Growth and stable isotope signals associated with drought‐related mortality in saplings of two coexisting pine species
Ikusi/ Ireki
Data
2013-06-25Egilea
Herrero Méndez, Asier
Castro Gutiérrez, Jorge
Zamora Rodríguez, Regino
Delgado Huertas, Antonio
Querejeta Mercader, José Ignacio
Oecologia 173 : 1613-1624 (2013)
Laburpena
Drought-induced events of massive tree mortality appear to be increasing worldwide. Species-specific vulnerability to drought mortality may alter patterns of species diversity and affect future forest composition. We have explored the consequences of the extreme drought of 2005, which caused high sapling mortality (approx. 50 %) among 10-year-old saplings of two coexisting pine species in the Mediterranean mountains of Sierra Nevada (Spain): boreo-alpine Pinus sylvestris and Mediterranean P. nigra. sapling height growth, leaf δ13c and δ18O, and foliar nitrogen concentration in the four most recent leaf cohorts were measured in dead and surviving saplings. The foliar isotopic composition of dead saplings (which reflects time-integrated leaf gas-exchange until mortality) displayed sharp increases in both δ13c and δ18O during the extreme drought of 2005, suggesting an important role of stomatal conductance (gs) reduction and diffusional limita- tions to photosynthesis in mortality. While P. nigra showed decreased growth in 2005 compared to the previous wetter year, P. sylvestris maintained similar growth levels in both years. Decreased growth, coupled with a sharper increase in foliar δ18O during extreme drought in dead saplings, indicate a more conservative water use strategy for P. nigra. The different physiological behavior of the two pine species in response to drought (further supported by data from surviving saplings) may have influenced 2005 mortality rates, which contributed to 2.4-fold greater survival for P. nigra over the lifespan of the saplings. This species-specific vulnerability to extreme drought could lead to changes in dominance and distribution of pine species in Mediterranean mountain forests.