Department of Biological Sciences University of Alabama Tuscaloosa Alabama USA"/> Department of Biological Sciences University of Alabama Tuscaloosa Alabama USA"/> Department of Biological Sciences University of Alabama Tuscaloosa Alabama USA"/> Department of Biological Sciences University of Alabama Tuscaloosa Alabama USA"/> Department of Biological Sciences University of Alabama Tuscaloosa Alabama USA"/>

Identifying potential drivers of distribution patterns of invasive Corbicula fluminea relative to native freshwater mussels (Unionidae) across spatial scales
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Award ID(s):
Publication Date:
NSF-PAR ID:
10370862
Journal Name:
Ecology and Evolution
Volume:
12
Issue:
3
ISSN:
2045-7758
Publisher:
Wiley Blackwell (John Wiley & Sons)
1. We report on spectroscopic measurements on the$4f76s28S7/2∘<#comment/>→<#comment/>4f7(8S∘<#comment/>)6s6p(1P∘<#comment/>)8P9/2$transition in neutral europium-151 and europium-153 at 459.4 nm. The center of gravity frequencies for the 151 and 153 isotopes, reported for the first time in this paper, to our knowledge, were found to be 652,389,757.16(34) MHz and 652,386,593.2(5) MHz, respectively. The hyperfine coefficients for the$6s6p(1P∘<#comment/>)8P9/2$state were found to be$A(151)=−<#comment/>228.84(2)MHz$,$B(151)=226.9(5)MHz$and$A(153)=−<#comment/>101.87(6)MHz$,$B(153)=575.4(1.5)MHz$, which all agree with previously published results except for A(153), which shows a small discrepancy. The isotope shift is found to be 3163.8(6) MHz, which also has a discrepancy with previously published results.