<?xml version="1.0" encoding="UTF-8" standalone="yes"?>
<ana user="ktluser" project="Intarese_wp3_4" generated="15. touta 2008 15:49 " softwareversion="4.0.0" software="Analytica">
 <sysvar name="Time">
  <description>Dynamic simulation periods are specified in Time's definition. This is usually a list of numbers or labels, typically in some unit of time (days, weeks, months, etc.).  Use the &#xD2;Dynamic()&#xD3; function in your variables to perform dynamic simulation.</description>
 </sysvar>
 <sysvar name="Usetable">
  <definition>0</definition>
 </sysvar>
 <sysvar name="Typechecking">
  <definition>0</definition>
 </sysvar>
 <sysvar name="Checking">
  <definition>1</definition>
 </sysvar>
 <sysvar name="Showhier">
  <definition>1</definition>
 </sysvar>
 <sysvar name="Saveoptions">
  <definition>2</definition>
 </sysvar>
 <sysvar name="Savevalues">
  <definition>0</definition>
 </sysvar>
 <sysvar name="Sv__dateoriginoffset">
  <definition>-1460</definition>
 </sysvar>
 <attribute name="Focus_scope">
  <title>Focus+scope</title>
 </attribute>
 <attribute name="Moderator">
  <title>Moderator</title>
 </attribute>
 <attribute name="References">
  <title>References</title>
 </attribute>
 <askattribute name="Focus_scope" function="Function" enable="yes"/>
 <askattribute name="Moderator" function="Function" enable="yes"/>
 <askattribute name="References" function="Function" enable="yes"/>
 <askattribute name="Focus_scope" function="Module" enable="yes"/>
 <askattribute name="Moderator" function="Module" enable="yes"/>
 <askattribute name="References" function="Module" enable="yes"/>
 <askattribute name="Focus_scope" function="Variable" enable="yes"/>
 <askattribute name="Moderator" function="Variable" enable="yes"/>
 <askattribute name="References" function="Variable" enable="yes"/>
 <model name="Intarese_wp3_4">
  <title>INTARESE WP3.4 </title>
  <author>PM</author>
  <date>14. jouta 2006 16:17</date>
  <saveauthor>ktluser</saveauthor>
  <savedate>15. touta 2008 15:49 </savedate>
  <defaultsize>48,24</defaultsize>
  <diagstate>1,1,0,448,245,17</diagstate>
  <windstate>2,102,90,476,224</windstate>
  <fontstyle>Arial Narrow, 13</fontstyle>
  <fileinfo>0,Model Intarese_wp3_4,2,2,0,1,C:\Analytica models\Nitrate.ANA</fileinfo>
  <module name="Risk_model">
   <title>Risk model</title>
   <author>P&#xE4;ivi</author>
   <date>11. tamta 2008 10:45</date>
   <defaultsize>48,24</defaultsize>
   <nodelocation>176,48,1</nodelocation>
   <nodesize>48,24</nodesize>
   <diagstate>1,0,0,1440,799,17</diagstate>
   <index name="Population_age_struc">
    <title>Population age structure</title>
    <definition>[1]</definition>
    <nodelocation>512,48,1</nodelocation>
    <nodesize>48,24</nodesize>
   </index>
   <index name="Country">
    <title>Country</title>
    <definition>['Finland','UK','Spain','Hungary','Romania']</definition>
    <nodelocation>504,112,1</nodelocation>
    <nodesize>48,24</nodesize>
    <windstate>2,102,90,476,224</windstate>
    <att_previndexvalue>['Finland','UK','Spain','Hungary','Romania']</att_previndexvalue>
   </index>
   <module name="Exposure_model">
    <title>Exposure model</title>
    <author>ktluser</author>
    <date>28. maata 2008 10:20 </date>
    <defaultsize>48,24</defaultsize>
    <nodelocation>232,64,1</nodelocation>
    <nodesize>48,24</nodesize>
    <diagstate>1,0,-23,1440,626,17</diagstate>
    <constant name="Source_of_drinking_w">
     <title>Source of drinking water</title>
     <units>%</units>
     <description>Percentage of population using tap and well water</description>
     <definition>Table(Country,Water_source)(
0.06,0.94,
0,0,
0,0,
0,0,
0,0
)</definition>
