diff --git a/mapfile/template.j2 b/mapfile/template.j2
index b9bca587c5c278cdef3bd8def1573b48696bf16d..24e1a590e31c5ccddab8335b29a83b0e55ef1838 100644
--- a/mapfile/template.j2
+++ b/mapfile/template.j2
@@ -36,48 +36,52 @@ WEB
     # i18n support: https://mapserver.org/ogc/inspire.html#inspire-multi-language-support  
     METADATA
             "wms_keywordlist" "VIPS model Septoria Reference Humidity Model (SEPTREFHUM)"
-            "wms_abstract"  "<p>The reference humidity model was developed as a supplement to
-            the Humidity model. In this model 20 consecutive hours are
-            required to fulfil a risk period. One constraint in this
-            method is that you can have 19 consecutive risk hours  or,
-            fx 14 hours with risk then one hour below the Rh threshold
-            and then maybe 14 hours again with risk hours. In one of
-            these situations, the model will indicate a risk. In the
-            reference model the definition of Humid hours was introduced.
-            The Rh threshold was avoided as humid hours do not need to be
-            consecutive. The running sum of humid hours across three days
-            indicate that the Septoria risk is higher than if you have
-            three days with humid conditions than two or one. The operation
-            of the model should include weather forecast data and should
-            run 6 days ahead from current day if you include a 7-day weather
-            forecast (60 hours from national met office and until 7 days from ECMWF)</p>
-            <p>
-            The model was tested against the Humidity model in a Danish
-            Septoria project funded by the GUDP. The threshold of 40 was
-            defined as high risk as this coincided with periods when the
-            humidity model recommended to apply fungicide (if not already protected).
-            The humidity model includes a decision model about when to spray,
-            protection periods ect. The reference model was used to quality
-            control the recommendations in a way that, if the reference humidity
-            hours were higher than 40 (no thresholds) then the user should
-            check the raw data for calculation of the Humidity model (threshold,
-            20 consecutive hours). If 2-3 periods of 17, 18, or 19 consecutive
-            hours appear, then one can consider to protect the crop based on the
-            reference model alone.</p>
-            <p>The Humidity model is considered as a DSS with several components.
-            The reference humidity model is considered as a weather based submodel
-            for the risk of Septoria, Easy to map and calculate based on weather data alone.</p>
-            
-            <h3>How to implement the warning status</h3>
-            <ul>
-            <li>Green: High risk of infection</li>
-            <li>Yellow: Medium risk of infection</li>
-            <li>Red: Medium risk of infection</li>
-            </ul>
-            <h3>Explanation of parameters</h3>
-            <ul>
-            <li>WHS = Wet hour sum</li>
-            </ul>
+            "wms_abstract"  "<div id='preamble'>
+              <p>The reference humidity model was developed as a supplement to
+              the Humidity model. In this model 20 consecutive hours are
+              required to fulfil a risk period. One constraint in this
+              method is that you can have 19 consecutive risk hours  or,
+              fx 14 hours with risk then one hour below the Rh threshold
+              and then maybe 14 hours again with risk hours. In one of
+              these situations, the model will indicate a risk. In the
+              reference model the definition of Humid hours was introduced.
+              The Rh threshold was avoided as humid hours do not need to be
+              consecutive. The running sum of humid hours across three days
+              indicate that the Septoria risk is higher than if you have
+              three days with humid conditions than two or one. The operation
+              of the model should include weather forecast data and should
+              run 6 days ahead from current day if you include a 7-day weather
+              forecast (60 hours from national met office and until 7 days from ECMWF)</p>
+            </div>
+            <div id='body'>
+              <p>
+              The model was tested against the Humidity model in a Danish
+              Septoria project funded by the GUDP. The threshold of 40 was
+              defined as high risk as this coincided with periods when the
+              humidity model recommended to apply fungicide (if not already protected).
+              The humidity model includes a decision model about when to spray,
+              protection periods ect. The reference model was used to quality
+              control the recommendations in a way that, if the reference humidity
+              hours were higher than 40 (no thresholds) then the user should
+              check the raw data for calculation of the Humidity model (threshold,
+              20 consecutive hours). If 2-3 periods of 17, 18, or 19 consecutive
+              hours appear, then one can consider to protect the crop based on the
+              reference model alone.</p>
+              <p>The Humidity model is considered as a DSS with several components.
+              The reference humidity model is considered as a weather based submodel
+              for the risk of Septoria, Easy to map and calculate based on weather data alone.</p>
+              
+              <h3>How to interpret the warning status</h3>
+              <ul>
+              <li>Green: High risk of infection</li>
+              <li>Yellow: Medium risk of infection</li>
+              <li>Red: Medium risk of infection</li>
+              </ul>
+              <h3>Explanation of parameters</h3>
+              <ul>
+              <li>WHS = Wet hour sum</li>
+              </ul>
+            </div>
             "
         "wms_enable_request"  "*"
         "wms_title"     "Septoria Reference Humidity Model"