Tropical forest phenology in French Guiana from MODIS time series

Pennec, Alexandre; Gond, Valéry; Sabatier, Daniel

doi:10.1080/01431161.2010.507610

Cited by 39 publications

(38 citation statements)

References 9 publications

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“…These have shown that the photosynthetic behaviour of the tropical forest varies during the season. Studies suggest that the canopy of the Amazon rainforest plants flush their new leaves to maximize photosynthetic assimilation when the cloud cover is minimal and the photoperiod is maximal, that is, during the dry season (Huete et al, 2006;Pennec et al, 2011;Xiao et al, 2006). In the same way, EVI seems here to reach its highest values when the cloudiness is minimal.…”

Section: Phenological Profiles Of the Vegetation Classesmentioning

confidence: 55%

Mapping Congo Basin vegetation types from 300 m and 1 km multi-sensor time series for carbon stocks and forest areas estimation

et al. 2012

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Abstract. This study aims to contribute to the understanding of the Congo Basin forests by delivering a detailed map of vegetation types with an improved spatial discrimination and coherence for the whole Congo Basin region. A total of 20 land cover classes were described with the standardized Land Cover Classification System (LCCS) developed by the FAO. Based on a semi-automatic processing chain, the Congo Basin vegetation types map was produced by combining 19 months of observations from the Envisat MERIS full resolution products (300 m) and 8 yr of daily SPOT VEGE-TATION (VGT) reflectances (1 km). Four zones (north, south and two central) were delineated and processed separately according to their seasonal and cloud cover specificities. The discrimination between different vegetation types (e.g. forest and savannas) was significantly improved thanks to the MERIS sharp spatial resolution. A better discrimination was achieved in cloudy areas by taking advantage of the temporal consistency of the SPOT VGT observations. This resulted in a precise delineation of the spatial extent of the rural complex in the countries situated along the Atlantic coast. Based on this new map, more accurate estimates of the surface areas of forest types were produced for each country of the Congo Basin. Carbon stocks of the Basin were evaluated to a total of 49 360 million metric tons. The regional scale of the map was an opportunity to investigate what could be an appropriate tree cover threshold for a forest class definition in the Congo Basin countries. A 30 % tree cover threshold was suggested. Furthermore, the phenology of the different vegetation types was illustrated systematically with EVI temporal profiles. This Congo Basin forest types map reached a satisfactory overall accuracy of 71.5 % and even 78.9 % when some classes are aggregated. The values of the Cohen's kappa coefficient, respectively 0.64 and 0.76 indicates a result significantly better than random.

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Section: Phenological Profiles Of the Vegetation Classesmentioning

confidence: 55%

Mapping Congo Basin vegetation types from 300 m and 1 km multi-sensor time series for carbon stocks and forest areas estimation

et al. 2012

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“…The MOD09A1 500 m resolution was chosen because it covers the whole study area with one scene, including the time needed for image pre-processing. The resolution is suited to the context of tropical forest, as previously found in a study conducted in French Guiana (Pennec et al 2011).…”

Section: Quantification Of Net Primary Productivitymentioning

confidence: 91%

Mapping Human Impact on Net Primary Productivity Using MODIS Data for Better Policy Making

Razali

Atucha

Nuruddin

et al. 2015

Appl. Spatial Analysis

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Tropical forests support core biological, hydrological and socioeconomic functions essential to life on earth. An assessment based on the Human Appropriation of Net Primary Production (HANPP) could help reduce exploitation of these forests, increasing their adaptive capacity and lessening their vulnerability to losses of Net Primary Productivity (NPP). Here we apply HANPP to the study area, based on Land Use Impact variability between the forest and contiguous roads and plantations by application of Geographical Information Systems of Protected Area Tools. We used the human activity index and biomass extraction from forest to study the effects of population pressure. The final land use impact map showed that the largest area of forest land (37 %) is now in urban and agricultural use, and that these areas are located within 0-3 km of the forest land. NPP with human intervention showed, total NPP of the forest decreased by 7.4 %, Appl. Spatial Analysis from 104.4 to 96.6 gCm −2 month −1 . This study developed a new HANPP model and enhanced the usefulness of HANPP indicators by demonstrating the impact of human activity inside the forest. Because NPP changes most in higher-productivity areas, suitable policies should be enforced to avoid further human interference in the area.

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“…In other words, supervised classification is performed on stacked images acquired at many different dates. This technique allows seasonal variations and vegetation dynamics to be taken into account (Pennec, Gond, & Sabatier, 2011). For instance, slash-and-burn plots may subsequently have a different cover (a permanent crop, fallow, secondary regrowth) and secondary forest, forested fallow and intact forest may be confused depending on the selected date.…”

Section: Introductionmentioning

confidence: 99%

Estimating deforestation in tropical humid and dry forests in Madagascar from 2000 to 2010 using multi-date Landsat satellite images and the random forests classifier

Grinand

Rakotomalala

Gond

et al. 2013

Remote Sensing of Environment

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Tropical forest phenology in French Guiana from MODIS time series

Cited by 39 publications

References 9 publications

Mapping Congo Basin vegetation types from 300 m and 1 km multi-sensor time series for carbon stocks and forest areas estimation

Mapping Congo Basin vegetation types from 300 m and 1 km multi-sensor time series for carbon stocks and forest areas estimation

Mapping Human Impact on Net Primary Productivity Using MODIS Data for Better Policy Making

Estimating deforestation in tropical humid and dry forests in Madagascar from 2000 to 2010 using multi-date Landsat satellite images and the random forests classifier

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