Uncontrolled land conversion causes reduced land area for plant cultivation. The alternative used for rice cultivation is the marginal land such as sandy soil, however, several constraints led to very low productivity, so it needs proper management such as the addition of organic matter. The purpose of this study was to determine the changes in the chemical properties of sandy soil treated with Azolla microphylla and quail manure. The pot research was carried out in the Greenhouse of the Faculty of Agriculture, Universitas Sebelas Maret, with a factorial Completely Randomized Design (CRD) method, with 2 factors. Factor I was Azolla microphylla (A) (A0= 0, A1= 50, A2= 100, A3= 150 tons ha^-1). Factor II was quail manure (Q) (Q0= 0, Q1= 20, Q2= 40 tons ha^-1). Azolla microphylla and quail manure were incubated for 14 days under anaerobic conditions. The results showed that the application Azolla microphylla and quail manure increased chemical properties on sandy soil significantly. The addition of Azolla microphylla (100 tons ha^-1) and quail manure (40 tons ha^-1) increased the chemical properties of sandy soil such as cation exchange capacity (CEC), available-P, ammonium, available-K, available-Ca, electrical conductivity (EC) and redox potential (Eh).

Adekiya, A. O. et al. 2019. Effects of Biochar and Poultry Manure on Soil Characteristics and The Yield of Radish. Scientia Horticulturae 243: 457–63. https://doi.org/10.1016/j.scienta.2018.08.048.

Adeyemo, Adebayo J., Omowunmi O. Akingbola, and Stephen O. Ojeniyi. 2019. Effects of Poultry Manure on Soil Infiltration, Organic Matter Contents and Maize Performance on Two Contrasting Degraded Alfisols in Southwestern Nigeria. International Journal of Recycling of Organic Waste in Agriculture 8: 73–80. https://doi.org/10.1007/s40093-019-0273-7.

Adhikari, Kripa, Sudip Bhandari, and Subash Acharya. 2020. An Overview of Azolla in Rice Production: A Review.”Reviews in Food and Agriculture 2(1): 4–8.

Afandi, Fahriansyah Nur, Bambang Siswanto, and Yulia Nuraini. 2015. Pengaruh Pemberian Berbagai Jenis Bahan Organik Terhadap Sifat Kimia Tanah Pada Pertumbuhan Dan Produksi Tanaman Ubi Jalar Di Entisol Ngrangkah Pawon, Kediri. Jurnal Tanah dan Sumberdaya Lahan 2(2): 237–44. (in Indonesian).

Ahmed, J., K. Abdel, and H. Albaba. 2016. Effect of Poultry Manure on Soil Phosphorus Availability and Vegetative Growth of Maize Plant. Journal of Agriculture and Veterinary Science 9(2): 12–18.

Alvernia, Putri, Slamet Minardi, and Suntoro. 2017. Zeolite and Organic Fertilizer Application to The Improvement of Available P and Soybean (Glycine Max L) Seed Yield in Alfisols.”Sains Tanah - Journal of Soil Science and Agroclimatology 14(2): 83–89.

Ansari, Rizwan Ali, and Irshad Mahmood. 2017. Optimization of Organic and Bio-Organic Fertilizers on Soil Properties and Growth of Pigeon Pea. Scientia Horticulturae 226: 1–9. http://dx.doi.org/10.1016/j.scienta.2017.07.033.

Ayunita, Komang Triana, Ida Ayu Putu Widiati, and I Nyoman Sutama. 2021. Pengendalian Alih Fungsi Lahan Pertanian Pangan Berkelanjutan. Jurnal Konstruksi Hukum 2(1): 160–64. (in Indonesian).

Azizah, Mia, and Mira Humairoh. 2015. Analisis Kadar Amonia (NH3) Dalam Air Sungai Cileungsi. Nusa Sylva 15(1): 47–54. (in Indonesian).

Azri. 2015. Pengaruh Pemupukan Terhadap Pertumbuhan Dan Buah Tanaman Kakao. Agros 17(2): 222–27. (in Indonesian).

Baba, Basri, N.R. Sennang, and E. Syam’un. 2021. Pertumbuhan Dan Produksi Padi Yang Diaplikasi Pupuk Organik Dan Pupuk Hayati. Jurnal Agrivigor 12(2): 39–47. (in Indonesian).

Barbhuiya, A. R. et al. 2004. Dynamics of Soil Microbial Biomass C, N and P in Disturbed and Undisturbed Stands of A Tropical Wet-Evergreen Forest. European Journal of Soil Biology 40(3–4): 113–21.

