Publication:
Combined spatial and temporal effects of environmental controls on long-term monthly NDVI in the Southern Africa savanna

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Date

2013

Authors

Southworth, Jane
Zhu, Likai
Waylen, Peter
Bunting, Erin

Director

Publisher

MDPI
Acceso abierto / Sarbide irekia
Artículo / Artikulua
Versión publicada / Argitaratu den bertsioa

Project identifier

Abstract

Deconstructing the drivers of large-scale vegetation change is critical to predicting and managing projected climate and land use changes that will affect regional vegetation cover in degraded or threated ecosystems. We investigate the shared dynamics of spatially variable vegetation across three large watersheds in the southern Africa savanna. Dynamic Factor Analysis (DFA), a multivariate time-series dimension reduction technique, was used to identify the most important physical drivers of regional vegetation change. We first evaluated the Advanced Very High Resolution Radiometer (AVHRR)- vs. the Moderate Resolution Imaging Spectroradiometer (MODIS)-based Normalized Difference Vegetation Index (NDVI) datasets across their overlapping period (2001–2010). NDVI follows a general pattern of cyclic seasonal variation, with distinct spatio-temporal patterns across physio-geographic regions. Both NDVI products produced similar DFA models, although MODIS was simulated better. Soil moisture and precipitation controlled NDVI for mean annual precipitation (MAP) < 750 mm, and above this, evaporation and mean temperature dominated. A second DFA with the full AVHRR (1982–2010) data found that for MAP < 750 mm, soil moisture and actual evapotranspiration control NDVI dynamics, followed by mean and maximum temperatures. Above 950 mm, actual evapotranspiration and precipitation dominate. The quantification of the combined spatio-temporal environmental drivers of NDVI expands our ability to understand landscape level changes in vegetation evaluated through remote sensing and improves the basis for the management of vulnerable regions, like the southern Africa savannas.

Keywords

Dynamic factor analysis, Time-series analysis, NDVI, Land cover change, Climate change, Temperature, Mean annual precipitation, Soil moisture, Potential evapotranspiration

Department

Proyectos e Ingeniería Rural / Landa Ingeniaritza eta Proiektuak

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Funding entities

This study was funded by the NASA Land Cover Land Use Change (LCLUC) Project # NNX09AI25G, titled “The Role of Socioeconomic Institutions in Mitigating Impacts of Climate ariability and Climate Change in Southern Africa”, and the National Science Foundation Integrated Graduate Education, Research and Training (NFS-IGERT) 0504422 Adaptive Management of Water, Wetlands and Watersheds. J.S. and R.M.C. both acknowledge support from the University of Florida Research Foundation Professorships.

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