This research was conducted in three karst springs (Kalisirah, Jumbleng, and Kalikarak) located on the north side of the Karangbolong karst area (Gombong), with objectives to analyze the differences of karst aquifers in releasing flow components from the small void (diffuse), moderate void (fissure), and large void (conduit). Three sets of HOBO U20L-02 water level data loggers were installed over 11-16 months to obtain a time-series discharge hydrograph. Then, the recession period is selected for several flood events that are eligible to calculate the recession constant of diffuse (Kb), fissure (Ki), and conduit (Kc). The results showed that there were differences in the three springs in releasing diffuse, fissure, and conduit storage. Jumbleng spring has the slowest release of diffuse storage (Kb), although the difference is not too significant when compared to the other two springs. Meanwhile, Kalisirah spring is indicated to have the most developed conduit with the smallest Kc value. Besides, this karst region has the shortest time to peak value (Tp) when compared to values in other karst regions on Java, which may be caused by the morphological control of the steep karst cone (runoff is quickly concentrated to the recharge point/ponor).

Topics
Data logger, Groundwater, Java, News and events
[1]
D.
Ford
 and
P.
Williams
, Karst Hydrogeology and Geomorphology.
Chichester, West Sussex
:
John Wiley & Sons, Ltd
,
2007
.
[2]
A.
Hartmann
,
N.
Goldscheider
,
T.
Wagener
,
J.
Lange
, and
M.
Weiler
,
Karst water resources in a changing world: review of hydrological modeling approaches
.
Reviews of Geophysics
,
2014
.
Google Scholar
 
[3]
Z.
Stevanović
, Karst Aquifers – Characterization and Engineering.
Belgrade
,
2015
.
[4]
Z.
Mohammadi
 and
A.
Shoja
, "
Effect of annual rainfall amount on characteristics of karst spring hydrograph
,"
Carbonates Evaporites
, vol.
29
, no.
3
, pp.
279
289
,
2014
.
https://doi.org/10.1007/s13146-013-0175-0
Google Scholar
Crossref
Search ADS
 
[5]
J. F.
Quinlan
,
P. L.
Smart
,
G. M.
Schindel
,
E. C.
Alexander
,
A. J.
Edwards
, and
A. R.
Smith
, "
Recommended administrative/regulatory definitions of karst aquifer. Principles for classification of carbonate aquifers. Practical evaluation of vulnerability of karst aquifers and determination of optimum sampling frequency at springs
," in
Hydrology, ecology, monitoring and management of ground water in karst terraces conference, J. Quinlan and A. Stanley, Eds. Dublin: 3rd, Proceedings. National Ground Water Association
,
1991
, pp.
573
635
.
Google Scholar
 
[6]
T. N.
Adji
,
E.
Haryono
,
A.
Mujib
,
H.
Fatchurohman
, and
I. Y.
Bahtiar
, "
Assessment of aquifer karstification degree in some karst sites on Java Island, Indonesia
,"
Carbonates and Evaporites
, vol.
32
, pp.
1
14
,
2017
.
https://doi.org/10.1007/s13146-015-0283-0
Google Scholar
Crossref
Search ADS
 
[7]
I. A.
Kurniawan
 et al., "
Karst aquifer response by time series analysis applications in Jonggrangan Karst, Java Island, Indonesia
,"
Environ. Earth Sci.
, vol.
78
, no.
13
, pp.
1
14
,
2019
.
https://doi.org/10.1007/s12665-019-8386-x
Google Scholar
Crossref
Search ADS
 
[8]
E. F.
Schulz
,
Problems in Applied Hydrology
.
Colorado
:
Water Resource Publication
,
1976
.
Google Scholar
 
[9]
D.
Gillieson
,
Caves: processes, development, and management
.
Oxford
:
Blackwell
,
1996
.
Google Scholar
Crossref
Search ADS
 
[10]
O.
Bonacci
, "
Regionalisation in karst regions," in
Proceedings of the Ljubljana Symposium
,
1990
.
Google Scholar
 
[11]
T. N.
Adji
 and
I. Y.
Bahtiar
, "
Rainfall–discharge relationship and karst flow components analysis for karst aquifer characterization in Petoyan Spring, Java, Indonesia
,"
Environ. Earth Sci.
, vol.
75
, no.
735
,
2016
.
Google Scholar
 
[12]
E.
Maillet
, Essais d' hydraulique souterrain et fluvial.
A Hermann Paris
:
Librairie Scientifique
,
1905
.
[13]
R. J.
Nathan
 and
T. A.
McMahon
, "
Evaluation of automated techniques for baseflow and recession analyses
,"
Water Resour. Res
, vol.
7
, pp.
1465
1473
,
1990
.
https://doi.org/10.1029/WR026i007p01465
Google Scholar
Crossref
Search ADS
 
[14]
T. N.
Adji
, "
Variasi Spasial-Temporal Hidrogeokimia dan Sifat Aliran untuk Karakterisasi Sistem Karst Dinamis di Sungai Bawah Tanah Bribin, Kabupaten Gunungkidul, DIY
,"
Universitas Gadjah Mada
,
2009
.
Google Scholar
 
[15]
A.
Nurkholis
,
T. N.
Adji
,
E.
Haryono
,
A.
Cahyadi
, and
S.
Suprayogi
, "
Time series analysis application for karst aquifer characterisation in pindul cave Karst system, Indonesia
,"
Acta Carsologica
, vol.
48
, no.
1
, pp.
69
84
,
2019
.
https://doi.org/10.3986/ac.v48i1.6745
Google Scholar
Crossref
Search ADS
 
[16]
F.
Ramadhan
,
T. N.
Adji
,
A.
Cahyadi
,
M.
Naufal
, and
I. A.
Riyanto
, "
Characterising flow release from the aquifer of Guntur Spring in Gunungsewu Karst Area, Indonesia
," in
IOP Conf. Series: Earth and Environmental Science
451
,
2020
.
Google Scholar
 
[17]
T. N.
Adji
,
E.
Haryono
,
H.
Fatchurohman
, and
R.
Oktama
, "
Diffuse flow characteristics and their relation to hydrochemistry conditions in the Petoyan Spring, Gunungsewu Karst, Java, Indonesia
,"
Geosci. J.
, vol.
20
, pp.
381
390
,
2016
.
https://doi.org/10.1007/s12303-015-0048-8
Google Scholar
Crossref
Search ADS
 
[18]
T. N.
Adji
 and
E.
Haryono
, "
Model Tingkat Perkembangan Pelorongan Akuifer Karst Untuk Identifikasi Kapasitas Penyerapan Karbon Sebagai Antisipasi Bencana Pemanasan Iklim Global
,"
2018
.
Google Scholar
 
[19]
T. N.
Adji
 and
M.
Misqi
, "
The Distribution of Flood Hydrograph Recession Constant for Characterisation of Karst Spring and Underground River Flow Components Releasing Within Gunung Sewu Karst Region
,"
Indones. J. Geogr.
, vol.
42
, no.
1
,
2010
.
Google Scholar
 
[20]
M. . A.
Mujib
, "Analisis karakteristik dan tingkat karstifikasi akuifer karst di sistem Mataair Ngerong, Kecamatan Rengel, Kabupaten Tuban Master,"
Unversitas Gadjah Mada
,
2015
.
This content is only available via PDF.
© 2021 Author(s).
2021
Author(s)
You do not currently have access to this content.