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Fluktuasi Tinggi Muka Air Tanah Gambut Di Lahan Perkebunan Kelapa Sawit Desa Kubu Kecamatan Kubu Kabupaten Kubu Raya

1Program Studi Ilmu Tanah Fakultas Pertanian Universitas Tanjungpura, Indonesia

2Program Studi Ilmu Lingkungan Pasca Sarjana Universitas Tanjungpura, Indonesia

Received: 10 Aug 2022; Revised: 22 May 2023; Accepted: 15 Jul 2023; Available online: 14 Sep 2023; Published: 21 Sep 2023.
Editor(s): Budi Warsito

Citation Format:
Abstract

The Government of Indonesia requires oil palm plantations on peatlands to regulate the ground water table at -40 cm all year. Factors that determine the groundwater are rainfall, tidal conditions, land conversions and drainage conditions. This research aims to measure the ground water table and water balance of the oil palm plantation on the drained peats. The research was conducted from August – October 2021. The grounwater table were measured with peizoemeter installed in three blocks at an interval of 250 m, 500 m, and 750 m. The measurements were at 8 am dan 4 pm. The groundwater table ranges -4 cm to -39 cm. It seems that rainfall and tides do not have influence heights of the groundwater table in this oil palm. Further research must be done to investigate this phenomenon. A comprehensive monitoring of groundwater table covering both rainy and dry seasons is required to record the differences of groundwater tables.

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Fluktuasi Tinggi Muka Air Tanah Gambut Di Lahan Perkebunan Kelapa Sawit Desa Kubu Kecamatan Kubu Kabupaten Kubu Raya
Subject drained peat, groundwater table, rainfall, tides
Type Research Results
  Download (938KB)    Indexing metadata
Keywords: The Government of Indonesia requires oil palm plantations on peatlands to regulate the ground water table at -40 cm all year. Factors that determine the groundwater are rainfall, tidal conditions, land conversions and drainage conditions. This research ai

