Compartir
Título
Regeneration dynamics in fragmented landscapes at the leading edge of distribution: Quercus suber woodlands as a study case
Autor(es)
Materia
Quercus suber
Recruitment dynamics
Edge distribution
Secondary succession
Growth- climate relationships
Clasificación UNESCO
24 Ciencias de la vida
Fecha de publicación
2021
Editor
Springer
Citación
Montero-Muñoz, J. L., Ureña, C., Navarro, D., Herrera, V., Alonso-Rojo, P., Hernández-Alonso, H., ... & Silla, F. (2021). Regeneration dynamics in fragmented landscapes at the leading edge of distribution: Quercus suber woodlands as a study case. Plant and Soil, 467(1-2), 311-327.
Resumen
[ENG]Aims We studied the regeneration dynamics of woodlands and abandoned old fields in a landscape dominated by Quercus suber in its lower limits of rainfall and temperature. Two hypotheses were established: (1) regeneration of Quercus species is strongly favored by the presence of tree cover; and (2) growth of Q. suber is driven by the climatic variables that represent the lower ecological limit of its leading distribution edge.
Methods We selected woodlands and old fields with and without tree remnants (n =3 per type), and analyzed stand structure, soil parameters and tree growth.
Results Succession was arrested in old fields with- out tree remnants. By contrast, remnant trees were accelerators of forest recovery in old fields. Tree cover played a fundamental role in Quercus recruitment throughout seed dispersal and facilitation that mitigate the e fields of summer drought on seedlings. Also, tree cover improved soil parameters (e.g., organic matter) that are important factors for under- standing differences in regeneration. Winter/spring precipitation exerted a positive effect on tree growth, as well as temperatures during winter/spring and September.
Conclusions Regeneration dynamics are modeled by the density of tree cover in the cold and dry edge of the distribution area of Q. suber where Q. ilex is increasing in abundance. Although temperature has a positive effect on the tree growth of Q. suber, when demographic processes are considered, decreases in water availability likely play a critical role in Q. ilex recruitment. This in turn changes dominance hierarchies, especially in abandoned areas with little or no tree cover.
URI
ISSN
0032-079X
DOI
10.1007/S11104-021-05077-7
Versión del editor
Colecciones
Ficheros en el ítem
Tamaño:
3.781Mb
Formato:
Adobe PDF