Buffalo Bayou and Tributaries Resiliency Study

In the aftermath of Hurricane Harvey, the federal government appropriated $6 million and authorized the U. S. Army Corps of Engineers (USACE) to conduct the Buffalo Bayou and Tributaries Resiliency Study.

According to the USACE, the study will: Identify and evaluate the feasibility of reducing flood risks on the Buffalo Bayou, both upstream and downstream of Addicks and Barker Reservoirs in Harris County, Texas, while simultaneously completing a Dam Safety Modification Evaluation (DSME) on the two dams. Three primary problems will be addressed: (1) Flooding downstream of the reservoirs on Buffalo Bayou; (2) Performance and risk issues related to flow around and over the uncontrolled spillways; and (3) Flooding upstream of the reservoirs.

Map of the study area. The Cypress Creek watershed is included only to evaluate the overflow from that watershed into Addicks. Brays Bayou will not be considered during the development of risk reduction options but it will be considered when determining potential adverse impacts.

The Corps requested public input on the scope of the study and comments were due on May 31, 2019.

I helped coordinate the development of comments on behalf of the Houston Chapter of the Environment & Water Resources Institute of the American Society of Civil Engineers. The text of the submitted comments is provided below:

The Houston Branch of the Texas Section of the American Society of Civil Engineers appreciates the opportunity to comment on the above referenced resiliency study.  Our comments are provided below.

  1. Sustainable Infrastructure: Alternatives should be evaluated using the Institute for Sustainable Infrastructure’s ENVISION rating system.  Alternatives with the highest score in the rating system should be considered further for implementation.  See sustainableinfrastructure.org for additional information about the rating system.
  2. Non-Stationary Climate: Alternatives should be developed to handle rainfall amounts that have a 1% annual chance (or greater) occurring in the year 2100.  Rainfall depths appear to be trending upwards and the 1% annual chance event will likely be larger at that time.
  3. Nature-Based Alternatives: Alternatives should be developed and evaluated that include nature-based approaches, such as land acquisition and preservation, wetland creation, natural stable channel design approaches, and similar concepts.
  4. Two-Dimensional Modeling of Non-Riverine Areas: Alternatives should be evaluated using 2-D modeling approaches, especially in areas not adjacent or near bayous or channels.
  5. Triple-Bottom-Line Net Cost/Benefit Estimations:  Alternatives should be evaluated using a more comprehensive assessment of net benefits and costs. Net costs should be estimated for traditional engineering economics inputs, such as construction costs, operations costs, maintenance costs, land acquisition costs, and labor cost.  But environmental costs should be estimated as well. These should include the value of any diminished ecosystem services, lost habitat, lost carbon sequestration, lost oxygen production, lost heat island mitigation, lost recreational opportunities, and similar well studied metrics.  Social costs should also be estimated for each alternative. These should include displaced cultural or historical features, lost recreational opportunities, lost or diminished employment opportunities, diminished views and character, light pollution impacts, diminished social equity, and similar aspects. Net economic, social, and environmental benefits should also be estimated for each alternative.  These would include the value of avoided property damage (times the likelihood of loss), the number of people benefiting from a reduced risk of inundation, the value of any increase in social values or benefits (recreation, views, safety, equity), the value of any increase in environmental values or benefits (habitat, ecosystem services, etc.).  The net present value of all economic, social, and environmental BENEFITS minus the net present value of all economic, social, and environmental COSTS should be calculated for all alternatives and the alternative with the highest net present value of total triple bottom line NET BENEFITS should be recommended for implementation.

Again, we appreciate the opportunity to comment on the scope of the study.  If there are any questions about our comments, please don’t hesitate to contact us.

Very truly yours,

AMERICAN SOCIETY OF CIVIL ENGINEERS – HOUSTON BRANCH

Leave a comment about what you or your organization thought the study should consider.

2 thoughts on “Buffalo Bayou and Tributaries Resiliency Study

  1. Michael – I applaud your work with the Houston Chapters of EWRI and ASCE. I couldn’t agree more with the five comments. Of course the Corps is required to evaluate the federal interest using a fairly antiquated methodology specified in their 1983 Principles and Guidelines (P&G), that predominantly looks at a benefit-to-cost (B/C) ratio. How do you think they will square that with a triple-bottom-line approach?……even the ‘best’ sustainable infrastructure or nature based alternatives are often not the cheapest option and thus with a sub-optimum B/C ratio. The Corps will claim they can look at other factors, but in reality their ultimate decision to fund is almost totally whether your B/C is over 2.0. This plays out across the nation, over and over.

    • Sustainable infrastructure advocates need to lobby and advocate for an update to the P&G. There may be some locally funded elements that can spend money on projects with net positive TBL. But, yes, I agree with your concerns.

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