Kesuburan Tanah
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Published:
Aug 28, 2021
Keywords:
Kesuburan, Tanah
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Abstract
Buku ini disusun berdasarkan hasil kajian literatur yang bersumber pada berbagai artikel jurnal nasional dan Internasional relevan terkait merupakan salah satu dari luaran penelitian hibah Kemenristekdikti melalui skema Penelitian Dasar Unggulan Perguruan Tinggi 2018-2019. Buku dapat digunakan sebagai materi kuliah Kesuburan Tanah dan Pengelolaan Pupuk di sam;ping dapat dimanfaatkan bagi keperluan praktis mahasiswa dan praktisi pertanian.
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How to Cite
Sutarman, & Miftakhurrohmat, A. (2021). Kesuburan Tanah. Umsida Press, 1-116. https://doi.org/10.21070/2019/978-602-5914-94-2
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Buku Ajar
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Authors retain copyright and grant the Umsida Press right of first publication with the work simultaneously licensed under a Creative Commons Attribution 4.0 International License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this platform.
References
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Bekele BG, Belew D & Abebe T. 2018. NPSZnB fertilizer and cattle manure effect on potato (Solanum tuberosum L.) yield and yield components in Awi Zone, Ethiopia. Int. J. Soil Sci., 13 (1): 35-41
Cheng W, Johnson DW & Fu S. 2003. Rhizosphere effects on decomposition. Soil Sci. Soc. Am. J. 67, 1418–1427. doi:http://dx.doi.org/10.2136/sssaj2003.1418.
Dakora FD, Chimpango SBM, Valentine AJ, Elmerich C & Newton WE. 2008. Biological Nitrogen Fixation: Towards Poverty Alleviation through Sustainable Agriculture. Netherland.
Dewi EM, Suwardi, Suryaningtyas DT & Anwar S. 2016. Utilization of natural zeolites as Cu (Ii) and Zn (Ii) adsorbent. J Trop Soils, 21 (3): 153-160
Geisseler D & Horwath WR. 2009. Relationship between carbon and nitrogen availability and extracellular enzyme activities in soil. Pedobiologia 53, 87–98.
Glare T, Caradus J, Gelernter W, Jackson T, Keyhani N, Kohl J, Marrone P, Morin L & Stewart A. 2012. Have biopesticides come of age? Trends Biotechnol. 30, 250-258.
Handayani IP & Prawito P. 2013. Soil structure and carbon pools in response to common tropical agroecosystems. J Trop Soils, 18 (2): 105-113
Hanjani SS, Ardiansyah M, Nadalia D & Sabiham S. 2015. Dinamika penggunaan lahan dan perkembangan perkebunan kelapa sawit di Kabupaten Kubu Raya dan Sanggau Tahun 1990-2013. J. Tanah Lingk., 17 (1): 39-45
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Sutriadi MT, Diah Setyorini D & Nursyamsi D. 2018. Calibration of soil phosphorus test for upland rice grown on Typic Kandiudox, Way Pangubuan, Lampung. J Trop Soils, 23 (2): 81-89
Syamsiyah J, Sumarno, Suryono, Sari W & Anwar M. 2018. Chemical properties of Inceptisol and rice yields applied with Mixed Source Fertilizer (MSF). J Trop Soils, 23 (1): 1-9
Tilman D, Cassman KG, Matson PA, Naylor R & Polasky S. 2002. Agricultural sustainability and intensive production practices. Nature 418, 671–677.
Tufaila M dan Alam S. 2014. Karakteristik tanah dan evaluasi lahan untuk pengembangan tanaman padi sawah di Kecamatan Oheo Kabupaten Konawe Utara. Agriplus 24 (2) : 184-194.
Widodo, R.A. 2006. Evaluasi kesuburan tanah pada lahan tanaman sayuran di Desa Sewukan Kecamatan Dukun Kabupaten Magelang. J. Tanah dan Air 7(2):142-150.
