Abstract:The article uses Landsat TM and OLI multispectral images from 2006, 2013, and 2020 as data sources to extract the surface flooding range of the Momoge National Nature Reserve, calculate the values of hydrological connectivity index values, and analyze the trend of hydrological connectivity changes in the protected area during the research period.During the whole research period, the surface flooding area of the protected area showed a trend of first increasing and then decreasing, and the connectivity between water patches gradually strengthened, and the connected patches gradually approached a whole.
刘舒, 王泉, 尹贵冲, 王翎毓. 莫莫格国家级自然保护区水文连通性时空变化分析[J]. 气象水文海洋仪器, 2024, 41(4): 104-106.
Liu Shu, Wang Quan, Yin Guichong, Wang Lingyu. Temporal and spatial changes of hydrological connectivity in Momoge National Nature Reserve. Meteorological Hydrological and Marine Instrument, 2024, 41(4): 104-106.
PENATTI N C,ALMEIDA T I R,FERREIRA L G,et al.Satellite-based hydrological dynamics of the world, s largest continuous wetland [J].Remote sens environ,2015,170:1-13.
[2]
XIE C,XU J,SHAO Y,et al.Long term detection of water depth changes of coastal wetlands in the Yellow River Delta based on distributed scatterer interferometry [J].Remote sensing of environment,2015,164:238-253.
2024, Vol. 41 
