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snippet:	This is a measure of water inflow by precipitation, with high values corresponding to a high likelihood of flooding owing to reduced water outflow by ground infiltration (due to water saturation) and by rivers (due to high stages). This dataset shows Projected average highest 5-day precipitation in millimeters in a given year relative to the 2041–2060 period. Texas Tech University Climate Center/University of Illinois Urbana-Champaign; Source contact: Ian Scott-Fleming, Department of Electrical and computer Engineering, Texas Tech University.
summary:	This is a measure of water inflow by precipitation, with high values corresponding to a high likelihood of flooding owing to reduced water outflow by ground infiltration (due to water saturation) and by rivers (due to high stages). This dataset shows Projected average highest 5-day precipitation in millimeters in a given year relative to the 2041–2060 period. Texas Tech University Climate Center/University of Illinois Urbana-Champaign; Source contact: Ian Scott-Fleming, Department of Electrical and computer Engineering, Texas Tech University.
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description:	<DIV STYLE="text-align:Left;"><DIV><P><SPAN>This is a measure of water inflow by precipitation, with high values corresponding to a high likelihood of flooding owing to reduced water outflow by ground infiltration (due to water saturation) and by rivers (due to high stages). This dataset shows Projected average highest 5-day precipitation in millimeters in a given year relative to the 2041–2060 period. Texas Tech University Climate Center/University of Illinois Urbana-Champaign; Source contact: Ian Scott-Fleming, Department of Electrical and computer Engineering, Texas Tech University.</SPAN></P></DIV></DIV>
licenseInfo:
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title:	highest5dayp_41_60
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culture:	en-US
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minScale:	150000000
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