Using 58 years (1961 to 2018) of daily rainfall data, this study focuses on determining trends in the annual and seasonal precipitation extremes of Jiangxi, China, by choosing four extreme precipitation indices, inclu...Using 58 years (1961 to 2018) of daily rainfall data, this study focuses on determining trends in the annual and seasonal precipitation extremes of Jiangxi, China, by choosing four extreme precipitation indices, including strong precipitation amount (SPA), mean precipitation intensity (MPI), strong precipitation days (SPD), and strong precipitation frequency (SPF). The monotonic trends are tested by using the Mann-Kendall test for the trends and Sen’s method for the magnitude of the trends. The effective sample size (ESS) method was used to eliminate the influence of serial correlation in the Mann-Kendall test. The results indicated that station Zixi had the strongest extreme precipitation, while Wanzai had the weakest. The trends for each index showed an obvious regional feature over Jiangxi. Increasing trends in annual extreme precipitation indices were found at almost all stations, and the annual variability of the extreme precipitation indices was pronounced, especially for the mean precipitation intensity and the strong precipitation frequency;the majority of these positive trends were shown by the statistical tests. In spring, four indices exhibited significant increasing trends in Northeast and Southwest Jiangxi;however, in summer, only MPI had a remarkable positive trend across almost all of Jiangxi. For the other indices, few stations had remarkable trends. In autumn, MPI and SPF showed remarkable increasing trends in most regions of Jiangxi, while SPA and SPD showed increasing trends at only 6 stations and 3 stations, respectively, which were scattered in the northern and middle parts. In winter, the stations with remarkable upward trends in SPA and SPD were mainly located in the middle of the region, whereas the significant patterns of MPI and SPF were located in the south and middle of the region.展开更多
蕨类植物是地球上起源最为古老的维管植物,在陆生植物演化中具有重要意义。本文通过Web of Science核心数据库(Core Collection)对目前所有关于"fern"、"lycophyte"、"pteridophyte"、"pteridophyta...蕨类植物是地球上起源最为古老的维管植物,在陆生植物演化中具有重要意义。本文通过Web of Science核心数据库(Core Collection)对目前所有关于"fern"、"lycophyte"、"pteridophyte"、"pteridophyta"等的科研论文进行了分析。结果表明:(1) 2000年后,蕨类植物论文数量增加迅速,特别是2006年以来增加显著,现在年均已突破600篇;(2)2010年以来的以蕨类植物为研究材料和对象的学科和研究领域变得越来越多元化,多学科结合和交叉的研究方向成为新趋势;(3)中国正在成为蕨类植物研究的热点国家并且成果显著;(4)中国蕨类植物研究在快速发展的同时也出现了各研究机构之间的发展不同步。期望本论文能给蕨类植物的相关研究提供新的方向,为中国蕨类植物工作者提供借鉴。展开更多
文摘Using 58 years (1961 to 2018) of daily rainfall data, this study focuses on determining trends in the annual and seasonal precipitation extremes of Jiangxi, China, by choosing four extreme precipitation indices, including strong precipitation amount (SPA), mean precipitation intensity (MPI), strong precipitation days (SPD), and strong precipitation frequency (SPF). The monotonic trends are tested by using the Mann-Kendall test for the trends and Sen’s method for the magnitude of the trends. The effective sample size (ESS) method was used to eliminate the influence of serial correlation in the Mann-Kendall test. The results indicated that station Zixi had the strongest extreme precipitation, while Wanzai had the weakest. The trends for each index showed an obvious regional feature over Jiangxi. Increasing trends in annual extreme precipitation indices were found at almost all stations, and the annual variability of the extreme precipitation indices was pronounced, especially for the mean precipitation intensity and the strong precipitation frequency;the majority of these positive trends were shown by the statistical tests. In spring, four indices exhibited significant increasing trends in Northeast and Southwest Jiangxi;however, in summer, only MPI had a remarkable positive trend across almost all of Jiangxi. For the other indices, few stations had remarkable trends. In autumn, MPI and SPF showed remarkable increasing trends in most regions of Jiangxi, while SPA and SPD showed increasing trends at only 6 stations and 3 stations, respectively, which were scattered in the northern and middle parts. In winter, the stations with remarkable upward trends in SPA and SPD were mainly located in the middle of the region, whereas the significant patterns of MPI and SPF were located in the south and middle of the region.
文摘蕨类植物是地球上起源最为古老的维管植物,在陆生植物演化中具有重要意义。本文通过Web of Science核心数据库(Core Collection)对目前所有关于"fern"、"lycophyte"、"pteridophyte"、"pteridophyta"等的科研论文进行了分析。结果表明:(1) 2000年后,蕨类植物论文数量增加迅速,特别是2006年以来增加显著,现在年均已突破600篇;(2)2010年以来的以蕨类植物为研究材料和对象的学科和研究领域变得越来越多元化,多学科结合和交叉的研究方向成为新趋势;(3)中国正在成为蕨类植物研究的热点国家并且成果显著;(4)中国蕨类植物研究在快速发展的同时也出现了各研究机构之间的发展不同步。期望本论文能给蕨类植物的相关研究提供新的方向,为中国蕨类植物工作者提供借鉴。