     <nodelocation>160,48,1</nodelocation>
     <nodesize>48,29</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <defnstate>2,0,-23,1072,555,0,MIDM</defnstate>
     <reformdef>[Water_source,Country]</reformdef>
     <reformval>[Undefined,Undefined]</reformval>
     <displayoutputs>[Variable Total_daily_consump1, Variable Total_daily_consump3]</displayoutputs>
    </constant>
    <variable name="Proportion_of_boile1">
     <title>Proportion of boiled drinking water</title>
     <definition>0</definition>
     <nodelocation>480,56,1</nodelocation>
     <nodesize>40,32</nodesize>
    </variable>
    <variable name="Total_daily_consump1">
     <title>Total daily consumption of drinking water from public supply by infants &lt; 6 months</title>
     <units>l/day</units>
     <definition>Truncate( Normal (0.240, 0.247), 0, 0.800 )</definition>
     <nodelocation>312,152,1</nodelocation>
     <nodesize>92,28</nodesize>
     <windstate>2,0,-23,1072,555</windstate>
     <valuestate>2,0,-23,1072,555,1,STAT</valuestate>
     <displayinputs>[Constant Source_of_drinking_w, Variable Infants__6_months]</displayinputs>
     <displayoutputs>[Objective Total_ingestion]</displayoutputs>
     <references>http://rais.ornl.gov/homepage/DRAFT_EXPOSURE_HANDBOOK.pdf</references>
    </variable>
    <variable name="Total_daily_consump3">
     <title>Total daily consumption of privately supplied drinking water by infacts &lt; 6 months</title>
     <units>l/d</units>
     <definition>(&#x7B;Population_size&#x7D;*Source_of_drinking_w*Daily_consumption_o1)</definition>
     <nodelocation>104,152,1</nodelocation>
     <nodesize>64,44</nodesize>
     <windstate>2,14,227,1072,555</windstate>
     <displayinputs>[Constant Source_of_drinking_w, Variable Infants__6_months, Chance No3_well]</displayinputs>
     <displayoutputs>[Objective Total_ingestion]</displayoutputs>
    </variable>
    <objective name="Total_ingestion">
     <title>Total ingestion of nitrates in drinking water by infacts &lt; 6 months</title>
     <definition>Table(Country,Water_source,Data,Age_group)(
'&#x92;&#x92;I&#x92;f Local_water_data[Source=&#x92;Tap water*] &gt;1 then x else No3_tap &#x92;',0,
0,0,
0,0,
'Local_water_data[Source=&#x92;Tap water*] ',0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0,
0,0
)</definition>
     <nodelocation>200,272,1</nodelocation>
     <nodesize>52,36</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <defnstate>2,0,-23,1440,799,0,MIDM</defnstate>
     <reformdef>[Water_source,Data]</reformdef>
     <reformval>[Data,Country]</reformval>
     <displayinputs>[Variable Total_daily_consump1, Variable Total_daily_consump3]</displayinputs>
     <displayoutputs>[Objective Total_met_hb_mortal1]</displayoutputs>
     <att_resultslicestate>[Water_source,1,Age_group,1,Country,1,Data,1]</att_resultslicestate>
     <att_editslicestate>[Data,1,Age_group,1,Country,1,Water_source,1]</att_editslicestate>
    </objective>
    <variable name="Infants__6_months">
     <title>Infants &lt;6 months</title>
     <description>Number of infants &lt; 6 months in each country</description>
     <definition>Table(Country)(
28.6792K,0,0,0,0)</definition>
     <nodelocation>312,48,1</nodelocation>
     <nodesize>48,24</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <defnstate>2,0,-23,1072,555,0,MIDM</defnstate>
     <displayinputs>[]</displayinputs>
     <displayoutputs>[Variable Total_daily_consump1, Variable Total_daily_consump3]</displayoutputs>
    </variable>
   </module>
   <variable name="Risk_level_for_no3_">
    <title>Risk level for NO3-</title>
    <units>mg/l</units>
    <description>The risk limit for symptomatic methemoglobinemia due to nitrate in drinking water </description>
