Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
publicationspage [2014/01/09 13:55] mkopppublicationspage [2019/03/21 10:21] (current) – external edit 127.0.0.1
Line 1: Line 1:
 ====== Publications ====== ====== Publications ======
 +
 +  *  Fitzpatrick C., Hobson E., Mendelson T., Rodriguez R., Safran R., Scordato E., Servedio M., Stern C., Symes L. and **Kopp M.** (2018).\\ //Theory meets empiry: a citation network analysis//.\\ BioScience 68: 805-812.
 +
 +  *  **Kopp M.**, Nassar E. and Pardoux E. (2018).\\ //Phenotypic lag and population extinction in the moving-optimum model: insights from a small-jumps limit//.\\ Journal of Mathematical Biology 77: 1431-1458.
 +
 +  *  **Kopp M.**, Servedio M., Mendelson T., Safran R., Rodriguez R., Hauber M., Scordato E., Symes L., Balakrishnan C., Zonana D. and van Doorn S. (2018).\\ //Mechanisms of assortative mating in speciation with gene flow: connecting theory and empirical research//.\\ American Naturalist 191:1-20. 
 +
 +  *  Matuszewski S., Hermisson J. and **Kopp M**. (2015).\\ //Catch me if you can: Adaptation from standing genetic variation to a moving phenotypic optimum//.\\ Genetics  200:1255-1274.
 +
 +  *  Tollrian R., Duggen S., Weiss L., Laforsch C. and **Kopp M**. (2015).\\ //Density-dependent adjustment of inducible defenses//.\\ Scientific Reports 5: 12736.
 +
 +  *  Matuszewski S., Hermisson J. and **Kopp M**. (2014).\\ //Fisher's geometric model with a moving optimum//.\\ Evolution 68: 2571–2588.
  
   * **Kopp M**. and Matuszewski S. (2014).\\ //Rapid evolution of quantitative traits: theoretical perspectives//.\\ Evolutionary Applications 7: 169-191.   * **Kopp M**. and Matuszewski S. (2014).\\ //Rapid evolution of quantitative traits: theoretical perspectives//.\\ Evolutionary Applications 7: 169-191.
  
-  * Caspers B., Krause E., Hendrix R., **Kopp M**., Rupp O., Rosentreter K. and Steinfartz S. (2013).\\ //The more the better – polyandry and genetic similarity are positively linked to reproductive success in a natural population of terrestrial salamanders (Salamandra+  * Caspers B., Krause E., Hendrix R., **Kopp M**., Rupp O., Rosentreter K. and Steinfartz S. (2014).\\ //The more the better – polyandry and genetic similarity are positively linked to reproductive success in a natural population of terrestrial salamanders (Salamandra
 salamandra)//.\\ Molecular Ecology 23: 239–250. salamandra)//.\\ Molecular Ecology 23: 239–250.