Behera, Sanjib Kumar, and Arvind Kumar Shukla. 2015. Spatial Distribution of Surface Soil Acidity, Electrical Conductivity, Soil Organic Carbon Content and Exchangeable Potassium, Calcium and Magnesium in Some Cropped Acid Soils of India. Land Degradation and Development 26(1): 71–79.

Bhaskaran, Sreenath Kunnathupara, and Poornima Kannappan. 2017. Protective Effect of Azolla Microphylla on Biochemical, Histopathological and Molecular Changes Induced by Isoproterenol in Rats. Biomedicine and Pharmacotherapy 89: 473–81. http://dx.doi.org/10.1016/j.biopha.2017.01.177.

Bhuvaneshwari, K, and Ajay Kumar. 2013. Agronomic Potential of the Association Azolla – Anabaena. Science Research Reporter 3(1): 78–82.

Carmo, Davi Lopes do, Laís Botelho de Lima, and Carlos Alberto Silva. 2016. Soil Fertility and Electrical Conductivity Affected by Organic Waste Rates and Nutrient Inputs. Revista Brasileira de Ciencia do Solo 40: 1–17.

Castellano, Michael J. et al. 2015. Integrating Plant Litter Quality, Soil Organic Matter Stabilization, and The Carbon Saturation Concept. Global Change Biology 21(9): 3200–3209.

Chaari, Leïla et al. 2014. Changes in Soil Macronutrients after a Long-Term Application of Olive Mill Wastewater. Journal of Agricultural Chemistry and Environment 4(1): 1–13.

Chan, Yin. 2008. Increasing Soil Organic Carbon of Agricultural Land. In Primefact, New South Wales: NSW Department of Primary, 1–5.

Chavarría, Diego N. et al. 2016. Effect of Cover Crops on Microbial Community Structure and Related Enzyme Activities and Macronutrient Availability. European Journal of Soil Biology 76: 74–82.

Chu, Haiyan et al. 2007. Community Structure of Ammonia-Oxidizing Bacteria under Long-Term Application of Mineral Fertilizer and Organic Manure in a Sandy Loam Soil. Applied and Environmental Microbiology 73(2): 485–91.

Citak, Sedat, and Sahriye Sonmez. 2011. Effects of Chemical Fertilizer and Different Organic Manures Application on Soil PH, EC and Organic Matter Content. Journal of Food, Agriculture and Environment 9(3–4): 739–41.

Comte, Irina et al. 2013. Landscape-Scale Assessment of Soil Response to Long-Term Organic and Mineral Fertilizer Application in an Industrial Oil Palm Plantation, Indonesia. Agriculture, Ecosystems and Environment 169: 58–68.

Cyio, Muhammad Basir. 2008. Efektivitas Bahan Organik Dan Tinggi Genangan Terhadap Perubahan Eh , Ph , Dan Status Fe , P , Al Terlarut Pada Tanah Ultisol. J. Agroland 15(4): 257–63.

Danial, Ekawati, Firnawati Sakalena, and Alkufran. 2020. Respon Pertumbuhan Dan Produksi Tanaman Bawang Merah(Allium Ascalonicum L.) Terhadap Pemberian Pupuk Kandang Puyuh Pada Tanah Pmk. Lansium 2(1): 25–32.

El-Dakar, Marco A., Remondah R. Ramzy, Martin Plath, and Hong Ji. 2021. Evaluating the Impact of Bird Manure vs. Mammal Manure on Hermetia Illucens Larvae. Journal of Cleaner Production 278: 1–8. https://doi.org/10.1016/j.jclepro.2020.123570.

Elisabeth, Devi Wahyu, Santosa Mudji, and Ninuk Herlina. 2013. Pengaruh Pemberian Berbagai Komposisi Bahan Organik Pada Pertumbuhan Dan Hasil Tanaman Bawang Merah (Allium Ascalonicum L.). Jurnal Produksi Tanaman 1(3): 21–29. (in Indonesian).

Emiru, Nega, and Heluf Gebrekidan. 2013. Effect of Land Use Changes and Soil Depth on Soil Organic Matter, Total Nitrogen and Available Phosphorus Contents of Soils in Senbat Watershed, Western Ethiopia. Journal of Agricultural and Biological Science 8(3): 206–12.

Esmaeilzadeh, Jalal, and Ahmad Gholamalizadeh Ahangar. 2014. Influence of Soil Organic Matter Content on Soil Physical, Chemical and Biological Properties. International Journal of Plant, Animal and Environmental Sciences 4(4): 244–52.

