2021 Handbook of Florida Water Regulation: Florida Springs and Aquifer Protection Act

This handbook is designed to provide a summary of the principal federal and state (Florida) laws that directly or indirectly relate to agriculture. Because these laws are subject to constant revision, portions of the handbook could become outdated at any time. The reader should use it as a means to determine areas in which to seek more information and as a brief directory of agencies that can help answer more specific questions.

Blockchain Applications in Oilfield Underground Injection Operations

This research project has successfully built a Distributed Ledger Technology (DLT) based prototype using R3 Corda open source. Its purpose applies in the oil & gas underground injection control (UIC) operations for the underground aquifer protection. This DLT prototype is a permissioned network that allows oil & gas companies to create, disseminate, and trace immutable records. The network enables oil and gas companies, government regulatory agency, and all other participants to share secure records such as well information while maintaining data integrity, traceability, and security. The purpose is to create a network of trust among all the stakeholders in the UIC processes for underground aquifer protection. In this DLT network, a company submits well information, which will be digitally signed and notarized. Unauthorized changes to the information, ownership, or history will become infeasible, thanks to the underlying cryptographic technologies of DLT. The network designs so that information stored and communicated will have a high level of trustworthiness. Every participant in the network can get simultaneous access to a common view of the data. Corda platform also provides multiple functionalities, e.g., Smart contract, Vault, Identity Management, Scheduler, Notary Services, etc. Many of the functionalities automate the data processing within the DLT databases. This project's results expect to enhance public safety and improve the aquifer protection review and operational processes. Kern County uniquely poises for a project to develop more streamlined, effective, and entirely digitized DLT-based workflows that will secure regional environmental data integrity. Water contamination is a primary concern in a region where water and petroleum play vital roles in the economy. Both industries and regulatory agencies pay close attention to environmental quality. Data integrity is a primary issue concern for those that monitor and analyze environmental data. Monitoring and forecasting based on available immutable data are imperative to mitigate complications. We have changed the manual workflow into DLT applications which takes advantage of built-in functionalities. The new review process can avoid repetitive reviews among all participants and shorten the approval time. The embedded smart contracts on the DLT network will also help automate the workflows, and therefore, will be able to help eliminate human errors and improve the turnaround time. The prototype model proves the concept of using DLT. Our research work demonstrates DLT successfully implement into energy technology. The prototype model will further expand to all the UIC processes, such as thermal, wastewater disposal, waterflood, gas injection & disposal, etc. It is a substantial cost and time savings for all the oil and gas companies. The results of this analysis could provide the government with valuable information for significant policy and regulation decisions to further benefit the community and society.

Sustaining Aquifers and their Water Economies

A long-established practice of managing aquifers relies on pumping restrictions to curtail drawdowns, in spite of their high economic impacts and the serious disputes that can follow such decisions. This paper applies an empirical, quantitative hydro-economic model that helps aquifer managers reverse aquifer drawdowns while minimizing the economic losses from pumping restrictions. We develop and present an innovative optimization framework for identifying pumping restrictions that minimize economic losses from current economic activities while eliminating the unsustainable threats from falling aquifers. We investigate several alternative measures to reduce economic costs of pumping limitations, including a proportional sharing of reductions across uses, several priority allocation methods, and permitted pumping caps augmented by permit trading. Results show that the largest reduction in costs of aquifer protection occurs when permitted pumping caps are combined with trading. The model is applied to improve management of two heavily-pumped aquifers in Kenya, but are generalizable to many aquifers worldwide experiencing unsustainable pumping.

A Brief Summary of the Water Bill, SB 552

This 5-page document written by Lisa Krimsky, Andrea Albertin, Charles Barrett, James Fletcher, and Mary Lusk and published by the UF/IFAS Program in Fisheries and Aquatic Sciences of the School of Forest Resources and Conservation is intended to act as a quick reference guide and is not inclusive of all measures in SB 552. This summary addresses the Florida Springs and Aquifer Protection Act, the Central Florida Water Initiative, Northern Everglades and Estuaries Protection, and Pilot Programs for Alternative Water Supply. https://edis.ifas.ufl.edu/fa205