Abstract:
Water hyacinth (WH), a highly invasive aquatic
plant is found on every continent except Antarctica. Due to the
significant damages caused by these plants to the society,
economy and to aquatic ecosystems, it is important to monitor
the spatial distribution with respect to seasonal variability to
help employ prompt and effective mitigation strategies. In this
study, we characterized the seasonality of WH over four years
(2019-2022) for the North Bolgoda lake, Sri Lanka. To identify
high incidence areas the lake was divided into four sections (A,
B, C and D). A pixel based Random Forest (RF) classification
utilizing five spectral indices along with the raw spectral bands
of Sentinel-2 scenes were used to map the hyacinth coverage with
an accuracy greater than 98% by using the GEE (Google Earth
Engine) platform. We found that the highest abundance of
hyacinth for all sections occurs in the wet season (May –
November) and that section A has the maximum WH coverage
in all seasons followed by sections C, B and D. This study
provides a freely available automated framework for continuous
monitoring of WH to help improve environmental decision
making.
Citation:
A. Radampola, H. S. Dawalagala, P. T. Gowsigan, S. M. Dassanayake, C. L. Jayawardena and S. P. Chaminda, "Google Earth Engine Based Assessment of Seasonal Spatial Distribution of Water Hyacinth in North Bolgoda Lake, Sri Lanka," 2023 Moratuwa Engineering Research Conference (MERCon), Moratuwa, Sri Lanka, 2023, pp. 385-390, doi: 10.1109/MERCon60487.2023.10355426.