Febrianna, Monica, Sugeng Prijono, and Novalia Kusumarini. 2018. Meningkatkan Serapan Nitrogen Serta Pertumbuhan Dan Produksi Sawi (Brassica Juncea L.) Pada Tanah Berpasir. Jurnal Tanah dan Sumberdaya Lahan 5(2): 1009–18. (in Indonesian).

Ferreira, Edilene Cristina et al. 2015. Laser-Induced Breakdown Spectroscopy: Extending Its Application to Soil PH Measurements. Spectrochimica Acta - Part B Atomic Spectroscopy 110: 96–99. http://dx.doi.org/10.1016/j.sab.2015.06.002.

Gairola, Sumeet, and C M Sharma S K Ghildiyal. 2012. Chemical Properties of Soils in Relation to Forest Composition in Moist Temperate Valley Slopes of Garhwal Himalaya, India. Environmentalist 32: 512–23.

Garg, Shipra, and G. S. Bahl. 2008. Phosphorus Availability to Maize as Influenced by Organic Manures and Fertilizer P Associated Phosphatase Activity in Soils. Bioresource Technology 99: 5773–77.

Gigliotti, Giovanni et al. 2012. Co-Composting of Olive Husks with High Moisture Contents: Organic Matter Dynamics and Compost Quality. International Biodeterioration and Biodegradation 67: 8–14.

Gill, Shagufta, Abdullah Alshankiti, Shabbir A. Shahid, and Juan Pablo Rodriguez. 2020. Amending Soil Health to Improve Productivity of Alternate Crops in Marginal Sandy Soils of the UAE. Emerging Research in Alternative Crops: 93–123.

Hajek, B. F., F. Adams, and J. T. Cope. 1972. Rapid Determination of Exchangeable Bases, Acidity, and Base Saturation for Soil Characterization. Soil Science Society of America Journal 36(3): 436–38.

Hamawi, Mahmudah, Husni Thamrin Sebayang, and Setyono Yudo Tyasmoro. 2016. Pengaruh Dosis P Dalam Fosfat Alam Dan Waktu Pembenaman Pupuk Hijau Azolla Mycrophylla Kaulfuss Pada Tanaman Padi ( Oryza Sativa L .). Gontor AGROTECH Science Journal 2(2): 33–63. (in Indonesian).

Hamdani, Herman, Asep Sahidin, and Taufiq Hidayat. 2018. Effect of Variant Manure on Generation Time in Daphnia Sp. Omni-Akuatika 14(2): 86–90.

Hartono, Arief, and Syaiful Anwar. 2019. Karakterisasi Pelepasan Nitrat Pada Andisol Di Jawa Barat Dan Jawa Tengah. Jurnal Ilmu Tanah dan Lingkungan 21: 16–20. (in Indonesian).

Hasibuan, Andi Surya Zannah. 2015. Pemanfaatan Bahan Organik Dalam Perbaikan Beberapa Sifat Tanah Pasir Pantai Selatan Kulon Progo. Planta Tropika: Journal of Agro Science 3(1): 31–40. (in Indonesian).

Hayadi, Dedi, Wawan, and Al Ikhsan Amri. 2014. Sifat Kimia Ultisol Di Bawah Tegakan Berbagai Umur Tanaman Kelapa Sawit (Elaeis Guineensis Jacq.). Jom Faperta Unri 1(1): 1–11. (in Indonesian).

Ho, Soo Ying, Mohd Effendi Bin Wasli, and Mugunthan Perumal. 2019. Evaluation of Physicochemical Properties of Sandy-Textured Soils under Smallholder Agricultural Land Use Practices in Sarawak, East Malaysia. Applied and Environmental Soil Science: 1–15.

Hossain, M. D., M. M. Hanafi, H. Jol, and T. Jamal. 2011. Dry Matter and Nutrient Partitioning of Kenaf (Hibiscus Cannabinus L.) Varieties Grown on Sandy Bris Soil. Australian Journal of Crop Science 5(6): 654–59.

Husson, Olivier. 2013. Redox Potential (Eh) and pH as Drivers of Soil/Plant/Microorganism Systems: A Transdisciplinary Overview Pointing to Integrative Opportunities for Agronomy. Plant and Soil 362(1–2): 389–417.

Husson, O., Brunet, A., Babre, D., Charpentier, H., Durand, M., Sarthou, J., 2018. Conservation Agriculture Systems Alter the Electrical Characteristics (Eh, PH and EC) of Four Soil Types in France. Soil and Tillage Research 176: 57–68.

Jia, Guo Mei, Jing Cao, Chunyan Wang, and Gang Wang. 2005. Microbial Biomass and Nutrients in Soil at the Different Stages of Secondary Forest Succession in Ziwulin, Northwest China. Forest Ecology and Management 217(1): 117–25.

