Predicting and mapping land cover/land use changes in Erbil /Iraq using CA-Markov synergy model

Akbar TA, Hassan QK, Ishaq S, Batool M, Butt HJ, Jabbar H (2019) Investigative spatial distribution and modelling of existing and future urban land changes and its impact on urbanization and economy. Remote Sens 11:105

Alkaradaghi K, Ali SS, Al-Ansari N, Laue J (2018) Evaluation of land use & land cover change using multi-temporal landsat imagery: a case study Sulaimaniyah governorate, Irag. J Geogr Inf Syst 10:247–260

Anderson JR (1976) A land use and land cover classification system for use with remote sensor data vol 964. US Government Printing Office

Berihun ML, Tsunekawa A, Haregeweyn N, Meshesha DT, Adgo E, Tsubo M, Masunaga T, Fenta AA, Sultan D, Yibeltal M (2019) Exploring land use/land cover changes, drivers and their implications in contrasting agro-ecological environments of Ethiopia. Land Use Policy 87:104052

Biswas M, Banerji S, Mitra D (2019) Land-use–land-cover change detection and application of Markov model: a case study of eastern part of Kolkata environment. Dev Sustain:1–20

Butt A, Shabbir R, Ahmad SS, Aziz N (2015) Land use change mapping and analysis using remote sensing and GIS: a case study of Simly watershed, Islamabad, Pakistan. Egypt J Remote Sens Space Sci 18:251–259

Christensen M, Jokar Arsanjani J (2020) Stimulating implementation of sustainable development goals and conservation action: predicting future land use/cover change in Virunga National Park, Congo. Sustainability 12:1570

Congalton RG, Green K (2019) Assessing the accuracy of remotely sensed data: principles and practices. CRC Press

Dewan AM, Yamaguchi Y (2009) Land use and land cover change in greater Dhaka, Bangladesh: Using remote sensing to promote sustainable urbanization. Appl Geogr 29:390–401

Eastman JR (2003) IDRISI Kilimanjaro: Guide to GIS and image processing. Clark University, Worcester

Eastman J (2012) IDRISI Selva: guide to GIS and image processing Clark Labratories. Clark University, Worcester

Eric K, Aldrik B (2007) Modelling land-use change: progress and applications. Springer, The Netherlands

Faqe Ibrahim G (2017) Urban land use land cover changes and their effect on land surface temperature: case study using Dohuk City in the Kurdistan Region of Iraq. Climate 5:13

Foody GM (2002) Status of land cover classification accuracy assessment. Remote Sens Environ 80:185–201

Fu X, Wang X, Yang YJ (2018) Deriving suitability factors for CA-Markov land use simulation model based on local historical data. J Environ Manag 206:10–19

Gibson GR, Campbell JB, Zipper CE (2015) Sociopolitical influences on cropland area change in Iraq, 2001–2012. Appl Geogr 62:339–346

Gómez C, White JC, Wulder MA (2016) Optical remotely sensed time series data for land cover classification: a review. ISPRS J Photogramm Remote Sens 116:55–72

Guan D, Li H, Inohae T, Su W, Nagaie T, Hokao K (2011) Modeling urban land use change by the integration of cellular automaton and Markov model. Ecol Model 222:3761–3772

Guest E (1966) Flora of Iraq. Volume 1, introduction to the flora: an account of the geology, soils, climate and ecology of Iraq with gazetteer, glossary and bibliography. Ministry of Agriculture

Hadeel A, Jabbar MT, Chen X (2010) Environmental change monitoring in the arid and semi-arid regions: a case study Al-Basrah Province, Iraq. Environ Monit Assess 167:371–385

Hadi SJ, Shafri HZ, Mahir MD (2014) Modelling LULC for the period 2010-2030 using GIS and remote sensing: a case study of Tikrit, Iraq. In: IOP conference series: earth and environmental science, 2014, vol 1. IOP Publishing, p 012053

He D, Zhou J, Gao W, Guo H, Yu S, Liu Y (2014) An integrated CA-markov model for dynamic simulation of land use change in Lake Dianchi watershed Beijing. Daxue Xuebao (Ziran Kexue Ban)/Acta Scientiarum Naturalium Universitatis Pekinensis 50:1095-1105

He C, Liu Z, Gou S, Zhang Q, Zhang J, Xu L (2019) Detecting global urban expansion over the last three decades using a fully convolutional network. Environ Res Lett 14:034008

