[Latest Discoveries and Innovations] Science and Technology Daily News (Reporter Xia Fan, Correspondent Yao Yao) on July 25, the reporter learned from Ningbo Oriental University of Technology that the school's lecturer Zhang Dongxiao and assistant professor Chen Yitan and Professor Zeng Zhenzhong of Southn Science and Technology have jointly built the world's first mixed-layer heat income and expenditure diagnosis framework based on the data高分辨率的海洋重新分析,该分析系统地揭示了2023年海洋极热的相关机制,这为了解和预测未来海洋未来未来未来事件的未来事件提供了一个主要的科学基础。相关研究结果已发表在国际学术杂志科学中。海热波定义了这样的现象,即海洋中的水温在一段时间内平均是高于TOA,通常需要几天,并且是缺点给气候变化的关键指标。 2023年被认为是世界气象组织的“记录中最热门的一年”,并且海洋表面和海热的全球海温都均为创纪录的高点。作为土地气候的“总监管机构”,为什么全球海洋也同时在历史上同时“发烧”?科学研究人员对此进行了研究。他们使用ECCO2(海洋流通和气候评估的II期计划)的高分辨率日常海洋深度数据进行进行混合层热收入和支出分析,从而定量描绘了全球海洋热浪在2023年的强度,持续时间和空间覆盖范围的前所未有的特征,并在2023年澄清了四个驾驶机构,并阐明了四个键的范围。 “研究发现,北大西洋和北太平洋的短波通量和混合层的增强变得沉重,云的体积reduced and increased adventure in the Southwest Pacific Ocean, as adventure increased in the tropical Eastern Pacific Ocean." Dong Tianyun said the first paper and a postdoctoral student at the Ningbo Oriental University of Technology. According to reports, the development of the Earth's science system is important to demonstrate the internal mechanisms of such complex climate phenomena, improve global climate predictions, and develop science -meeting techniques. The construction of a forecasting基于物理机制的系统,加强对海洋许多要素的实时监控以及对Tosevere气候事件的警告进行深刻的预警,对于解决未来气候风险具有巨大的实际意义。