Jumadi, Oslan et al. 2014. Influence of Azolla (Azolla Microphylla Kaulf.) Compost on Biogenic Gas Production, Inorganic Nitrogen and Growth of Upland Kangkong (Ipomoea Aquatica Forsk.) In A Silt Loam Soil. Soil Science and Plant Nutrition 60: 722–30.

Kaiser, M., R. H. Ellerbrock, and H. H. Gerke. 2008. Cation Exchange Capacity and Composition of Soluble Soil Organic Matter Fractions. Soil Science Society of America Journal 72(5): 1278–85.

Kaur, Manpreet et al. 2021. Effect of Metal Nanoparticles on Microbial Community Shift and Syntrophic Metabolism during Anaerobic Digestion of Azolla Microphylla. Journal of Environmental Chemical Engineering 9: 1–10. https://doi.org/10.1016/j.jece.2021.105841.

Khair, Mohamad Izdzuan bin Mohamad, Elisa Azura Azman, Roslan Ismail, and Muhammad NaimFadzli Abdul Rani. 2021. Effect of the Biofertilizer (Azolla Pinnata) in Combination with Inorganic Fertilizers on Growth and Yield of Rice. Grassroots Journal of Natural Resources 4(4): 1–21.

Khairunnas, and Mulya Gusman. 2018. Analisis Pengaruh Parameter Konduktivitas, Resistivitas Dan TDS Terhadap Salinitas Air Tanah Dangkal Pada Kondisi Air. Jurnal Bina Tambang 3(4): 1751–60. (in Indonesian).

Kjeldahl, J. 1883. A New Method for the Determination of Nitrogen in Organic Matter. Zeitschrift für Analytische Chemie 22: 366–82.

Kollah, Bharati, Ashok Kumar Patra, and Santosh Ranjan Mohanty. 2015. Aquatic Microphylla Azolla: A Perspective Paradigm for Sustainable Agriculture, Environment and Global Climate Change. Environmental Science and Pollution Research: 1–12.

Koralage, I S A, P Weerasinghe, N R N Silva, and C S De Silva. 2015. The Determination of Available Phosphorus in Soil: A Quick and Simple Method. OUSL Journal 8: 1–17.

Kweon, Giyoung, Eric Lund, and Chase Maxton. 2013. Soil Organic Matter and Cation-Exchange Capacity Sensing with on-the-Go Electrical Conductivity and Optical Sensors. Geoderma 199: 80–89. http://dx.doi.org/10.1016/j.geoderma.2012.11.001.

Lestari, Sri Utami, and Muryanto. 2018. Analisis Beberapa Unsur Kimia Kompos Azolla Mycrophylla. Jurnal Ilmiah Pertanian 14(2): 60–65. http://dx.doi.org/10.1186/s13662-017-1121-6%0A. (in Indonesian).

Li, Shuyan et al. 2017. Effect of Different Organic Fertilizers Application on Soil Organic Matter Properties. Compost Science and Utilization 25(1): 31–36. https://doi.org/10.1080/1065657X.2017.1344160.

Liu, Tianqi et al. 2021. Long-Term Rice-Oilseed Rape Rotation Increases Soil Organic Carbon by Improving Functional Groups of Soil Organic Matter. Agriculture, Ecosystems and Environment 319: 1–8. https://doi.org/10.1016/j.agee.2021.107548.

Lumbanraja, Jamalam et al. 2019. Perilaku Pertukaran Amonium Dan Produksi Tebu (Saccharum Officinarum L.) Yang Dipupuk Anorganik NPK Dan Organik Pada Pertanaman Tebu Di Tanah Ultisol Gedung Meneng. Journal of Tropical Upland Resources 01(01): 1–18. (in Indonesian).

Lutfy, Ismoyo, Sumarno, and Sudadi. 2013. Pengaruh Dosis Kompos Azolla Dan Kalium Organik Terhadap Ketersediaan Kalium Dan Hasil Kacang Tanah Pada Alfisol. Sains Tanah 10(2): 123–32. (in Indonesian).

Manurung, Riska F., Cik Zulia, and Sri S. Ningsih. 2019. Respon Pemberian Pupuk Kotoran Burung Puyuh Dan Pupuk Bokasi Enceng Gondok Terhadap Pertumbuhan Dan Produksi Tanaman Selada (Lactuca Sativa L.). BERNAS 15(3): 54–63. (in Indonesian).

