[
Burel, F. (2003). Landscape ecology: concepts, methods, and applications (CRC Press).
]Search in Google Scholar
[
Buyantuyev, A., and J. Wu (2010). Urban heat islands and landscape heterogeneity: linking spatiotemporal variations in surface temperatures to land-cover and socioeconomic patterns, Landscape ecology, 25: 17-33.
]Search in Google Scholar
[
Castilla, G., and G.J. Hay (2007). Uncertainties in land use data, Hydrology and Earth System Sciences, 11: 1857-68.
]Search in Google Scholar
[
Cheng, K.-Sh., Ling, J.-Y., Lin, T.-W., Liu, Y.-T., Shen, Y.-Ch. and Y. Kono (2021). Quantifying uncertainty in land-use/land-cover classification accuracy: a stochastic simulation approach, Frontiers in Environmental Science, 9: 628214.
]Search in Google Scholar
[
Couteron, P., Barbier, N. and D. Gautier (2006). Textural ordination based on Fourier spectral decomposition: a method to analyze and compare landscape patterns, Landscape ecology, 21: 555-67.
]Search in Google Scholar
[
Crowley, M.A., and J.A. Cardille (2020). Remote sensing’s recent and future contributions to landscape ecology, Current Landscape Ecology Reports, 5: 45-57.
]Search in Google Scholar
[
Fahring, L. (2017). Ecological responses to habitat fragmentation per se, Annual review of ecology, evolution, and systematics, 48: 1-23.
]Search in Google Scholar
[
Fahrig, L. (2003). Effects of habitat fragmentation on biodiversity, Annual review of ecology, evolution, and systematics, 34: 487-515.
]Search in Google Scholar
[
Fan, Ch., and S. Myint (2014). A comparison of spatial autocorrelation indices and landscape metrics in measuring urban landscape fragmentation, Landscape and Urban Planning, 121: 117-28.
]Search in Google Scholar
[
Farina, A. (2006). Methods in landscape ecology, Principles and methods in landscape ecology: Toward a Science of Landscape: 313-91.
]Search in Google Scholar
[
Fu, B., Liang, D. and N. Lu (2011). Landscape ecology: Coupling of pattern, process, and scale, Chinese Geographical Science, 21: 385-91.
]Search in Google Scholar
[
Gustafson, E. J. (1998). Quantifying landscape spatial pattern: what is the state of the art?’, Ecosystems, 1: 143-56.
]Search in Google Scholar
[
Kareem, M. (2008). Generating fractal landscapes by using fast fourier transform, Al-Nahrain Journal of Science, 11: 128-30.
]Search in Google Scholar
[
Lizarazo, I. (2012). Quantitative land cover change analysis using fuzzy segmentation, International Journal of Applied Earth Observation and Geoinformation, 15: 16-27.
]Search in Google Scholar
[
Luck, M., and J. Wu (2002). A gradient analysis of urban landscape pattern: a case study from the Phoenix metropolitan region, Arizona, USA, Landscape ecology, 17: 327-39.
]Search in Google Scholar
[
Lundquist, J.E., and R.A. Sommerfeld (2002). Use of fourier transforms to define landscape scales of analysis for disturbances: a case study of thinned and unthinned forest stands, Landscape ecology, 17: 445-54.
]Search in Google Scholar
[
McGarigal, K., and S.A. Cushman. (2005). The gradient concept of landscape structure, Issues and perspectives in landscape ecology. Cambridge University Press, Cambridge: 112-19.
]Search in Google Scholar
[
McGarigal, K., Tagil, S. and S. A. Cushman (2009). Surface metrics: an alternative to patch metrics for the quantification of landscape structure, Landscape ecology, 24: 433-50.
]Search in Google Scholar
[
Michishita, R., Jiang, Z. and B. Xu (2012). Monitoring two decades of urbanization in the Poyang Lake area, China through spectral unmixing, Remote Sensing of Environment, 117: 3-18.
