Physical and Chemical Properties Improvement of Soils from Progo River Estuarine after Rehabilitation using Sonneratia sp

Eny  Faridah; Daryono Prehaten; Cahyono Agus Dwi Koranto; Winastuti Dwi Atmanto; Haryono Supriyo; Handojo Hadi Nurjanto

doi:10.22146/jik.v15i2.1802

Issue

Vol 15 No 2 (2021): September

Issue Published : Jun 26, 2021

Date Log

Submitted

May 4, 2021

Accepted

Aug 16, 2021

Published

Aug 25, 2021

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Physical and Chemical Properties Improvement of Soils from Progo River Estuarine after Rehabilitation using Sonneratia sp

https://doi.org/10.22146/jik.v15i2.1802

Eny Faridah

enyfaridah@ugm.ac.id

Universitas Gadjah Mada

https://orcid.org/0000-0001-7795-5129

Daryono Prehaten

Universitas Gadjah Mada

https://orcid.org/0000-0002-1070-1893

Cahyono Agus Dwi Koranto

Universitas Gadjah Mada

https://orcid.org/0000-0002-6686-4771

Winastuti Dwi Atmanto

Universitas Gadjah Mada

Haryono Supriyo

Universitas Gadjah Mada

Handojo Hadi Nurjanto

Universitas Gadjah Mada

https://orcid.org/0000-0002-6066-3071

Corresponding Author(s) : Eny Faridah

enyfaridah@ugm.ac.id

Jurnal Ilmu Kehutanan, Vol 15 No 2 (2021): September
Article Published : Aug 25, 2021

Abstract

Mangrove planting in Progo River Esturaine in Kulon Progo was hindered by its marginal conditions, where the land was dominated by very dynamic sandy substrat. This condition has caused the growth of various planted mangrove seedlings by Forestry UGM team (2015-2016) was very low. Nevertheless, it was found that Sonneratia can grow well in the location. It was expected that Sonneratia can improve site condition so it became suitable for the growth of other mangrove species. This research aimed to assess soil properties of Progo River estuarine after rehabilitation using Sonneratia. Characterisation of soil physical (texture) and chemical (salinity, pH, and soil organic matter) properties were conducted in the Laboratory of Tree Physiology and Forest Soil, Faculty of Forestry UGM. Soil samples were collected from Sonneratia plant area in various growing conditions. The results showed that growth of Sonneratia affected soil physical properties particularly increasing the proportion of clay and silt, but not soil texture class. In general, more proportion of clay and sand were detected in the bigger Sonneratia plants and in the outer section of root system. The growth of Sonneratia also affected soil chemical properties particularly soil organic matter but not soil pH and salinity.

Keywords

Sonneratia site improver estuarine soil texture organic matter

Faridah, E., Prehaten, D., Koranto, C. A. D., Atmanto, W. D., Supriyo, H., & Nurjanto, H. H. (2021). Physical and Chemical Properties Improvement of Soils from Progo River Estuarine after Rehabilitation using Sonneratia sp. Jurnal Ilmu Kehutanan, 15(2), 218-230. https://doi.org/10.22146/jik.v15i2.1802