Masud, M M, L I Jiu-yu, and X U Ren-kou. 2014. Use of Alkaline Slag and Crop Residue Biochars to Promote Base Saturation and Reduce Acidity of an Acidic Ultisol. Pedosphere: An International Journal 24(6): 791–98. http://dx.doi.org/10.1016/S1002-0160(14)60066-7.

Maswada, Hanafey F., Usama A. Abd El-Razek, Abdel Nasser A. El-Sheshtawy, and Yasser S.A. Mazrou. 2020. Effect of Azolla Filiculoides on Growth, Physiological and Yield Attributes of Maize Grown under Water and Nitrogen Deficiencies. Journal of Plant Growth Regulation 40: 558–573.

Metwally, T. F. 2015. Impact of Organic matters Combined with Mineral Nitrogen on Rice Growth, Yield, Grain Quality and Soil Organic Matter. International Journal of ChemTech Research 8(4): 1533–42.

Michael, Patrick S., Rob Fitzpatrick, and Rob Reid. 2015. The Role of Organic Matter in Ameliorating Acid Sulfate Soils with Sulfuric Horizons. Geoderma 255–256: 42–49.

Minardi, Slamet, Isna Luthfa Haniati, and Alif Husna Lantip Nastiti. 2020. Adding Manure and Zeolite to Improve Soil Chemical Properties and Increase Soybean Yield. Sains Tanah 17(1): 1–6.

Muliawan, Eka Riyandi Novi, Joko Sampurno, and M Ishak Jumarang. 2016. Identifikasi Nilai Salinitas Pada Lahan Pertanian Di Daerah Jungkat Berdasarkan Metode Daya Hantar Listrik (DHL). Prisma Fisika 4(2): 69–72. (in Indonesian).

Mulyadi, Tri, M Nurcholis, and Partoyo. 2020. Beberapa Sifat Kimia Tanah Sawah Atas Penggunaan Pupuk Organik Dengan Kurun Waktu Berbeda Di Sayegan, Sleman Some. Soil and Water Journal 17: 11–19. (in Indonesian).

Naab, J. B. et al. 2015. Nitrogen and Phosphorus Fertilization with Crop Residue Retention Enhances Crop Productivity, Soil Organic Carbon, and Total Soil Nitrogen Concentrations in Sandy-Loam Soils in Ghana. Nutrient Cycling in Agroecosystems 102(1): 33–43.

Najafi-Ghiri, Mahdi, Seyed Hesam Niksirat, Leila Soleimanpour, and Saeed Nowzari. 2018. Comparison of Different Organic Amendments on Potassium Release from Two Fine-Textured Soils. Organic Agriculture 8(2): 129–40.

Nath, Tara Nath. 2013. The Macronutrients Status of Long Term Tea Cultivated Soils in Dibrugarh and Sivasagar Districts of Assam, India. International Journal of Scientific Research 2(5): 273–75.

Novia, D., Rakhmadi A, Purwati E., Juliyarsi I., Hairani R., and Syalsafilah F. 2019. The Characteristics of Organic Fertilizer Made of Cow Feces Using the Indigenous Micro-Organisms (IMO) from Raw Manures. In IOP Conference Series: Earth and Environmental Science. IOP Publishing, pp. 1–9.

Nugroho, Novendra Cahyo, and Asti Caturatmi. 2014. Inovasi Spesifik Lokasi Dalam Pengembangan Lahan Pasir Pantai Sebagai Lahan Pertanian. In Prosiding Seminar Nasional Mewujudkan Kedaulatan Pangan Pada Lahan Sub Optimal Melalui Inovasi Teknologi Pertanian Spesifik Lokasi. Balai Pengkajian Teknologi Pertanian Maluku Utara, pp. 264–68.

Nurhidayat. 2022. Respon Pertumbuhan Dan Produksi Tanaman Kacang Hijau (Phaseolus Radiatus L.) Terhadap Pemberian Pupuk Kandang Burung Puyuh Dan Ekstrak Eceng Gondok. Jimtani 2(2): 1–15. (in Indonesian).

Oksana, M Irfan, and Huda M Utiyal. 2012. Pengaruh Alih Fungsi Lahan Hutan Menjadi Perkebunan Kelapa Sawit Terhadap Sifat Kimia Tanah. Jurnal Agroteknologi 3(1): 29–34. (in Indonesian).

Page, Kathryn Louise, Yash P. Dang, and Ram C. Dalal. 2020. The Ability of Conservation Agriculture to Conserve Soil Organic Carbon and the Subsequent Impact on Soil Physical, Chemical, and Biological Properties and Yield. Frontiers in Sustainable Food Systems 4(31): 1–17.

