Spatial Planning of Wheat Commodity (Triticum Aestivum) In Tanah Datar Regency

Eggy Arya Giofandi, Anissa Zuhrita, Assyaroh Meidini Putriana, Dhanu Sekarjati, Fitrah Andika Riyadhno, Ade Mashuri, Opi Sepriani, Muhammad Rifqi, Triyatno, Ahyuni, Cipta Estri Sekarrin

Abstract

One of hindrances faced by Indonesia agriculture sector is domestic agriculture production that does not cover the market demand such as wheat commodity. The aim of this research is to calculate the spatial planning for wheat commodity in Tanah Datar Regency by using matching calculation with Fuzzy set method to find out the land physical ability. The method used in this research using fuzzy set equations and Boolean approach. The research results obtain land suitability 111.132 ha for suitable category, 20.239 ha for quite suitable, and 137 m2 for unsuitable category. Then after the land suitability is obtained, development instruction is given for the agriculture planning of wheat commodity with Boolean approach. The result of development instruction reaches 42.873 ha spread in all over sub districts with the highest development potency is at North Lintau Buo Sub District 9.657 ha and Lintau Buo Sub District 7.348 ha. This development potency can be used as the initial reference for planting wheat commodity (Triticum aestivum) in Tanah Datar Regency.

Full text article

Generated from XML file

References

Aji, F., & Ahyuni. (2019). Evaluasi Kesesuaian Lahan Tanaman Kopi Robusta Menggunakan Fuzzy Logic di Kabupaten Tanah Datar. Jurnal Buana, 3(6), 1407–1416.
Baja, S., Chapman, D. M., & Dragovich, D. (2002a). A conceptual model for defining and assessing land management units using a fuzzy modeling approach in GIS environment. Environmental Management, 29(5), 647–661.
Baja, S., Chapman, D. M., & Dragovich, D. (2002b). Using GIS-based continuous methods for assessing agricultural land-use potential in sloping areas. Environment and Planning B: Planning and Design, 29, 3–20.
Baja, S., Chapman, D. M., & Dragovich, D. (2006). Fuzzy modeling of environmental suitability index for rural land use systems: An assessment using a GIS. Environmental Management, 29, 647–661.
Burrough, P. A. (1989). Fuzzy Mathematical Methods for Soil Survey and Land Evaluation. Journal of Soil Science, 40(3), 477–492.
Burrough, Peter A, & McDonnell, R. A. (1998). Principles of Geographical Information Systems. Oxford University Press.
By, R. A. de, Knippers, R. A., Sun, Y., Ellis, M. C., Kraak, M.-J., Weir, M. J. C., Georgiadou, Y., Radwan, M. M., Westen, C. J. Van, Kainz, W., & Sides, E. J. (2001). Principles of Geographic Information Systems. In Institute for Aerospace Survey and Earth Sciences Educational Textbook series 1. The International Institute for Aerospace Survey and Earth Sciences (ITC).
Clarke, D., Hess, T. M., Haro-Monteagudo, D., Semenov, M. A., & Knox, J. W. (2021). Assessing future drought risks and wheat yield losses in England. Agricultural and Forest Meteorology, 297(108248), 1–12.
Elaalem, M. (2013). A Comparison of Parametric and Fuzzy Multi-Criteria Methods for Evaluating Land Suitability for Olive in Jeffara Plain of Libya. APCBEE Procedia, 5, 405–409.
Erenstein, O., Chamberlin, J., & Sonder, K. (2021). Estimating the Global Number and Distribution of Maize and Wheat Farms. Global Food Security, 30(100558), 1–9.
Hapsari, B., Awaluddin, M., & Yuwono, B. D. (2014). Evaluasi Kesesuaian Lahan Tanaman Pertanian Berbasis Sistem Informasi Geografis dengan Menggunakan Metode Fuzzy Set. Jurnal Geodesi Undip, 3(1), 241–250.
Harding, T., Herzberg, J., & Kuralbayeva, K. (2021). Commodity prices and robust environmental regulation: Evidence from deforestation in Brazil. Journal of Environmental Economics and Management, 108, 102452.
