DOI: https://doi.org/10.14710/presipitasi.v0i0.%25p

Reclaiming Former Coal Mines with Goat Manure and Rice Husk Charcoal for Oil Palm Growth

*Anis Tatik Maryani  -  Universitas Jambi, Indonesia
Sarman Sarman  -  Universitas Jambi, Indonesia
Rosyani Rosyani  -  Universitas Jambi, Indonesia
Adri Adri  -  National Research and Innovation Agency, Indonesia
Atman Atman  -  National Research and Innovation Agency, Indonesia
Firdaus Firdaus  -  National Research and Innovation Agency, Indonesia
Busyra B Saidi  -  National Research and Innovation Agency, Indonesia
Yudha Gusti Wibowo orcid scopus publons  -  Institut Teknologi Sumatera, Indonesia

Citation Format:
Abstract

This study focuses on the impact of goat manure and rice husk charcoal distribution on oil palm cultivation in former mining lands. The objective is to determine the optimal combination of goat manure and rice husk charcoal that enhances the growth of oil palm plants on these lands. Conducted in Pijoan Village, Muaro Jambi District, Jambi Province in 2021, the research utilized a completely randomized block design (RCBD) with 8 treatments and 3 repetitions, yielding 24 experimental units. The eight treatments consisted of varying ratios of goat manure to rice husk charcoal: (P1) 150 g goat manure + 325 g rice husk charcoal per planting hole, through (P8) 325 g goat manure + 150 g rice husk charcoal per planting hole. Results indicated that the combination of 325 g goat manure + 150 g rice husk charcoal (P8) provided the best outcomes in plant height, stem diameter, leaf balance at the third frond, and total frond count on reclaimed land.

Note: This article has supplementary file(s).

Fulltext View|Download |  common.other
Untitled
Subject
Type Other
  Download (B)    Indexing metadata
Keywords: rice husk charcoal; coal mining; environment; goat manure; organic fertilizer; reclamation; oil palm

Article Metrics:

Article Info
Section: Original Research Article
Language : EN
Recent articles
The Efficacy of Anaerobic Biofilter and Pre-Aeration with Microbubble Generator for Tofu Wastewater Treatment Optimizing Nutrient Removal in Agriculture Wastewater Using Electrocoagulation Technology Eco Literacy in Z Generation Regarding Waste Management as a Critical Dimension of Sustainable Urban Green Space Infiltration Well Design for Environmental Conservation: Assessing Watershed and Groundwater Depth in Denpasar City Mining Noise Pollution: A Case Study of a Crushing Plant in Sintang Spatial Modeling for River Quality Assessment to Enhance Sustainable Water Resource Management Regulations More recent articles
Most cited articles
ELECTRICITY GENERATION FROM LANDFILL GAS STUDI PEMBUATAN KOMPOS PADAT DARI SAMPAH DAUN KERING TPST UNDIP DENGAN VARIASI BAHAN MIKROORGANISME LOKAL (MOL) DAUN PENERAPAN PENGELOLAAN LIMBAH B3 DI PT. TOYOTA MOTOR MANUFACTURING INDONESIA Kajian Dampak Rencana Pembangunan Kawasan Wisata Marina di Pesisir Kabupaten Belitung terhadap Kualitas Lingkungan Sekitarnya KOMBINASI FEEDING BIOSTARTER DAN AIR DALAM ANAEROBIK DIGESTER More cited articles
  1. Bodlák, L., Křováková, K., Kobesová, M., Brom, J., Šťastný, J., Pecharová, E., 2012. SOC content—An appropriate tool for evaluating the soil quality in a reclaimed post-mining landscape. Ecological Engineering 43, 53–59. https://doi.org/10.1016/j.ecoleng.2011.07.013
  2. Derakhshan Nejad, Z., Rezania, S., Jung, M.C., Al-Ghamdi, A.A., Mustafa, A.E.-Z.M.A., Elshikh, M.S., 2021. Effects of fine fractions of soil organic, semi-organic, and inorganic amendments on the mitigation of heavy metal(loid)s leaching and bioavailability in a post-mining area. Chemosphere 271, 129538. https://doi.org/10.1016/j.chemosphere.2021.129538
  3. Dhaliwal, S.S., Naresh, R.K., Mandal, A., Singh, R., Dhaliwal, M.K., 2019. Dynamics and transformations of micronutrients in agricultural soils as influenced by organic matter build-up: A review. Environmental and Sustainability Indicators 1–2, 100007. https://doi.org/10.1016/j.indic.2019.100007
  4. Dhaliwal, S. S., Naresh, R.K., Mandal, A., Walia, M.K., Gupta, R.K., Singh, R., Dhaliwal, M.K., 2019. Effect of manures and fertilizers on soil physical properties, build-up of macro and micronutrients and uptake in soil under different cropping systems: a review. Journal of Plant Nutrition 42, 2873–2900. https://doi.org/10.1080/01904167.2019.1659337
  5. Fageria, N.K., 2012. Role of Soil Organic Matter in Maintaining Sustainability of Cropping Systems. Communications in Soil Science and Plant Analysis 43, 2063–2113. https://doi.org/10.1080/00103624.2012.697234
  6. Feng, Y., Wang, J., Bai, Z., Reading, L., 2019. Effects of surface coal mining and land reclamation on soil properties: A review. Earth-Science Reviews 191, 12–25. https://doi.org/10.1016/j.earscirev.2019.02.015
  7. Gabarrón, M., Zornoza, R., Acosta, J.A., Faz, Á., Martínez-Martínez, S., 2019. Mining environments, in: Advances in Chemical Pollution, Environmental Management and Protection. Elsevier, pp. 157–205. https://doi.org/10.1016/bs.apmp.2019.07.003
  8. Gusti Wibowo, Y., Safitri, H., Khairurrijal, K., Taher, T., Ode Arham, L., Jarwinda, Jasipto, A., Akbari Danasla, M., Fadhilah, R., Kharisma Army, E., Zul Hakim, H., Tawfiequrahman Yuliansyah, A., Tri Bayu Murti Petrus, H., 2024. Recent advances in acid mine drainage treatment through hybrid technology: Comprehensive review of scientific literature. Environmental Nanotechnology, Monitoring & Management 21, 100945. https://doi.org/10.1016/j.enmm.2024.100945
  9. Hocking, P.J., 2001. Organic acids exuded from roots in phosphorus uptake and aluminum tolerance of plants in acid soils, in: Advances in Agronomy. Elsevier, pp. 63–97. https://doi.org/10.1016/S0065-2113(01)74031-X
  10. Pratiwi, Narendra, B.H., Siregar, C.A., Turjaman, M., Hidayat, A., Rachmat, H.H., Mulyanto, B., Suwardi, Iskandar, Maharani, R., Rayadin, Y., Prayudyaningsih, R., Yuwati, T.W., Prematuri, R., Susilowati, A., 2021. Managing and Reforesting Degraded Post-Mining Landscape in Indonesia: A Review. Land 10, 658. https://doi.org/10.3390/land10060658
  11. Ramadan, B.S., Wulandari, M., Wibowo, Y.G., Ikhlas, N., Nurseta, D.Y., 2021. Removing Ionic and Nonionic Pollutants from Soil, Sludge, and Sediment Using Ultrasound‐Assisted Electrokinetic Treatment, in: Ribeiro, A.B., Vara Prasad, M.N. (Eds.), Electrokinetic Remediation for Environmental Security and Sustainability. Wiley, pp. 653–677. https://doi.org/10.1002/9781119670186.ch26
  12. Setiawan, A., 2022. MINERALS AND COAL RESERVES POTENTIAL IN INDONESIA AND THE WORLD: POTENSI CADANGAN MINERAL DAN BATUBARA DI INDONESIA DAN DUNIA. Jurusan Teknik Pertambangan Program Studi S1 Teknik Pertambangan Universitas Papua 1, 20–31. https://doi.org/10.56139/intan.v1i1.7
  13. Setyorini, D., Hartatik, W., 2021. Nutrients balance under organic rice farming system in Central Java, Indonesia. IOP Conf. Ser.: Earth Environ. Sci. 648, 012154. https://doi.org/10.1088/1755-1315/648/1/012154
  14. Sharma, U.C., Datta, M., Sharma, V., 2022. Land Use and Management, in: Soils in the Hindu Kush Himalayas, Geography of the Physical Environment. Springer International Publishing, Cham, pp. 295–462. https://doi.org/10.1007/978-3-031-11458-8_7
  15. Singhal, R.K., 2022. Geotechnical stability in surface mining: proceedings of the International Symposium on Geotechnical Stability in Surface Mining, Calgary, 6-7 November 1986. CRC Press, Leiden, Netherlands
  16. Wang, Y., Gao, M., Chen, H., Chen, Y., Wang, L., Wang, R., 2023. Organic Amendments promote saline-alkali soil desalinization and enhance maize growth. Front. Plant Sci. 14, 1177209. https://doi.org/10.3389/fpls.2023.1177209
  17. Wibowo, Y.G., Imron, M.F., Kurniawan, S.B., Ramadan, B.S., Taher, T., Sudibya, A.H., Syarifuddin, H., Khairurrijal, K., Jarwinda, J., 2023a. Emerging Strategies for Mitigating Acid Mine Drainage Formation and Environmental Impacts: A Comprehensive Review of Recent Advances. Sci. Technol. Indones 8, 516–541. https://doi.org/10.26554/sti.2023.8.4.516-541
  18. Wibowo, Y.G., Ramadan, B.S., 2021. Enhanced Remediation and Recovery of Metal‐Contaminated Soil Using Electrokinetic Soil Flushing, in: Ribeiro, A.B., Vara Prasad, M.N. (Eds.), Electrokinetic Remediation for Environmental Security and Sustainability. Wiley, pp. 603–627. https://doi.org/10.1002/9781119670186.ch24
  19. Wibowo, Y.G., Ramadan, B.S., Sudibyo, S., Safitri, H., Rohman, A., Syarifuddin, H., 2023b. Efficient remediation of acid mine drainage through sustainable and economical biochar-CaO composite derived from solid waste. Environ Dev Sustain 26, 16803–16826. https://doi.org/10.1007/s10668-023-03311-z
  20. Wibowo, Y.G., Safitri, H., Malik, I.B.I., Sudibyo, Priyanto, S., 2022a. Alternative Low-Cost Treatment for Real Acid Mine Drainage: Performance, Bioaccumulation, Translocation, Economic, Post-Harvest, and Bibliometric Analyses. Sustainability 14, 15404. https://doi.org/10.3390/su142215404
  21. Wibowo, Y.G., Sudibyo, Naswir, M., Ramadan, B.S., 2022b. Performance of a novel biochar-clamshell composite for real acid mine drainage treatment. Bioresource Technology Reports 17, 100993. https://doi.org/10.1016/j.biteb.2022.100993
  22. Wibowo, Y.G., Taher, T., Khairurrijal, K., Ramadan, B.S., Safitri, H., Sudibyo, S., Yuliansyah, A.T., Petrus, H.T.B.M., 2024. Recent advances in the adsorptive removal of heavy metals from acid mine drainage by conventional and novel materials: A review. Bioresource Technology Reports 25, 101797. https://doi.org/10.1016/j.biteb.2024.101797

Last update:

No citation recorded.

Last update: 2024-12-03 11:58:13

No citation recorded.