[2] X C WU, T MA, Y X WANG. Surface water and groundwater interactions in wetlands. Journal of Earth Science, 31, 1016-1028(2020).

[3] Y ZHANG, J YAN, X CHENG et al. Wetland changes and their relation to climate change in the Pumqu Basin，Tibetan Plateau. International Journal of Environmental Research and Public Health, 18, 2682(2021).

[4] Xuxiang LV, Anying GOU, Zhangmin CHEN et al. Changes in the landscape pattern of swamp wetlands in the Nanmohe wetland national nature reserve in Sichuan Province. Journal of Ecology, 43, 1747-1755(2024).

[5] A ZOBEIDINEZHAD. A training sample migration method for wetland mapping and monitoring using sentinel data in Google Earth Engine. Remote Sensing, 13, 4169(2021).

[6] H LIU, Q JIANG, Y MA et al. Object-based multigrained cascade forest method for wetland classification using Sentinel-2 and Radarsat-2 imagery. Water （Switzerland）, 14, 82(2022).

[8] Jiafu LIU, Lingeng LI, Chunying REN et al. Information extraction of coastalwetlands in Yellow River estuary by optimal feature-based Random Forest Model. Wetland Science, 16, 97-105(2018).

[9] Q LIU, Y ZHANG, L LIU et al. A novel Landsat-based automated mapping of marsh wetland in the headwaters of the Brahmaputra， Ganges and Indus Rivers，Southwestern Tibetan Plateau. International Journal of Applied Earth Observation and Geoinformation, 103, 102481(2021).

[10] Yulin PAN, Hui LIN. Classification of the Sanjiang wetland in Heilongjiang Province based on domestic high-resolution satellite data. Journal of Central South University of Forestry & Technology, 42, 71-81(2022).

[11] K JIA, W G JIANG, J LI et al. Spectral matching based on discrete particle swarm optimization: A new method for terrestrial water body extraction using multi-temporal Landsat 8 images. Remote Sensing of Environment An Interdisciplinary Journal(2018).

[12] Yu WANG, Wanghang ZHANG, Wangping LI et al. Coupling discrete particle swarm optimization algorithm with Maximum Entropy Model for water extraction from remote sensing image. Henan Science, 38, 538-545(2020).

[13] Ruoqi AN. Understanding and thinking of ecological environment protection in Luqu County. Forestry of GansuTaoheyuan area, 42-43(2019).

[14] Bingrong Zhou. Technical guidelines for remote sensing classification of Alpine Wetlands Qinghai Province(2019).

[15] J W RILEY, D L CALHOUN, W J BARICHIVICH et al. Identifying small depressional wetlands and using a topographic position index to infer hydroperiod regimes for Pond-Breeding Amphibians. Wetlands, 37, 325-38(2017).

[16] Zhongyuan YANG, Xia LOU, Shizhe CHEN et al. Research progress on organic carbon cycling process and influencing factors in coastal wetlands of the Yangtze River Estuary. Journal of Tongji University （Natural Science Edition）, 52, 303-312(2024).

[17] Fu LV, Xiaotian HAN, Yong'an FENG et al. Texture image classification method based on adaptive texture feature fusion. Computer Engineering and Science, 46, 488-498(2024).

[18] Z LI, Z GONG, H GUAN et al. Dynamic estimating of wetland vegetation cover based on linear spectral mixture and time phase transformation models. International Journal of Remote Sensing, 39, 9294-9311(2018).

[19] Anqi HUANG, Xiaopeng WANG, Xiang ZHANG et al. Wetlan information extracted from Jiaozhou Bay based on multi feature optimization with multi-temproal remote sensing imageries. Rransactions of Oceanology and Limnology, 43, 161-170(2021).

[20] Chengxing LING, Huaiqing ZHANG, Hui LIN. research on extracting coastal wetlands water information using composition CIWI water index. Resources and Environment in the Yangtze Basin, 19, 152-157(2010).

[21] S TALUKDAR. Application of frequency ratio and logistic regression models for assessing physical wetland vulnerability in Punarbhaba river basin of Indo-Bangladesh. Human and Ecological Risk Assessment, 1-21(2018).

[22] W WU, Y SHI, K CAI et al. Using an explicit multi-feature de-cision tree for wetland information extraction in Qomolangma National Nature Reserve. Remote Sensing Letters, 12, 68-78(2021).

[23] Ting LI, Li XUE, Huaqi GU. images based on CHi-squared Automatic Interaction Detection. Geomatics & Spatial Information Technology, 41, 7068-7074(2018).

[24] Wenhan JIA, Yueyan LIU, Shougeng HU. Extraction of herbaceous wetland information from high resolution remote sensing image based on ResNet34. Journal of Geomatics, 46, 97-99(2021).

[25] T M BERHANE, C R LANE, Q WU et al. Comparing pixel- and object-based approaches in effectively classifying wetland-dominated landscapes. Remote Sensing, 10, 46(2018).

[26] ZHANG Lei, Zhaoning GONG, Qiwei WANG et al. Wetland mapping of Yellow River Delta wetlands based on multi-feature optimization of Sentinel-2 images. Journal of Remote Sensing, 23, 313-326(2019).

[27] Zhulin CHEN, Tianyu LI, Yaofang ZHANG et al. Fine classification of water ecological spatial features in Miyun Reservoir based on hyperspectral data. Journal of Space Science, 44, 103-113(2024).

[28] M H QUENOUILLE. Approximate tests of correlation in time-series. Journal of the Royal Statistical Society Series B（Methodological）, 11, 68-84(1949).

[29] Leiming WANG, Hui LI, Shenghua YIN et al. Pore structure and evolution characteristics of ore leaching systems based on morphological open operations. Journal of Engineering Science, 46, 199-208(2024).

[30] M A MERCHANT, R K WARREN, R EDWARDS et al. An object-based assessment of multi-wavelength SAR，optical imagery and topographical datasets for operational wetland mapping in Boreal Yukon， Canada. Canadian Journal of Remote Sensing.

[31] Ying XIA, Enhua LI, Xuelei WANG et al. Application of random forest algorithm based on feature optimization in wetland information extraction：A case study of Honghu wetland nature reserve in Hubei Province. Journal of Central China Normal University（Natural Science Edition）, 55, 639-648，660(2021).

[32] Lei ZHANG, Zhaoning GONG, Qiwei WANG et al. Wetland mapping of Yellow River Delta wetlands based on multi-feature optimization of Sentinel-2 images. Journal of Remote Sensing, 23, 313-326(2019).

[33] Yufeng HAO, Weidong MAN, Jinhua WANG et al. Wetland information extraction based on Relief-F algorithm and decision tree method. Journal of Liaoning Technical University（Natural Science Edition）, 40, 225-233(2021).