A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Jiang, Li
- Visualization of International Environmental DNA Research
Authors
1 College of History and Society, Chongqing Normal University, Chongqing 401331, CN
2 College of Life Sciences, Chongqing Normal University, Chongqing 401331, CN
Source
Current Science, Vol 112, No 08 (2017), Pagination: 1659-1664Abstract
Environmental DNA (eDNA) analysis is increasingly being used in research fields of archaeology, biology and environmental science. In this study, scientometric methods have been used to quantitatively assess the current global research status in the eDNA field based on SCI-EXPANDED and Social Sciences Citation Index databases during the period 1992-2016. CiteSpace software was used to visualize the eDNA knowledge domains. The most productive category and journal are microbiology and Applied and Environmental Microbiology respectively. USA is the leading country, Rockefeller University is the prominent institution and Brady, S. F. is the most productive author. Document co-citation analysis demonstrated that the most recent domain is focusing on using eDNA as a tool to detect species in aquatic environments. These findings may help researchers better understand the current progress as well as identify the latest frontiers in the field of eDNA.
Keywords
Citation Burst, Environmental DNA, Scientometrics, Visualization.References
- Ogram, A., Sayler, G. S. and Barkay, T., The extraction and purification of microbial DNA from sediments. J. Microbiol. Methods, 1987, 7, 57–66.
- Barnes, M. A. and Turner, C. R., The ecology of environmental DNA and implications for conservation genetics. Conserv. Genet., 2015, 17(1), 1–17.
- Chen, C., Searching for intellectual turning points: progressive knowledge domain visualization. Proc. Natl. Acad. Sci., USA, 2004, 101 (Suppl), 5303–5310.
- Chen, C., CiteSpace II: detecting and visualizing emerging trends and transient patterns in scientific literature. J. Am. Soc. Inf. Sci. Technol., 2006, 57(3), 359–377.
- Chen, C. et al., Towards an explanatory and computational theory of scientific discovery. J. Informetr., 2009, 3(3), 191–209.
- Chen, C. et al., Emerging trends in regenerative medicine: a scientometric analysis in CiteSpace. Expert Opin. Biol. Ther., 2012, 12(5), 593–608.
- Chen, C., Dubin, R. and Kim, M. C., Emerging trends and new developments in regenerative medicine: a scientometric update (2000–2014). Expert Opin. Biol. Ther., 2014, 14(9), 1295–1317.
- Ficetola, G. F. et al., Species detection using environmental DNA from water samples. Biol. Lett., 2008, 4(4), 423–425.
- Jerde, C. L. et al., ‘Sight-unseen’ detection of rare aquatic species using environmental DNA. Conserv. Lett., 2011, 4(2), 150– 157.
- Thomsen, P. F. et al., Monitoring endangered freshwater biodiversity using environmental DNA. Mol. Ecol., 2012, 21(11), 2565– 2573.
- Taberlet, P. et al., Environmental DNA. Mol. Ecol., 2012, 21(8), 1789–1793.
- Goldberg, C. S. et al., Molecular detection of vertebrates in stream water: a demonstration using Rocky Mountain tailed frogs and Idaho giant salamanders. PLoS ONE, 2011, 6(7), 3007–3024.
- Rondon, M. R. et al., Cloning the soil metagenome: a strategy for accessing the genetic and functional diversity of uncultured microorganisms. Appl. Environ. Microbiol., 2000, 66(6), 2541– 2547.
- Dejean, T. et al., Persistence of environmental DNA in freshwater ecosystems. PLoS ONE, 2011, 6(8), e23398.
- Darling, J. A. and Mahon, A. R., From molecules to management: adopting DNA-based methods for monitoring biological invasions in aquatic environments. Environ. Res., 2011, 111(7), 978–988.
- Thomsen, P. F. et al., Detection of a diverse marine fish fauna using environmental DNA from seawater samples. PLoS ONE, 2012, 7(8), e41732.
- Dejean, T. et al., Improved detection of an alien invasive species through environmental DNA barcoding: the example of the American bullfrog Lithobates catesbeianus. J. Appl. Ecol., 2012, 49(4), 953–959.
- Henne, A. et al., Screening of environmental DNA libraries for the presence of genes conferring lipolytic activity on Escherichia coli. Appl. Environ. Microbiol., 2000, 66(7), 3113–3116.
- Venter, J. C. et al., Environmental genome shotgun sequencing of the Sargasso Sea. Science, 2004, 304(5667), 66–74.
- Henne, A. et al., Construction of environmental DNA libraries in Escherichia coli and screening for the presence of genes conferring utilization of 4-hydroxybutyrate. Appl. Environ. Microbiol., 1999, 65(9), 3901–3907.
- Pilliod, D. S. et al., Estimating occupancy and abundance of stream amphibians using environmental DNA from filtered water samples. Can. J. Fish Aquat. Sci., 2013, 70(8), 1123–1130.