Technical Note: Inter‐annual analysis of deforestation hotspots in Madagascar from high temporal resolution satellite observations

The island of Madagascar is one of the world's highest conservation priorities due to its unique species and ecosystems, which are reportedly threatened by rapid deforestation. Although designated a global ‘biodiversity hotspot’, there have been conflicting reports on the nature of the island's forest decline to date. Differences in forest estimates have resulted from the limited temporal scales of previous studies, non‐standardized definitions of forest and the incongruences of satellite data between different investigations. The aim of this study was to identify ‘hotspots’ of vegetation change within Madagascar to assist national biodiversity conservation planning. We used the Normalized Difference Vegetation Index derived from 14 consecutive years of satellite data from the National Oceanic and Atmospheric Administration's Advanced Very High Resolution Radiometer, to identify areas within the island's evergreen forests, which have undergone statistically significant vegetation change, either loss or gain, throughout the study period. Our results show that vegetation cover within the island's forest areas is highly dynamic, with vegetation loss and gain occurring throughout the study period. Most changes were located in the northern part of the island and in the central portion of the western boundary of the eastern evergreen forest belt. Designated protected areas did not safeguard against change events.

[1]  Steven M. Goodman,et al.  The Natural History of Madagascar , 2003 .

[2]  D. Roy,et al.  An overview of MODIS Land data processing and product status , 2002 .

[3]  W. Mcconnell Madagascar: Emerald Isle or Paradise Lost? , 2002 .

[4]  Jiyuan Liu,et al.  Characterization of forest types in Northeastern China, using multi-temporal SPOT-4 VEGETATION sensor data , 2002 .

[5]  C. Kull Madagascar's Burning Issue: The Persistent Conflict over Fire , 2002 .

[6]  Stephen S. Young,et al.  Land-cover change analysis of China using global-scale Pathfinder AVHRR Landcover (PAL) data, 1982?92 , 2001 .

[7]  Arthur P. Cracknell,et al.  The exciting and totally unanticipated success of the AVHRR in applications for which it was never intended , 2001 .

[8]  S. Sader,et al.  Comparison of change-detection techniques for monitoring tropical forest clearing and vegetation regrowth in a time series , 2001 .

[9]  C. Kull Deforestation, erosion, and fire: degradation myths in the environmental history of Madagascar. , 2000 .

[10]  Neil W. Pelkey,et al.  Vegetation in Tanzania : assessing long term trends and effects of protection using satellite imagery , 2000 .

[11]  G. Senay,et al.  Combining AVHRR-NDVI and landuse data to describe temporal and spatial dynamics of vegetation , 2000 .

[12]  R. Mittermeier,et al.  Biodiversity hotspots for conservation priorities , 2000, Nature.

[13]  Etienne Bartholomé,et al.  A near-real time forest-cover map of Madagascar derived from SPOT-4 VEGETATION data , 2000 .

[14]  Frédéric Achard,et al.  Global tropical forest area measurements derived from coarse resolution satellite imagery: a comparison with other approaches , 1998, Environmental Conservation.

[15]  R. Lunetta,et al.  A change detection experiment using vegetation indices. , 1998 .

[16]  Yosio Edemir Shimabukuro,et al.  The long-term monitoring of vegetation cover in the Amazonian region of northern Brazil using NOAA-AVHRR data , 1997 .

[17]  C. Woodcock,et al.  An assessment of several linear change detection techniques for mapping forest mortality using multitemporal landsat TM data , 1996 .

[18]  Wilhelm Barthlott,et al.  Global distribution of species diversity in vascular plants : towards a world map of phytodiversity , 1996 .

[19]  J. Moat,et al.  A REFINED CLASSIFICATION OF THE PRIMARY VEGETATION OF MADAGASCAR BASED ON THE UNDERLYING GEOLOGY: USING GIS TO MAP ITS DISTRIBUTION AND TO ASSESS ITS CONSERVATION STATUS. , 1996 .

[20]  J. Townshend,et al.  Global discrimination of land cover types from metrics derived from AVHRR pathfinder data , 1995 .

[21]  Ross Nelson,et al.  AVHRR-LAC estimates of forest area in Madagascar, 1990 , 1993 .

[22]  J. B. Davies,et al.  A Natural History , 2013 .

[23]  S. Nicholson,et al.  A comparison of the vegetation response to rainfall in the Sahel and East Africa, using normalized difference vegetation index from NOAA AVHRR , 1990 .

[24]  J Richards,et al.  Computer processing of remotely-sensed images: An introduction , 1990 .

[25]  G. Green,et al.  Deforestation History of the Eastern Rain Forests of Madagascar from Satellite Images , 1990, Science.

[26]  Ashbindu Singh,et al.  Review Article Digital change detection techniques using remotely-sensed data , 1989 .

[27]  B. Holben Characteristics of maximum-value composite images from temporal AVHRR data , 1986 .

[28]  John R. Jensen,et al.  Introductory Digital Image Processing: A Remote Sensing Perspective , 1986 .

[29]  C. Justice,et al.  Analysis of the phenology of global vegetation using meteorological satellite data , 1985 .

[30]  T. I. Gray,et al.  Vegetation health: Nature's climate monitor , 1985 .

[31]  Alison Jolly,et al.  CHAPTER 13 – Malagasy Economics and Conservation: A Tragedy Without Villains , 1984 .

[32]  J. Andriamampianina CHAPTER 14 – Nature Reserves and Nature Conservation in Madagascar , 1984 .

[33]  R. Nelson Detecting forest canopy change due to insect activity using Landsat MSS , 1983 .

[34]  P. Curran Multispectral remote sensing of vegetation amount , 1980 .

[35]  C. Tucker Red and photographic infrared linear combinations for monitoring vegetation , 1979 .

[36]  P. Morat,et al.  Flore et végétation de Madagascar , 1974 .