B23H-01
Seasonal Precipitation Variability Effects on Carbon Exchange in a Tropical Dry Forest of Northwest Mexico

Tuesday, 15 December 2015: 13:40
2004 (Moscone West)
Vivian Verduzco1, Jaime Garatuza-Payán1, Enrico A. Yépez1, Christopher J Watts2, Julio Cesar Rodriguez3, Agustin Robles-Morua1 and Enrique R Vivoni4, (1)Instituto Tenológico de Sonora, Department of Water Science and Environmental Studies, Cd. Obregón, Mexico, (2)Universidad de Sonora, Department of Physics, Hermosillo, Mexico, (3)Universidad de Sonora, Department of Agriculture and Livestock, Hermosillo, Mexico, (4)Arizona State University, Tempe, AZ, United States
Abstract:
The Tropical Dry Forest (TDF) cover a large area in tropical and subtropical regions in the Americas and its productivity is thought to have an important contribution to the atmospheric carbon fluxes. However, due to this ecosystem complex dynamics, our understanding about the mechanisms controlling net ecosystem exchange is limited. In this study, five years of continue water and carbon fluxes measurements from eddy covariance complemented with remotely sensed vegetation greenness were used to investigate the ecosystem carbon balance of a TDF in the North American Monsoon region under different hydro climatic conditions. We identified a large CO2 efflux at the start of the summer season that is strongly related to the preceding winter precipitation and greenness. Since this CO2 efflux occurs prior to vegetation green-up, we infer a predominant heterotrophic control owed to high decomposition of accumulated labile soil organic matter from prior growing season. Overall, ecosystem respiration has an important effect on the net ecosystem production over the year, but can be overwhelmed by the strength of the primary productivity during the monsoon season. Precipitation characteristics during the monsoon have significant controls on sustaining carbon fixation in the TDF ecosystem into the fall season. A threshold of ~350 to 400 mm of summer precipitation was identify to switch the annual carbon balance in the TDF ecosystem from a net source (+102 g C/m2/yr) to a net sink (-249 g C/m2/yr). This research points at the needs for understanding the potential effects of changing seasonal precipitation patterns on ecosystem dynamics and carbon sequestration in subtropical regions.