    <definition>100</definition>
    <nodelocation>480,392,1</nodelocation>
    <nodesize>48,24</nodesize>
    <windstate>2,0,-23,1431,789</windstate>
   </variable>
   <variable name="Population_size">
    <title>Population size</title>
    <definition>Table(Country)(
5.194901M,0,0,0,0)</definition>
    <nodelocation>472,456,1</nodelocation>
    <nodesize>48,24</nodesize>
    <windstate>2,0,-23,1072,555</windstate>
   </variable>
   <index name="Water_source">
    <title>Water source</title>
    <description>Drinking water sources: Treated tap water or untreated water from private well</description>
    <definition>['Tap water','Well water']</definition>
    <nodelocation>488,240,1</nodelocation>
    <nodesize>48,24</nodesize>
    <att_previndexvalue>['Tap water','Well water']</att_previndexvalue>
   </index>
   <module name="Health_effects">
    <title>Health effects</title>
    <author>ktluser</author>
    <date>28. maata 2008 10:20 </date>
    <defaultsize>48,24</defaultsize>
    <nodelocation>232,184,1</nodelocation>
    <nodesize>48,24</nodesize>
    <diagstate>1,0,-23,1440,799,17</diagstate>
    <objective name="Attributable_burden1">
     <title>Attributable burden of disease to nitrates in drinking water</title>
     <definition>&#x7B;Daly_valuation&#x7D;;
&#x7B;Concentration_of_ni</definition>
     <nodelocation>104,160,1</nodelocation>
     <nodesize>60,28</nodesize>
     <displayinputs>[Variable Background_prevalen1, Objective Total_met_hb_mortal1]</displayinputs>
     <displayoutputs>[Objective Dalys_and_or_financ1]</displayoutputs>
    </objective>
    <variable name="Background_prevalen1">
     <title>Background prevalence of Met-Hb</title>
     <definition>[1,Infection_status_of_]</definition>
     <nodelocation>288,160,1</nodelocation>
     <nodesize>64,20</nodesize>
     <windstate>2,0,-23,1152,763</windstate>
     <displayoutputs>[Objective Attributable_burden1]</displayoutputs>
    </variable>
    <objective name="Dalys_and_or_financ1">
     <title>DALYs and/or financial costs</title>
     <definition>&#x7B;Dbp_dalys&#x7D;;
&#x7B;Mirobes_dalys&#x7D;
(Risk_estimate)</definition>
     <nodelocation>104,264,1</nodelocation>
     <nodesize>48,28</nodesize>
     <displayinputs>[Objective Attributable_burden1, Variable Daly_and_or_cost_we1]</displayinputs>
     <displayoutputs>[]</displayoutputs>
    </objective>
    <variable name="Daly_and_or_cost_we1">
     <title>DALY and/or cost weightings</title>
     <definition>0</definition>
     <nodelocation>288,264,1</nodelocation>
     <nodesize>48,32</nodesize>
     <displayoutputs>[Objective Dalys_and_or_financ1]</displayoutputs>
    </variable>
    <objective name="Total_met_hb_mortal1">
     <title>Total met-Hb mortality and morbidity due to nitrates in drinking water</title>
     <definition>&#x7B;Daly_valuation&#x7D;;
&#x7B;Dbp_health_effects&#x7D;</definition>
     <nodelocation>104,56,1</nodelocation>
     <nodesize>64,32</nodesize>
     <displayinputs>[Objective Total_ingestion, Chance Exposure_response]</displayinputs>
     <displayoutputs>[Objective Attributable_burden1]</displayoutputs>
    </objective>
    <variable name="Infection_status_of_">
     <title>Infection status of infants &lt; 6 months</title>
     <nodelocation>432,160,1</nodelocation>
     <nodesize>48,24</nodesize>
    </variable>
    <variable name="Noel_for_no3_">
     <title>NOEL for NO3-</title>
     <units>mg/l</units>
     <description>No effect level (NOEL) for nitrate in drinking water</description>
     <definition>100</definition>
     <nodelocation>704,56,1</nodelocation>
     <nodesize>48,24</nodesize>