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References

Andrianto F, Bintoro A, Yuwono SB. 2015. Produksi dan laju dekomposisi serasah mangrove (Rhizophora sp.) di desa durian dan desa batu menyan kecamatan padang cermin kabupaten pesawaran. Jurnal Sylva Lestari 3(1):9–20.
Anonim. 2009. Spesies Mangrove. http://indonesia.wetlands.org/Infolahanbasah/SpesiesMangrove/ tabid/2835/language/id-ID/Default.aspx. Diakses April 2014.
Aunurohim, Sujatmiko BK, Ikrom AB, Kuswytasari ND, Shovitri M, Zulaika E, Alami NH, Saputro TB, Muslihatin W, Ermavitalini D, Ersan T. 2015. Benthic Macrofauna in Mangrove Zonation at Poteran Island, Madura, Indonesia. J. Appl. Environ. Biol. Sci., 5(5):90–95.
Baderan DWK, Utina R, Lapolo N. 2018. Vegetation structure, species diversity, and mangrove zonation patterns in the Tanjung Panjang Nature Reserve Area, Gorontalo, Indonesia. International Journal of Applied Biology 2(2):1–12.
Budiadi, Nurjanto HH, Hardiwinoto S. 2016. Pengembangan model rehabilitasi mangrove khas muara kali Progo menuju perbaikan kualitas lingkungan, penurunan resiko bencana, dan peningkatan kesejahteraan masyarakat. Laporan akhir kegiatan Penelitian Unggulan Perguruan Tinggi.
Chen F, Yang Y, Mi J, Liu R, Hou H, Zhang S. 2019. Effects of vegetation pattern and spontaneous succession on remediation of potential toxic metal-polluted soil in mine dumps. Sustainability 11, 397; doi:10.3390/su11020397.
Dewiyanti I, Darmawi D, Muchlisin ZA, Helmi TZ, Imelda I, Devira CN. 2021. Physical and chemical characteristics of soil in mangrove ecosystem based on differences habitat in Banda Aceh and Aceh Besar. In the Proceeding of International and National Symposium on Aquatic Environment and Fisheries. IOP Conf. Series: Earth and Environmental Science 674 (2021) 012092. IOP Publishing. doi:10.1088/1755-1315/674/1/012092. pp 1–7.
Fagherazzi S, Bryan KR, Nardin W. 2017. Buried alive or washed away: The challenging life of mangroves in the Mekong Delta. Oceanography 30(3): 48–59, https://doi.org/10.5670/oceanog.2017.313 -1126
Giesen W, Wulffraat S, Zierendan M, Scholten L. 2006. Mangrove Guidebook for Southeast Asia. Dharmasarn Co., Ltd.
Halidah, Kama H. 2013. Penyebaran alami Avicenia marina (Forsk) Vierh dan Sonneratia alba Smith pada substrat pasir. Indonesian Forest Rehabilitation Journal 1(1):51–58.
Hossain MD, Nuruddin AA. 2016. Soil and Mangrove: A Review. Journal of Environmental Science and Technology 9(2):198–207.
Jalil AR, Malik A, Nurdin N, Saru A, Yunus I. 2020. Assessment of Seawater Level, Inundation Duration and Substrate Elevation for Mangrove Rehabilitation Program in The Spermonde Archipelago South Sulawesi Indonesia. International Journal of Conservation Science 11(4): 1115-1126.
Kathiresan K, Salmo III SG, Fernando ES, Peras JR, Sukardjo S, Miyagi T, Ellison J, Koedam NE, Wang Y, Primavera J, Jin EO, Wan HY, Ngoc NV. 2010. Sonneratia alba. The IUCN Red List of Threatened Species 2010:e.T1778804A7611432. http://dx.doi.org/10.2305/IUCN.UK.2010- 2.RLTS. Diakses February 2017.
Kramer PJ, Kozlowski TT. 1979. Physiology of Woody plants. Academic Press. New York. 826 p.
Krishnan JU, Devi SS, Jithine JR, Ajesh G, Lekshmi NR. 2014. Status of Sonneratia alba (Mangrove apple) from the Ashtamudi Lake, Kerala India. Journal of Aquatic Biology and Fisheries 2:237–240.
Kunze GW, Dixon JB. 1986. Pretreatment for Mineralogical Analysis dalam A. Klute (ed.). Methods of Soil Analysis. Part 1. Physical and Mineralogical Methods. 2nd Edition. Wisconsin, USA. Hlmn: 91–100.
