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Earthquake effects on artificial groundwater recharge efforts in south Japan

Ichikawa, Tsutomu ; Nakagawa, Kei LU orcid and Berndtsson, Ronny LU orcid (2020) In Environmental Earth Sciences 79(6).
Abstract

The Kumamoto area includes 11 municipalities and a population of about one million. The area represents the largest total use of groundwater in Japan. The main recharging area for this groundwater used to be paddy fields for rice production located along the mid-stream section of the Shirakawa River. In the past few decades, the area of paddy fields has rapidly decreased due to the Japanese government’s rice production adjustment policy and urbanization. In consequence, the groundwater recharge decreased from 656.2 million m3 in 1992 to 606.9 million m3 in 2006. Thus, groundwater recharge from paddy fields only might not be sufficient for groundwater demand in the future. For this reason, an artificial recharge... (More)

The Kumamoto area includes 11 municipalities and a population of about one million. The area represents the largest total use of groundwater in Japan. The main recharging area for this groundwater used to be paddy fields for rice production located along the mid-stream section of the Shirakawa River. In the past few decades, the area of paddy fields has rapidly decreased due to the Japanese government’s rice production adjustment policy and urbanization. In consequence, the groundwater recharge decreased from 656.2 million m3 in 1992 to 606.9 million m3 in 2006. Thus, groundwater recharge from paddy fields only might not be sufficient for groundwater demand in the future. For this reason, an artificial recharge system was established to increase groundwater recharge. In this study, we review the history of groundwater management and results of 14 years’ operation of a large-scale artificial groundwater recharge project in the Kumamoto area. We visualize the resilience of the groundwater management and recharge project by influence of the 2016 Kumamoto Earthquake. It is shown that through an integrated approach of all societal groundwater stakeholders, a sustainable groundwater management can be achieved. The hydrological methods in this integrated approach quantify recharging groundwater volumes for different types of recharge fields by use of 170 local experimental observations. Results and experiences outlined in this paper can be used by planners and managers of dwindling groundwater resources to build resilient systems for groundwater recharge by involving all societal stakeholders through an integrated approach.

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author
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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Artificial recharge system, Kumamoto earthquake, Paddy field infiltration, Resilient groundwater management
in
Environmental Earth Sciences
volume
79
issue
6
article number
142
publisher
Springer
external identifiers
  • scopus:85081686523
ISSN
1866-6280
DOI
10.1007/s12665-020-8868-x
language
English
LU publication?
yes
id
4a611f8e-079d-498f-b66e-e748140fc52b
date added to LUP
2020-04-02 16:16:42
date last changed
2023-09-10 01:25:25
@article{4a611f8e-079d-498f-b66e-e748140fc52b,
  abstract     = {{<p>The Kumamoto area includes 11 municipalities and a population of about one million. The area represents the largest total use of groundwater in Japan. The main recharging area for this groundwater used to be paddy fields for rice production located along the mid-stream section of the Shirakawa River. In the past few decades, the area of paddy fields has rapidly decreased due to the Japanese government’s rice production adjustment policy and urbanization. In consequence, the groundwater recharge decreased from 656.2 million m<sup>3</sup> in 1992 to 606.9 million m<sup>3</sup> in 2006. Thus, groundwater recharge from paddy fields only might not be sufficient for groundwater demand in the future. For this reason, an artificial recharge system was established to increase groundwater recharge. In this study, we review the history of groundwater management and results of 14 years’ operation of a large-scale artificial groundwater recharge project in the Kumamoto area. We visualize the resilience of the groundwater management and recharge project by influence of the 2016 Kumamoto Earthquake. It is shown that through an integrated approach of all societal groundwater stakeholders, a sustainable groundwater management can be achieved. The hydrological methods in this integrated approach quantify recharging groundwater volumes for different types of recharge fields by use of 170 local experimental observations. Results and experiences outlined in this paper can be used by planners and managers of dwindling groundwater resources to build resilient systems for groundwater recharge by involving all societal stakeholders through an integrated approach.</p>}},
  author       = {{Ichikawa, Tsutomu and Nakagawa, Kei and Berndtsson, Ronny}},
  issn         = {{1866-6280}},
  keywords     = {{Artificial recharge system; Kumamoto earthquake; Paddy field infiltration; Resilient groundwater management}},
  language     = {{eng}},
  month        = {{03}},
  number       = {{6}},
  publisher    = {{Springer}},
  series       = {{Environmental Earth Sciences}},
  title        = {{Earthquake effects on artificial groundwater recharge efforts in south Japan}},
  url          = {{http://dx.doi.org/10.1007/s12665-020-8868-x}},
  doi          = {{10.1007/s12665-020-8868-x}},
  volume       = {{79}},
  year         = {{2020}},
}