Paler, Aron Louie L., and Charly G. Alcantara. 2021. Effect of Azolla (Azolla Pinnata) as a Bio-Stimulant on Nutrient Uptake and Yield of Mungbean (Vigna Radiata L.). Organic Agriculture 11(3): 469–75.

Pasang, Yafet Hendri, Muh. Jayadi, and Rismaneswati. 2019. Peningkatan Unsur Hara Fospor Tanah Ultisol Melalui Pemberian Pupuk Kandang, Kompos Dan Pelet. Jurnal Ecosolum 8(2): 86–96. (in Indonesian).

Prabowo, Rossi, Aziz Nur Bambang, and Sudarno. 2020. Pertumbuhan Penduduk Dan Alih Fungsi Lahan Pertanian. Mediagro 16(2): 26–36. (in Indonesian).

Putra, Fajrin Pramana, Nur Ikhsan, and Milla Virdaus. 2021. Respon Pertumbuhan Jagung (Zea Mays L.) Terhadap Pupuk Kandang Dan Urea Pada Media Pasir. Agroscript 3(2): 70–77. (in Indonesian).

Putranto, Thomas Triadi, and Kevin Alexander. 2017. Aplikasi Geospasial Menggunakan Arcgis 10.3 Dalam Pembuatan Peta Daya Hantar Listrik Di Cekungan Airtanah Sumowono. Jurnal Presipitasi 8(1): 15–23. (in Indonesian).

Qiu, Husen et al. 2018. Effects of Biotic and Abiotic Factors on Soil Organic Matter Mineralization: Experiments and Structural Modeling Analysis. European Journal of Soil Biology 84: 27–34. https://doi.org/10.1016/j.ejsobi.2017.12.003.

Rahma, Sitti, Burhanuddin Rasyid, and Muh. Jayadi. 2019. Peningkatan Unsur Hara Kalium Dalam Tanah Melalui Aplikasi POC Batang Pisang Dan Sabut Kelapa. Jurnal Ecosolum 8(2): 74–85. (in Indonesian).

Regelink, Inge C. et al. 2015. Linkages between Aggregate Formation, Porosity and Soil Chemical Properties. Geoderma 247–248: 24–37. http://dx.doi.org/10.1016/j.geoderma.2015.01.022.

Revell, Ken T., Rory O. Maguire, and Foster A. Agblevor. 2012. Influence of Poultry Litter Biochar on Soil Properties and Plant Growth. Soil Science 177(6): 402–8.

Ridhosari, Betani, and Dwina Roosmini. 2011. Evaluasi Kualitas Air Tanah Dari Sumur Gali Akibat Kegiatan Domestik Di Kampung Daraulin-Desa Nanjung. Jurnal Tehnik Lingkungan 17(1): 47–58. (in Indonesian).

Roba, Tesfaye Burju. 2018. Review on: The Effect of Mixing Organic and Inorganic Fertilizer on Productivity and Soil Fertility. OALib 5(6): 1–11.

Rosemarin, Arno, Nelson Ekane, and Kim Andersson. 2021. Phosphorus Flows, Surpluses, and N/P Agronomic Balancing When Using Manure from Pig and Poultry Farms. Agronomy 11: 1–27.

Roslan, I., J. Shamshuddin, C. I. Fauziah, and A. R. Anuar. 2010. Occurrence and Properties of Soils on Sandy Beach Ridges in the Kelantan-Terengganu Plains, Peninsular Malaysia. Catena 83(1): 55–63. http://dx.doi.org/10.1016/j.catena.2010.07.004.

Ruhaimah, Ruhaimah, Asmar, and Mimien Harianti. 2009. Efek Sisa Asam Humat Dari Kompos Jerami Padi Dan Pengelolaan Air Dalam Mengurangi Keracunan Besi (Fe) Tanah Sawah Bukaan Baru Terhadap Produksi Padi. Jurnal Solum 6(1): 1–13. (in Indonesian).

Sadeghi, R, R Zarkami, K Sabetraftar, and P Van Damme. 2013. A Review of Some Ecological Factors Affecting The Growth of Azolla Spp. Caspian Journal of Environmental Sciences Caspian 11(1): 65–76. http://research.guilan.ac.ir/cjes.

Sahbudin, Khairullah, and Sufardi. 2020. Kemasaman Tanah Dan Sifat-Sifat Pertukaran Kation Pada Mollisols Dan Ultisols Di Lahan Kering Kabupaten Aceh Besar. Jurnal Ilmiah Mahasiswa Pertanian 5(3): 25–34. (in Indonesian).

Sandrawati, Apong et al. 2018. Pengaruh Macam Bahan Organik Terhadap Nilai pH, pH0, Retensi P Dan P Tersedia Pada Andisol Asal Ciater. Soilrens 16(2): 50–56. (in Indonesian).

