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Rainfall and rain pulse role on energy, water vapor and CO2 exchanges in a tropical semiarid environment

2023; Elsevier BV; Volume: 345; Linguagem: Inglês

10.1016/j.agrformet.2023.109829

1873-2240

Cláudio Moisés Santos e Silva, Bergson Guedes Bezerra, Keila Rêgo Mendes, Pedro R. Mutti, Daniele Tôrres Rodrigues, Gabriel Brito Costa, Pablo E. S. Oliveira, Jean Souza dos Reis, Thiago V. Marques, Rosária R. Ferreira, Suany Campos, Tarsila M. Ramos, Mariana Melissa Lima Vieira, Ane Caroline C.F. Oliveira, Claudiana Rufino da Silva, Any Caroline Silva, Antônio Celso Dantas Antonino, Rômulo Simões Cézar Menezes,

Climate variability and models

Several aspects of the hydrological regime influence the CO2 exchanges between the atmosphere and drylands. The objective of this study was to carry out a thorough assessment of the role of rainfall pulses on the energy fluxes, water vapor and CO2 exchanges over the Caatinga Biome using data collected in 2014 and 2015. We conducted an unprecedented analysis on the effects of precipitation pulses on the different components of the CO2 balance between the Caatinga and the atmosphere. Data was collected in a flux tower equipped with an eddy covariance system in a preserved Caatinga area in Northeast Brazil. Results showed a well defined relationship between rainfall variability and energy balance and CO2 exchange. Rain pulses caused systematic increases in surface conductance (Gs), leading to a higher CO2 absorption in the short-term. In 2014, the higher amount of rain pulse events along with higher overall rainfall amounts resulted in 68 % of total absorbed CO2 being assimilated during post-pulse events. In 2015, fewer but more intense pulses occurred, contributing to 39 % of total CO2 absorbed in the wet season. The overall effect of rain pulses on the CO2 balance over the Caatinga site in the Semiarid Brazil depends on the distribution and amount of rainfall in each pulse event.