Tree establishment along an ENSO experimental gradient in the Atacama desert
Article first published online: 24 FEB 2009
2007 IAVS - the International Association of Vegetation Science
Journal of Vegetation Science
Volume 18, Issue 2, pages 195–202, April 2007
How to Cite
Squeo, F. A., Holmgren, M., Jiménez, M., Albán, L., Reyes, J. and Gutiérrez, J. R. (2007), Tree establishment along an ENSO experimental gradient in the Atacama desert. Journal of Vegetation Science, 18: 195–202. doi: 10.1111/j.1654-1103.2007.tb02530.x
- Issue published online: 24 FEB 2009
- Article first published online: 24 FEB 2009
- Received 26 January 2006; Accepted 28 September 2006
- El Niño;
- Rainy pulse;
- Seedling establishment;
- Water threshold
Questions: (1) What are the roles of regional climate and plant growth rate for seedling establishment during ENSO rainy pulses along the western coast of South America? (2) What is the water threshold for tree seedling establishment in these arid ecosystems?
Location: Atacama Desert, western South America: Piura (5°10’ S, 80°37’ W), Mejia (17°00’ S, 71°59’ W), Fray Jorge (30°41'S,71°37'W).
Methods: We experimentally simulated a gradient of ENSO rainfall in three locations encompassing the total extent of the Atacama Desert to test the relative importance of regional climate for seedling establishment during rainy pulses. We also carried out a common garden experiment to test the role of potential interspecific differences in growth rate among two Prosopis tree species.
Results: Water threshold for seedling survival increased towards the south with less than 27 mm required in Piura, 100 mm in Mejia and 450 mm in Fray Jorge. We found that seedling survival and growth rate (shoots and roots) were much higher in Piura than in the other two sites for both Prosopis species.
Conclusions: Our results indicate that tree establishment during rainy pulses is more likely to be successful in regions where rain falls during warm months and stimulates fast plant growth, and where loose soil texture facilitates deep root growth and therefore access to more stable water sources.