State-and-transition simulation model - fire and drought effects Mediterranean ecosystems

Code of the simulation model and simulation runs that forms the basis of the manuscript: Batllori, E., M. De Cáceres, L. Brotons, D. D. Ackerly, M. A. Moritz, and F. Lloret. 2017. Cumulative effects of fire and drought in Mediterranean ecosystems. Ecosphere 8(8):e01906. 10.1002/ecs2.1906 The simulat...

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Detalhes bibliográficos
Autor: Batllori, Enric
Tipo de documento: conjunto de datos
Data de publicação:2025
País:España
Recursos:Consorci de Serveis Universitaris de Catalunya (CSUC)
Repositório:CORA.Repositori de Dades de Recerca
OAI Identifier:oai:dnet:cora.rdr____::c8d17548cc0da3c8095dcc71ab8155a8
Acesso em linha:https://doi.org/10.34810/DATA2480
Access Level:Acceso aberto
Palavra-chave:Earth and Environmental Sciences
Compound disturbance regimes
Mediterranean ecosystems
Regeneration traits
Ecosystem resilience
Climatic change
Descrição
Resumo:Code of the simulation model and simulation runs that forms the basis of the manuscript: Batllori, E., M. De Cáceres, L. Brotons, D. D. Ackerly, M. A. Moritz, and F. Lloret. 2017. Cumulative effects of fire and drought in Mediterranean ecosystems. Ecosphere 8(8):e01906. 10.1002/ecs2.1906 The simulation model, programmed in R statistical language (R version 3.2.2; R Core Team 2015), corresponds to a STSM integrated in a landscape of 400 (20 9 20) cells where vegetation dynamics is influenced by stochastic regimes of fire (implemented as a spatially explicit process) and sporadic, extreme drought. Each cell is described by the following state variables: the proportion of six major vegetation types, their corresponding live and dead biomass values, and a cell-level counter of time since disturbance that modulates processes of vegetation state change. Vegetation types are defined by broad formations, constituted by sparse vegetation, shrublands, and two developmental stages (young vs. mature) of a tree seeder and a tree resprouter.