Volume 5,Issue 2
Fall 204
El Niño Phenomenon: Meteorological Chain Reaction Tracked by Satellite Oceanography
This paper mainly explores the El Niño phenomenon and the meteorological chain reactions it triggers under the tracking of satellite oceanography. Through the analysis of relevant observational data and research results, it elaborates on the formation mechanism, development process of the El Niño phenomenon, and its multi-faceted impacts on the global climate system, emphasizing the significant role of satellite oceanography in monitoring and studying the El Niño phenomenon.
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2. Su C, Zhao H, Qiu C (2020) Research on ENSO Phenomenon Using Satellite Altimetry Data. Journal of Geomatics and Spatial Information Technology, 43(5): 160–162 + 166 + 170.
3. Peng Y, Liu Y, Gao Q (2022) Characteristics of Cloud Changes in China During the Summer Following El Niño and Their Relationship with Precipitation. Acta Meteorologica Sinica, 80(5): 701–720.
4. Chen B, Feng Z, Yu W (2022) Study on the Response of Pacific Sardine Autumn Spawning Stock Abundance to El Niño and La Niña Events. Journal of Fishery Sciences of China, 29(11): 1636–1646.
5. Sun M (2022) Research on Water Level Changes of Typical Lakes on the Qinghai-Tibet Plateau Based on Multi-Source Satellite Altimetry Data, thesis, Shandong University of Science and Technology.
6. Chen W, Zhong M, Feng W, et al. (2020) Impact of Two Strong ENSO Events from 2005 to 2017 on Land Water Storage Changes in China Observed by Satellite Gravity. Chinese Journal of Geophysics, 63(1): 141–154.
7. Huang Z, Zhao Z, Wen Z, et al. (2022) Research on Land Water Storage Changes Based on Satellite Gravity Time-Variable Gravity Field. Journal of East China Jiaotong University, 39(5): 45–51.
8. Song W, Wang S, Ren S, et al. (2019) Diagnostic Analysis of the Evolution Process of the Super El Niño Based on FY-3C/VIRR Sea Surface Temperature Data. Journal of Shanghai Astronautics, 36(3): 46–53.