国际标准简称:PROG EARTH PLANET SC 人气380 《Progress In Earth And Planetary Science》是一本专注于GEOSCIENCES, MULTIDISCIPLINARY领域的English学术期刊,创刊于2014年,由Springer Berlin Heidelberg出版商出版,出版周期1 issue/year。该刊发文范围涵盖GEOSCIENCES, MULTIDISCIPLINARY等领域,旨在及时、准确、全面地报道国内外...
Progress in Earth and Planetary Science 期刊名缩写:PROG EARTH PLANET SC期刊ISSN:2197-4284E-ISSN:2197-42842024年影响因子/JCR分区:3.5/Q1学科与分区:GEOSCIENCES, MULTIDISCIPLINARY - SCIE(Q2)出版国家或地区:United Kingdom出版周期:出版年份:2014年文章数:68...
Progress in Earth and Planetary Science《地球与行星科学进展》 (官网投稿) 简介 期刊简称PROG EARTH PLANET SC 参考译名《地球与行星科学进展》 核心类别 高质量科技期刊(T2), 高质量科技期刊(T3), SCIE(2024版), 知网外文库,外文期刊, IF影响因子 自引率 主要研究方向地球科学-GEOSCIENCES, MULTIDISCIPLINARY...
官网显示Progress in Earth and Planetary Science最新影响因子为3.875分,影响因子总体呈上升趋势,目前被27个国际数据库收录和摘要中。 02 费用 根据官网显示:开放获取出版并非没有成本。因此,Progress in Earth and Planetary Science进展对接受出版的每篇文章征收1240.00 英镑/1690.00 美元/1390.00 欧元的文章处理费,外加...
投稿地址: 编辑部地址: 统计分析 影响因子:指该期刊近两年文献的平均被引用率,即该期刊前两年论文在评价当年每篇论文被引用的平均次数 Created with Highcharts 10.0.0年份Progress in Earth and Planetary Science近年影响因子Progress in Earth and Planetary Science近年影响因子201420152016201720182019202020212022012345 ...
Invitation to Progress in Earth and Planetary Science Coral reefs are tropical to subtropical, coastal ecosystems comprising very diverse organisms. Reef deposits are fossil archives of environmental, tectonic, and eustatic variations that can be used to reconstruct the paleoclimatic and pa... Yasufumi...
Progress in Earth and Planetary Science期刊影响因子数据,中科院JCR分区与学科排名数据,CiteScore学科排名数据,期刊的基础信息参数与简介,以综合的数据为投稿者提供参考。
progress in earth and planetary science 期刊简称 Print ISSN 2197-4284 Online ISSN 2197-4284 期刊出版社 是否开放获取 Open Access,OA 是 官网地址 期刊所属领域 期刊简介 JCR分区索引信息2021年数据 是否是SCIE(SCI) 注:SCI已经完全被SCIE取代,参考:SCI被取代 ...
Progress in Earth and Planetary Science (PEPS), a peer-reviewed open access e-journal, was launched by the Japan Geoscience Union (JpGU) in 2014. This international journal is devoted to high-quality original articles, reviews and papers with full data attached in the research fields of space...
2013), and this displacement led to extensive mass-wasting in the Trench. But no major bathymetric change was associated with the earthquake north of 39°N (Fujiwara et al. 2017). Fujie et al. (2020) interpreted the smectite-rich pelagic clay layer at around 39°N in the subduction ...