diff --git a/doc/sphinx/introduction/what_is_the_gwb.md b/doc/sphinx/introduction/what_is_the_gwb.md
index b97661cd2..67a8151f5 100644
--- a/doc/sphinx/introduction/what_is_the_gwb.md
+++ b/doc/sphinx/introduction/what_is_the_gwb.md
@@ -6,7 +6,7 @@ The geodynamic models can be divided in **three broad classes**.
 
 1. **Simple synthetic models:**
 
-   This class which involve simplistic geometries for generic modeling and are easy to make and parameterize. These are god for simplified problems and benchmarks.
+   This class which involve simplistic geometries for generic modeling and are easy to make and parameterize. These are good for simplified problems and benchmarks.
 2. **Data driven models:**
 
    This class which consists of initial conditions (semi-)automatically derived from datasets like tomography.  These are often used for instantaneous models. 
@@ -14,6 +14,6 @@ The geodynamic models can be divided in **three broad classes**.
 
    The case which blends complex 3d interpretation driven detailed geometrical features and thermal fields. This can be useful to parameterize instantaneous models or make setups for models starting in the past.
 
-**The GWB has been designed to make the third case a *lot* easier**, but can also be used to design simple synthetic models and in currently work is being done to also be able to integrate datasets in a way which aligns with the GWB design philosophies.
+**The GWB has been designed to make the third case a *lot* easier**, but can also be used to design simple synthetic models and several types of datasets are supported to be used to setup models in a way which aligns with the GWB design philosophies.
 
 Besides setting up initial conditions for geodynamic models, the GWB can also be used to make detailed 3D visualizations of geologic and geodynamic settings (see {ref}`part:user_manual:chap:how_to_use_the_apps:sec:gwb-grid_app`)