Widowati LR & De Neve S. 2016. Nitrogen dynamics and nitrate leaching in intensive vegetable rotations in highlands of Central Java, Indonesia. J Trop Soils, 21 (2): 67-78
Wihardjaka A. 2018. Residual Effect of Nitrogen fertilization on nitrous oxide flux and yield of three cowpea varieties (Vigna unguiculata L.) in rainfed rice fields. J Trop Soils, 23 (2): 91-98
Yulida M. 2016. Ini jurus Kementan dan FAO agar lahan kering bisa digarap petani. https://finance.detik.com/ekonomibisnis/3364375/inijuruskementan danfaoagarlahankeringbisadigarappetan. Diakses 2 Mei 2017.\
Anonim. 2017. Jokowi: Pemanfaatan 36,8 Juta Hektare Lahan Pertanian Belum Maksimal. http:// katadata.co.id/berita/2016/12/07/jokowipemanfaatan368 jutahektarelahanpertanianbelummaksimal. Diakses 22 April 2017.
Aziz MA, Hazra F, Salma S & Nursyamsi D. 2016. Soil chemical characteristics of organic and conventional agriculture. J Trop Soils, 21 (1): 19-25
Bekele BG, Belew D & Abebe T. 2018. NPSZnB fertilizer and cattle manure effect on potato (Solanum tuberosum L.) yield and yield components in Awi Zone, Ethiopia. Int. J. Soil Sci., 13 (1): 35-41
Cheng W, Johnson DW & Fu S. 2003. Rhizosphere effects on decomposition. Soil Sci. Soc. Am. J. 67, 1418–1427. doi:http://dx.doi.org/10.2136/sssaj2003.1418.
Dakora FD, Chimpango SBM, Valentine AJ, Elmerich C & Newton WE. 2008. Biological Nitrogen Fixation: Towards Poverty Alleviation through Sustainable Agriculture. Netherland.
Dewi EM, Suwardi, Suryaningtyas DT & Anwar S. 2016. Utilization of natural zeolites as Cu (Ii) and Zn (Ii) adsorbent. J Trop Soils, 21 (3): 153-160
Geisseler D & Horwath WR. 2009. Relationship between carbon and nitrogen availability and extracellular enzyme activities in soil. Pedobiologia 53, 87–98.
Glare T, Caradus J, Gelernter W, Jackson T, Keyhani N, Kohl J, Marrone P, Morin L & Stewart A. 2012. Have biopesticides come of age? Trends Biotechnol. 30, 250-258.
Handayani IP & Prawito P. 2013. Soil structure and carbon pools in response to common tropical agroecosystems. J Trop Soils, 18 (2): 105-113
Hanjani SS, Ardiansyah M, Nadalia D & Sabiham S. 2015. Dinamika penggunaan lahan dan perkembangan perkebunan kelapa sawit di Kabupaten Kubu Raya dan Sanggau Tahun 1990-2013. J. Tanah Lingk., 17 (1): 39-45
Katadata. 2017. Pemanfaatan 36,8 juta hektare lahan pertanian belum maksimal. http://katadata.co.id/berita/2016/12/07/jokowipemanfaatan 368juta hektarelahanpertanian belummaksimal. Diakses 22 April 2017
Lumbanraja J, Mulyani S, Utomo M & Sarno. 2017. Phosphorus extraction from soil constituents using Bray P-1, Mehlich-1 and Olsen solutions. J Trop Soils, 22 (2): 67-76
Martinson GO, Corre MD & Veldkamp E. 2013. Responses of nitrous oxide fluxes and soil nitrogen cycling to nutrient additions in montane forests along an elevation gradient in southern Ecuador. Biogeochemistry 112, 625-636.
Murni AM. 2015. Hubungan antara karakteristik agroekologi perkebunan karet (Hevea brassiliansis L) dengan hasil karet di Lampung. J. Tanah Lingk., 17 (1): 16-24
Neswati R, Azizah N, Lopulisa C & Abdullah S. 2018. Effect of humic subtances produced from lignite and straw compost on phosphor availability in Oxisols Int. J. Soil Sci., 13 (1): 42-49
Opachat T, Anusontpornperm S, Thanachit S & Kheoruenromne I. 2018. Major plant nutrient release in Jasmine Rice growing soils amended with biochar and organic wastes: An incubation study. Int. J. Soil Sci., 13 (1): 9-17
Paul EA & Clarck FE. 1996. Soil microbiology and biochemistry 2nd ed. Academic Press. San Diego.
