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Vol 17 No 1 (2023): March

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Submitted
Feb 8, 2023
Accepted
Feb 10, 2023
Published
May 17, 2023
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Sustainable Forest Management from Hydrology and Climate Change Mitigation Perspectives

https://doi.org/10.22146/jik.v17i1.6904
Widiyatno Widiyatno
Prof. Chay Asdak
casdak@unpad.ac.id
Universitas Padjadjaran

Corresponding Author(s) : Prof. Chay Asdak

casdak@unpad.ac.id

Jurnal Ilmu Kehutanan, Vol 17 No 1 (2023): March

Abstract

The increasing number of hydrometeorological disasters induced by unsustainable landscape management has led to significant fatalities and economic loss. Forest ecosystem landscapes are strategic national capital that could contribute to climate change mitigation. The government had formulated policies on Folu Net Sink 2030 through sustainable forest management, environmental and carbon governance, and a Nationally Determined Contribution (NDC) strategic approach using its natural infrastructure in the form of forest ecosystem landscapes. The government could establish attractive and integrated incentive and disincentive systems and mechanisms with sustainable forest management to achieve the targets.

Keywords

Sustainable Forest Management Hydrology Climate Change Hydrometeorology
Widiyatno, W., & Asdak , C. (2023). Sustainable Forest Management from Hydrology and Climate Change Mitigation Perspectives. Jurnal Ilmu Kehutanan, 17(1), 1-10. https://doi.org/10.22146/jik.v17i1.6904
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References
  1. Allen WL. 2012. Environmental reviews and case studies: Advancing green infrastructure at all scales: From landscape to site. Environmental practice 14:17–25. Cambridge University Press.
  2. Asdak C. 2015. Historical and current water resource management problem in Indonesia: a case study on Jakarta’s coastal areas. Research Workshop " Asia-Holland Comparative Studies on Rural-Urban Landscape. Wakayama University, Japan.
  3. Asdak C. 2023. Hidrologi dan pengelolaan daerah aliran sungai. UGM PRESS.
  4. Asdak C, Supian S. 2017. Hydrological Implication of Traditional Farming System: A Case Study in the Upper Citarum and Cimanuk Watershed. Journal of Engineering and Applied Sciences 12:4415–4419.
  5. Asdak C, Supian S. 2018. Watershed management strategies for flood mitigation: a case study of Jakarta’s flooding. Weather and climate extremes 21:117–122. Elsevier.
  6. Avril L, Barten PK. 2007. Land use effects on streamflow and water quality in the northeastern United States. CRC Press.
  7. Bappenas. 2021. Pengelolaan Resiko Banjir di Indonesia. Deputi Bidang Sarana dan Prasarana Kementerian Perencanaan Pembangunan Nasional, Jakarta, Indonesia.
  8. Bennett G, Cassin J, Carroll N. 2016. Natural infrastructure investment and implications for the nexus: A global overview. Ecosystem Services 17:293–297. Elsevier.
  9. Bruijnzeel LA, Kappelle M, Mulligan M, Scatena FN. 2010. Tropical montane cloud forests: state of knowledge and sustainability perspectives in a changing world. Tropical montane cloud forests. Science for Conservation and Management.
  10. Bruijnzeel LA, Scatena FN. 2011. Hydrometeorology of tropical montane cloud forests. Hydrological Processes 25:319–509. Wiley-Blackwell.
  11. Falkenmark M, Rockström J. 2004. Balancing water for humans and nature: the new approach in ecohydrology. Earthscan.
  12. Gregersen HM, Ffolliott PF, Brooks KN. 2007. Integrated watershed management: Connecting people to their land and water. CABI.
  13. Griscom BW et al. 2017. Natural climate solutions. Proceedings of the National Academy of Sciences of the United States of America 114:11645–11650. National Academy of Sciences, Nature Conservancy, Arlington, VA 22203, United States. Available from https://www.scopus.com/inward/record.uri?eid=2-s2.0-85032656201&doi=10.1073%2Fpnas.1710465114&partnerID=40&md5=8bd780c21f1668be430c9f487b5267f6.
  14. Hanson JT, Yonavjak L. 2011. Forest for Water: Exploring Payments for Watershed Services in the U.S. South Craig. WRI.
  15. Hariyadi Kartidihardjo. 2022. Perjalanan Terjal PSDA Menuju 2045.
  16. Ice G. 1999. Streamflow and water quality: What does the science show about clearcutting in western Oregon. Page Proc. Symp. Clearcutting in Western Oregon: What does science show.
  17. IPCC. 2019. Synthesis Report: Summary for Policy Makers.
  18. Jarvis A, Mulligan M. 2011. The climate of cloud forests. Hydrological Processes 25:327–343. Wiley Online Library.
  19. Langridge SM, Hartge EH, Clark R, Arkema K, Verutes GM, Prahler EE, Stoner-Duncan S, Revell DL, Caldwell MR, Guerry AD. 2014. Key lessons for incorporating natural infrastructure into regional climate adaptation planning. Ocean & Coastal Management 95:189–197. Elsevier.
  20. Lawton RO, Nair US, Pielke Sr RA, Welch RM. 2001. Climatic impact of tropical lowland deforestation on nearby montane cloud forests. Science 294:584–587. American Association for the Advancement of Science.
  21. MoEF. 2017. Indonesia Third National Communication under the United Nations Framework Convention on Climate Change. Ministry of Environment and Forestry, Jakarta, Indonesia.
  22. MoEF. 2021. Updated Nationally Determined Contribution, Republic of Indonesia. Available from https://unfccc.int/sites/default/files/NDC/2022-06/Updated NDC Indonesia 2021 - corrected version.pdf.
  23. Mulligan M. 2010. Modeling the tropics-wide extent and distribution of cloud forest and cloud forest loss, with implications for conservation priority. Tropical montane cloud forests: Science for conservation and management 740:16–38. Cambridge University Press: Cambridge, UK.
  24. Sadya S. 2022. Permukaan air laut Indonesia cenderung meningkat. Available from https://dataindonesia.id/ragam/detail/permukaan-air-laut-indonesia-cenderung-meningkat.
  25. Tanaka N, Kuraji K, Tantasirin C, Takizawa H, Tangtham N, Suzuki M. 2011. Relationships between rainfall, fog and throughfall at a hill evergreen forest site in northern Thailand. Hydrological Processes 25:384–391. Wiley Online Library.
  26. Vanacker V, von Blanckenburg F, Govers G, Molina A, Poesen J, Deckers J, Kubik P. 2007. Restoring dense vegetation can slow mountain erosion to near natural benchmark levels. Geology 35:303–306. Geological Society of America.
  27. WRI. 2011. Forest for Water: Exploring Payment for Watershed Services in the U.S. South. Issue Brief No. 2.
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Author Biography

Prof. Chay Asdak, Universitas Padjadjaran

Departemen Teknik Pertanian dan Biosistem, Fakultas Teknologi Industri Pertanian
Universitas Padjadjaran

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