Coastal cities undergoing rapid urban expansion often experience sustained conversion of agricultural and vegetated land into built-up areas under increasing development pressure. The Puducherry region represents a rapidly transforming coastal landscape where recent land-use dynamics remain insufficiently quantified. This study analysed land use and land cover (LULC) changes for 2004, 2014 and 2024 using multi-sensor satellite data. Supervised classification using a support vector machine (SVM) algorithm achieved overall accuracies of 96–97% with kappa values between 0.93 and 0.94. The results indicate substantial declines in agriculture/fallow land from 121.92 to 93.90 km2 and vegetation from 122.05 to 82.97 km2, accompanied by a nearly fourfold expansion of built-up area from 25.00 to 90.94 km2 over two decades. Further, a cellular automata-artificial neural network (CA-ANN) model within the modules for land use change evaluation (MOLUSCE) plugin was calibrated with elevation, slope, distance to roads and distance to built-up areas as driver variables. Validation of the simulated 2024 achieved an overall correctness of 82.39% (Koverall = 0.75, Khisto = 0.91 and Kloc = 0.82). Projections for 2034 indicate continued expansion of built-up land, which is expected to reach 136.31 km2. These findings provide spatially explicit evidence of ongoing land conversion and establish a quantitative basis for assessing future land-use change in coastal regions.
Akila et al. (Sat,) studied this question.