Exploring willow decline in an over-greening riparian corridor (River Jarama, Spain)

Abstract

The analysis of willow forest decline in the Jarama River has been assessed through the study of morphological river conditions in three periods (1956, 1998 and 2018) together with active channel mobility ratios and changes in channel planform and vegetation coverage. Species composition of current riparian corridors at river segment scale and monitored natural recruitment of pioneer species at local scale have been studied. Jarama River has changed from wide active wandering towards narrower meandering channels with dense and continuous riparian over-greening corridors, in which willow formations are threatened, and drought-tolerant species have colonised it. Landform evolution shows an intensive ‘maturation’ associated with ‘anthropisation’ processes during the first period, while stability dominates nowadays. Results show a generalised aging and progressive mortality of shrub willows and the expansion of forests dominated by Fraxinus angustifolia, likely associated to the progressive reduction of channel mobility and the lack of bare gravel bars for pioneer recruitment. The dominant willow species is Salix salviifolia, a drought tolerant willow that has been able to withstand the processes of 'maturation’ and channel narrowing being widely distributed throughout the riparian section. On the other hand, other strict pioneer willows such as Salix eleagnos and Salix purpurea are very rare and are found in the few gravel banks that remain on the shore. Results predict a gradual disappearance of willows in the Jarama River as there is no significant recruitment, and they would last as long if those old specimens may survive.

Keywords:

• Riparian vegetation
• vegetation encroachment
• over-greening
• Salix
• river

Acknowledgements

This research was supported by the project SAUCERES (PGC2018-098416-B-I00) of the Ministry of Science, Innovation and Universities. VMF was funded by a “Juan de la Cierva” research contract (Spanish MINECO grant no. FJC2018-035451-I) at the National Museum of Natural Sciences, CSIC, Spain. Authors would like to thank the two anonymous reviewers whose comments greatly improves this manuscript.

Disclosure statement

No potential conflict of interest was reported by the authors.