Assessment of subsidence risk associated with aquifer storage and recovery in the Coastal Lowlands Aquifer System, Houston, Texas, USA

Kelley, Van; Turco, Michael; Deeds, Neil; Petersen, Christina; Canonico, Chris

doi:https://doi.org/10.5194/piahs-382-487-2020

Articles | Volume 382

https://doi.org/10.5194/piahs-382-487-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/piahs-382-487-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 382

Pre-conference publication

|

22 Apr 2020

Pre-conference publication |

| 22 Apr 2020

Assessment of subsidence risk associated with aquifer storage and recovery in the Coastal Lowlands Aquifer System, Houston, Texas, USA

Van Kelley, Michael Turco, Neil Deeds, Christina Petersen, and Chris Canonico

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Jan 2021	9	9	0	18
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Jan 2025	5	2	3	10
Feb 2025	14	3	0	17
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Jun 2025	26	10	2	38
Jul 2025	13	9	0	22
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Cumulative views and downloads (calculated since 22 Apr 2020)

Month	HTML	PDF	XML	Total
Apr 2020	21	19	2	42
May 2020	22	10	1	33
Jun 2020	62	25	0	87
Jul 2020	55	24	17	96
Aug 2020	7	6	1	14
Sep 2020	12	4	0	16
Oct 2020	6	4	2	12
Nov 2020	5	3	1	9
Dec 2020	10	9	0	19
Jan 2021	9	9	0	18
Feb 2021	2	2	0	4
Mar 2021	4	7	0	11
Apr 2021	4	3	0	7
May 2021	8	5	0	13
Jun 2021	7	5	0	12
Jul 2021	4	4	0	8
Aug 2021	1	2	0	3
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Oct 2021	4	19	0	23
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Oct 2023	7	4	1	12
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Jan 2024	15	3	1	19
Feb 2024	5	1	0	6
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Apr 2024	10	3	2	15
May 2024	19	5	3	27
Jun 2024	28	3	3	34
Jul 2024	17	5	1	23
Aug 2024	23	2	25
Sep 2024	18	3	2	23
Oct 2024	9	5	1	15
Nov 2024	18	4	0	22
Dec 2024	9	2	2	13
Jan 2025	5	2	3	10
Feb 2025	14	3	0	17
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Short summary

As the Houston, Texas, USA area changes their source waters from groundwater to alternative supplies to reduce subsidence, alternative water management strategies have been investigated to increase water supply while minimizing subsidence. A hypothetical Aquifer Storage and Recovery (ASR) project was tested for potential subsidence risk. Results show that short-term cycling to address season peaking may provide the most benefit to prevent subsidence.


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