2022
DOI: 10.15243/jdmlm.2022.092.3293
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Spatial and temporal distribution of estimated surface runoff caused by land use/land cover changes in the upstream Citarum watershed, West Java, Indonesia

Abstract: In Indonesia, flooding is one of the natural hazards that often occurs during the rainy season. Surface runoff coefficient values are an essential indicator of the supply of regional water resources. The smaller the surface runoff value, the greater the water storage in the ground, and the smaller surface was running water. This study analyses the spatial and temporal distribution of the estimated surface runoff caused by land use/land cover changes in the upstream Citarum watershed. The study area is located … Show more

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Cited by 8 publications
(9 citation statements)
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“…( 1) except that P10 elevation is swapped out for plantation land cover. Yulianto et al (2022) previously hypothesised that runoff coefficient for plantation land cover in West Java might be 40 times greater than that for primary forest. Plantation land cover ranges from 0 to 33.4% with a median of 1.74% for the gauged catchments and from 0 to 30.5% with a median of 2.00% for the HydroSHEDS catchments.…”
Section: Flood Frequency Regionalisation Relationshipsmentioning
confidence: 99%
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“…( 1) except that P10 elevation is swapped out for plantation land cover. Yulianto et al (2022) previously hypothesised that runoff coefficient for plantation land cover in West Java might be 40 times greater than that for primary forest. Plantation land cover ranges from 0 to 33.4% with a median of 1.74% for the gauged catchments and from 0 to 30.5% with a median of 2.00% for the HydroSHEDS catchments.…”
Section: Flood Frequency Regionalisation Relationshipsmentioning
confidence: 99%
“…Since as early as the 1920s, agricultural activity has represented over 70% of total land cover in Java (Verburg and Bouma 1999). Land cover in West Java can be broadly categorised into six land-use types including water body, built land, dryland farming (mostly agriculture with low irrigation requirements), wetland farming (mostly rice paddies and fish farms), plantation (mostly tea plantation) and forest (including both natural and managed forest) (consider Siswanto and Francés 2019; Ridwansyah et al 2020;Yulianto et al 2022). Indonesian spatial planning law prescribes that 30% forest cover is needed in all local government districts to ensure adequate hydrological forest functions (Suprayogo et al 2020).…”
Section: Introductionmentioning
confidence: 99%
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“…Specifically, the transformation of land use from vegetation to built-up areas can escalate both peak discharge and surface runoff [21]. Such increases are attributed to a decrease in water absorption capacity, and when this surpasses the river's capacity, the resultant runoff augments the potential for flooding [22,23]. Peak discharge arises due to the amplification of surface runoff water, culminating in an increase in river water volume and subsequent flooding.…”
Section: Introductionmentioning
confidence: 99%
“…There were around 10,438 ood events from 1815 to 2019. In 2021, there were 1,518 ood events resulted in 132 deaths and 782,054 people displaced (Fitriyani et al 2021;Yulianto et al 2022). Furthermore, the impact of ooding has also paralysed activities in several sectors such as infrastructure, productive economy, social facilities in the affected area and its surroundings (Akhmadi et al 2018).…”
Section: Introductionmentioning
confidence: 99%