A New Sentinel-2 Spectral Index for Mapping <i>Hydrilla verticillata</i> in Shallow Freshwater Lakes in Florida, USA

A New Sentinel-2 Spectral Index for Mapping <i>Hydrilla verticillata</i> in Shallow Freshwater Lakes in Florida, USA

Hydrilla, an invasive submerged macrophyte that is classified as a noxious weed in the U.S., can quickly spread into extensive monospecific infestations, excluding other native macrophytes and disrupting entire lake ecosystems. In Florida, infestation has increased tenfold in just three years, consu...

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Bibliographic Details
Main Authors: Ayesha Malligai M, Amr Abd-Elrahman, James K. Leary
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Remote Sensing
Subjects:
Submerged Aquatic Vegetation Index
spectral profiles
rake sampling
Lake Yale
Lake Apopka
Online Access:https://www.mdpi.com/2072-4292/17/11/1894
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Summary:Hydrilla, an invasive submerged macrophyte that is classified as a noxious weed in the U.S., can quickly spread into extensive monospecific infestations, excluding other native macrophytes and disrupting entire lake ecosystems. In Florida, infestation has increased tenfold in just three years, consuming over 60% of total management costs and requiring millions of dollars in annual control efforts. Traditional monitoring methods, such as field sampling, provide accurate localized assessments but are expensive and time-consuming. This study leverages Sentinel-2 satellite imagery, introducing the Submerged Aquatic Vegetation Index for Hydrilla (SVI<sub>H</sub>), a novel three-band index utilizing the green (G, 560 nm), red-edge 1 (RE1, 705 nm), and shortwave infrared 1 (SWIR1, 1610 nm) bands to distinguish hydrilla from water and emergent aquatic vegetation (EAV) in two Florida lakes. The index, coupled with other vegetation indices, was validated using in situ measurements of hydrilla abundance levels, confirming its strong ability to accurately distinguish hydrilla. At the highest abundance level, SVI<sub>H</sub> produced the highest Mathew correlation coefficients (MCCs), i.e., >0.86 for Lake Yale (2021), and >0.60 (2020) and >0.68 (2021) for Lake Apopka, using three thresholding methods. For Apopka (2022), other tested indices such as MFI and FAI yielded high MCC values along with high recall using incremental search threshold. However, these indices could not distinguish EAV from SAV in the eastern regions of Lakes Apopka and Yale, where EAV was dominant. These findings encourage the use of SVI<sub>H</sub> for routine hydrilla detection and mapping, facilitating improved management, conservation efforts, and targeted herbicide applications.
ISSN:2072-4292

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