A.H. Heidema scite author profile

In order to map the spatial distribution of twenty tree species groups over Europe at 1 km 9 1 km resolution, the ICP-Forest Level-I plot data were extended with the National Forest Inventory (NFI) plot data of eighteen countries. The NFI grids have a much smaller spacing than the ICP grid. In areas with NFI plot data, the proportions of the land area covered by the tree species were mapped by compositional kriging. Outside these areas, these proportions were mapped with a multinomial multiple logistic regression model. A soil map, a biogeographical map and bioindicators derived from temperature and precipitation data were used as predictors. Both methods ensure that the predicted proportions are in the interval [0,1] and sum to 1. The regression predictions were iteratively scaled to the National Forest Inventory statistics and the Forest map of Europe. The predicted proportions for the twenty tree species were validated by the Bhattacharryya distance between predicted and observed proportions at 230 plot data separated from the calibration data. Besides, the map with the predicted dominant species was validated by computing the error matrix. The median Bhattacharryya distance in the subarea with NFI plot data was 1.712, whereas in the subarea with ICP-Level-I data, this was 2.131. The scaling did not significantly decrease the Bhattacharryya distance. The estimated overall accuracy of this map was 43%. In areas with NFI plot data, overall accuracy was 57%, outside these areas 33%. This gain was mainly attributable to the much denser plot data, less to the prediction method.

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European forest carbon balance assessed with inventory based methods—An introduction to a special section

Nabuurs

Hengeveld

Werf

et al. 2010

Forest Ecology and Management

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Trend monitoring of the areal extent of habitats in a subsiding coastal area by spatial probability sampling

Brus

Slim

Heidema

et al. 2014

Ecological Indicators

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Monitoring habitat types by the mixed multinomial logit model using panel data

Brus

Slim

Gort

et al. 2016

Ecological Indicators

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Towards a high resolution forest carbon balance for Europe based on inventory data.

Nabuurs¹,

Werf²,

Heidema³

et al. 2007

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A high resolution, inventory-based carbon (C) balance assessment for European forests for the period 2000-2030 was developed to reduce the high discrepancy in results found between inversion modelling (combined with biogeochemical modelling) and ground-based (forest inventory) modelling exercises. Preliminary results are provided showing the temporal evolution of the C balance (forest biomass, soils and products) in Norway over the period 2000-2020, and the spatial distribution of C balance per plot in France and in the Netherlands in 2000.

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A.H. Heidema

Statistical mapping of tree species over Europe

European forest carbon balance assessed with inventory based methods—An introduction to a special section

Trend monitoring of the areal extent of habitats in a subsiding coastal area by spatial probability sampling

Monitoring habitat types by the mixed multinomial logit model using panel data

Towards a high resolution forest carbon balance for Europe based on inventory data.

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