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Application of livestock manure and edamame harvest waste to improve the chemical properties of acid dry land

By: Untung Santoso, Akhmad Gazali, Emmy Sri Mahreda, Raihani Wahdah

Key Words: Suboptimal dry land, Organic farming, Livestock manure, Edamame harvest waste, Acid soil

Int. J. Biosci. 19(4),41-52, October 2021.

DOI: http://dx.doi.org/10.12692/ijb/19.4.41-52

Certification: ijb 2021 0292 [Generate Certificate]

Abstract

South Kalimantan has a large dry land. It is classified as acidic and has the potential for agricultural cultivation, especially food and horticulture crops. However, the problem with its use as agricultural land is the low level of soil fertility. This is evidenced in its low content of soil organic matter, acidic soil pH, low soil CEC, low soil exchange bases, high Al and Fe content. This study aims to improve soil chemical properties in acid dry land by the application of livestock manure and edamame harvest waste (EHW). It was compiled using a Nested Factorial Randomized Block Design, where the edamame harvest waste was nested in livestock manure. The treatment level of the first factor was chicken, cow, and goat manure, while the second was 0%, 25%, 50%, and 75% EHW. The results showed that the treatment of 100% chicken manure + 0% EHW increased soil pH by 9% compared to 25% chicken manure + 75% EHW. Furthermore, treatment of 100% goat manure + 0% EHW increased soil pH compared to 50% goat manure + 50% EHW and 25% goat manure + 75% EHW by 11.69% and 14.28%, respectively. The treatment of 100% chicken manure increased soil organic C by 38.16% compared to 25% chicken manure + 75% EHW. Meanwhile, the treatment of 100% goat manure increased soil organic C compared to 50% goat manure + 50% EHW and 25% goat manure + 75% EHW by 36.23% and 55.83%, respectively.

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Application of livestock manure and edamame harvest waste to improve the chemical properties of acid dry land

Adiningsih SJ, Prihatini T. 1986. Pengaruh pengapuran dan inokulan terhadap produksi dan pembintilan tanaman kedelai pada tanah Podsolik di Sitiung II, Sumatera Barat. Prosiding Pertemuan Teknis Penelitian Tanah, Cipayung 10−13 November 1981. Pusat Penelitian Tanah, Bogor, p 139-150.

Ano AO, Ubochi CI. 2007. Neutralization of soil acidity by animal manure: Mechanism of reaction. African Journal of Biotechnology, p 364-368.

https://doi.org/10.5897/AJB2007.000-2014.

Bakayoko S, Soro D, Nindjin C, Dao D, Tschannen A, Girardin O, Assa A. 2009. Effects of cattle and poultry manures on organic matter content and adsorption complex of a sandy soil under cassava cultivation (Manihot esculenta Crantz). African Journal of Environmental Science Technology 3, p 190-197.

http://dx.doi.org/10.5897/AJEST09.072

Bayer C, Martin-Neto LP, Mielniczuk J, Pillon CN, Sangoi L. 2001. Changes in Soil Organic Matter Fractions Under Subtropical No-Till Cropping Systems. Soil Science Society America Journal 65, p 1473-1478. https://doi.org/10.2136/sssaj2001.6551473x

Brady NC, Weil RR. 2002. The Nature and Properties of Soils, 13th edition. Macmillan, New York.

Buckley K, Makortoff M. 2004. Phosphorus in Livestock Manures. In Advanced Silage Corn Management; Agriculture and Agri-Food Canada: Brandon, MB, Canada.

Busari MA, Salako FK, Adetunji MT. 2008. Soil chemical properties and maize yield after application of organic and inorganic amendments to an acidic soil in Southwestern Nigeria. Spanish Journal Agricultural Research 6, p 691-699.

https://doi.org/10.1071/SR16162

Dahlianah I. 2014. Pupuk Hijau Salah Satu Pupuk Organik Berbasis Ekologi dan Berkelajutan. Jurnal Klorofil 9(2), p 54-56.

Deressa A. 2013. Evaluation of Soil Acidity in Agricultural Soils of Smallholder Farmers in South Western Ethiopia. Science, Technology and Arts Research Journal 2(2), p 01-06.

https://doi.org/10.4314/star.v2i2.98859

Djojosuwito S. 2000. Pertanian Organik dan Multiguna. Yogyakarta.

Duncan DB.  1995. Multiple range and multiple F tests. International Biometric Society Biometrics, p 1-42

http://dx.doi.org/10.2307/3001478.