    </variable>
    <objective name="Health_risk_estimate">
     <title>Health risk estimate for infant MetHg</title>
     <definition>Table(Water_source,Reference)(
'&#x92;(Total_ingestion_[Age_group=&#x92;Child&#x92;, Source=&#x92;Tap water&#x92;,Data=&#x92;Distribution&#x92;]/Exposure_response[Reference=&#x92;TCA/TDI&#x92;])&#x92;','(Exposure_response[Reference=&#x92;NOAEC/LOAEC/NOAEL/LOAEL&#x92;]/Total_ingestion[Age_group=&#x92;Infant&#x92;,Source=&#x92;Tap water&#x92;,Data=&#x92;Distribution&#x92;])&#x92;',
'&#x92;(Total_ingestion_[Age_group=&#x92;Child&#x92;, Source=&#x92;Well water&#x92;,Data=&#x92;Distribution&#x92;]/Exposure_response[Reference=&#x92;TCA/TDI&#x92;])&#x92;','(Exposure_response[Reference=&#x92;NOAEC/LOAEC/NOAEL/LOAEL&#x92;]/Total_ingestion[Age_group=&#x92;Infant&#x92;,Source=&#x92;Well water&#x92;,Data=&#x92;Distribution&#x92;])&#x92;'
)</definition>
     <nodelocation>704,144,1</nodelocation>
     <nodesize>60,32</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <defnstate>2,0,-23,1440,799,0,MIDM</defnstate>
     <reformdef>[Reference,Water_source]</reformdef>
     <reformval>[Water_source,Reference]</reformval>
    </objective>
    <text name="Te12">
     <description>Risk estimate 2</description>
     <nodelocation>656,24,-1</nodelocation>
     <nodesize>48,24</nodesize>
    </text>
    <text name="Te13">
     <description>Risk estimate 1</description>
     <nodelocation>64,24,-1</nodelocation>
     <nodesize>48,24</nodesize>
    </text>
    <index name="Rc">
     <title>RC</title>
     <description>Risk characterisation approach</description>
     <definition>['Hazard quotient','Margin of safety']</definition>
     <nodelocation>872,56,1</nodelocation>
     <nodesize>48,24</nodesize>
    </index>
    <index name="Reference">
     <title>Reference</title>
     <definition>['TCA/TDI','NOAEC/LOAEC/NOAEL/LOAEL']</definition>
     <nodelocation>864,128,1</nodelocation>
     <nodesize>48,24</nodesize>
     <att_previndexvalue>['TCA/TDI','NOAEC/LOAEC/NOAEL/LOAEL']</att_previndexvalue>
    </index>
    <index name="Data">
     <title>Data</title>
     <definition>['Distribution','Average','Max']</definition>
     <nodelocation>864,216,1</nodelocation>
     <nodesize>48,24</nodesize>
     <att_previndexvalue>['Distribution','Average','Max']</att_previndexvalue>
    </index>
   </module>
   <module name="Dose_response_model">
    <title>Dose response model</title>
    <author>ktluser</author>
    <date>28. maata 2008 10:20 </date>
    <defaultsize>48,24</defaultsize>
    <nodelocation>384,64,1</nodelocation>
    <nodesize>48,24</nodesize>
    <diagstate>1,0,-23,1440,799,17</diagstate>
    <chance name="Exposure_response">
     <title>Exposure-response function for nitrate and iMetHg</title>
     <definition>If Total_ingestion &gt;100 then 'Yes' else 'No'
</definition>
     <nodelocation>112,88,1</nodelocation>
     <nodesize>68,36</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <reformval>[Data,Country]</reformval>
     <displayoutputs>[Objective Total_met_hb_mortal1]</displayoutputs>
    </chance>
   </module>
   <module name="Sources">
    <title>Sources</title>
    <author>ktluser</author>
    <date>28. maata 2008 10:20 </date>
    <defaultsize>48,24</defaultsize>
    <nodelocation>72,64,1</nodelocation>
    <nodesize>48,24</nodesize>
    <diagstate>1,0,-23,1440,799,17</diagstate>
    <chance name="No3_well">
     <title> [NO3] in drinking water from well</title>
     <definition>If Local_data_well=Na, then General_well else Local_well</definition>
     <nodelocation>80,280,1</nodelocation>
     <nodesize>60,40</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <valuestate>2,0,752,1440,799,0,MIDM</valuestate>
