Mapping Aquatic Vegetation in a Large, Shallow Eutrophic Lake: A Frequency-Based Approach Using Multiple Years of MODIS DataReport as inadecuate




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1

Taihu Laboratory for Lake Ecosystem Research, State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, China

2

University of Chinese Academy of Sciences, Beijing 210008, China

3

School for the Environment, University of Massachusetts Boston, Boston, MA 02125, USA





*

Author to whom correspondence should be addressed.



Academic Editors: Raphael M. Kudela, Deepak R. Mishra and Prasad S. Thenkabail

Abstract Aquatic vegetation serves many important ecological and socioeconomic functions in lake ecosystems. The presence of floating algae poses difficulties for accurately estimating the distribution of aquatic vegetation in eutrophic lakes. We present an approach to map the distribution of aquatic vegetation in Lake Taihu a large, shallow eutrophic lake in China and reduce the influence of floating algae on aquatic vegetation mapping. Our approach involved a frequency analysis over a 2003–2013 time series of the floating algal index FAI based on moderate-resolution imaging spectroradiometer MODIS data. Three phenological periods were defined based on the vegetation presence frequency VPF and the growth of algae and aquatic vegetation: December and January composed the period of wintering aquatic vegetation; February and March composed the period of prolonged coexistence of algal blooms and wintering aquatic vegetation; and June to October was the peak period of the coexistence of algal blooms and aquatic vegetation. By comparing and analyzing the satellite-derived aquatic vegetation distribution and 244 in situ measurements made in 2013, we established a FAI threshold of −0.025 and VPF thresholds of 0.55, 0.45 and 0.85 for the three phenological periods. We validated the accuracy of our approach by comparing the results between the satellite-derived maps and the in situ results obtained from 2008–2012. The overall classification accuracy was 87%, 81%, 77%, 88% and 73% in the five years from 2008–2012, respectively. We then applied the approach to the MODIS images from 2003–2013 and obtained the total area of the aquatic vegetation, which varied from 265.94 km2 in 2007 to 503.38 km2 in 2008, with an average area of 359.62 ± 69.20 km2 over the 11 years. Our findings suggest that 1 the proposed approach can be used to map the distribution of aquatic vegetation in eutrophic algae-rich waters and 2 dramatic changes occurred in the distribution of aquatic vegetation in Lake Taihu during the 11-year study. View Full-Text

Keywords: aquatic vegetation; Lake Taihu; remote sensing; algae; frequency approach aquatic vegetation; Lake Taihu; remote sensing; algae; frequency approach





Author: Xiaohan Liu 1,2,3, Yunlin Zhang 1,* , Kun Shi 1, Yongqiang Zhou 1,2, Xiangming Tang 1, Guangwei Zhu 1 and Boqiang Qin 1

Source: http://mdpi.com/



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