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GIScience & Remote Sensing Volume 57, 2020 - Issue 3
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Research Article

Analysis of differences in vegetation phenology cycle of abandoned farmland, using harmonic analysis of time-series vegetation indices data: the case of Gwangyang City, South Korea

Sunggyu Leea Department of Landscape Architecture and Rural Systems Engineering, College of Agriculture and Life Sciences, Seoul National University, Seoul, Republic of KoreaView further author information
,
Soyoun Kimb Research Institute of Agriculture and Life Sciences, Seoul National University, Seoul, Republic of KoreaView further author information
&
Heeyeun Yoona Department of Landscape Architecture and Rural Systems Engineering, College of Agriculture and Life Sciences, Seoul National University, Seoul, Republic of Korea;b Research Institute of Agriculture and Life Sciences, Seoul National University, Seoul, Republic of KoreaCorrespondence[email protected]
View further author information
Pages 338-351 | Received 15 May 2019, Accepted 19 Nov 2019, Published online: 09 Dec 2019

References

  • Administration, Rural Development. 2019. “Crop Calendar in South Korea.” Rural Development Administration. Accessed 21 February. http://www.nongsaro.go.kr/portal/ps/psb/psbl/workScheduleLst.ps?menuId=PS00087
  • Alcantara, C., T. Kuemmerle, A. V. Prishchepov, and V. C. Radeloff. 2012. “Mapping Abandoned Agriculture with Multi-temporal MODIS Satellite Data.” Remote Sensing of Environment 124: 334–347.
  • Alexandratos, N., and J. Bruinsma. 2012. “World Agriculture Towards 2030/2050: The 2012 Revision.” ESA Working paper FAO. Rome.
  • Azzali, S., and M. Menenti. 2000. “Mapping Vegetation-soil-climate Complexes in Southern Africa Using Temporal Fourier Analysis of NOAA-AVHRR NDVI Data.” International Journal of Remote Sensing 21 (5): 973–996. doi:10.1080/014311600210380.
  • Bannari, A., D. Morin, F. Bonn, and A. R. Huete. 1995. “A Review of Vegetation Indices.” Remote Sensing Reviews 13 (1–2): 95–120. doi:10.1080/02757259509532298.
  • Baumann, M., T. Kuemmerle, M. Elbakidze, M. Ozdogan, V. C. Radeloff, N. S. Keuler, A. V. Prishchepov, I. Kruhlov, and P. Hostert. 2011. “Patterns and Drivers of Post-socialist Farmland Abandonment in Western Ukraine.” Land Use Policy 28 (3): 552–562.
  • Benayas, J. M., A. Martins, J. M. Nicolau, and J. J. Schulz. 2007. “Abandonment of Agricultural Land: An Overview of Drivers and Consequences.” CAB Reviews: Perspectives in Agriculture, Veterinary Science, Nutrition Natural Resources 2 (57): 1–14.
  • Benjamin, K., G. Domon, and A. Bouchard. 2005. “Vegetation Composition and Succession of Abandoned Farmland: Effects of Ecological, Historical and Spatial Factors.” Landscape Ecology 20 (6): 627–647. doi:10.1007/s10980-005-0068-2.
  • Canisius, F., H. Turral, and D. Molden. 2007. “Fourier Analysis of Historical NOAA Time Series Data to Estimate Bimodal Agriculture.” International Journal of Remote Sensing 28 (24): 5503–5522. doi:10.1080/01431160601086043.
  • Chae, G., H. Kim, Y. Lee, G. Kim, S. Kook, and H. Mun. 2014. “Dispute and Guideline for Field Agriculture.” Korea Rural Economic Institute Agriculture Policy Focus 1–20.
  • Choi, H., D. Ji, S. Choi, and S. Kim. 2005. “Institutional Improvements for the Utilization and Management of Idle Agricultural Land.” Korea Research Institute for Human Settlements.
