Publication details.

Paper

Year:2019
Author(s):P. Monroy, C. García-Verdugo
Title:Testing the hypothesis of loss of defenses on islands across a wide latitudinal gradient of Periploca laevigata populations
Journal:AMERICAN JOURNAL OF BOTANY
ISSN:0002-9122
JCR Impact Factor:3.038
Volume:106
Issue No.:2
Pages:303-312
D.O.I.:10.1002/ajb2.1232
Web:https://dx.doi.org/10.1002/ajb2.1232
Abstract:© 2019 Botanical Society of America Premise of the Study: We tested a hypothesis that predicts loss of chemical defenses on island plant populations (LCDIH) as an evolutionary response to limited herbivore pressures. Methods: Using a common garden approach, we grew 16 populations (N = 286 seedlings) of Periploca laevigata, a Mediterranean shrub for which previous studies suggested that animal browsing elicits defensive responses mediated by tannins. Our experimental setting represented a wide latitudinal gradient (37–15°N) encompassing three island systems, virtually free of large herbivores, and three mainland areas. Putative chemical defenses were estimated from tannin–protein precipitation assays, and inducible responses in growth and chemical traits were assessed between seasons and by subjecting plants to a pruning treatment. Key Results: We failed to find support for the LCDIH, since island populations (Canary Islands, Cape Verde) had increasingly higher constitutive levels of tannins at lower latitudes. Seasonality, but not experimental pruning, induced variation in levels of tannins in a consistent pattern across populations. Thus, net differences in leaf tannin concentration remained similar among geographical areas regardless of the factor considered, with latitude being the best explanatory factor for this trait over seasonal growth patterns. Conclusions: Geographical variation in total tannin pools appears to be mediated by factors other than herbivore pressure in P. laevigata. We hypothesize that abiotic correlates of latitude not considered in our study have promoted high constitutive levels of leaf tannins across Macaronesian populations, which ultimately may explain the pattern of seasonal variation and latitudinal increase from Mediterranean to subtropical Cape Verde populations.

Related departments

  • Oceanography and Global Change
  • Related research groups

  • Global Change Research