Institution
Odense University
About: Odense University is a based out in . It is known for research contribution in the topics: Mass spectrometry & Population. The organization has 2660 authors who have published 4465 publications receiving 197714 citations. The organization is also known as: Odense universitet.
Topics: Mass spectrometry, Population, Histamine, Ion, Peptide sequence
Papers published on a yearly basis
Papers
More filters
••
TL;DR: In this paper, a modified version of DEA based upon comparison of efficient DMUs relative to a reference technology spanned by all other units is developed, which provides a framework for ranking efficient units and facilitates comparison with rankings based on parametric methods.
Abstract: Data Envelopment Analysis DEA evaluates the relative efficiency of decision-making units DMUs but does not allow for a ranking of the efficient units themselves. A modified version of DEA based upon comparison of efficient DMUs relative to a reference technology spanned by all other units is developed. The procedure provides a framework for ranking efficient units and facilitates comparison with rankings based on parametric methods.
3,320 citations
••
Rutgers University1, Council of Scientific and Industrial Research2, Massachusetts Institute of Technology3, Commonwealth Scientific and Industrial Research Organisation4, Odense University5, Arizona State University6, University of California, Los Angeles7, University of New Hampshire8, Swedish University of Agricultural Sciences9, University of Hawaii10, University of British Columbia11, Alfred Wegener Institute for Polar and Marine Research12, Royal Swedish Academy of Sciences13
TL;DR: It is concluded that although natural processes can potentially slow the rate of increase in atmospheric CO2, there is no natural "savior" waiting to assimilate all the anthropogenically produced CO2 in the coming century.
Abstract: :Motivated by the rapid increase in atmospheric CO2 due to human activities since the Industrial Revolution, several international scientific research programs have analyzed the role of individual components of the Earth system in the global carbon cycle. Our knowledge of the carbon cycle within the oceans, terrestrial ecosystems, and the atmosphere is sufficiently extensive to permit us to conclude that although natural processes can potentially slow the rate of increase in atmospheric CO 2, there is no natural “savior” waiting to assimilate all the anthropogenically produced CO 2 in the coming century. Our knowledge is insufficient to describe the interactions between the components of the Earth system and the relationship between the carbon cycle and other biogeochemical and climatological processes. Overcoming this limitation requires a systems approach.
1,839 citations
••
TL;DR: In this article, the authors consider the phenomenon of Born Globals, i.e., companies that adopt an international or even global approach right from their birth or very shortly thereafter, and they consider this phenomenon as being in strong opposition to the traditional models of internationalization.
1,723 citations
••
TL;DR: The effects on brain function associated with prenatal methylmercury exposure therefore appear widespread, and early dysfunction is detectable at exposure levels currently considered safe.
1,682 citations
•
01 Jan 19921,525 citations
Authors
Showing all 2660 results
Name | H-index | Papers | Citations |
---|---|---|---|
Matthias Mann | 221 | 887 | 230213 |
Christopher M. Dobson | 150 | 1008 | 105475 |
Carol V. Robinson | 123 | 670 | 51896 |
Lars Arendt-Nielsen | 118 | 1410 | 59474 |
Michael Givskov | 111 | 369 | 44823 |
Donald E. Canfield | 105 | 298 | 43270 |
Kaare Christensen | 105 | 871 | 50173 |
Søren Molin | 103 | 337 | 38937 |
Karsten Kristiansen | 97 | 471 | 63572 |
Philippe Grandjean | 93 | 540 | 34730 |
Thomas Walz | 92 | 255 | 29981 |
David Lloyd | 90 | 1017 | 37691 |
Steffen Loft | 90 | 486 | 28726 |
James W. Vaupel | 89 | 434 | 34286 |
James W. Hicks | 89 | 406 | 51636 |