Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The ES Reporting Zones layer delineates areas of the region for the purpose of reporting local scientific and catchment specific information.</SPAN></P><P><SPAN>This data is referred to as reporting catchments in the report:</SPAN></P><P><A href="https://contentapi.datacomsphere.com.au:443/v1/h%3Aes/repository/libraries/id:26gi9ayo517q9stt81sd/hierarchy/document-library/reports/science-reports/Contaminant%20reduction%20modelling%20reports%20%282021%29/Report%20-%20Nutrient%20load%20reduction%20modelling%20-%20lakes%2C%20rivers%2C%20estuaries%20%28LWP%29.pdf" STYLE="text-decoration:underline;"><SPAN>Assessment of nutirient load reductions to achieve freshwater objectives in the rivers, lakes and estuaries of Southland including uncertainties.</SPAN></A></P><P><SPAN STYLE="font-weight:bold;">Creation of this layer</SPAN></P><P><SPAN>ES Reporting </SPAN><SPAN>Zones</SPAN><SPAN> created </SPAN><SPAN>6/06</SPAN><SPAN>/2023 by dissolving on the </SPAN><SPAN>fact sheet zones</SPAN><SPAN> field in GisAdmin>ES_ReportingCatchments</SPAN></P><P><SPAN STYLE="font-weight:bold;">Any changes must be made in GisAdmin>ES_ReportingCatchments as the boundaries exactly align so we can report up and down</SPAN></P><P><SPAN>The GisAdmin>ES_Reporting</SPAN><SPAN>Zones</SPAN><SPAN> layer was created by the following means:</SPAN></P><UL><LI><P><SPAN>This catchment layer is derived from</SPAN><SPAN> FreshwaterManagementUnit layer, with realignment using </SPAN><SPAN>REC 3 v3b.</SPAN></P></LI><LI><P><SPAN>Then using REC 3 v3b, split FMU layer down to SubCatchment level. Sub Catchment field was a realignment of CatNum and has the catnum names. For Major catchments and catchment fields existing layers Major/Minor Catchments and Surfa</SPAN><SPAN>c</SPAN><SPAN>e Water Zones were used to identify these levels.</SPAN></P></LI><LI><P><SPAN>Fact Sheet Zones relate to the values catchment work that was done as part of the WALP2020 process.</SPAN></P></LI></UL></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>The ES Reporting Zones layer delineates areas of the region for the purpose of reporting local scientific and catchment specific information.</SPAN></P><P><SPAN>This data is referred to as reporting catchments in the report:</SPAN></P><P><A href="https://contentapi.datacomsphere.com.au:443/v1/h%3Aes/repository/libraries/id:26gi9ayo517q9stt81sd/hierarchy/document-library/reports/science-reports/Contaminant%20reduction%20modelling%20reports%20%282021%29/Report%20-%20Nutrient%20load%20reduction%20modelling%20-%20lakes%2C%20rivers%2C%20estuaries%20%28LWP%29.pdf" STYLE="text-decoration:underline;"><SPAN>Assessment of nutirient load reductions to achieve freshwater objectives in the rivers, lakes and estuaries of Southland including uncertainties.</SPAN></A></P><P><SPAN STYLE="font-weight:bold;">Creation of this layer</SPAN></P><P><SPAN>ES Reporting </SPAN><SPAN>Zones</SPAN><SPAN> created </SPAN><SPAN>6/06</SPAN><SPAN>/2023 by dissolving on the </SPAN><SPAN>fact sheet zones</SPAN><SPAN> field in GisAdmin>ES_ReportingCatchments</SPAN></P><P><SPAN STYLE="font-weight:bold;">Any changes must be made in GisAdmin>ES_ReportingCatchments as the boundaries exactly align so we can report up and down</SPAN></P><P><SPAN>The GisAdmin>ES_Reporting</SPAN><SPAN>Zones</SPAN><SPAN> layer was created by the following means:</SPAN></P><UL><LI><P><SPAN>This catchment layer is derived from</SPAN><SPAN> FreshwaterManagementUnit layer, with realignment using </SPAN><SPAN>REC 3 v3b.</SPAN></P></LI><LI><P><SPAN>Then using REC 3 v3b, split FMU layer down to SubCatchment level. Sub Catchment field was a realignment of CatNum and has the catnum names. For Major catchments and catchment fields existing layers Major/Minor Catchments and Surfa</SPAN><SPAN>c</SPAN><SPAN>e Water Zones were used to identify these levels.</SPAN></P></LI><LI><P><SPAN>Fact Sheet Zones relate to the values catchment work that was done as part of the WALP2020 process.</SPAN></P></LI></UL></DIV></DIV></DIV>
Description: <DIV STYLE="text-align:Left;font-size:12pt"><P><SPAN>Southland’s physiographic zones allow us to better understand why we have variations in water quality in different areas. Southland has been divided into nine different zones according to factors such as soil type, geology and topography. We can then target solutions to higher risk areas as opposed to a region-wide, generalised approach. This layer was developed as part of the Water and Land 2020 & beyond project. </SPAN></P><P><SPAN>For more information and to download the fact sheets visit http://waterandland.es.govt.nz/southland-science/physiographic-zones</SPAN></P></DIV>