Hishe S, Bewket W, Nyssen J, Lyimo J (2020) Analysing past land use land cover change and CA-Markov-based future modelling in the middle Suluh Valley, Northern Ethiopia. Geocarto Int 35:225–255

Hooke RL, Martín-Duque JF, Pedraza J (2012) Land transformation by humans: a review. GSA Today 22:4–10

Houet T, Hubert-Moy L (2006) Modelling and projecting land-use and land-cover changes with a cellular automaton in considering landscape trajectories: an improvement for simulation of plausible future states. EARSel eProceedings 5(1):63–76

Hyandye C, Martz LW (2017) A Markovian and cellular automata land-use change predictive model of the Usangu Catchment. Int J Remote Sens 38:64–81

Irwin EG, Jayaprakash C, Munroe DK (2009) Towards a comprehensive framework for modeling urban spatial dynamics. Landsc Ecol 24:1223–1236

Jensen JR (1996) Introductory digital image processing: a remote sensing perspective, vol Ed. 2. Prentice-Hall Inc.

Kamusoko C, Aniya M, Adi B, Manjoro M (2009) Rural sustainability under threat in Zimbabwe–simulation of future land use/cover changes in the Bindura district based on the Markov-cellular automata model. Appl Geogr 29:435–447

Karki S, Thandar AM, Uddin K, Tun S, Aye WM, Aryal K, Kandel P, Chettri N (2018) Impact of land use land cover change on ecosystem services: a comparative analysis on observed data and people’s perception in Inle Lake, Myanmar. Environ Syst Res 7:25

Khwarahm NR (2020) Mapping current and potential future distributions of the oak tree (Quercus aegilops) in the Kurdistan Region. Iraq Ecological Processes 9:1–16

Lambin EF, Meyfroidt P (2011) Global land use change, economic globalization, and the looming land scarcity. Proc Natl Acad Sci 108:3465–3472

Landis JR, Koch GG (1977) The measurement of observer agreement for categorical data. Biometrics 33:159–174

Li W, Dong R, Fu H, Wang J, Yu L, Gong P (2020) Integrating Google earth imagery with Landsat data to improve 30-m resolution land cover mapping. Remote Sens Environ 237:111563

Liang S, Fang H, Morisette JT, Chen M, Shuey CJ, Walthall CL, Daughtry CS (2002) Atmospheric correction of Landsat ETM+ land surface imagery. II Validation and applications. IEEE Trans Geosci Remote Sens 40:2736–2746

Liping C, Yujun S, Saeed S (2018) Monitoring and predicting land use and land cover changes using remote sensing and GIS techniques—a case study of a hilly area, Jiangle, China. PLoS ONE 13

López E, Bocco G, Mendoza M, Duhau E (2001) Predicting land-cover and land-use change in the urban fringe: a case in Morelia city, Mexico. Landsc Urban Plan 55:271–285

Mohammed EA, Hani ZY, Kadhim GQ (2018) Assessing land cover/use changes in Karbala city (Iraq) using GIS techniques and remote sensing data. In: Journal of Physics: Conference Series, 2018. vol 1. IOP Publishing, p 012047

Muller MR, Middleton J (1994) A Markov model of land-use change dynamics in the Niagara region, Ontario, Canada. Landsc Ecol 9:151–157

Munthali M, Mustak S, Adeola A, Botai J, Singh S, Davis N (2020) Modelling land use and land cover dynamics of Dedza district of Malawi using hybrid Cellular Automata and Markov model. RSASE 17:100276

Naboureh A, Moghaddam MHR, Feizizadeh B, Blaschke T (2017) An integrated object-based image analysis and CA-Markov model approach for modeling land use/land cover trends in the Sarab plain. Arab J Geosci 10:259

Omar NQ, Ahamad MSS, Hussin W, Samat N (2014) Modelling land-use and land-cover changes using Markov-CA, and multiple decision making in Kirkuk city. IJSRES 2:29–42

Pandey BK, Khare D (2017) Analyzing and modeling of a large river basin dynamics applying integrated cellular automata and Markov model. Environ Earth Sci 76:779

Parsa VA, Yavari A, Nejadi A (2016) Spatio-temporal analysis of land use/land cover pattern changes in Arasbaran Biosphere Reserve: Iran. Modeling Earth Syst Environ 2:1–13

