Final Irrigated Agriculture Resilience Assessment Survey


This survey focuses on assessing the resilience of irrigated agriculture. The parameters listed in the matrix reflect various aspects of resilience for this sector. After reviewing the matrix, we would like your input related to where your agricultural system of interest is most and least resilient. We also are interested in hearing from you about the most concerning issue you face due to the anticipated climate shocks. These statements will be useful in developing adaptation strategies.





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All fields are optional unless otherwise indicated.

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You are welcome to complete 1 or more surveys. Please complete a separate survey for each irrigated agricultural system of interest.





More information on the 50-Year Water Plan

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Question 1 of 13

These survey questions are specific to an irrigated agricultural system. Please name the irrigated agricultural system of interest in this survey. (Please note you can complete the survey multiple times if you would like to provide input for multiple systems).

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Question 2 of 13

After reviewing the Irrigated Agriculture matrix view table here How resilient do you think your agricultural system of interest is?

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  • Very Resilient
  • Somewhat Resilient
  • Minimally Resilient
  • Not Resilient

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Question 3 of 13

Please explain why

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Question 4 of 13

Which parameters from the matrix are related to lack of resilience for your agricultural system of interest? Please select all that apply.

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  • Water Supply Diversity
  • Supply Availability: Priority Date of Water Right
  • Ratio of Minimum Stream Flow to Demand
  • Groundwater Supply is from a Stream Connected Aquifer or Mined Aquifer
  • Saturated Thickness of Aquifer
  • Declining Aquifer
  • Projected Supply Demand Gap
  • Reservoir Storage Ratio to Annual Surface Water Diversions
  • Potential Loss of Supply due to Increased Erosion (sedimentation of reservoirs)
  • Potential Loss of Supply due to Increased Evaporation from Reservoirs
  • Watershed Health (post-fire debris flow risk)
  • Erosivity Risk
  • Infrastructure or Farm located in or near Flood Plain
  • Soil Health of Farm
  • Infrastructure Condition
  • Water Quality
  • Sharing Agreement
  • Diversity of Cropping Pattern
  • Irrigation Methodology
  • Other (please describe)

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Question 5 of 13

Please explain why

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Question 6 of 13

Which single parameter from the matrix is most related to lack of resilience for your agricultural system of interest?

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  • Water Supply Diversity
  • Supply Availability: Priority Date of Water Right
  • Ratio of Minimum Stream Flow to Demand
  • Groundwater Supply is from a Stream Connected Aquifer or Mined Aquifer
  • Saturated Thickness of Aquifer
  • Declining Aquifer
  • Projected Supply Demand Gap
  • Reservoir Storage Ratio to Annual Surface Water Diversions
  • Potential Loss of Supply due to Increased Erosion (sedimentation of reservoirs)
  • Potential Loss of Supply due to Increased Evaporation from Reservoirs
  • Watershed Health (post-fire debris flow risk)
  • Erosivity Risk
  • Infrastructure or Farm located in or near Flood Plain
  • Water Quality
  • Sharing Agreement
  • Diversity of Cropping Pattern
  • Irrigation Methodology
  • Other (please descibe)

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Question 7 of 13

Please explain why

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Question 8 of 13

Which single parameter from the matrix is most related to existing resilience in your agricultural system of interest?

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  • Water Supply Diversity
  • Supply Availability: Priority Date of Water Right
  • Ratio of Minimum Stream Flow to Demand
  • Groundwater Supply is from a Stream Connected Aquifer or Mined Aquifer
  • Saturated Thickness of Aquifer
  • Declining Aquifer
  • Projected Supply Demand Gap
  • Reservoir Storage Ratio to Annual Surface Water Diversions
  • Potential Loss of Supply due to Increased Erosion (sedimentation of reservoirs)
  • Potential Loss of Supply due to Increased Evaporation from Reservoirs
  • Watershed Health (post-fire debris flow risk)
  • Erosivity Risk
  • Infrastructure or Farm located in or near Flood Plain
  • Soil Health of Farm
  • Infrastructure Condition
  • Water Quality
  • Sharing Agreement
  • Diversity of Cropping Pattern
  • Irrigation Methodology
  • Other (please describe)

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Question 9 of 13

Please explain why

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Question 10 of 13

Please provide a concise problem statement to describe the vulnerabilities and the consequences facing your agricultural system of interest. Example: The infrastructure of our system is in poor condition and would probably be damaged or ruined by flood events. Losing our ability to deliver water would be a very serious consequence. No water delivery is worse than minimal water delivery.

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Question 11 of 13

What actions and/or strategies do you think would be most successful in increasing resilience for your agricultural system of interest?

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Question 12 of 13

As a potential outcome of the 50-Year Water Plan, do you think that a more robust resilience assessment methodology would be beneficial?

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  • Yes
  • No

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Question 13 of 13

What would you like to see a more robust resilience assessment tool be able to do?

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