Lestyaningrum RA, Mahmudi M, Harahab N. 2017. The Biodiversity of Mangrove in Ngantep Coastal, Malang District. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan 8(1): 13–18.
Marisa H, Sarno. 2015. Three Species Zonation of Sonneratia Based on Salinity in River Calik, South Sumatera. International Conference on Plant, Marine and Environmental Sciences (PMES-2015) Jan. 1–2, 2015 Kuala Lumpur (Malaysia).
Mensah AK. 2015. Role of revegetation in restoring fertility of degraded mined soils in Ghana: A review. International Journal of Biodiversity and Conservation 7(2): 57–80.
Mitter CS. 2015. Investigation of Bioactive Principles from Leaf Extracts of Sonneratia alba. AIJCSR: 75–81.
Morada NJ, Metillo EB, Uydan MM, Oclarit JM. 2011. Anti-diabetic Polysaccharide from Mangrove Plant, Sonneratia alba Sm. International Conference on Asia Agriculture and Animal. IPCBEE vol. 13 IACSIT Press, Singapoore. pp: 197–200.
Mughofara A, Masykuri M, Setyono P. 2018. Zonasi dan komposisi vegetasi hutan mangrove Pantai Cengkrong Desa Karanggandu Kabupaten Trenggalek Provinsi Jawa Timur. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan 8(1): 77–85 doi: 10.29244/jpsl.8.1.77-85 77.
Muhando CA. 2011. Biophysical Features in the Northern Tanga Marine Reserves, Tanzania. Marine Parks and Reserves Unit, Dar es Salaam, Tanzania. vi + 38pp.
Nurjanto HH, Supriyo H, Widyastuti SM, Kabirun S, Johan E, Matsue N. 2016. Smectite under heavy clay soils development at FRE Wanagama Forest area. Malaysian Journal of Soil Science 20: 1-18.
Prinasti NKD, Dharma IGBS, Suteja Y. 2020. Struktur komunitas vegetasi mangrove berdasarkan karakteristik substrat di Taman Hutan Raya Ngurah Rai, Bali. Journal of Marine and Aquatic Sciences 6(1): 90–99. doi: https://doi.org/10.24843/jmas.2020. v06.i01.p11
Ragasa CY, Ebajo Jr VD, De Los Reyes MM, Mandia EH, Brkljača R, Urban S. 2015. Triterpenes and Sterols from Sonneratia alba. International Journal of Current Pharmaceutical Review and Research 6(6):256–261.
Sari W. 2017. Dekomposisi serasah daun Rhizophora mucronata pada berbagai tingkat salinitas di kawasan hutan mangrove Desa Bagan Percut Kecamatan Percut Sei Tuan. Skripsi Program Studi Kehutanan Fakultas Kehutanan, Universitas Sumatera Utara.
Saru A, Idrus R, Ilham M. 2019. The mangrove ecosystem potential for educational tour development around pond education of Hasanuddin University (UNHAS) in Mallusetasi District, Barru Regency. Jurnal Ilmu Kelautan SPERMONDE 5(2):70–76.
Setyawan AD. 2009. Diversity of Sonneratia alba in coastal area of Central Jawa based on isozymic patterns of esterase and peroxidase. Nusantara Bioscience 1(2):92–103.
Siregar RH, Yunasfi, Muhtadi A. 2016. Hubungan kerapatan mangrove terhadap laju sedimen transpor di wilayah pesisIr Desa Pulau Sembilan Kabupaten Langkat Sumatera Utara. Jurnal Aquacoastmarine 4(4):1–10.
Suryono, Soenardjo N, Wibowo E, Ario R, Rozy EF. 2018. Estimasi kandungan biomassa dan karbon di hutan mangrove Perancak Kabupaten Jembrana, Privinsi Bali. Buletin Oseanografi Marina 7(1):1–8.
Tatongjai S, Kraichak E, Kermanee P. 2021. Comparative anatomy and salt management of Sonneratia caseolaris (L.) Engl. (Lythraceae) grown in saltwater and freshwater. Peer J. 9:e10962 http://doi.org/10.7717/peerj.10962.
Winarti, Rahardja BS, Sudarno. 2019. Aktivitas Antioksidan Ekstrak Daun Mangrove Sonneratia caseolaris Berdasarkan Tingkat Kematangan Daun. Journal of Marine and Coastal Science 8(3):130–138.
Xia S, Song Z, Wang Y, Wang W, Fu X, Singh BP, Kuzyakov Y, Wang H. 2021. Soil organic matter turnover depending on land use change: coupling C/N ratios, δ13C, and lignin biomarkers. Land Degradation and Development 32(4):1591–1605.