Ewulo BS, Ojeniyi SO, Akanni DA. 2008. Effect of poultry manure on selected soil physical and chemical properties, growth, yield and nutrient status of tomato. African Journal Agriculture Research 3, p 612-616.

https://doi.org/10.1016/j.jssas.2016.01.006

Firnia D. 2018. Dinamika Unsur Fosfor pada Tiap

Horison Profil Tanah Masam. Jurnal Agroekotek, 10(1), p 45-52.

Hakim N, Nyakpa MY, Lubis AM,  Nugroho SG, Saul MR, Diha MA, Hong GB, Bailey HH. 1986. Dasar-Dasar Ilmu Tanah. Universitas Lampung, Bandar Lampung.

Harada Y, Akio I. 1975. Cation-Exchange Properties of Soil Organic Matter. Soil Science and Plant Nutrition 21(4), p 361-369,

http://dx.doi.org/10.1080/00380768.1975.10432651.

Hasibuan ASZ. 2015. Pemanfaatan Bahan Organik dalam Perbaikan Beberapa Sifat Tanah Pasir Pantai Selatan Kulon Progo. Planta Tropika Journal of Agro Science 3(1), p 31-40.

https://doi.org/10.18196/pt.2015.037.31-40.

Hede AR, Skovmand B, Cesati JL. 2001. Acid Soils and Aluminum Toxicity. In: Reynolds, M.P., Ortiz-Monasterio, J.I and McNab, A (eds.). Application of Physiology in Wheat Breeding, Mexico, D.F.: CIMMYT.

Hakim LHS, Mursidi.   1984.   Usaha   Peningkatan   Bahan   organik   melalui pengelolaan   pola   tanam   tanaman   pangan   dan   pupuk   hijau.   Prosiding Pertemuan Teknis, Pusat Penelitian Tanah, Bogor.

Hamed MH, Desoky MA, Ghallab AM, Faragallah MA. 2014. Effect of Incubation Periods and Some Organic Materials on Phosphorus Forms In Calcareous Soils. International Journal of Technology Enhancements and Emerging Engineering Research, 2(6), p 2347-4289.

https://doi.org/10.31186/terra.4.1.29-33

Hou X, Wang X, Li R, Jia Z, Liang L, Wang J, Nie J, Chen X, Wang Z. 2012. Effect of different manure application rates on soil properties, nutrient use, and crop yield during dryland maize farming. Soil Research Journal 50, p 507-514.

https://doi.org/10.1071/SR11339

Kochian LV, Hoekenga OA, Pineros MA. 2004. How do crop plants tolerate acid soils mechanisms of aluminum tolerance and phosphorous efficiency?. Annual Review of Plant Biology 55, p 459-493.

https://doi.org/10.1146/annurev.arplant.55.031903.141655

Las I, Subagyono K, Setiyanto AP. 2006. Isu dan Pengelolaan Lingkungan dalam Revitalisasi Pertanian. Jurnal Penelitian dan Pengembangan Pertanian 25(3), p 174-192.

https://dx.doi.org/10.25105/me.v28i2.7169

Lingga, Marsono. 2004. Petunjuk Penggunaan   Pupuk. Redaksi  Agromedia. Jakarta.

Miller J, Beasley B, Drury C, Larney F, Hao X. 2016. Influence of long-term application of composted or stockpiled feedlot manure with straw or wood chips on soil cation exchange capacity. Compost Science and Utilization 24, p 54-60.

https://doi.org/10.1080/1065657X.2015.1055009

Nursyamsi D, Adiningsih JS, Sholeh, Adimihardja A. 1997. Penggunaan bahan organik untuk meningkatkan efisiensi pupuk N pada Ultisol Sitiung, Sumatera Barat. Prosiding Kongres Nasional VI HITI. Jakarta, 12−15 Desember 1995, p 319-330.

Pasaribu NR, Fauzi, Asmarlaili SH. 2018. Aplikasi Beberapa Bahan Organik dan Lamanya Inkubasi Dalam Meningkatkan P-Tersedia Tanah Ultisol. ANR Conference Series 1, p 110-117.

Peraturan Menteri Pertanian No.70/Permentan/SR.140/10/2011. 2011. Pupuk Organik, Pupuk Hayati dan Pembenah Tanah.