]Search in Google Scholar
[
Naveh, Z., and A. S. Lieberman (2013). Landscape ecology: theory and application (Springer Science & Business Media).
]Search in Google Scholar
[
Park, Y., and J.-M. Guldmann (2020). Measuring continuous landscape patterns with Gray-Level Co-Occurrence Matrix (GLCM) indices: An alternative to patch metrics?, Ecological Indicators, 109: 105802.
]Search in Google Scholar
[
Qiu, B., Jiang, F., Chen, Ch., Tang, Z., Wu, W., and J. Berry (2021). Phenology-pigment based automated peanut mapping using sentinel-2 images, GIScience & Remote Sensing, 58: 1335-51.
]Search in Google Scholar
[
Rahimi, E., Barghjelveh S., and P. Dong (2017). Ecological responses to habitat fragmentation per se, Annual review of ecology, evolution, and systematics, 48: 1-23.
]Search in Google Scholar
[
Rahimi, E., Barghjelveh S., and P. Dong (2021). Quantifying how urban landscape heterogeneity affects land surface temperature at multiple scales, Journal of Ecology and Environment, 45: 1-13.
]Search in Google Scholar
[
Rahimi, E., Salman Mahini, A.-R., Mir Karimi, S.H., Kamyab, H.R., and S. Soltanian (2016). Comparison of spatial resolution of LandSat and SPOT satellite images in measuring landscape fragmentation, Journal of RS and GIS for Natural Resources, 7: 13-25.
]Search in Google Scholar
[
Riitters, K.H., O’neill, R.V., Hunsaker, C.T., Wickham, J.D., Yankee, D.H., Timmins, S.P., Jones, K.B., and B.L. Jackson (1995). A factor analysis of landscape pattern and structure metrics, Landscape ecology, 10: 23-39.
]Search in Google Scholar
[
Rocchini, D., Metz |M., Ricotta C., Landa M., Frigeri, A, and M. Neteler (2013). Fourier transforms for detecting multitemporal landscape fragmentation by remote sensing, International Journal of Remote Sensing, 34: 8907-16.
]Search in Google Scholar
[
Rockmore, D., Kostelec, P., Hordijk W., and P.F. Stadler (2002). Fast Fourier transform for fitness landscapes’, Applied and Computational Harmonic Analysis, 12: 57-76.
]Search in Google Scholar
[
Singh, M., Malhi, Y. and S. Bhagwat (2014). Biomass estimation of mixed forest landscape using a Fourier transform texture-based approach on very-high-resolution optical satellite imagery’, International Journal of Remote Sensing, 35: 3331-49.
]Search in Google Scholar
[
Smith, Annie C, Dahlin M.K., Record S., Costanza, K.J., Wilson, M.A. and P. L Zarnetske (2021). ‘The geodiv r package: Tools for calculating gradient surface metrics, Methods in Ecology and Evolution, 12: 2094.
]Search in Google Scholar
[
Turner, M. G. (1990). ‘Spatial and temporal analysis of landscape patterns’, Landscape ecology, 4: 21-30.
]Search in Google Scholar
[
Turner, R. E., Rabalais, N.N., Justic’, D., and Q. Dortch (2003). Global patterns of dissolved N, P and Si in large rivers, Biogeochemistry, 64: 297-317.
]Search in Google Scholar
[
Uuemaa, E., Antrop M., Roosaare, J., Marja, R., and Ü. Mander (2009). Landscape metrics and indices: an overview of their use in landscape research’, Living reviews in landscape research, 3: 1-28.
]Search in Google Scholar
[
Valle, D., Izbicki, R. and R. Vieira Leite (2023). Quantifying uncertainty in land-use land-cover classification using conformal statistics, Remote Sensing of Environment, 295: 113682.
]Search in Google Scholar
[
Wieland, R., and C. Dalchow (2009). Detecting landscape forms using Fourier transformation and singular value decomposition (SVD), Computers & geosciences, 35: 1409-14.
]Search in Google Scholar
