An Overview of the Operational Characteristics of Selected Irrigation Districts in the Texas Lower Rio Grande Valley: Brownsville Irrigation District
Megan J. Stubbs, M. Edward Rister, Allen W. Sturdivant, Ronald D. Lacewell
Population expansion and water shortfalls have placed the Texas Lower Rio Grande Valley (Valley) center stage in water publicity. The unique characteristics and lack of public knowledge on how irrigation districts divert and convey water from the Rio Grande to municipal, industrial, and agriculture consumers have precipitated questions regarding the operations and makeup of these districts. Differences between and similarities across irrigation districts can be partially attributed to the topography, water-delivery infrastructure system, past financial decisions, and each irrigation district's population demographics and clientele base. The Brownsville Irrigation District (BID), with its unusual use of a natural resaca system and advanced technology directing flow-control mechanisms, is one of the 29 distinct irrigation districts in the Valley. This study presents a comprehensive analysis of BID that includes a brief historical background, a description of the District, and discussion of the District's current operations. Specific information in the report details not only the use of technology within the District, but also how the District diverts and delivers its allocated water from the Rio Grande, how it is used (i.e., municipal, industry, and agriculture), and mechanisms for allocation within and outside the District.
The uniqueness of the Lower Rio Grande Valley irrigation districts requires an understanding of their origins and operating mannerisms in order to explain their overall institutional effects. Through unlocking some of the conundrum associated with these individual irrigation districts, policymakers and other interested stakeholders should have a better perception of the culture and evolution that surround these unique districts, thereby facilitating improved policy-making decisions affecting the region's water supply and usage.