Prasetyo BH, Suharta N. 2000. Tanah-tanah pada landform utama di Propinsi Kalimantan Selatan. Potensi dan Kendalanya untuk Pengembangan Pertanian. Prosiding Seminar Nasional Reorientasi Pendayagunaan Sumberdaya Tanah, lklim, dan Pupuk. Cipayung, 31 Oktober−2 November 2000. Pusat Penelitian Tanah dan Agroklimat, Bogor, p 419-

Prasetyo BH, Suharta N, Subagyo N, Hikmatullah. 2001. Chemical and mineralogical properties of Ultisols of Sasamba Area, East Kalimantan. Indonesian Journal of Agricultural Science 2(2), p 37-47.

https://doi.org/10.21082/ijas.v2n2.2001.37-47

Prager M, Sanclemente O, Sánchez de PM, Gallego J, Ángel D. 2012. Abonos verdes: Tecnología para el manejo agroecológico de los cultivos. Agroecología 7, p 53-62.

https://doi.org/10.21474/IJAR01/11547

Ritchie GSP. 1989. The chemical behavior of aluminum, hydrogen and manganese in acid soils. 1-60. In Robson, A.D., ed., Soil Acidity and Plant Growth. Sydney: Academic Press.

Ritung S, Suryani E, Subardja E, Sukarman, Kusumo N, Suparto, Hikmatullah A, Mulyani C, Tafakresnanto Y, Sulaeman RE, Subandiono, Wahyunto, Ponidi N, Prasodjo U, Suryana H, Hidayat A, Priyono, Supriatna W. 2015. Sumber Daya Lahan Pertanian Indonesia: Luas, Penyebaran, dan Potensi Ketersediaan. IAARD Press. Jakarta.

Saidy AR. 2018. Bahan Organik Tanah: Klasifikasi, Fungsi, dan Metode Studi. Lambung Mangkurat University Press. Banjarmasin.

Saputra RA, Sari NN. 2021. Ameliorant engineering to elevate soil pH, growth, and productivity of paddy on peat and tidal land.  IOP Conference Series: Earth and Environmental Science, 648(012183), p 1-8.

https://doi.org/10.1088/1755-1315/648/1/012183.

Schulten HR, Leinweber P. 1991. Influence of long-term fertilization with farmyard manure on soil organic matter: Characteristics of particle-size fractions. Biology and Fertility of Soils 12, p 81-88.

Scnitzer M. 1991. Soil Organic Matter. The Next 75 Year Soil Science.

Setiawan AI. 2002. Memanfaatkan Kotoran Ternak. Cetakan ke tiga Penebar Swadaya. Jakarta.

Sevindrajuta. 1996. Peranan cacing tanah (Pontoscolex corethrurur) dan macam bahan organik dalam perbaikan beberapa sifat fisika Ultisol Rimbo Data dan hasil kedelai. Tesis. Program Pascasarjana Universitas Andalas. Padang.

Stevenson FJ. 1994. Humus chemistry; Genesis, composition, reactions. 2th. Editi-on. John Wiley and Sons, tnc. New york.

Sutanto R.  2004. Penerapan  Pertanian Organik. Permasyarakatan dan Pengembangannya. Penerbit Kanisius.  Yogyakarta.

Takala B. 2019. Soil Acidity and Its Management Options in Western Ethiopia: Review. Journal of Environment and Earth Science, 9(10), p 27-35. https://doi.org10.7176/JEES/9-10-04

Taye B. 2007. An overview of acid soils their management in Ethiopia paper presented in the third International Workshop on water management (Wterman) project, September, 19-21, 2007, Haromaya, Ethiopia.

Wade MK, Aljabri M, Sudjadi M. 1986. The effect of liming of soybean yield and soil acidity parameters of three red yellow podzolic soils of West Sumatera.

Pemberitaan Penelitian Tanah dan Pupuk 6, p 1-8.

Yatno E, Hikmat M, Suharta N, Prasetyo BH. 2000. Plinthudults di Kalimantan Selatan. Sifat morfologi, fisika, mineralogi dan kimianya. Prosiding Seminar Nasional Reorientasi Pendayagunaan Sumberdaya Tanah, lklim, dan Pupuk. Cipayung, 31 Oktober−2 November 2000, p 353−368.

Prasetyo, Suriadikarta. 2006. Karakteristik, Potensi, dan Teknologi Pengelolaan Tanah Ultisol untuk Pengembangan Pertanian Lahan Kering di Indonesia. Jurnal Litbang Pertanian. 25(2), p 39-47. https://doi.org/10.25077/jsolum.17.2.21-28.2020

Yuliar. 2006. Program Penelitian Nutrisi Hayati untuk Keseimbangan Ekosistem. Peneliti Utama Bidang Mikrobiologi, Pusat Penelitian Biologi-Lembaga Ilmu Pengetahuan Indonesia (LIPI). Bogor.

Untung Santoso, Akhmad Gazali, Emmy Sri Mahreda, Raihani Wahdah.
Application of livestock manure and edamame harvest waste to improve the chemical properties of acid dry land.
Int. J. Biosci. 19(4),41-52, October 2021.
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