Pflugmacher D, Rabe A, Peters M, Hostert P (2019) Mapping pan-European land cover using Landsat spectral-temporal metrics and the European LUCAS survey. Remote Sens Environ 221:583–595

Pontius RG (2000) Quantification error versus location error in comparison of categorical maps. Photogramm Eng Remote Sens 66:1011–1016

Pontius RG Jr (2002) Statistical methods to partition effects of quantity and location during comparison of categorical maps at multiple resolutions. Photogramm Eng Remote Sens 68:1041–1050

Pontius RG Jr, Cheuk ML (2006) A generalized cross-tabulation matrix to compare soft-classified maps at multiple resolutions. Int J Geogr Inf Sci 20:1–30

Pontius RG Jr, Millones M (2011) Death to Kappa: birth of quantity disagreement and allocation disagreement for accuracy assessment. Int J Remote Sens 32:4407–4429

Qader SH, Dash J, Atkinson PM, Rodriguez-Galiano V (2016) Classification of vegetation type in Iraq using satellite-based phenological parameters. IEEE J Sel Top Appl Earth Obs Remote Sens 9:414–424

Regmi R, Saha S, Subedi D (2017) Geospatial analysis of land use land cover change modeling in Phewa lake watershed of Nepal by Using GEOMOD Model Himalayan Physics 65–72

Richards JA, Richards J (1999) Remote sensing digital image analysis vol 3. Springer

Rimal B, Zhang L, Keshtkar H, Wang N, Lin Y (2017) Monitoring and modeling of spatiotemporal urban expansion and land-use/land-cover change using integrated Markov chain cellular automata model. ISPRS Int J Geo Inf 6:288

Rosenfield GH (1986) Analysis of thematic map classification error matrices. Photogramm Eng Remote Sens 52:681–686

Sang L, Zhang C, Yang J, Zhu D, Yun W (2011) Simulation of land use spatial pattern of towns and villages based on CA–Markov model. Math Comput Model 54:938–943

Seto KC, Güneralp B, Hutyra LR (2012) Global forecasts of urban expansion to 2030 and direct impacts on biodiversity and carbon pools. Proc Natl Acad Sci 109:16083–16088

Singh SK, Mustak S, Srivastava PK, Szabó S, Islam T (2015) Predicting spatial and decadal LULC changes through cellular automata Markov chain models using earth observation datasets and geo-information. Environ Process 2:61–78

Singh SK, Laari PB, Mustak S, Srivastava PK, Szabó S (2018) Modelling of land use land cover change using earth observation datasets of tons River Basin, Madhya Pradesh, India. Geocarto Int 33:1202–1222

Stehman SV, Czaplewski RL (1998) Design and analysis for thematic map accuracy assessment: fundamental principles. Remote Sens Environ 64:331–344

Takada T, Miyamoto A, Hasegawa SF (2010) Derivation of a yearly transition probability matrix for land-use dynamics and its applications. Landsc Ecol 25:561–572

Tolessa T, Senbeta F, Kidane M (2017) The impact of land use/land cover change on ecosystem services in the central highlands of Ethiopia. Ecosyst Serv 23:47–54

UN (2013) World Environment Day 2013: How environmental damage causes food insecurity in Iraq. https://reliefweb.int/sites/reliefweb.int/files/resources/Factsheet-WorldEnvironment-English.pdf. Accessed 31 Mar 2020

UN (2017) Department of economic and social affairs, population division . World population prospects: The 2017 revision, Volume II: Demographic Profiles. ST/ESA/SER.A/400

USDA (2008) Iraq: Drought reduces 2008/09 winter grain production. https://ipad.fas.usda.gov/highlights/2008/05/Iraq_may2008.htm. Accessed 30 Mar 2020

Van Oort P (2007) Interpreting the change detection error matrix. Remote Sens Environ 108:1–8

Verburg PH, Bakker M, Overmars KP, Staritsky I (2008) Landscape level simulation of land use change. In: Sustainability impact assessment of land use changes. Springer, pp 211–227

Wolfram S (1984) Cellular automata as models of complexity. Nature 311:419–424

Yang Q-s, Li X (2007) Integration of multi-agent systems with cellular automata for simulating urban land expansion Sci Geogr Sin 27:542

Zhu Z, Woodcock CE (2014) Continuous change detection and classification of land cover using all available Landsat data. Remote Sens Environ 144:152–171

Zohary M (1973) Geobotanical foundations of the Middle East. Gustav Fisher Verlag, Amsterdam