diff --git a/README.md b/README.md
index 3b1a42748cc43dab37958e855579f74cbc76dc40..fd6b7e3af85e5336cbeb7715d51ffd7139cabe62 100644
--- a/README.md
+++ b/README.md
@@ -14,7 +14,7 @@ Check the `test_tbxsectors` notebook for more details.
 ## Description
 Python toolbox to divide polar regions into sectors. Available definitions:
 1. Arctic:
-    - Koenigk et al. (2016)
+    - Modified Koenigk et al. (2016)
     - Ã…rthun et al. (2021)
     - NSIDC mask (2023)
 2. Antarctic:
@@ -44,7 +44,7 @@ For a quick use, only the `src/tbxsectors.py` file is necessary, but the NSIDC d
 For those wishing to use NSIDC, make sure `xesmf` is installed and download the `data/NSIDCRegions_N3.125km_v1.1_wLatLon_df1.nc` netCDF file containing the NSIDC mask. Set it in your current working directory, or provide the path and name of the file to the `groupby_sectors` function.
 
 ## Further details
-The Koenigk et al. (2016), Ã…rthun et al. (2021), Zwally et al. (1983) and  Raphael & Hobbs (2014) are all based on simple latitude and longitude values, so can be applied with pure pythonic functions and conditions to any grid. 
+The Koenigk et al. (2016), Ã…rthun et al. (2021), Zwally et al. (1983) and  Raphael & Hobbs (2014) are all based on simple latitude and longitude values, so can be applied with pure pythonic functions and conditions to any grid. The original Koenigk et al. (2016) definition contains some overlaps and gaps: those are removed in the provided defintion.
 
 The NSIDC definition is more complexe and doesn't follow meridians or parallels: it is based on a mask provided by the NSIDC (see https://nsidc.org/sites/default/files/documents/technical-reference/nsidc-special-report-25.pdf and https://nsidc.org/data/nsidc-0780/versions/1).
 In order to apply this definition, the mask (provided here as `data/NSIDCRegions_N3.125km_v1.1_wLatLon_df1.nc`) needs to be interpolated onto the grid of the user data (hence the use of `xesmf` package), before it can be used.