Your search keyword '"tidal flat vegetation classification"' showing total 3 results

1. A Classification of Tidal Flat Wetland Vegetation Combining Phenological Features with Google Earth Engine

Author

Nan Wu, Runhe Shi, Wei Zhuo, Chao Zhang, Bingchan Zhou, Zilong Xia, Zhu Tao, Wei Gao, and Bo Tian

Subjects

tidal flat vegetation classification, Google Earth Engine, harmonic model, phenological features, Chongming Island, Science

Abstract

The composition and distribution of wetland vegetation is critical for ecosystem diversity and sustainable development. However, tidal flat wetland environments are complex, and obtaining effective satellite imagery is challenging due to the high cloud coverage. Moreover, it is difficult to acquire phenological feature data and extract species-level wetland vegetation information by using only spectral data or individual images. To solve these limitations, statistical features, temporal features, and phenological features of multiple Landsat 8 time-series images obtained via the Google Earth Engine (GEE) platform were compared to extract species-level wetland vegetation information from Chongming Island, China. The results indicated that (1) a harmonic model obtained the phenological characteristics of wetland vegetation better than the raw vegetation index (VI) and the Savitzky–Golay (SG) smoothing method; (2) classification based on the combination of the three features provided the highest overall accuracy (85.54%), and the phenological features (represented by the amplitude and phase of the harmonic model) had the greatest impact on the classification; and (3) the classification result from the senescence period was more accurate than that from the green period, but the annual mapping result on all seasons was the most accurate. The method described in this study can be applied to overcome the impacts of the complex environment in tidal flat wetlands and to effectively classify wetland vegetation species using GEE. This study could be used as a reference for the analysis of the phenological features of other areas or vegetation types.

Published

2021

2. A Classification of Tidal Flat Wetland Vegetation Combining Phenological Features with Google Earth Engine

Author

Bo Tian, Wei Zhuo, Zhu Tao, Nan Wu, Wei Gao, Runhe Shi, Chao Zhang, Zilong Xia, and Bingchan Zhou

Subjects

010504 meteorology & atmospheric sciences, Science, 0211 other engineering and technologies, Wetland, 02 engineering and technology, tidal flat vegetation classification, Google Earth Engine, harmonic model, phenological features, Chongming Island, 01 natural sciences, Satellite imagery, Ecosystem diversity, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Remote sensing, geography, Feature data, geography.geographical_feature_category, Phenology, Wetland vegetation, General Earth and Planetary Sciences, Environmental science, Smoothing, Tidal flat

Abstract

The composition and distribution of wetland vegetation is critical for ecosystem diversity and sustainable development. However, tidal flat wetland environments are complex, and obtaining effective satellite imagery is challenging due to the high cloud coverage. Moreover, it is difficult to acquire phenological feature data and extract species-level wetland vegetation information by using only spectral data or individual images. To solve these limitations, statistical features, temporal features, and phenological features of multiple Landsat 8 time-series images obtained via the Google Earth Engine (GEE) platform were compared to extract species-level wetland vegetation information from Chongming Island, China. The results indicated that (1) a harmonic model obtained the phenological characteristics of wetland vegetation better than the raw vegetation index (VI) and the Savitzky–Golay (SG) smoothing method; (2) classification based on the combination of the three features provided the highest overall accuracy (85.54%), and the phenological features (represented by the amplitude and phase of the harmonic model) had the greatest impact on the classification; and (3) the classification result from the senescence period was more accurate than that from the green period, but the annual mapping result on all seasons was the most accurate. The method described in this study can be applied to overcome the impacts of the complex environment in tidal flat wetlands and to effectively classify wetland vegetation species using GEE. This study could be used as a reference for the analysis of the phenological features of other areas or vegetation types.

Published

2021

3. A Classification of Tidal Flat Wetland Vegetation Combining Phenological Features with Google Earth Engine.

Author

Wu, Nan, Shi, Runhe, Zhuo, Wei, Zhang, Chao, Zhou, Bingchan, Xia, Zilong, Tao, Zhu, Gao, Wei, Tian, Bo, and Kumar, Lalit

Subjects

*TIDAL flats, *WETLANDS, *WETLAND soils, *REMOTE-sensing images, *CLASSIFICATION, *VEGETATION classification, *SUSTAINABLE development, *PHRAGMITES

Abstract

The composition and distribution of wetland vegetation is critical for ecosystem diversity and sustainable development. However, tidal flat wetland environments are complex, and obtaining effective satellite imagery is challenging due to the high cloud coverage. Moreover, it is difficult to acquire phenological feature data and extract species-level wetland vegetation information by using only spectral data or individual images. To solve these limitations, statistical features, temporal features, and phenological features of multiple Landsat 8 time-series images obtained via the Google Earth Engine (GEE) platform were compared to extract species-level wetland vegetation information from Chongming Island, China. The results indicated that (1) a harmonic model obtained the phenological characteristics of wetland vegetation better than the raw vegetation index (VI) and the Savitzky–Golay (SG) smoothing method; (2) classification based on the combination of the three features provided the highest overall accuracy (85.54%), and the phenological features (represented by the amplitude and phase of the harmonic model) had the greatest impact on the classification; and (3) the classification result from the senescence period was more accurate than that from the green period, but the annual mapping result on all seasons was the most accurate. The method described in this study can be applied to overcome the impacts of the complex environment in tidal flat wetlands and to effectively classify wetland vegetation species using GEE. This study could be used as a reference for the analysis of the phenological features of other areas or vegetation types. [ABSTRACT FROM AUTHOR]

Published

2021