Schollenberger, C. J., and R. H. Simon. 1945. Determination of Exchange Capacity and Exchangeable Bases in Soil—Ammonium Acetate Method. Soil Science 59(1): 13–24.

Setiawati, Mieke Rochimi et al. 2018. The Application Dosage of Azolla Pinnata in Fresh and Powder Form as Organic Fertilizer on Soil Chemical Properties, Growth and Yield of Rice Plant. In AIP Conference Proceedings, Bandung: American Institute of Physics, pp. 1–5.

Setiawati, Mieke Rochimi, Pujawati Suryatmana, and Tualar Simarmata. 2020. Keragaman Mikroflora, Mikrofauna, Kandungan C-Organik, Dan Total N Tanah Sawah Akibat Aplikasi Azolla Dan Pupuk Hayati. Soilrens 18(1): 41–49. (in Indonesian).

Shahein, M., H. Hassan, and S. Abou-El-Hassan. 2015. Response of Sweet Pepper Plants To Fertilize By Different Organic Fertilizers Under Protected Agriculture. Journal of Plant Production 6(5): 809–22.

Sharma, P K. et al. 2008. Mapping of Macronutrients in Soils of Amritsar District (Punjab) - A GIS Approach. Journal of the Indian Society of Soil Science 56(1): 34–41. http://www.researchgate.net/publication/207037889_Mapping_of_macronutrients_in_soils_of_Amritsar_district_(Punjab)_-_A_GIS_approach.

Silalahi, Nico Harro et al. 2019. Government Policy Statements Related to Rice Problems in Indonesia: Review. Journal of Biological Science, Technology and Management 1(1): 35–41.

Šimanský, Vladimír, Eugene Balashov, and Ján Horák. 2014. Water Stability of Soil Aggregates and Their Ability to Sequester Carbon in Soils of Vineyards in Slovakia. Soil & Water Res. 9(3): 111–18.

Soplanit, R., and S.H. Nukuhaly. 2012. Pengaruh Pengelolaan Hara NPK Terhadap Ketersediaan N Dan Hasil Tanaman Padi Sawah (Oryza Sativa L.) Di Desa Waelo Kecamatan Waeapo Kabupaten Buru. Agrologia 1(1): 81–90. (in Indonesian).

Spargo, John T. et al. 2011. Mineralizable Soil Nitrogen and Labile Soil Organic Matter in Diverse Long-Term Cropping Systems. Nutrient Cycling in Agroecosystems 90(2): 253–66.

Subbarao, Guntur Venkata et al. 2015. Suppression of Soil Nitrification by Plants. Plant Science 233: 155–64.

Subowo. 2010. Strategi Efisiensi Penggunaan Bahan Organik Untuk Kesuburan Dan Produktivitas Tanah Melalui Pemberdayaan Sumberdaya Hayati Tanah. Jurnal Sumberdaya Lahan 4(1): 117–28. (in Indonesian).

Sudadi, and Sumarno. 2011. Pengaruh Saat Pemupukan Urea Pada Sistem Ganda Azolla-Padi Sawah Terhadap N-Kapital Tanah Dan Hasil Padi Di Entisol. Sains Tanah-Journal of Soil Science and Agroclimatology 8(2): 99–104. (in Indonesian).

Sukristiyonubowo, Fadhli Y, and A Sofyan. 2011. Plot Scale Nitrogen Balance of Newly Opened Wetland Rice at Bulungan District Directorate General of Agricultural Infrastructure and Facilities. International Research Journal of Agricultural Science and Soil Science 1(7): 234–41.

Sunartomo, Aryo Fajar. 2015. Alih Fungsi Lahan Pertanian Dan Kebutuhan Pangan Di Kabupaten Jember. JSEP (Journal of Social and Agricultural Economics) 8(2): 47–58. (in Indonesian).

Syahrial, D. G. Bengen, T. Prartono, and B. Amin. 2018. Faktor Yang Mempengaruhi Kesehatan Populasi Rhizophora Apiculata Berdasarkan Karakteristik Lingkungan Pada Kawasan Industri Perminyakan Dan Non Kawasan Industri Di Provinsi Riau Menggunakan Analisis Komponen Utama (PCA). Jurnal Enggano 3(2): 228–40. (in Indonesian).

Syamsiyah, Jauhari, Bambang Hendro Sunarminto, and Mujiyo. 2016. Changes in Soil Chemical Properties of Organic Paddy Field with Azolla Application. Sains Tanah - Journal of Soil Science and Agroclimatology 13(1): 68–73.