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  1. Anshari, G. Z., M. Afifudin, M. Nuriman, E. Gusmayanti, L. Arianie, R. Susana, R. W. Nusantara, J. Sugardjito, and A. Rafiastanto. 2010. “Drainage and Land Use Impacts on Changes in Selected Peat Properties and Peat Degradation in West Kalimantan Province, Indonesia.” Biogeosciences 7 (11): 3403–19. https://doi.org/10.5194/bg-7-3403-2010
  2. Arabia, T, H Basri, Manfarizah, Zainabun, and Mukhtaruddin. 2020. “Physical and Chemical Characteristics in Peat Lands of Aceh Jaya District , Indonesia Physical and Chemical Characteristics in Peat Lands of Aceh Jaya District , Indonesia.” In International Symposium on Wetlands Enviromental Management, 499. Darussalam Banda Aceh: IOP Publishing. https://doi.org/10.1088/1755-1315/499/1/012004
  3. Arham, M, Muhammad Arsyad, and Pariabti Palloan. 2015. “Analisis Karakteristik Curah Hujan Dan Tinggi Muka Air Daerah Aliran Sungai (DAS) Pute Rammang-Rammang Kawasan Karst Maros.” Jurnal Sains Dan Pendidikan Fisika (JSPF) 11 (1): 82–87
  4. Aswandi, Ronggo Sadono, Haryono Supriyo, and Hartono. 2016. “Kehilangan Karbon Akibat Drainase Dan Degradasi Lahan Gambut Tropika Di Trumon Dan Singkil Aceh.” Journal Manusia Dan Lingkungan 23 (3): 334–41. https://journal.ugm.ac.id/JML/article/view/18807
  5. Dariah, Al, Eni Maftuah, and Maswar. 2014. “Karakteristik Lahan Gambut.” Panduan Pengelolaan Berkelanjutan Lahan Gambut Terdegradasi
  6. Edi, Harisman, Baba Barus, and Dwi Putro Tejo Baskoro. 2017. “Pemetaan Subsiden Di Kesatuan Hidrologi Gambutt Sungai Jangkang Sungai Liong Pulau Bengkalis.” Ilmu Teknologi Lingkungan 19 (April): 13–18
  7. Frizdew, Rovanty. 2012. “Variasi Kadar Karbon Organik Berdasarkan Perbedaan Kedalaman Muka Air Tanah Gambut Pada Lahan Gambut Yang Diusahakan Untuk Komoditas Perkebunan.” Institut Pertanian Bogot
  8. Gumbricht, Thomas, Rosa Maria Roman-Cuesta, Louis Verchot, Martin Herold, Florian Wittmann, Ethan Householder, Nadine Herold, and Daniel Murdiyarso. 2017. “An Expert System Model for Mapping Tropical Wetlands and Peatlands Reveals South America as the Largest Contributor.” Global Change Biology 23 (9): 3581–99. https://doi.org/10.1111/gcb.13689
  9. Hafiyyan, Qalby, Marsudi, and Nurhayati. 2017. “Dinamika Aliran Air Tanah Pada Lahan Rawa Pasang Surut.” Jurnal PWK, Laut, Sipil Dan Tambang 4: 1–11. https://doi.org/http://dx.doi.org/10.26418/jelast.v4i4.22967
  10. Harist, Abduh, Wawan, and Wardati. 2017. “Sifat Fisik Tanah Dan Pertumbuhan Tanaman Karet (Hevea Brasiliensis Muell. Arg) Pada Beberapa Kondisi Penutupan Lahan Dengan Mucuna Bracteata.” Jurnal Online Pertanian 4 (2): 1–14
  11. Harun, Marinus Kristiadi, Syaiful Anwar, Eka Intan Kurnia Putri, and Hadi Susilo Arifin. 2020. “Sifat Kimia Dan Tinggi Muka Air Tanah Gambut Pada Tiga Tipe Penggunaan Lahan Di Fisiograi Kubah Gambut Dan Rawa Belakang KHG Kahayan-Sebagau.” Jurnal Hutan Tropis 8 (3): 315–27
  12. Hooijer, A., S. Page, J. G. Canadell, M. Silvius, J. Kwadijk, H. Wösten, and J. Jauhiainen. 2010. “Current and Future CO 2 Emissions from Drained Peatlands in Southeast Asia.” Biogeosciences 7 (5): 1505–14. https://doi.org/10.5194/bg-7-1505-2010
  13. IPCC. 2015. “Climate Change 2014 Synthesis Report.” Intergovernmental Panel on Climate Change. Geneva, Switzerland. https://doi.org/10.1016/S0022-0248(00)00575-3
  14. Nikosius, Marselus, Urai Edi Suryadi, and Ari Krisnohadi. 2019. “Hubungan Muka Air Tanah Dan Sifat Fisika Tanah Gambut Di Perkebunan Kelapa Sawit Estate KPS PT Parna Agromas Kabupaten Sekadau.”
  15. Norsiah, Andi Ihwan, and Joko Sampurno. 2017. “Identifikasi Jenis Gambut Berdasarkan Struktur Porinya Dengan Menggunakan Geometri Fraktal.” Prisma Fisika V (2): 55–60
  16. Nusantara, Rossie Wiedya, Tjut S Djohan, Eko Haryono, Fakultas Geografi, Universitas Gadjah Mada, Jl Kaliurang, and Jl Kaliurang. 2012. “Karakteristik Fisik Lahan Akibat Alih Fungsi Lahan Hutan Rawa Gambut.” Perkebunan & Lahan Tropika 2 (2)
  17. Perdana, Sandi, and Wawan. 2015. “Pengaruh Pemadatan Tanah Gambut Terhadap Sifat Fisik Pada Dua Lokasi Yang Berbeda.” JOM Paperta 2 (2)
  18. Prasetia, Denni, Lailan Syaufina, Kabupaten Musi Banyuasin, and Musi Banyuasin. 2020. “Pengaruh Tinggi Muka Air Terhadap Kejadian Kebakaran Hutan Dan Lahan Gambut : Studi Kasus Di Kabupaten Musi Banyuasin.” Sylva Lestari 8 (2): 173–80
  19. Prihutami, Muhti Dewi, Evi Gusmayanti, and Muhammad Pramulya. 2019. “Fluks CO2 Di Lahan Kelapa Sawit Dan Hubungannya Dengan Faktor Lingkungan Pada Siang Hari.” Ilmu Pertanian Tirtayasa 1 (1): 57–67
  20. Runtunuwu, Eleonora, Budi Kartiwa, Kharmilasari Kharmilasari, Kurmen Sudarman, Wahyu Tri Nugroho, and Anang Firmansyah. 2011. “Dinamika Elevasi Muka Air Pada Lahan Dan Saluran Di Lahan Gambut.” Jurnal RISET Geologi Dan Pertambangan 21 (1): 63. https://doi.org/10.14203/risetgeotam2011.v21.47
  21. Sihaloho, Nani Kitti. 2015. “Pengelolaan Muka Air Tanah Dan Aplikasi Terak Baja Terhadap Sifat Fisik Gambut Kaitannya Dengan Emisi Karbon Pada Perkebunan Kelapa Sawit.”
  22. Simatupang, Darbin, Dwi Astiani, and Tri Widiastuti. 2018. “Pengaruh Tinggi Muka Air Tanah Terhadap Beberapa Sifat Fisika Dan Kimia Tanah Gambut Di Desa Kuala Dua Kabupaten Kubu Raya.” Jurnal Hutan Lestari 6: 998–1008
  23. Situmorang, Petrus Candranius, Wawan, and M. Amrul Khoiri. 2015. “Pengaruh Kedalaman Muka Air Tanah Dan Mulsa Organik Terhadap Sifat Fisik Dan Kimia Tanah Gambut Pada Perkebunan Kelapa Sawit.” JOM Paperta 2 (2)
  24. Subiksa, I G M, and Diah Setyorini. 2009. Fosfat Alam : Pemanfaatan Fosfat Alam Yang Digunakan Langsung Sebagai Sumber P
  25. Subiksa, I G M, and Wahyunto. 2021. Inovasi Teknologi Lahan Rawa Mendukung Kedaulatan Rawa. Depok: Rajawali Pers
  26. Sukriawan, Aries, Abdul Rauf, Arief Setiawan Sutanto, and Bolot Santoso. 2015. “Pengaruh Kedalaman Muka Air Tanah Terhadap Lilit Batang Karet CLON PB260 Dan Sifat Kimia Tanah Gambut Di Kebun Meranti RAPP Riau.” Pertanian Tropik 2 (1): 1–5
  27. Susandi, Oksana, and Ahmad Taufiq Arminudin. 2015. “Analisis Sifat Fisika Tanah Gambut Pada Hutan Gambut Di Kecamatan Tambang Kabupaten Kampar Provinsi Riau.” Jurnal Agroteknologi 5 (2): 23. https://doi.org/10.24014/ja.v5i2.1351
  28. Triadi, Budi L, and Parlinggoman Simanungkalit. 2018. “Monitoring Dan Upaya Mengendalikan Muka Air Pada Perkebunan Di Lahan Rawa Gambut Di Indonesia.” Jurnal Teknik Hidraulik 9 (I): 53–68
  29. Triadi, L. Budi, Fengky F. Adjie, and Yudi Lesmana. 2018. “Dampak Dinamika Muka Air Tanah Pada Besaran Dan Laju Emisi Carbon Di Lahan Rawa Gambut

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Last update: 2024-10-04 01:18:25

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