Temporal variability of MODIS phenological indices in the temperate rainforest of northern Patagonia

Carlos Lara, Gonzalo S. Saldías, Alvaro L. Paredes, Bernard Cazelles, Bernardo R. Broitman

Research output: Contribution to journalArticlepeer-review

10 Scopus citations

Abstract

Western Patagonia harbors unique and sparsely studied terrestrial ecosystems that are threatened by land use changes and exposure to basin-scale climatic variability. We assessed the performance of two satellite vegetation indices derived from MODIS-Terra, EVI (Enhanced Vegetation Index) and NDVI (Normalized Difference Vegetation Index), over the northern and southern sectors of the Chiloé Island System (CIS) to advance our understanding of vegetation dynamics in the region. Then we examined their time-varying relationships with two climatic indices indicative of tropical and extratropical influence, the ENSO (El Niño-Southern Oscillation) and the Antarctic Oscillation (AAO) index, respectively. The 17-year time series showed that only EVI captured the seasonal pattern characteristic of temperate regions, with low (high) phenological activity during Autumn-Winter (Spring-Summer). NDVI saturated during the season of high productivity and failed to capture the seasonal cycle. Temporal patterns in productivity showed a weakened seasonal cycle during the past decade, particularly over the northern sector. We observed a non-stationary association between EVI and both climatic indices. Significant co-variation between EVI and the Niño-Southern Oscillation index in the annual band persisted from 2001 until 2008-2009; annual coherence with AAO prevailed from 2013 onwards and the 2009-2012 period was characterized by coherence between EVI and both climate indices over longer temporal scales. Our results suggest that the influence of large-scale climatic variability on local weather patterns drives phenological responses in the northern and southern regions of the CIS. The imprint of climatic variability on patterns of primary production across the CIS may be underpinned by spatial differences in the anthropogenic modification of this ecosystem, as the northern sector is strongly modified by forestry and agriculture. We highlight the need for field validation of satellite indices around areas of high biomass and high endemism, located in the southern sector of the island, in order to enhance the utility of satellite vegetation indices in the conservation and management of austral ecosystems.

Original languageEnglish
Article number956
JournalRemote Sensing
Volume10
Issue number6
DOIs
StatePublished - 1 Jun 2018

Keywords

  • Climatic variability
  • MODIS
  • Primary productivity
  • Vegetation index
  • Wavelet coherence

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