  • City, Gwangyang. 2019. “Natural Environment of Gwangyang.” Accessed 21 February. http://www.gwangyang.go.kr/index.gwangyang?menuCd=DOM_000000106001004000
  • Conrad, C., R. R. Colditz, S. Dech, D. Klein, and P. L. G. Vlek. 2011. “Temporal Segmentation of MODIS Time Series for Improving Crop Classification in Central Asian Irrigation Systems.” International Journal of Remote Sensing 32 (23): 8763–8778. doi:10.1080/01431161.2010.550647.
  • Corporation, Korea Rural Community. 2013. “Study on the Plan to Make High-income Agricultural Infrastructure Utilizing Idle Farmland: Centering on Business Model of utilizing idle farmland.” In Korea Rural Community Corporation, edited by J. Park. Korea Rural Community Corporation.
  • Delbart, N., L. Kergoat, T. Le Toan, J. Lhermitte, and G. Picard. 2005. “Determination of Phenological Dates in Boreal Regions Using Normalized Difference Water Index.” Remote Sensing of Environment 97 (1): 26–38. doi:10.1016/j.rse.2005.03.011.
  • Devendra, C., and D. Thomas. 2002. “Smallholder Farming Systems in Asia.” Agricultural Systems 71 (1–2): 17–25. doi:10.1016/S0308-521X(01)00033-6.
  • Estel, S., T. Kuemmerle, C. Alcántara, C. Levers, A. Prishchepov, and P. Hostert. 2015. “Mapping Farmland Abandonment and Recultivation across Europe Using MODIS NDVI Time Series.” Remote Sensing of Environment 163: 312–325. doi:10.1016/j.rse.2015.03.028.
  • Eurostat. 2015. LUCAS 2015 (Land Use/Cover Area Frame Survey). In, edited by Eurostat. Eurostat.
  • Gao, B. C. 1996. “NDWI—A Normalized Difference Water Index for Remote Sensing of Vegetation Liquid water from Space.” Remote Sensing of Environment 58 (3): 257–266. doi:10.1016/S0034-4257(96)00067-3.
  • García-Ruiz, J. M., and N. Lana-Renault. 2011. “Hydrological and Erosive Consequences of Farmland Abandonment in Europe, with Special Reference to the Mediterranean region–A Review.” Agriculture, Ecosystems Environment 140 (3–4): 317–338. doi:10.1016/j.agee.2011.01.003.
  • Gellrich, M., and N. E. Zimmermann. 2007. “Investigating the Regional-scale Pattern of Agricultural Land Abandonment in the Swiss Mountains: A Spatial Statistical Modelling Approach.” Landscape Urban Planning 79 (1): 65–76. doi:10.1016/j.landurbplan.2006.03.004.
  • Gwangyang, Agricultural Technology Center in. 2019. “Cultivation Status in Gwangyang.” Accessed 21 February. http://www.gwangyang.go.kr/jares/index.gwangyang?menuCd=DOM_000000309002000000
  • Hird, J. N., and J. McDermid. 2009. “Noise Reduction of NDVI Time Series: An Empirical Comparison of Selected Techniques.” Remote Sensing of Environment 113 (1): 248–258. doi:10.1016/j.rse.2008.09.003.
  • Ibrahim, S., H. Balzter, K. Tansey, N. Tsutsumida, and R. Mathieu. 2018. “Estimating Fractional Cover of Plant Functional Types in African Savannah from Harmonic Analysis of MODIS Time-series Data.” International Journal of Remote Sensing 39 (9): 2718–2745. doi:10.1080/01431161.2018.1430914.
  • Immerzeel, W. W., R. A. Quiroz, and S. M. De Jong. 2005. “Understanding Precipitation Patterns and Land Use Interaction in Tibet Using Harmonic Analysis of SPOT VGT‐S10 NDVI Time Series.” International Journal of Remote Sensing 26 (11): 2281–2296. doi:10.1080/01431160512331326611.