     <displayinputs>[Object Variable, Variable General_tap, Variable Local_data_well]</displayinputs>
     <displayoutputs>[Variable Total_daily_consump3]</displayoutputs>
    </chance>
    <chance name="No3_tap">
     <title> [NO3] in drinking water from tap </title>
     <definition>If Local_data_tap=Na, then General_tap else Loca_water_tap
</definition>
     <nodelocation>248,280,1</nodelocation>
     <nodesize>60,40</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <valuestate>2,0,-23,1440,799,0,MIDM</valuestate>
     <displayinputs>[Variable Local_data_tap, Variable General_well]</displayinputs>
    </chance>
    <decision name="Drinking_water_legi1">
     <title>Drinking water legistation and guidance levels on nitrates</title>
     <units>mg NO3-/l</units>
     <description>Nitrate concentration in drinking water. EU Directive 80/778/ETY for waterworks &gt;5000 people of production &gt;1000m3/d</description>
     <definition>50</definition>
     <nodelocation>472,104,1</nodelocation>
     <nodesize>68,32</nodesize>
     <displayoutputs>[Variable Standard_for_nitrat2]</displayoutputs>
    </decision>
    <variable name="Standard_for_nitrat2">
     <title>Standard for nitrate </title>
     <units>mg NO3-/l</units>
     <definition>Table(Country)(
50,50,50,50,50)</definition>
     <nodelocation>472,192,1</nodelocation>
     <nodesize>48,24</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <displayinputs>[Decision Drinking_water_legi1]</displayinputs>
     <displayoutputs>[]</displayoutputs>
    </variable>
    <variable name="Local_data_tap">
     <title>Local data on [NO3-] in tap water</title>
     <definition>Table(Country,Finland_areas_nuts2)(
'Normal (3.6875, 1.021804688)&#x92;','&#x92;&#x92;Normal (1.3125, 0.961304917)','&#x92;Normal (2.0625, 2.321291205)','&#x92;Normal (3.6875, 2.890100097)',
'Na','Na','Na','Na',
'Na','Na','Na','Na',
'Na','Na','Na','Na',
'Na','Na','Na','Na'
)</definition>
     <nodelocation>248,32,1</nodelocation>
     <nodesize>48,29</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <defnstate>2,0,0,1431,789,0,MIDM</defnstate>
     <valuestate>2,0,-23,1432,789,1,MIDM</valuestate>
     <reformdef>[Country,Finland_areas_nuts2]</reformdef>
     <reformval>[Finland_areas_nuts2,Country]</reformval>
     <displayoutputs>[Chance No3_tap]</displayoutputs>
     <att_editslicestate>[Rc,2,Finland_areas_nuts2,1,Country,1]</att_editslicestate>
    </variable>
    <decision name="De2">
     <title>De1</title>
     <definition>1</definition>
     <nodelocation>472,120,-3</nodelocation>
     <nodesize>76,128</nodesize>
     <nodeinfo>1,1,1,0,1,1,0,,0,</nodeinfo>
     <nodecolor>65535,65535,65535</nodecolor>
    </decision>
    <text name="Te11">
     <description>Needed for risk evaluation?</description>
     <nodelocation>456,32,-1</nodelocation>
     <nodesize>48,24</nodesize>
    </text>
    <variable name="General_tap">
     <title>General [NO3-] concentration in tap water</title>
     <definition>Table(Country,Water_source)(
Normal (1,0),0,
Normal (1,0),0,
Normal (1,0),0,
Normal (1,0),0,
Normal (1,0),0
)</definition>
     <nodelocation>80,112,1</nodelocation>
     <nodesize>48,38</nodesize>
     <windstate>2,0,-23,1440,799</windstate>
     <defnstate>2,0,-23,1440,799,0,MIDM</defnstate>
     <valuestate>2,0,-23,1440,799,0,MIDM</valuestate>
     <reformdef>[Water_source,Country]</reformdef>
     <reformval>[Water_source,Country]</reformval>
     <displayoutputs>[Chance No3_well]</displayoutputs>
    </variable>
    <variable name="Local_data_well">
     <title>Local data on [NO3-] in well water</title>
