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SDG 6: Clean Water and Sanitation

PROJECTIONS OF FUTURE METEOROLOGICAL DROUGHT IN JAVA–NUSA TENGGARA REGION BASED ON CMIP6 SCENARIO

Publication Friday, 19 April 2024

Safura, Afifah Huda | Sekaranom, Andung Bayu

Geographia Technica, Open Access, Volume 19, Issue 1, Pages 43 – 60, 1 March 2024

Abstract

Between 2018 and 2022, the primary regions for rice production in Indonesia were Java, Bali, and Nusa Tenggara, collectively contributing to approximately 61% of the annual rice production. Unfortunately, these islands are also most vulnerable to crop failure due to drought-induced water shortages. Therefore, this study predicted the occurrence, duration, and severity of meteorological drought in Java, Bali, and Nusa Tenggara using rainfall data from six climate models within the CMIP6 framework under the SSP245 and SSP585 scenarios. The observed data of 20 BMKG rainfall stations in the study area was acquired to adjust the output of the CMIP6 models using the Linear Scaling (LS) method. The Standardized Precipitation Index (SPI) at a 3-month scale (SPI-3) was used to analyze meteorological drought characteristics, such as frequency, duration, and intensity. The results showed that drought frequency increased and persisted for longer durations, particularly in the Nusa Tenggara region. However, compared to the observation period, drought intensity was predicted to decline in both scenarios compared to the observed period. The SSP585 scenario also indicated a higher level of drought compared to SSP245. © 2024, Asociatia Geographia Technica. All rights reserved. read more

Assessing karst landscape degradation based on the void development of karst aquifers in Gunungsewu, Indonesia

Publication Friday, 19 April 2024

Naufal, Muhammad | Adji, Tjahyo Nugroho | Haryono, Eko | Cahyadi, Ahmad

Journal of Degraded and Mining Lands Management, Open Access, Volume 11, Issue 3, Pages 5707 – 57 15, April 2024

Abstract

Compared to other landforms, karst areas are among those emerging from the dissolution process that have a higher risk of land degradation. The likelihood of karst landforms being harmed is increased by urbanization and other human activities like extensive agriculture. Subsurface streams’ water quality gets worse when surface pollutants infiltrate through developed karst features like sinkholes and karst ponors. There is a greater risk of land degradation as more karst features, in this case void size, develop. The purpose of this research is to assess how void development, or the degree of karstification, relates to the potential for karst spring pollution in the event that land degradation occurs on the surface of the Karst Drainage System (KDS). This research was conducted at the KDS of Beton and Gremeng Spring in the Gunungsewu karst area, Indonesia. In addition, this study also provides recommendations related to environmental management on the basis of the level of development of voids at both sites. The degree of karstification represents the phase at which a hydrogeological system has been developing, and this information was later considered in formulating strategies for protecting karst groundwater from contamination. The results show that Beton and Gremeng had a complex discharge regime with degrees of karstification at 8 and 5.5, respectively. Based on flood hydrograph components, it was further confirmed that both areas were in the mature phase. The higher the degree of karstification, the higher the vulnerability to ollution © 2024 Brawijaya University. All rights reserved. read more