  • Jakubauskas, M. E., D. R. Legates, and J. H. Kastens. 2001. “Harmonic Analysis of Time-series AVHRR NDVI Data.” Photogrammetric Engineering Remote Sensing 67 (4): 461–470.
  • Jakubauskas, M. E., D. R. Legates, and J. H. Kastens. 2002. “Crop Identification Using Harmonic Analysis of Time-series AVHRR NDVI Data.” Computers Electronics in Agriculture 37 (1–3): 127–139. doi:10.1016/S0168-1699(02)00116-3.
  • Jing’an, S., S. Zhang, and X. Li. 2015. “Farmland Marginalization in the Mountainous Areas: Characteristics, Influencing Factors and Policy Implications.” Journal of Geographical Sciences 25 (6): 701–722. doi:10.1007/s11442-015-1197-4.
  • Keenleyside, C., G. Tucker, and M. Andrew. 2010. Farmland Abandonment in the EU: An Assessment of Trends and Prospects. Institute for European Environmental Policy, London.
  • Khanal, N. R., and T. Watanabe. 2006. “Abandonment of Agricultural Land and Its Consequences.” Mountain Research and Development 26 (1): 32–41. doi:10.1659/0276-4741(2006)026[0032:AOALAI]2.0.CO;2.
  • Kline, K. L., N. Singh, and V. H. Dale. 2013. “Cultivated Hay and Fallow/idle Cropland Confound Analysis of Grassland Conversion in the Western Corn Belt.” Proceedings of the National Academy of Sciences 110 (31): E2863–E. doi:10.1073/pnas.1306646110.
  • Korea, S. 2016. Statistics of Agricultural Area in 2015. Statistics Korea. South Korea.
  • Kuemmerle, T., P. Hostert, V. C. Radeloff, S. van der Linden, K. Perzanowski, and I. Kruhlov. 2008. “Cross-border Comparison of Post-socialist Farmland Abandonment in the Carpathians.” Ecosystems 11 (4): 614. doi:10.1007/s10021-008-9146-z.
  • Lasanta, T., J. Arnáez, N. Pascual, P. Ruiz-Flaño, M. P. Errea, and N. Lana-Renault. 2017. “Space–Time Process and Drivers of Land Abandonment in Europe.” Catena 149: 810–823. doi:10.1016/j.catena.2016.02.024.
  • Lesschen, J. P., L. H. Cammeraat, A. M. Kooijman, and B. van Wesemael. 2008. “Development of Spatial Heterogeneity in Vegetation and Soil Properties after Land Abandonment in a Semi-arid Ecosystem.” Journal of Arid Environments 72 (11): 2082–2092. doi:10.1016/j.jaridenv.2008.06.006.
  • Li, S., and L. Xiubin. 2017. “Global Understanding of Farmland Abandonment: A Review and Prospects.” Journal of Geographical Sciences 27 (9): 1123–1150. doi:10.1007/s11442-017-1426-0.
  • Melendez-Pastor, I., E. I. Hernández, J. Navarro-Pedreño, and I. Gomez. 2014. “Socioeconomic Factors Influencing Land Cover Changes in Rural Areas: The Case of the Sierra De Albarracín (Spain).” Applied Geography 52: 34–45. doi:10.1016/j.apgeog.2014.04.013.
  • Metcalfe, A. V., and P. S. P. Cowpertwait. 2009. Introductory Time Series with R. New York.
  • Meyfroidt, P., F. Schierhorn, A. V. Prishchepov, D. Müller, and T. Kuemmerle. 2016. “Drivers, Constraints and Trade-offs Associated with Recultivating Abandoned Cropland in Russia, Ukraine and Kazakhstan.” Global Environmental Change 37: 1–15. doi:10.1016/j.gloenvcha.2016.01.003.