     <definition>Table(Country,Finland_areas_nuts2)(
'Na','Na','Na','Na',
'Na','Na','Na','Na',
'Na','Na','Na','Na',
'Na','Na','Na','Na',
'Na','Na','Na','Na'
)</definition>
     <nodelocation>80,32,1</nodelocation>
     <nodesize>48,29</nodesize>
     <windstate>2,102,90,476,224</windstate>
     <reformdef>[Finland_areas_nuts2,Country]</reformdef>
     <displayoutputs>[Chance No3_well]</displayoutputs>
    </variable>
    <variable name="General_well">
     <title>General [NO3-] concentration in  well water</title>
     <nodelocation>248,120,1</nodelocation>
     <nodesize>48,29</nodesize>
     <displayoutputs>[Chance No3_tap]</displayoutputs>
    </variable>
   </module>
   <index name="Finland_areas_nuts2">
    <title>Finland areas NUTS2</title>
    <definition>['&#xA0;&#xA0;FI18','&#xA0;&#xA0;FI19','&#xA0;&#xA0;FI13','&#xA0;&#xA0;FI1A']</definition>
    <nodelocation>480,312,1</nodelocation>
    <nodesize>48,24</nodesize>
    <windstate>2,0,-119,1432,790</windstate>
    <att_previndexvalue>['&#xA0;&#xA0;FI18','&#xA0;&#xA0;FI19','&#xA0;&#xA0;FI13','&#xA0;&#xA0;FI1A']</att_previndexvalue>
   </index>
   <index name="Age_group">
    <title>Age group</title>
    <description>Age groups: Infant (&lt; 6 monts), Adult</description>
    <definition>['Infant ','Adult']</definition>
    <nodelocation>496,176,1</nodelocation>
    <nodesize>48,24</nodesize>
    <att_previndexvalue>['Infant ','Adult']</att_previndexvalue>
   </index>
  </module>
  <module name="Conceptual_model">
   <title>Conceptual model</title>
   <author>ktluser</author>
   <date>10. huhta 2008 12:14 </date>
   <defaultsize>48,24</defaultsize>
   <nodelocation>56,48,1</nodelocation>
   <nodesize>48,24</nodesize>
   <diagstate>1,0,0,1431,789,17</diagstate>
   <objective name="Attributable_burden2">
    <title>Attributable burden of disease to nitrates in drinking water</title>
    <definition>&#x7B;Daly_valuation&#x7D;;
&#x7B;Concentration_of_ni</definition>
    <nodelocation>976,256,1</nodelocation>
    <nodesize>60,28</nodesize>
    <displayinputs>[Variable Background_prevalen2, Objective Total_met_hb_mortal3]</displayinputs>
    <displayoutputs>[Objective Dalys_and_or_financ2]</displayoutputs>
   </objective>
   <variable name="Background_prevalen2">
    <title>Background prevalence of Met-Hb</title>
    <definition>[1]</definition>
    <nodelocation>976,320,1</nodelocation>
    <nodesize>64,20</nodesize>
    <windstate>2,0,-23,1152,763</windstate>
    <displayoutputs>[Objective Attributable_burden2]</displayoutputs>
   </variable>
   <variable name="Concentration_of_ni4">
    <title>Concentration of nitrates in drinking water from private supply</title>
    <definition>0</definition>
    <nodelocation>376,264,1</nodelocation>
    <nodesize>60,32</nodesize>
    <displayinputs>[Variable Concentration_of_ni7, Variable Removal_of_nitrates1]</displayinputs>
    <displayoutputs>[Variable Total_daily_consump7]</displayoutputs>
   </variable>
   <variable name="Concentration_of_ni5">
    <title>Concentration of nitrates in drinking water from public supply</title>
    <definition>[1,Raw_water_quality1,Concentration_of_ni6,Concentration_of_ni7,Removal_of_nitrates1]</definition>
    <nodelocation>536,104,1</nodelocation>
    <nodesize>72,28</nodesize>
    <displayoutputs>[Variable Total_daily_consump6]</displayoutputs>
   </variable>
   <variable name="Concentration_of_ni6">
    <title>Concentration of nitrates in surface water</title>
    <definition>Lognormal( 1 )</definition>
    <nodelocation>224,104,1</nodelocation>
    <nodesize>48,32</nodesize>
    <windstate>2,166,180,476,224</windstate>
    <displayinputs>[Constant Usage_of_nitrate_fe3]</displayinputs>