Salam AK & Ginanjar K. 2018. Tropical soil labile fractions of copper in the experimental plots ±ten years after application of copper-containing-waste. J Trop Soils, 23 (1): 11-18
Sanchez, P.A. (2004). Properties and Management of soils in the Tropics. John Wiley & Sons, New York.
Sekhavatian A & Choobbasti AJ.. 2018. Comparison of constitutive soil models in predicting movements caused by an underground excavation Int. J. Soil Sci., 13 (1): 18-27
Shrestha RM, Paudel S, Wagle S, Ghimire S & Yadav D. 2018. Performance of rainfed lowland rice genotypes under different levels of boron application. Int. J. Soil Sci., 13 (1): 28-34.
Six J, Elliott ET & Paustian K. 2000. Soil macroaggregate turnover and microaggregate formation: a mechanism for C sequestration under no-tillage agriculture. Soil Biol. Biochem. 32, 2099–2103.
Sofyan ET & Sara DS. 2018. The effect of organic and inorganic fertilizer applications on N, P and K uptake and yield of sweet corn (Zea mays saccharata Sturt). J Trop Soils, 23 (3): 111-116
Sufardi, Darusman, Zaitun, S. Zakaria, and T.F. Karmil. (2017). Chemical characteristics and status of soil fertility on some dryland areas of Aceh Besar District (Indonesia). Proceeding of International Conference on Sustainable Agriculture. Yogyakarta 17-18, 2017.
Suriadikarta DA & Simanungkalit RDM. 2006. Pendahuluan. In: Simanungkalit RDM, Suriadikarta DA, Saraswati R, Setyorini D & Hartatik W (eds.). Pupuk organic dan pupuk hayati. Pp. 1-10. Balai Besar Litbang Sumberdaya Lahan Pertanian, Badan Penelitian dan Pengembangan Pertanian. Bogor.
Sutriadi MT, Diah Setyorini D & Nursyamsi D. 2018. Calibration of soil phosphorus test for upland rice grown on Typic Kandiudox, Way Pangubuan, Lampung. J Trop Soils, 23 (2): 81-89
Syamsiyah J, Sumarno, Suryono, Sari W & Anwar M. 2018. Chemical properties of Inceptisol and rice yields applied with Mixed Source Fertilizer (MSF). J Trop Soils, 23 (1): 1-9
Tilman D, Cassman KG, Matson PA, Naylor R & Polasky S. 2002. Agricultural sustainability and intensive production practices. Nature 418, 671–677.
Tufaila M dan Alam S. 2014. Karakteristik tanah dan evaluasi lahan untuk pengembangan tanaman padi sawah di Kecamatan Oheo Kabupaten Konawe Utara. Agriplus 24 (2) : 184-194.
Widodo, R.A. 2006. Evaluasi kesuburan tanah pada lahan tanaman sayuran di Desa Sewukan Kecamatan Dukun Kabupaten Magelang. J. Tanah dan Air 7(2):142-150.
Widowati LR & De Neve S. 2016. Nitrogen dynamics and nitrate leaching in intensive vegetable rotations in highlands of Central Java, Indonesia. J Trop Soils, 21 (2): 67-78
Wihardjaka A. 2018. Residual Effect of Nitrogen fertilization on nitrous oxide flux and yield of three cowpea varieties (Vigna unguiculata L.) in rainfed rice fields. J Trop Soils, 23 (2): 91-98
Yulida M. 2016. Ini jurus Kementan dan FAO agar lahan kering bisa digarap petani. https://finance.detik.com/ekonomibisnis/3364375/inijuruskementan danfaoagarlahankeringbisadigarappetan. Diakses 2 Mei 2017.\