Hardjowigeno, S., & Widiatmaka. (2007). Evaluasi Kesesuaian Lahan Dan Perencanaan Tataguna Lahan (Series 1). Gadjah Mada Univerisity Press.
Hochman, Z., Gobbett, D., Holzworth, D., McClelland, T., van Rees, H., Marinoni, O., Garcia, J. N., & Horan, H. (2013). Reprint of "Quantifying Yield Gaps in Rainfed Cropping Systems: A Case Study of Wheat in Australia.” Field Crops Research, 143, 65–75.
Kath, J., Mushtaq, S., Henry, R., Adeyinka, A. A., Stone, R., Marcussen, T., & Kouadio, L. (2019). Spatial Variability in Regional Scale Drought Index Insurance Viability Across Australia's wheat Growing Regions. Climate Risk Management, 24, 13–29.
Konduri, V. S., Kumar, J., Hargrove, W. W., Hoffman, F. M., & Ganguly, A. R. (2020). Mapping crops within the growing season across the United States. Remote Sensing of Environment, 251(August), 112048.
Mann, M. L., & Warner, J. M. (2017). Ethiopian Wheat Yield and Yield Gap Estimation: A Spatially Explicit Small area Integrated Data Approach. Field Crops Research, 201, 60–74.
Mottaleb, K. A., Singh, P. K., He, X., Hossain, A., Kruseman, G., & Erenstein, O. (2019). Alternative use of wheat land to implement a potential wheat holiday as wheat blast control: In search of feasible crops in Bangladesh. Land Use Policy, 82(August 2018), 1–12.
Pradeksa, Y., Darwanto, D. H., & Masyhuri, M. (2016). Faktor-Faktor Yang Mempengaruhi Impor Gandum Indonesia. Agro Ekonomi, 24(1), 44–53.
Praptana, R. H., & Hermanto. (2016). Gandum: Peluang Pengembangan Di Indonesia. Indonesian Agency for Agricultural Research and Development Press.
Ritung, S., Nugroho, K., Mulyani, A., & Suryani, E. (2011). Petunjuk Teknis Evaluasi Lahan untuk Komoditas Pertanian. In Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian (Series 2). Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian.
Sembiring, H., Hasnul, & Diana. (2016). Kebijakan Pengembangan Gandum di Indonesia. In Gandum: Peluang Pengembangan Di Indonesia. Indonesian Agency for Agricultural Research and Development Press.
Silahturrohmah, S., Roviq, M., & Barunawati, N. (2019). Meningkatkan Hasil Tanaman Gandum (Triticum aestivum L.) Varietas Dewata Melalui Pemberian Bahan Organik dan ZnSO4. Plantropica: Journal of Agricultural Science, 4(2), 177–183.
Simmons, A. T., Cowie, A. L., & Brock, P. M. (2020). Climate Change Mitigation for Australian Wheat Production. Science of the Total Environment, 725(138260), 1–9.
Thomas, A. (2013). Pengaruh Frekuensi Pemberian Air Terhadap Pertumbuhan Bibit Jabon Merah (Anthocephalus Macrophyllus (Roxb.) Havil). Cocos, 2(2).
Wicaksono, F. Y., Maxiselly, Y., Mulyani, O., & Janitra, M. I. (2016). Pertumbuhan dan hasil gandum (Triticum aestivum L.) yang Diberi perlakuan pupuk silikon dengan dosis yang berbeda di dataran medium Jatinangor. Kultivasi, 15(3), 179–186.
Widowati, S., Khumaida, N., Ardie, S. W., & Trikoesoemaningtyas. (2016). Karakterisasi Morfologi dan Sifat Kuantitatif Gandum ( Triticum aestivum L .) di Dataran Menengah Quantitative and Morphological Characterization of Wheat ( Triticum aestivum L .) in Middle Land. Jurnal Agron. Indonesia, 44(2), 162–169.

Authors

Eggy Arya Giofandi
aryaeggy15@gmail.com (Primary Contact)
Anissa Zuhrita
Assyaroh Meidini Putriana
Dhanu Sekarjati
Fitrah Andika Riyadhno
Ade Mashuri
Opi Sepriani
Muhammad Rifqi
Triyatno
Ahyuni
Cipta Estri Sekarrin
Arya Giofandi, E., Anissa Zuhrita, Assyaroh Meidini Putriana, Dhanu Sekarjati, Fitrah Andika Riyadhno, Ade Mashuri, Opi Sepriani, Muhammad Rifqi, Triyatno, Ahyuni, & Cipta Estri Sekarrin. (2022). Potential Land Suitability For Spatial Planning of Wheat Commodity (Triticum Aestivum) In Tanah Datar Regency. Jurnal Geografi, Edukasi Dan Lingkungan (JGEL), 6(2), 101–112. https://doi.org/10.22236/jgel.v6i2.8120
Copyright and license info is not available

Article Details