<p>Positive values correspond to increases in error rates; negative numbers are improvements in the degree of detection.</p><p>Variations in the wetland surface detected and in Error A and B between years 1984 and 2001.</p
Quantification of land cover and land use changes between 1973–1984, 1984–2016, and 1973–2016 using ...
<p>The variation of reflected, transmitted and intercepted PAR of all the plant densities over the g...
<p>Trends at the 10, 20, 40, 80 km grids and all Netherlands. In grey: changes between 1956–1970 and...
<p>Results of Error A and B (%) obtained in the analysis of the wetland indicator in years 1984 and ...
<p>Different scales are used in order to show in more detail the differences in surface detected by ...
Wetland indicator status of native annual forbs observed in T1 (2000–2001) and in T2 (2016–2017).</p
<p>Changes in annual surface runoff depth between 1990 and 2000; (-) indicates an increase in surfac...
Changes are assessed for (a) permanent water (b) seasonal water and (c) all surface water in the per...
Many wetlands rely on rainfall and surface run-off as their primary source of water and consequently...
<p>Illustrative example of error A and error B calculated from the layers of the indicator and the i...
<p>Changes in area of zones of different levels of sensitivity in the URMR during 2000–2010 accordin...
<p>Temporal relationship of rainfall interception ratios for redcedars (A) (Error bars are standard ...
<p>Variation in the F’ statistic for digital number (DN) differences between background (sky) and ve...
<p>The water level varied in the past 30 years. The wetland dried up from 1983 to 1988 because of de...
<p>Number of May ponds (in thousands per year) increased significantly (p<0.05) in waterfowl survey ...
Quantification of land cover and land use changes between 1973–1984, 1984–2016, and 1973–2016 using ...
<p>The variation of reflected, transmitted and intercepted PAR of all the plant densities over the g...
<p>Trends at the 10, 20, 40, 80 km grids and all Netherlands. In grey: changes between 1956–1970 and...
<p>Results of Error A and B (%) obtained in the analysis of the wetland indicator in years 1984 and ...
<p>Different scales are used in order to show in more detail the differences in surface detected by ...
Wetland indicator status of native annual forbs observed in T1 (2000–2001) and in T2 (2016–2017).</p
<p>Changes in annual surface runoff depth between 1990 and 2000; (-) indicates an increase in surfac...
Changes are assessed for (a) permanent water (b) seasonal water and (c) all surface water in the per...
Many wetlands rely on rainfall and surface run-off as their primary source of water and consequently...
<p>Illustrative example of error A and error B calculated from the layers of the indicator and the i...
<p>Changes in area of zones of different levels of sensitivity in the URMR during 2000–2010 accordin...
<p>Temporal relationship of rainfall interception ratios for redcedars (A) (Error bars are standard ...
<p>Variation in the F’ statistic for digital number (DN) differences between background (sky) and ve...
<p>The water level varied in the past 30 years. The wetland dried up from 1983 to 1988 because of de...
<p>Number of May ponds (in thousands per year) increased significantly (p<0.05) in waterfowl survey ...
Quantification of land cover and land use changes between 1973–1984, 1984–2016, and 1973–2016 using ...
<p>The variation of reflected, transmitted and intercepted PAR of all the plant densities over the g...
<p>Trends at the 10, 20, 40, 80 km grids and all Netherlands. In grey: changes between 1956–1970 and...
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