1 / 13

The Vulnerability of Tarawa's Freshwater Lenses: Importance of Hydrological Monitoring for Sustainable Yield

Explore the history of groundwater development on Tarawa, recent investigations, climate change impacts, World Bank study findings, boreholes, and the significance of borehole monitoring in protecting freshwater resources. Learn about lessons learned and the future implications for groundwater sustainability amidst climate change challenges.

sancha
Télécharger la présentation

The Vulnerability of Tarawa's Freshwater Lenses: Importance of Hydrological Monitoring for Sustainable Yield

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Vulnerability of freshwater lenses on Tarawa (the role of hydrological monitoring in determining sustainable yield.)

  2. Outline of the presentation 1)  HISTORY OF GROUNDWATER DEVELOPMENT. a) 1960’s investigations and findings b) 1999’s and 2000’s investigation and findings 2) DISCUSSIONS/CONCLUSION Lessons learnt

  3. Brief on Kiribati

  4. Map of Tarawa

  5. Aerial Photo of Bonriki water reserves

  6. Some basic facts about Climate Change • By the year 2050 • Sea level is likely to increase by 23-43 cm • Air temp between 0.9-1.3 deg cent. • Change in rainfall between –10.7% and 7.1 % • ENSO – more of it.

  7. WORLD BANK STUDY (2000) • By the Year 2050 • If the rainfall decreases by 10% • If sea level rises by 0.4m • If the island width is reduced by inundation • Groundwater thickness would • decrease by up to 38% • US$0.7m to $1.4 million per year

  8. Boreholes

  9. History of groundwater development 1960’s and 1970’s • Kirk, Grundy and Partners (1961) • Wilton and Bell, Dobbie and Partners (1967) • Mather in 1973 • Wagner in 1977 • To name a few

  10. Findings • Some (Richard etc) said that Bonriki could not sustain itself while others (DHC) said that Bonriki and Buota could supply 750m3/day and 250m3/day.

  11. 1990’s and 2000 • Tony Falkland, Ian White and others Findings • Bonriki and Buota could yield at least 1000 m3/day and 300 m3/day respectively.

  12. Discussion/Conclusion • A number of pacific countries rely on groundwater for freshwater • Climate change will affect our groundwater • Based on years of experiences, borehole monitoring is probably the best way to monitor groundwater

  13. Initial Cost borehole: AUS$100,000 - $200,000 Cost due Climate Change: US$0.7m - $1.4 million

More Related