Frontiers(瑞士)去年在AGU秋季年会上和我联系,让我和美国、加拿大两位同行共同作为Guest Editor负责了一个研究主题: “Advances in Global warming observations and their uncertainties”,由三个期刊联合举办。分别是Frontiers in Enviornment Science, Frontiers in Earth Science 和Frontiers in Ecology and Evolution,后两个的影响因子分别是2.89, 2.64, 前一个刊物今年6月或7月份才会有影响因子,但预计不低于这两个。
稿件截至日期1/22/2021
About this Research Topic
With the development and continuous improvements to the Global Surface Temperature Dataset (merged with global land surface air temperatures and sea surface temperatures), the consistency of estimations of global/regional surface temperature series and warming trends (including recent short-term climate change trends) has been strengthened since 1880. However, based on the 5th IPCC Assessment Report, it is believed that there are considerable uncertainties in many Essential Climate Variables (ECVs) at multiple timescales, which have been used to monitor climate change and global warming of the Earth. Therefore there is still a long way to go in the study of global climate change in both observations and uncertainty estimates.
This Research Topic aims to gather studies from meteorologists, climatologists, hydrologists, and oceanographers and will focus on observational studies of high-quality global (land, ocean, and upper atmosphere) and regional data products, with attention to climate change facts, impacts, and causes in daily to long-term scales. This is especially with regard to ECVs (Including their extreme climate events) related to global/regional warming and in light of the carbon and water cycles and radiation balance. We will focus on the evaluation of the uncertainty level of various variables at different spatial and temporal scales. In addition, the Topic also intends to encourage and promote the exchange and application of innovative methods in global/regional climate change research.
We welcome studies related to all topics stated above, and in particular, aspects such as the below:
• Quality control, homogenization, and validation of high quality climatic data sets
• Gridding, merging, and other temporal and spatial analysis of the comprehensive observations
• Climate change observation in different temporal scales and the uncertainty evaluation in land, ocean, and upper air data
• Inter-comparisons between in situ observation, remote sensing, reanalysis, and model outputs
• Observed historic global climate (including extreme climate events) change facts, impacts, causes, and drivers
• Development of algorithms, methods, or statistical models in global warming detection, fitting, and separation of the climate change components.
Keywords: global warming, data set, uncertainty, method, climate change
我们三位客座编辑,略有分工,但以合作为主:
我本人,主要负责大气、陆地气候变化部分
Huang Boyin 博士,美国NOAA环境信息中心,ERSST的主要研发人,主要负责海洋气候变化部分
Wang L Xiaolan博士,加拿大环境与气候变化部高级研究员,RHTest等的主要开发者,主要负责方法学部分
欢迎感兴趣的老师赐稿,并诚邀相关领域专家协助审稿。
补充一句:可以申请版面费减免。
转载本文请联系原作者获取授权,同时请注明本文来自李庆祥科学网博客。
链接地址:https://wap.sciencenet.cn/blog-39247-1237511.html?mobile=1
收藏
