Red diurna de polinización de “Cuabales de Cajálbana”, un matorral xeromorfo sobre serpentina de Cuba occidental
Date
2020Author
Alameda, Diego
Falcón Hidalgo, Banessa
Rijo, Gabriela
Fernández, Dennys de Vales
Castañeda, Alicia
Leyva, Luis Manuel
Metadata
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Pollination, the transfer of pollen from anthers to stigmas of flowers, is a key process in the life cycle of angiosperms (Faegri & van der Pijl 1978). Approximately 87.5 % of flowering plants depends on pollinating animals for successful pollination and reproduction (Ollerton & al. 2011). Insects are the main group that has closely coevolved with flowering plants for this purpose (Olesen & al. 2007).Pollination as an ecological process is best studied at the community level with the pollination network analysis (Bascompte & Jordano 2007). Pollination networks are one kind of mutualistic network formed by interactions between all pollinators and plants in a community (Jordano 1987). The network approach is useful for understanding some community phenomena such as interspecific competition (Lara-Romero & al. 2016), facilitation (Feisinger 1987), temporal change (Petanidou & al. 2008), extinction cascades (Elle & al. 2012) and spatiotemporal variation (Petanidou & al. 2008, Freitas & al. 2015).Variation of pollination networks results from changes in the composition of pollinators and plants, or the structure of the network (Cuartas-Hernández & Medel 2015). Temporal changes are caused by changes in the phenology of plants and variation in abundance of pollinator species between seasons (Olesen & al. 2008). The spatial variation of pollination networks is influenced by several factors including: the richness of pollinators and plants, the foraging area of pollinators, the spatial extension of populations of plants and pollinators and the heterogeneity of landscape (García & al. 2009). Although pollination networks are studied as spatiotemporal snapshots, they are dynamic entities (Olesen & al. 2011a).Pollination, the transfer of pollen from anthers to stigmas of flowers, is a key process in the life cycle of angiosperms (Faegri & van der Pijl 1978). Approximately 87.5% of flowering plants depends on pollinating animals for successful pollination and reproduction (Ollerton & al. 2011). Insects are the main group that has closely coevolved with flowering plants for this purpose (Olesen & al. 2007). Pollination as an ecological process is best studied at the community level with the pollination network analysis (Bascompte & Jordano 2007). Pollination networks are one kind of mutualistic network formed by interactions between all pollinators and plants in a community (Jordan 1987). The network approach is useful for understanding some community phenomena such as interspecific competition (Lara-Romero & al. 2016), facilitation (Feisinger 1987), temporal change (Petanidou & al. 2008), extinction cascades (Elle & al. 2012) and spatio variationtemporal (Petanidou & al. 2008, Freitas & al. 2015). Variation of pollination networks results from changes in the composition of pollinators and plants, or the structure of the network (Cuartas-Hernández & Medel 2015). Temporary changes are caused by changes in the phenology of plants and variation in abundance of pollinator species between seasons (Olesen & al. 2008). The spatial variation of pollination networks is influenced by several factors including: the richness of pollinators and plants, the foraging area of pollinators, the spatial extension of populations of plants and pollinators and the heterogeneity of landscape (García & al. 2009). Although pollination networks are studied as spatiotemporal snapshots, they are dynamic entities (Olesen & al. 2011a).(Traducción Automática)