Title:	Adaptation of Agro-IBIS model for Eucalyptus carbon budget estimation at regional level: a case study in São Paulo State, Brazil.
Authors:	COLMANETTI, M. A. A. CUADRA, S. V. ATTIA, A. NOUVELLON, Y. GUILLEMOT, J. CAMPOE, O. C. CABRAL, O. M. R. LACLAU, J. GALDOS, M. LAMPARELLI, R. BORTOLUCCI, J. PEREIRA, B. MAIRE, G. Le
Affiliation:	M. A. A. COLMANETTI, UNICAMP; SANTIAGO VIANNA CUADRA, CPACT; A. ATTIA, Unicamp; Y. NOUVELLON, CIRAD, UMR Eco&Sols, Montpellier, France; Eco&Sols, Univ Montpellier, CIRAD, INRA, IRD, Montpellier, France; ESALQ; J. GUILLEMOT, CIRAD, UMR Eco&Sols, Montpellier, France; Eco&Sols, Univ Montpellier, CIRAD, INRA, IRD, Montpellier, France; ESALQ; UNESP; O. C. CAMPOE, UNESC. UFSC; OSVALDO MACHADO RODRIGUES CABRAL, CNPMA; J. LACLAU, CIRAD, UMR Eco&Sols, Montpellier, France; Eco&Sols, Univ Montpellier, CIRAD, INRA, IRD, Montpellier, France; ESALQ; M. GALDOS, UNICAMP; R. LAMPARELLI, UNICAMP; BORTOLUCCI, J., UNICAMP; B. PEREIRA, UNICAMP; G. Le MAIRE, Institute for Climate and Atmospheric Science, School of Earth and Environment, University of Leeds, Leeds, UnitedKingdom.
Date Issued:	2019
Citation:	Pesquisa Florestal Brasileira, v. 39, e201902043, p. 255-256, 2019. Special issue. Abstracts of the XXV IUFRO World Congress, 2019.
Pages:	255
Description:	Highly productive fast-growing Eucalyptus plantations cover more than 5 million hectares in Brazil and exhibit very dynamic carbon fluxes throughout their 6-7 year rotations. These plantations quickly shift from C sources at the beginning of the rotation to large C sinks until harvest. In order to get a model simulating carbon pool and fluxes for both Eucalyptus plantations and other crops, we integrated several sub-models of the Eucalyptus-dedicated Generic Decomposition And Yield Model (G?DAY) into the large scale and multi-cover model Agro-IBIS (Integrated Biosphere Simulator). The G?DAY model was previously parametrized and validated using large experimental datasets obtained in commercial eucalypt plantations in the state of São Paulo. Implementing an Eucalyptus plantation cover type within AgroIBIS, which had no Plant Functional Type dedicated to fast-growing forest plantations, required important changes in the carbon allocation turnover sub-models. This study included three phases: (1) the computational modification of AgroIBIS; (2) the model parametrization, calibration and validation using data fromintensively monitored sites or inventories datasets; and (3) model application at regional scaleusing sets of parameters which were considered to be constant in space and/or time based on data from the local experiments, and other sets of parameters which could vary spatially. Carbon fluxes of Eucalyptus plantations were simulated at the regional scale, and their inter-annual and spatial variabilities were analysed. Such spatial and multiannual quantification of carbon fluxesat large scalesbrings a better understanding of these forest ecosystems on global carbon cycling, which is a prerequisite to support policy decisions.
Thesagro:	Carbono Eucalipto
Keywords:	Agro IBIS model
Type of Material:	Resumo em anais e proceedings
Access:	openAccess
Appears in Collections:	Resumo em anais de congresso (CNPMA)