Taha, Nevine, Naglaa Shakweer, and R. El-Shahat. 2018. Impact of Different Sources of Natural, Mineral and Bio-Fertilizers on Apple Trees Performance, Growth And Yield on Sandy Soil. Egyptian Journal of Soil Science 58(1): 113–26.

Tando, Edi. 2019. Upaya Efisiensi Dan Peningkatan Ketersediaan Nitrogen Dalam Tanah Serta Serapan Nitrogen Pada Tanaman Padi Sawah (Oryza Sativa L.). Buana Sains 18(2): 171–80. (in Indonesian).

Tomasic, Marija, Zeljka Zgorelec, Aleksandra Jurisic, and Ivica Kisic. 2013. Cation Exchange Capacity of Dominant Soil Types in the Republic of Croatia. Journal of Central European Agriculture 14(3): 84–98.

Triatmoko, V. A., S. Minardi, H. Widijanto, and J. Syamsiyah. 2020. Effects of Various Ameliorants on PH, Phosphorus Availability and Soybean Production in Alfisols. Indian Journal of Agricultural Research 54(4): 531–35.

Utami, Siska Putri, Akhmad Gazali, and Akhmad Rizali. 2021. Pengaruh Pemberian Pupuk Kandang Burung Puyuh Dan Pupuk Kandang Sapi Terhadap Pertumbuhan Dan Hasil Tanaman Selada (Lactuca Sativa L.). Agroekotek View 4(2): 85–91. (in Indonesian).

Valentiah, Fretty Vivin, Endang Listyarini, and Sugeng Prijono. 2015. Aplikasi Kompos Kulit Kopi Untuk Perbaikan Sifat Kimia Dan Fisika Tanah Inceptisol Serta Meningkatkan Produksi Brokoli. Jurnal Tanah dan Sumberdaya Lahan 2(1): 147–54. (in Indonesian).

Walkley, A., and I. Armstrong Black. 1934. An Examination of the Degtjareff Method for Determining Soil Organic Matter, and A Proposed Modification of the Chromic Acid Titration Method. Soil Science 37(1): 29–38.

von Wandruszka, Ray. 2006. Phosphorus Retention in Calcareous Soils and the Effect of Organic Matter on Its Mobility. Geochemical Transactions 7(6): 1–8.

Wang, Hanxi et al. 2019. Effects of Long-Term Application of Organic Fertilizer on Improving Organic Matter Content and Retarding Acidity in Red Soil from China. Soil and Tillage Research 195: 1–9. https://doi.org/10.1016/j.still.2019.104382.

Ward, P. R. et al. 2009. The Impact of Wheat Stubble on Evaporation from a Sandy Soil. Crop and Pasture Science 60(8): 730–37.

Widijanto, Hery, Noviana Anditasari, and Suntoro. 2011. Efisiensi Serapan S Dan Hasil Padi Dengan Pemberian Pupuk Kandang Puyuh Dan Pupuk Anorganik Di Lahan Sawah (Musim Tanam II). Jurnal Ilmu Tanah dan Agroklimatologi 8(1): 61–70. (in Indonesian).

Yao, Bao Min et al. 2022. Optimal Soil Eh, pH for Simultaneous Decrease of Bioavailable Cd, As in Co-Contaminated Paddy Soil under Water Management Strategies. Science of the Total Environment 806: 151342.

Yao, Yuanlin et al. 2018. Azolla Biofertilizer for Improving Low Nitrogen Use Efficiency in an Intensive Rice Cropping System. Field Crops Research 216: 158–64. https://doi.org/10.1016/j.fcr.2017.11.020.

You, Junjian et al. 2019. Effects of Sewage Sludge Biochar on Soil Characteristics and Crop Yield in Loamy Sand Soil. Polish Journal of Environmental Studies 28(4): 2973–80.

Yuniarti, Anni, Eso Solihin, and Ayuning Tiara Arief Putri. 2020. Aplikasi Pupuk Organik Dan N, P, K Terhadap pH Tanah, P-Tersedia, Serapan P, Dan Hasil Padi Hitam (Oryza Sativa L.) Pada Inceptisol. Kultivasi 19(1): 1040–1046. (in Indonesian).

Zeidan, MS. 2007. Effect of Organic Manure and Phosphorus Fertilizers on Growth, Yield and Quality of Lentil Plants in Sandy Soil. Research Journal of Agriculture and Biological Sciences 3(6): 748–52.

Zhang, Jining et al. 2016. Straw Biochar Hastens Organic Matter Degradation and Produces Nutrient-Rich Compost. Bioresource Technology 200: 876–83.