   </variable>
   <variable name="Concentration_of_ni7">
    <title>Concentration of nitrates in ground water</title>
    <definition>[1,Usage_of_nitrate_fe3]</definition>
    <nodelocation>224,264,1</nodelocation>
    <nodesize>48,32</nodesize>
    <displayoutputs>[Variable Concentration_of_ni4]</displayoutputs>
   </variable>
   <variable name="Daily_consumption_o2">
    <title>Daily consumption of bottled water by infacts &lt;6 months</title>
    <definition>[1,Daily_sales_of_bott2]</definition>
    <nodelocation>776,176,1</nodelocation>
    <nodesize>48,32</nodesize>
    <displayoutputs>[Variable Total_daily_consump6, Variable Total_daily_consump7]</displayoutputs>
   </variable>
   <constant name="Daily_sales_of_bott2">
    <title>Daily sales of bottled water</title>
    <nodelocation>880,432,1</nodelocation>
    <nodesize>48,28</nodesize>
   </constant>
   <objective name="Dalys_and_or_financ2">
    <title>DALYs and/or financial costs</title>
    <definition>&#x7B;Dbp_dalys&#x7D;;
&#x7B;Mirobes_dalys&#x7D;</definition>
    <nodelocation>1104,256,1</nodelocation>
    <nodesize>48,28</nodesize>
    <displayinputs>[Objective Attributable_burden2, Variable Daly_and_or_cost_we2]</displayinputs>
   </objective>
   <variable name="Daly_and_or_cost_we2">
    <title>DALY and/or cost weightings</title>
    <definition>0</definition>
    <nodelocation>1104,104,1</nodelocation>
    <nodesize>48,32</nodesize>
    <displayoutputs>[Objective Dalys_and_or_financ2]</displayoutputs>
   </variable>
   <variable name="Drinking_water_legi2">
    <title>Drinking water legistation and guidance levels on nitrates</title>
    <definition>5</definition>
    <nodelocation>88,264,1</nodelocation>
    <nodesize>68,32</nodesize>
   </variable>
   <variable name="Exposure_response_f1">
    <title>Exposure-response function</title>
    <definition>&#x7B;Chlorination&#x7D;;
&#x7B;Dose_response_of_mi;
Water_treatment_meth</definition>
    <nodelocation>984,104,1</nodelocation>
    <nodesize>64,28</nodesize>
    <displayoutputs>[Objective Total_met_hb_mortal3]</displayoutputs>
   </variable>
   <constant name="Population_using_pr2">
    <title>Population using private water supplies</title>
    <nodelocation>728,432,1</nodelocation>
    <nodesize>48,29</nodesize>
    <displayoutputs>[Variable Total_daily_consump7]</displayoutputs>
   </constant>
   <variable name="Population_demandin2">
    <title>Population demanding safe, wholesome and clean drinking water supply</title>
    <definition>0</definition>
    <nodelocation>88,104,1</nodelocation>
    <nodesize>68,32</nodesize>
   </variable>
   <variable name="Proportion_of_boile2">
    <title>Proportion of boiled drinking water</title>
    <definition>0</definition>
    <nodelocation>672,176,1</nodelocation>
    <nodesize>40,32</nodesize>
   </variable>
   <constant name="Raw_water_quality1">
    <title>Raw water quality</title>
    <description>chemical and microbial quality of raw water</description>
    <definition>[1]</definition>
    <nodelocation>376,432,1</nodelocation>
    <nodesize>52,28</nodesize>
   </constant>
   <variable name="Removal_of_nitrates1">
    <title>Removal of nitrates by treatment</title>
    <definition>&#x7B;Dbp_exposure_via_dr;
Dbp_exposure_via_oth;
Dose_response_of_dbp</definition>
    <nodelocation>536,368,1</nodelocation>
    <nodesize>72,24</nodesize>
    <displayinputs>[Variable Standard_for_nitrat3, Constant Water_treatment_met3]</displayinputs>
    <displayoutputs>[Variable Concentration_of_ni4]</displayoutputs>
   </variable>
   <variable name="Standard_for_nitrat3">
    <title>Standard for nitrates</title>
    <definition>[1,Drinking_water_legi2]</definition>
