@article{Larsen:2010:Scientometrics:20700371,
  abstract = {The growth rate of scientific publication has been studied from 1907 to 2007 using available data from a number of literature databases, including Science Citation Index (SCI) and Social Sciences Citation Index (SSCI). Traditional scientific publishing, that is publication in peer-reviewed journals, is still increasing although there are big differences between fields. There are no indications that the growth rate has decreased in the last 50 years. At the same time publication using new channels, for example conference proceedings, open archives and home pages, is growing fast. The growth rate for SCI up to 2007 is smaller than for comparable databases. This means that SCI was covering a decreasing part of the traditional scientific literature. There are also clear indications that the coverage by SCI is especially low in some of the scientific areas with the highest growth rate, including computer science and engineering sciences. The role of conference proceedings, open access archives and publications published on the net is increasing, especially in scientific fields with high growth rates, but this has only partially been reflected in the databases. The new publication channels challenge the use of the big databases in measurements of scientific productivity or output and of the growth rate of science. Because of the declining coverage and this challenge it is problematic that SCI has been used and is used as the dominant source for science indicators based on publication and citation numbers. The limited data available for social sciences show that the growth rate in SSCI was remarkably low and indicate that the coverage by SSCI was declining over time. National Science Indicators from Thomson Reuters is based solely on SCI, SSCI and Arts and Humanities Citation Index (AHCI). Therefore the declining coverage of the citation databases problematizes the use of this source.},
  author = {Larsen, P O and von Ins, M},
  doi = {10.1007/s11192-010-0202-z},
  interhash = {cfb4b308f2ca153eaa7540b7d64b3577},
  intrahash = {abdc38dfe051e5b29c8742ab3b950b9c},
  journal = {Scientometrics},
  month = sep,
  number = 3,
  pages = {575-603},
  pmid = {20700371},
  title = {The rate of growth in scientific publication and the decline in coverage provided by Science Citation Index},
  url = {http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2909426/},
  volume = 84,
  year = 2010
}

@article{small1973cocitation,
  abstract = {A new form of document coupling called co-citation is defined as the frequency with which two documents are cited together. The co-citation frequency of two scientific papers can be determined by comparing lists of citing documents in the Science Citation Index and counting identical entries. Networks of co-cited papers can be generated for specific scientific specialties, and an example is drawn from the literature of particle physics. Co-citation patterns are found to differ significantly from bibliographic coupling patterns, but to agree generally with patterns of direct citation. Clusters of co-cited papers provide a new way to study the specialty structure of science. They may provide a new approach to indexing and to the creation of SDI profiles.},
  author = {Small, Henry},
  doi = {10.1002/asi.4630240406},
  interhash = {dfbb7636c96853cc258878548c12d12f},
  intrahash = {1dc18dfe50667ff19d5cfa9d52d3e37b},
  issn = {1097-4571},
  journal = {Journal of the American Society for Information Science},
  number = 4,
  pages = {265--269},
  publisher = {Wiley Subscription Services, Inc., A Wiley Company},
  title = {Co-citation in the scientific literature: A new measure of the relationship between two documents},
  url = {http://dx.doi.org/10.1002/asi.4630240406},
  volume = 24,
  year = 1973
}