  • Milenov, P., V. Vassilev, A. Vassileva, R. Radkov, V. Samoungi, Z. Dimitrov, and N. Vichev. 2014. “Monitoring of the Risk of Farmland Abandonment as an Efficient Tool to Assess the Environmental and Socio-economic Impact of the Common Agriculture Policy.” International Journal of Applied Earth Observation and Geoinformation 32: 218–227. doi:10.1016/j.jag.2014.03.013.
  • Mingwei, Z., Z. Qingbo, C. Zhongxin, L. Jia, Z. Yong, and C. Chongfa. 2008. “Crop Discrimination in Northern China with Double Cropping Systems Using Fourier Analysis of Time-series MODIS Data.” International Journal of Applied Earth Observation and Geoinformation 10 (4): 476–485. doi:10.1016/j.jag.2007.11.002.
  • Moody, A., and D. M. Johnson. 2001. “Land-surface Phenologies from AVHRR Using the Discrete Fourier Transform.” Remote Sensing of Environment 75 (3): 305–323. doi:10.1016/S0034-4257(00)00175-9.
  • Moreira, F., and D. Russo. 2007. “Modelling the Impact of Agricultural Abandonment and Wildfires on Vertebrate Diversity in Mediterranean Europe.” Landscape Ecology 22 (10): 1461–1476. doi:10.1007/s10980-007-9125-3.
  • Nishihara, M. 2012. “Real Option Valuation of Abandoned Farmland.” Review of Financial Economics 21 (4): 188–192. doi:10.1016/j.rfe.2012.07.002.
  • Orłowski, G. 2005. “Endangered and Declining Bird Species of Abandoned Farmland in South-western Poland.” Agriculture, Ecosystems Environment 111 (1–4): 231–236. doi:10.1016/j.agee.2005.06.012.
  • Park, M., N. Heo, M. Kang, and G. Lee. 2014. A Study on Agriculture Subsidy Policy in Korea. National Assembly Budget Office, South Korea.
  • Pastor-Guzman, J., J. Dash, and P. M. Atkinson. 2018. “Remote Sensing of Mangrove Forest Phenology and Its Environmental Drivers.” Remote Sensing of Environment 205: 71–84. doi:10.1016/j.rse.2017.11.009.
  • Plieninger, T., C. Hui, M. Gaertner, and L. Huntsinger. 2014. “The Impact of Land Abandonment on Species Richness and Abundance in the Mediterranean Basin: A Meta-analysis.” PloS One 9 (5): e98355. doi:10.1371/journal.pone.0098355.
  • Pointereau, P. 2008. Analysis of Farmland Abandonment and the Extent and Location of Agricultural Areas that are Actually Abandoned or are in Risk to Be Abandoned:. EUR-OP.
  • Prishchepov, A. V., V. C. Radeloff, M. Dubinin, and C. Alcantara. 2012. “The Effect of Landsat ETM/ETM+ Image Acquisition Dates on the Detection of Agricultural Land Abandonment in Eastern Europe.” Remote Sensing of Environment 126: 195–209. doi:10.1016/j.rse.2012.08.017.
  • Ramankutty, N., and J. A. Foley. 1999. “Estimating Historical Changes in Global Land Cover: Croplands from 1700 to 1992.” Global Biogeochemical Cycles 13 (4): 997–1027. doi:10.1029/1999GB900046.
  • Reitsma, K. D., D. E. Clay, S. A. Clay, B. H. Dunn, and C. Reese. 2016. “Does the US Cropland Data Layer Provide an Accurate Benchmark for Land-use Change Estimates?” Agronomy Journal 108 (1): 266–272. doi:10.2134/agronj2015.0288.
  • Roerink, G. J., M. Menenti, and W. Verhoef. 2000. “Reconstructing Cloudfree NDVI Composites Using Fourier Analysis of Time Series.” International Journal of Remote Sensing 21 (9): 1911–1917. doi:10.1080/014311600209814.
  • Ruskule, A., O. Nikodemus, R. Kasparinskis, S. Bell, and I. Urtane. 2013. “The Perception of Abandoned Farmland by Local People and Experts: Landscape Value and Perspectives on Future Land Use.” Landscape and Urban Planning 115: 49–61. doi:10.1016/j.landurbplan.2013.03.012.