    <nodelocation>88,368,1</nodelocation>
    <nodesize>64,24</nodesize>
    <windstate>2,0,0,1025,668</windstate>
    <displayoutputs>[Variable Removal_of_nitrates1]</displayoutputs>
   </variable>
   <text name="Te21">
    <title>Te1</title>
    <description>Actions
</description>
    <nodelocation>80,40,-1</nodelocation>
    <nodesize>48,24</nodesize>
   </text>
   <text name="Te22">
    <title>Te1</title>
    <description>Sources
</description>
    <nodelocation>224,40,-1</nodelocation>
    <nodesize>48,24</nodesize>
   </text>
   <text name="Te23">
    <title>Te1</title>
    <description>Media
</description>
    <nodelocation>360,40,-1</nodelocation>
    <nodesize>48,24</nodesize>
   </text>
   <text name="Te24">
    <title>Te1</title>
    <description>Exposure
</description>
    <nodelocation>696,40,-1</nodelocation>
    <nodesize>48,24</nodesize>
   </text>
   <text name="Te25">
    <title>Te1</title>
    <description>Impacts
</description>
    <nodelocation>984,40,-1</nodelocation>
    <nodesize>44,24</nodesize>
   </text>
   <text name="Te26">
    <title>Te1</title>
    <description>Valuation
</description>
    <nodelocation>1096,40,-1</nodelocation>
    <nodesize>48,24</nodesize>
   </text>
   <variable name="Total_daily_consump6">
    <title>Total daily consumption of drinking water from public supply by infants &lt; 6 months</title>
    <definition>0</definition>
    <nodelocation>720,104,1</nodelocation>
    <nodesize>92,28</nodesize>
    <displayinputs>[Variable Concentration_of_ni5, Variable Daily_consumption_o2]</displayinputs>
   </variable>
   <variable name="Total_daily_consump7">
    <title>Total daily consumption of privately supplied drinking water by infacts &lt; 6 months</title>
    <definition>1</definition>
    <nodelocation>728,368,1</nodelocation>
    <nodesize>100,24</nodesize>
    <windstate>2,102,90,476,224</windstate>
    <displayinputs>[Variable Concentration_of_ni4, Variable Daily_consumption_o2, Constant Population_using_pr2]</displayinputs>
   </variable>
   <variable name="Total_ingestion_of_3">
    <title>Total ingestion of nitrates in drinking water by infacts &lt; 6 months</title>
    <definition>[1,Total_daily_consump6,Total_daily_consump7,Proportion_of_boile2,Population_demandin2]</definition>
    <nodelocation>720,256,1</nodelocation>
    <nodesize>92,24</nodesize>
    <windstate>2,102,90,476,224</windstate>
    <displayoutputs>[Objective Total_met_hb_mortal3]</displayoutputs>
   </variable>
   <objective name="Total_met_hb_mortal3">
    <title>Total met-Hb mortality and morbidity due to nitrates in drinking water</title>
    <definition>&#x7B;Daly_valuation&#x7D;;
&#x7B;Dbp_health_effects&#x7D;</definition>
    <nodelocation>976,176,1</nodelocation>
    <nodesize>64,32</nodesize>
    <displayinputs>[Variable Exposure_response_f1, Variable Total_ingestion_of_3]</displayinputs>
    <displayoutputs>[Objective Attributable_burden2]</displayoutputs>
   </objective>
   <constant name="Usage_of_nitrate_fe3">
    <title>Usage of nitrate fertilisers in catcment</title>
    <nodelocation>208,432,1</nodelocation>
    <nodesize>48,29</nodesize>
    <displayoutputs>[Variable Concentration_of_ni6]</displayoutputs>
   </constant>
   <constant name="Water_treatment_met3">
    <title>Water treatment method</title>
    <units>none</units>
    <description>water treatment methods</description>
    <definition>[1]</definition>
    <nodelocation>536,432,1</nodelocation>
    <nodesize>48,28</nodesize>
    <windstate>2,0,0,1025,668</windstate>
    <displayoutputs>[Variable Removal_of_nitrates1]</displayoutputs>
   </constant>
  </module>
 </model>
</ana>