Sari, Avellyn Shinthya (2024) PEMODELAN SISTEM HIDROGEOLOGI KARST PONJONG BERDASARKAN ANALISIS SPASIAL HIDROSOTOP DAN ISOTOP RADON (R222) KABUPATEN GUNUNG KIDUL DAERAH ISTIMEWA YOGYAKARTA. Doctoral thesis, UPN Veteran Yogyakarta.
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Abstract
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ABSTRAK
PEMODELAN SISTEM HIDROGEOLOGI KARST PONJONG
BERDASARKAN ANALISIS SPASIAL HIDROISOTOP DAN
ISOTOP RADON (R222) KABUPATEN GUNUNG KIDUL
DAERAH ISTIMEWA YOGYAKARTA
Daerah penelitian terletak di Kapanewon Ponjong, Gunungkidul, Daerah Istimewa
Yogyakarta. Daerah ini tersusun atas berbagai formasi dengan struktur geologi
yang kompleks dan terdapat banyak mataair karst. Latar belakang penelitian ini
adalah dikarenakan Ponjong merupakan satu-satunya daerah di Gunung Kidul yang
mempunyai sumber mata air yang cukup besar. Mata air ini digunakan untuk
memenuhi kebutuhan masyarakat di beberapa wilayah Gunung Kidul sehingga
konservasi sangat diperlukan.Hal ini menjadi keunikkan tersendiri untuk dilakukan
penelitian lebih lanjut di area Ponjong. Penelitian ini bertujuan untuk
mengidentifikasi karakteristik sistem hidrogeologi karst. Metode penelitian
menggunakan isotop stabil (¹⁸ O dan ²H) serta isotop radon (222Rn) membantu
mengidentifikasi sumber, aliran dalam sistem karst. Model hidrogeologi yang
dikembangkan menunjukkan bahwa Formasi Wonosari memainkan peran kunci
dalam proses imbuhan air tanah, dengan variasi musiman yang signifikan
mempengaruhi debit mata air. Hasil penelitian ini menunjukkan 3 (tiga ) recharge
area yaitu allogenic recharge mata air yang berdebit besar memiliki tipe artesian
fault, local recharge air tanah yang mengalir pada batuan karbonat yang
merupakan pencampuran (mixing) dari allogenic recharge dan local recharge.
Berdasarkan analisis isotop stabil, serta pengukuran konsentrasi 222Rn
menunjukkan sistem aliran airtanah pada local recharge merupakan sistem air
tanah dangkal yang dominan mengalir melalui media pori, sedangkan alogenic
recharge merupakan sistem air tanah dalam yang dikontrol oleh sistem struktur
geologi. Hasil analisis karakteristik mataair utama menunjukkan Mataair cekungan
Wonosari termasuk klasifikasi stabil, agak konstan, dan variasi rendah, sedangkan
Mataair Ponjong termasuk klasifikasi tidak stabil, variabel, dan variasi sedang,
maka meskipun dikontrol oleh sesar dan lipatan yang bersifat konduit, mataair
tersebut memiliki sistem penyimpanan airtanah yang bersifat difusi berupa sistem
rekahan yang rapat dan pori. Hasil analisis tersebut juga mengindikasikan belum
berkembangnya jaringan konduit yang saling terkoneksi. Hal ini memberikan
pemahaman mendalam tentang dinamika air tanah di daerah karst, yang penting
untuk pengelolaan sumber daya air secara berkelanjutan, mitigasi kekeringan, dan
perencanaan konservasi air di wilayah tersebut. Penelitian ini juga menekankan
perlunya pemantauan berkelanjutan untuk memahami respon sistem karst terhadap
perubahan iklim dan aktivitas manusia.
Kata kunci: air tanah,karst, isotop
x
ABSTRAK
MODELING OF KARST HYDROGEOLOGICAL SYSTEMS BASED ON
SPATIAL ANALYSIS OF HYDROISOTOPES AND RADON ISOTOPE
(R222) PONJONG DISTRICT GUNUNG KIDUL DISTRICT
YOGYAKARTA SPECIAL REGION
The research area is located in Kapanewon Ponjong, Gunungkidul, Special Region
of Yogyakarta. This area is composed of various formations with complex
geological structures and there are many karst springs. The background to this
research is because Ponjong is the only area in Gunung Kidul that has quite large
springs. This spring is used to meet the needs of the community in several areas of
Gunung Kidul so conservation is very necessary. This is unique in itself and
requires further research to be carried out in the Ponjong area. This research aims
to identify the characteristics of the karst hydrogeological system. Research
methods using stable isotopes (¹⁸ O and ²H) as well as radon isotopes (Rn222) help
identify sources, flows in karst systems. The developed hydrogeological model
shows that the Wonosari Formation plays a key role in the groundwater recharge
process, with significant seasonal variations influencing spring discharge. The
results of this research show 3 (three) recharge areas, namely allogenic recharge
springs with large discharges that have an artesian fault type, local recharge
groundwater that flows in carbonate rocks which is a mixture of allogenic recharge
and local recharge. Based on stable isotope analysis, as well as measurements of
Rn222 concentrations, it shows that the groundwater flow system in local recharge
is a shallow groundwater system that predominantly flows through pore media,
while allogenic recharge is a deep groundwater system that is controlled by the
geological structural system. The results of the analysis of the characteristics of the
main springs show that the Wonosari basin springs are classified as stable,
somewhat constant and have low variation, while the Ponjong springs are classified
as unstable, variable and have moderate variations, so even though they are
controlled by conduit faults and folds, the springs have a storage system. Diffusion
groundwater is a system of dense fractures and pores. The results of this analysis
also indicate that an interconnected conduit network has not yet been developed.
This provides an in-depth understanding of groundwater dynamics in karst areas,
which is important for sustainable water resource management, drought mitigation,
and water conservation planning in the region. This research also emphasizes the
need for ongoing monitoring to understand the response of karst systems to climate
change and human activities.
Keyword: Groundwater, Karst, Isotop
| Item Type: | Thesis (Doctoral) |
|---|---|
| Uncontrolled Keywords: | Groundwater, Karst, Isotop |
| Subjects: | Q Science > QE Geology |
| Divisions: | Faculty of Engineering, Science and Mathematics > School of Engineering Sciences |
| Depositing User: | Eko Yuli |
| Date Deposited: | 06 Aug 2024 06:10 |
| Last Modified: | 06 Aug 2024 06:10 |
| URI: | http://eprints.upnyk.ac.id/id/eprint/40612 |
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