Zhang, J., Zhu, Y., Fan, F., 2016, “Mapping and evaluation of landscape ecological status using geographic indices extracted from remote sensing imagery of the Pearl River Delta, China, between 1998 and 2008”, Environmental Earth Sciences, 75(4), 1-16.
Young, C. H., Jarvis, P. J., 2001, “A simple method for predicting the consequences of land management in urban habitats”, Environmental Management, 28(3), 375–387.
Yalcin, A., Reis, S., Aydinoglu, A. C., Yomralioglu, T., 2011, “A GIS-based comparative study of frequency ratio, analytical hierarchy process, bivariate statistics and logistics regression methods for landslide susceptibility mapping in Trabzon, NE Turkey”, Catena, 85, 274–287.
Xu, C., Xu, X., Lee, Y. H., Tan, X., Yu, G., Dai, F., 2012, “The 2010 Yushu earthquake triggered landslide hazardmapping using GIS and weight of evidence modeling”, Environmental Earth Sciences, 66, 1603-1616.
Wittig, R., Schreiber, K. F., 1983, “A quick method for assessing the importance of open space in towns for urban nature conservation”, Biological Conservation, 26, 57-64.
Wang, K., Franklin, S. E., Guo, X., Cattet, M., 2010, “Remote sensing of ecology, biodiversity and conservation: A review from the perspective of remote sensing specialists”, Sensors, 10(11), 9647-9667.
Volante, J. N., Alcaraz-Segura, D., Mosciaro, M. J., Viglizzo E. F., Paruelo J. M., 2012, “Ecosystem functional changes associated with land clearing in NW Argentina”, Agriculture, Ecosystems & Environment, 154, 12–22.
Vijith, H., Madhu, G., 2008, “Estimating potential landslide sites of an upland sub-watershed in Western Ghat’s of Kerala (India) through frequency ratio and GIS”, Environmental Geology, 55(7), 1397– 1405.
Vijith, H., Madhu, G., 2007, “Application of GIS and frequency ratio model in mapping the potential surface failure sites in the Poonjar sub-watershed of Meenachil river in Western ghats of Kerala”, Journal of the Indian Society of Remote Sensing, 35(3), 275-285.
Tian, Y., Jim C. Y., Wang, H., 2014, “Assessing the landscape and ecological quality of urban green spaces in a compact city”, Landscape and urban planning, 121, 97-108.
Sriwongsitanon, N., Gao, H., Savenije, H. H. G., Maekan, E., Saengsawan, S., Thianpopirug, S., 2015, “The Normalized Difference Infrared Index (NDII) as a proxy for soil moisture storage in hydrological modelling”, Hydrology & Earth System Sciences Discussions, 12(8), 8419-8457.
Regmi, A. D., Devkota, K. C., Yoshida, K., Pradhan, B., Pourghasemi, H. R., Kumamoto, T., Akgun, A., 2014, “Application of frequency ratio, statistical index, and weights-of-evidence models and their comparison in landslide susceptibility mapping in Central Nepal Himalaya”, Arabian Journal of Geosciences, 7(2), 725-742.
Qiu, L., Gao, T., Gunnarsson, A., Hammer, M., von Bothmer, R., 2010, “A methodological study of biotope mapping in nature conservation”, Urban Forestry & Urban Greening, 9, 161– 166.
Pradhan, B., Lee, S., 2010, “Delineation of landslide hazard areas on Penang Island, Malaysia, by using frequency ratio, logistic regression, and artificial neural network models”, Environmental Earth Sciences, 60(5), pp.1037-1054.
Pradhan, B., 2010, “Landslide susceptibility mapping of a catchment area using frequency ratio, fuzzy logic and multivariate logistic regression approaches”, Journal of the Indian Society of Remote Sensing, 38(2), 301-320.
Poudyal, C. P., Chang, C., Oh, H. J., Lee, S., 2010, “Landslide susceptibility maps comparing frequency ratio and artificial neural networks: a case study from the Nepal Himalaya”, Environmental Earth Sciences, 61(5), 1049–1064.
Phua, M. H., Minowa, M., 2005, “A GIS-based multi-criteria decision making approach to forest conservation planning at a landscape scale: a case study in the Kinabalu Area, Sabah, Malaysia”, Landscape Urban Planning, 71, 207–222.
Payero, J. O., Neale, C. M. U., Wright, J. L., 2004, “Comparison of eleven vegetation indices for estimating plant height of alfalfa and grass”, Applied Engineering in Agriculture, 20, 385–393.
Parkes, D., Newell, G., Cheal, D., 2003, “Assessing the quality of native vegetation: the habitat hectares approach”, Ecological Management and Restoration, 4, 29–38.
Mohammadi, J., Shataee, S., 2010, “Possibility investigation of tree diversity mapping using Landsat ETM+ data in the Hyrcanian forests of Iran”, Remote Sensing of Environment, 114, 1504–1512.
Liu, X., Lao, C., Li, X., Liu, Y., Chen, Y., 2012, “An integrated approach of remote sensing, GIS and swarm intelligence for zoning protected ecological areas”, Landscape Ecology, 27, 447–463.