  • Silveira, E. M. D. O., F. D. B. Espírito-Santo, F. W. Acerbi-Júnior, L. S. Galvão, K. D. Withey, G. A. Blackburn, J. M. de Mello, Y. E. Shimabukuro, T. Domingues, and J. R. S. Scolforo. 2019. “Reducing the Effects of Vegetation Phenology on Change Detection in Tropical Seasonal Biomes.” GIScience & Remote Sensing 56 (5): 699–717.
  • Smaliychuk, A., D. Müller, A. V. Prishchepov, C. Levers, I. Kruhlov, and T. Kuemmerle. 2016. “Recultivation of Abandoned Agricultural Lands in Ukraine: Patterns and Drivers.” Global Environmental Change 38: 70–81. doi:10.1016/j.gloenvcha.2016.02.009.
  • Smelansky, I. E. 2003. Biodiversity of Agricultural Lands in Russia. IUCN, The World Conservation Union.
  • Song, K., H. Kang, and S. Lee. 2000. “The Effect of Gwangyang-Iron-Industrial Complex on Regional Agriculture.” Rural Development Research in Chonnam National University 10 (1): 151–165.
  • Stoate, C., N. D. Boatman, R. J. Borralho, C. Rio Carvalho, G. R. De Snoo, and P. Eden. 2001. “Ecological Impacts of Arable Intensification in Europe.” Journal of Environmental Management 63 (4): 337–365. doi:10.1006/jema.2001.0473.
  • Vescovo, L., and D. Gianelle. 2008. “Using the MIR Bands in Vegetation Indices for the Estimation of Grassland Biophysical Parameters from Satellite Remote Sensing in the Alps Region of Trentino (Italy).” Advances in Space Research 41 (11): 1764–1772. doi:10.1016/j.asr.2007.07.043.
  • Wagenseil, H., and C. Samimi. 2006. “Assessing Spatio‐temporal Variations in Plant Phenology Using Fourier Analysis on NDVI Time Series: Results from a Dry Savannah Environment in Namibia.” International Journal of Remote Sensing 27 (16): 3455–3471. doi:10.1080/01431160600639743.
  • Xiao, X., S. Boles, J. Liu, D. Zhuang, and M. Liu. 2002. “Characterization of Forest Types in Northeastern China, Using Multi-temporal SPOT-4 VEGETATION Sensor Data.” Remote Sensing of Environment 82 (2–3): 335–348. doi:10.1016/S0034-4257(02)00051-2.
  • Xu, Y., and Y. Shen. 2013. “Reconstruction of the Land Surface Temperature Time Series Using Harmonic Analysis.” Computers & Geosciences 61: 126–132. doi:10.1016/j.cageo.2013.08.009.
  • Xue, J., and B. Su. 2017. “Significant Remote Sensing Vegetation Indices: A Review of Developments and Applications.” Journal of Sensors 2017.
  • Yin, H., A. V. Prishchepov, T. Kuemmerle, B. Bleyhl, J. Buchner, and V. C. Radeloff. 2018. “Mapping Agricultural Land Abandonment from Spatial and Temporal Segmentation of Landsat Time Series.” Remote Sensing of Environment 210: 12–24. doi:10.1016/j.rse.2018.02.050.
  • Yusoff, N., and F. Muharam. 2015. “The Use of Multi-temporal Landsat Imageries in Detecting Seasonal Crop Abandonment.” Remote Sensing 7 (9): 11974–11991. doi:10.3390/rs70911974.
  • Zhang, H., Q. Li, J. Liu, J. Shang, X. Du, L. Zhao, N. Wang, and T. Dong. 2017. “Crop Classification and Acreage Estimation in North Korea Using Phenology Features.” GIScience & Remote Sensing 54 (3): 381–406.

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