Your search keyword '"Nogales, Manuel [0000-0002-5327-3104]"' showing total 1 results

1. Impact of Volcanic Sulfur Emissions on the Pine Forest of La Palma, Spain

Author

Frank Weiser, Esther Baumann, Anke Jentsch, Félix Manuel Medina, Meng Lu, Manuel Nogales, Carl Beierkuhnlein, European Commission, German Research Foundation, University of Bayreuth, Cabildo de Tenerife, Nogales, Manuel [0000-0002-5327-3104], and Nogales, Manuel

Subjects

volcanism, chlorosis, natural disturbances, Forestry, Volcanic eruption, 15. Life on land, pine forest, volcanic eruption, Natural disturbances, oceanic island, Chlorosis, Volcanism, 13. Climate action, Pinus canariensis, Sentinel-2, natural pollution, sulfur, Cumbre Vieja, Pine forest, Oceanic island, Natural pollution, Sulfur

Abstract

In autumn 2021, the largest volcanic eruption on the island of La Palma in historic records took place. The Canary Islands are of volcanic origin and eruptions have always constituted part of their natural disturbance regime. Until recently, their impacts could not be directly observed and studied. Influence of the emission of phytotoxic gases on biodiversity and ecosystem dynamics was hitherto unknown. The recent eruption is still being intensely monitored. We used Sentinel-2 remote sensing data to analyze the spatial extent and intensity of the impact related to sulfuric emissions, aiming to understand the damage patterns in Canary pine forest. The emissions damaged 10% of that forest and affected 5.3% of the Natura 2000 protected areas. We concluded that this is largely due to the toxic effects of the enormous emissions of SO2. We found a clear correlation between the change in the normalized difference vegetation index (NDVI) and distance from the eruption. This pattern was weakly anisotropic, with stronger damage in southern directions. Counteracting effects, such as ash deposition, were largely excluded by combining NDVI change detection with tree cover density. We expect that vegetation damage will be transient. P. canariensis can resprout after forest fires, where most leaves are lost. Consequently, our assessment can serve as a reference for future ecosystem regeneration., This research was funded by the EU Horizon 2020 project e-shape under the grant agreement 820852. Funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation)–491183248. Funded by the Open Access Publishing Fund of the University of Bayreuth. The manuscript was proof-read by G. Jones, under project OTR02900 (SOLAUT_00026129) funded by the Cabildo de Tenerife TFinnova Program, supported by MEDI and FDCAN.