Li, Z. W., Zeng G., Zhang, H., Yang, B., Jiao, S., 2007, “The integrated eco-environment assessment of the red soil hilly region based on GIS—a case study in Changsha City, China”, Ecological Modelling, 202(3), 540-546.
Lee, S., Sambath, T., 2006, “Landslide susceptibility mapping in the Damrei Romel area, Cambodia using frequency ratio and logistic regression models”, Environmental Geology, 50(6), 847–855
Lee, S., 2005, “Application of logistic regression model and its validation for landslide susceptibility mapping using GIS and remote sensing data”, Remote Sensensing, 26, 1477–1491
Lee, S., ,2007, “Comparison of landslide susceptibility maps generated through multiple logistic regression for three test areas in Korea”, Earth Surface Processes and Landforms, 32, 2133–2148
Kim, K. H., Pauleit, S., 2007, “Landscape character, biodiversity and land use planning : The case of Kwangju City Region, South Korea”, Land Use Policy, 24(1), 264-274.
Kerr, J., M. Ostrovsky, 2003, “From space to species: ecological applications for remote sensing”, Trends in Ecology and Evolution, 18(6), pp.299-305.
Kayastha, P., Dhital, M. R., De Smedt, F., 2012, “Landslide susceptibility mapping using the weight of evidence method in the Tinau watershed, Nepal”, Natural hazards, 63, 479–498
Imam, E., Kushwaha, S. P. S., 2013, “Habitat suitability modelling for Gaur (Bos gaurus) using multiple logistic regression, remote sensing and GIS”, Journal of Applied Animal Research, 41(2), 189-199.
Hong, W., Jiang, R., Yang, C., Zhang, F., Su, M., Liao, Q., 2016, “Establishing an ecological vulnerability assessment indicator system for spatial recognition and management of ecologically vulnerable areas in highly urbanized regions: A case study of Shenzhen, China”, Ecological Indicators, 69, 540-547.
Hong, S. K., Kim, S., Cho, K. H., Kim, J. E., Kang, S., Lee, D., 2004, “Ecotope mapping for landscape ecological assessment of habitat and ecosystem”, Ecological Research, 19, 131–39.
Hill, M., 2013, “Vegetation index suites as indicators of vegetation state in grassland and savanna: an analysis with simulated sentinel-2 data for a North American transect”, Remote Sensing of Environment, 137, 94–111
Hatfield, J. L., Prueger, J. H., 2010, “Value of using different vegetative indices to quantify agricultural crop characteristics at different growth stages under varying management practices”, Remote Sensing, 2, 562–578.
Gu, Y., Hunt, E., Wardlow, B., Basara, J. B., Brown, J. F., Verdin, J. P., 2008, “Evaluation of MODIS NDVI and NDWI for vegetation drought monitoring using Oklahoma Mesonet soil moisture data”, Geophysical Research Letters, 35(22).
Gould, W., 2000, “Remote sensing of vegetation, plant species richness, and regional biodiversity hotspots”, Ecological Applications, 10(6), 1861–1870
Gillespie, T. W., 2005, “Predicting woody-plant species richness in tropical dry forests: a case study from south Florida”, Ecological Applications, 15(1), 27–37.
Flores, A., Pickett, S. T. A., Zipperer, W. C., Pouyat, R. V., Pirani, R., 1998, “Adopting a modern ecological view of the metropolitan landscape: the case of a greenspace system for the New York City region”, Landscape Urban Planning, 39, 295–308
Feeley, K. J., Gillespie, T. W., Terborgh, J. W., 2005, “The utility of spectral indices from Landsat ETM+ for measuring the structure and composition of tropical dry forests”, Biotropica, 37, 508–19
Du, P., Liu, P., Xia, J., Feng, L., Liu, S., Tan, K., Cheng, L., 2014, “Remote sensing image interpretation for urban environment analysis: methods, system and examples”, Remote Sensing, 6, 9458–9474
Dai, F. C., Lee, C. F., Zhang, X. H., 2001, “GIS-based geo-environmental evaluation for urban land-use planning: a case study”, Engineering Eeology, 61(4), 257-271.
Cook, E. A., 2002, “Landscape structure indices for assessing urban ecological networks”, Landscape and Urban Planning, 58, 269–280.
Cohen, J., 1968, “Weighted kappa: Nominal scale agreement provision for scaled disagreement or partial credit”, Psychological Bulletin, 70(4), 213-220.
Boteva, D., Griffiths, G., Dimopoulos, P., 2004, “Evaluation and mapping of the conservation significance of habitats using GIS: an example from Crete, Greece”, Journal of Nature Conservation, 12, 237–250.
Bonham-Carter, G. F., 1994, Geographic Information Systems for geoscientists, modeling with GIS, Oxford.
Bishop, Y. M. M., Feinberg, S. E., Holland, P. W., 1975, Discrete Multivariate Analysis: Theory and Practice, Cambridge.
Basille, M., Calenge, C., “Marboutin, E., Andersen, R., Gaillard, J.M., 2008, Assessing habitat selection using multivariate statistics: some refinements of the ecologicalniche factor analysis”, Ecological Modelling, 211, 233–240.