The impact of SRB metabolic activities can modify the overall geochemistry of the sedimentary package. For example, in many environments, more than 50% of the total carbon mineralization (oxidation) is due to SRB (Canfield and Des Marais, 1993; Jorgensen, 1982). See more:
- bibliometric analysis of the topic: "Sulphate reducing in the geological context. 2010-2019"
- analyze bibliometric data from Lens, OnePetro, Scopus and WoS databases
- depicts flows of bibliometrics data by using a Sankey diagrams
- implement bibliometric network analysis by using VOSviewer software
- extract keywords and keyphrases for topic description
Main query: TITLE-ABS-KEY ( ( sulfate-reducing ) AND geolog* ) AND PUBYEAR > 2009
Substantial discovery: the intermittent increase of usage the term “sulfur compounds” when 2015 witch can’t be explained by the rise of the number of publications. The item for further study: does increase attention to sulfur compounds concern to water pollution? The possible start point for further investigation of this issue: "In-situ hydrogen sulfide mitigation". 2019-10-10 publication of US20190309213A1. Claims: A method of reducing an amount of a sulfur-containing compound in a reservoir fluid...
Common remark on data representation in this research:
- tables in the report file contain only data examples, full results are in files named in the remark under the table
- large (by Kbytes) figures are placed only on Figshare.com, the report contain only direct links to them
- you could download all files collection from Figshare.com as zip archive
- all links to tables with full data for this report are relative, so you could use them while using download archive
- most image files are in SVG format, so you could enlarge them to convenient scale
- number in filename concern data results, for example: Scopus-539..., Lens_1080...