Role of cajuput waste compost against the physical quality of sandy soil
Abdollahi, L., Schjønning P., Elmholt, S. and Munkholm, L.J. 2014. The effects of organic matter application and intensive tillage and traffic on soil structure formation and stability. Soil and Tillage Research. 136:28–37.
Abdurachman, A., Dariah, A. and Mulyani, A. 2008. The strategy and technology of dryland management support national food procurement. Jurnal Litbang Pertanian 27(2):43–49. (in Indonesian).
Alagöz, Z. and Yilmaz, E. 2009. Effects of different sources of organic matter on soil aggregate formation and stability: a laboratory study on a Lithic Rhodoxeralf From Turkey. Soil and Tillage Research 103(2):419–424.
Andersson, S., Nilsson, S.I. and Saetre, P. 2000. Leaching of dissolved organic carbon (DOC) and dissolved organic nitrogen (DON) in mor humus as affected by temperature and pH. Soil Biology and Biochemistry 32:1–10.
Angers, D.A., Recous, S. and Aita, C. 1997. Fate of carbon and nitrogen in water-stable aggregates during decomposition of 13C15N-labelled wheat straw in situ. European Journal of Soil Science 48:295–300.
Ankenbauer, K. and Loheide, S.P. 2017. The effects of soil organic matter on soil water retention and plant water use in a meadow of the Sierra Nevada, CA. Hydrological Processes 31:891–901.
Arthur, E., Cornelis, W. and Razzaghi, F. 2012. Compost amendment to sandy soil affects soil properties and greenhouse tomato productivity. Compost Science & Utilization 20(4):215–221.
ATTRA. 2014. Sustainable Soil Management: Soil System Guide. Appropriate Technology Transfer for Rural Areas. Fayetteville, Arkansas, US. 36p.
Barral, M.T., Ariasa, M. and Guérif, J. 1998. Effects of iron and organic matter on the porosity and structural stability of soil aggregates. Soil and Tillage Research, 46(3-4):261–272.
Bot, A. and Benites, J. 2005. The Importance of Soil Organic Matter: Key to Drought-Resistant Soil and Sustained Food and Production. FAO Soils Bulletin 80. Food and Agriculture Organization of the United Nations, Rome, Italy. 95p.
BPPK. 2014. Cajuputi: Series 5 Forestry Science and Technology. Badan Penelitian dan Pengembangan Kehutanan. Kementerian Kehutanan Republik Indonesia. Jakarta. (in Indonesian).
Bronick, C.J. and Lal, R. 2005. Soil structure and management: a review. Geoderma 124:3–22.
Chaudhari, P.R., Ahire D.V., Ahire, V.D., Chkravarty M. and Maity, S. 2013. Soil bulk density as related to soil texture, organic matter content and available total nutrients of Coimbatore soil. International Journal of Scientific and Research 3:1–8.
Currie, W.S., Aber, J.D., McDowell, W.H., Boone, R.D. and Magill, A.H. 1996 Vertical transport of dissolved organic C and N under long-term amendments in pine and hardwood forests. Biogeochemistry 35:471–505.
Daynes, C.N., Field, D.J., Saleeba, J.A., Cole, M.A. and McGee, P.A. 2013. Development and stabilisation of soil structure via interactions between organic matter, arbuscular mycorrhizal fungi and plant roots. Soil Biology and Biochemistry 57:683–694.
Foth, H. D. 1991. Fundamentals of Soil Science: Eighth Edition. Arcata Graphics Company. New York. US. 360p.
Franzluebbers, A. 2002. Water infiltration and soil structure related to organic matter and its stratification with depth. Soil and Tillage Research 66:197–205.
Garcia, A.C., Izquierdo, F.G. and Barbara, R.L.L. 2014. Chapter 18: Effects of Humic Materials on Plant Metabolism and Agricultural Productivity. In: Ahmad, P. (Ed). Emerging Technologies and Management of Crop Stress Tolerance, Volume 1. Elsevier. Amsterdam. pp 449–466.
Ghani, A., Müller, K., Dodd, M., and Mackay, A. 2010. Dissolved organic matter leaching in some contrasting New Zealand pasture soils. European Journal of Soil Science 61(4):525–538.
Glab, T., Zabinski, A., Sadowska, U., Godek, K., Kopej, M., Mierzwa-Hersztek, M. and Tabor, S. 2018. Effects of co-composted maize, sewage sludge, and biochar mixtures on hydrological and physical qualities of sandy soil. Geoderma 315:27 – 35.
Gonet, S.S. and Debska, B. 2006. Dissolved organic carbon and dissolved nitrogen in soil under different fertilization treatments. Plant, Soil and Environment 52(2):55–63.
Guggenberger, G., Kaiser, K. and Zech, W. 1998. Mobilisation and immobilisation of dissolved organic matter in forest soils. Zeitschrift für Pflanzenernährung und Bodenkunde 161:401–408.
Guggenberger, G., Zech, W. and Schulten, H.R. 1994. Formation and mobilization pathways of dissolved organic matter – evidence from chemical structural studies of organic matter fractions in acid forest floor solutions. Organic Geochemistry 21:51–66.
Gunina, A. and Kuzyakov, Y. 2015. Sugars in soil and sweets for microorganisms: Review of origin, content, composition and fate. Soil Biology & Biochemistry 90:87–100.
Guo, L., Wu, G., Li, Y., Li, C., Liu, W., Meng, J., Liu, H., Yu, X. and Jiang, G. 2016. Effects of cattle manure compost combined with chemical fertilizer on topsoil organic matter, bulk density and earthworm activity in a wheat–maize rotation system in Eastern China. Soil and Tillage Research 156:140–147.
Hollis, J.M., Jones, R.J.A. and Palmer, R.C. 1977. The effects of organic matter and particle size on the water-retention properties of some soils in the west midlands of England. Geoderma 17(3):225–238.
Hontoria, C., Gómez-Paccard, C., Mariscal-Sancho, I., Benito, M., Pérez, J. and Espejo, R. 2016. Aggregate size distribution and associated organic C and N under different tillage systems and Ca-amendment in a degraded Ultisol. Soil and Tillage Research. 160:42–52
Huang, W.Z. and Schouenau, J.J. 1996. Distribution of water-soluble organic carbon in an aspen forest soil. Canadian Journal of Forest Research 26:1266–1272.
Hudson, B.D. 1994. Soil organic matter and available water capacity. Journal of Soil and Water Conservation, 49:189–194.
Jastrow, J.D., Amonette, J.E. and Bailey, V.L. 2007. Mechanisms controlling soil carbon turnover and their potential application for enhancing carbon sequestration. Journal of Climatic Change 80:5–23.
Kalbitz, K., Solinger, S., Park, J.-H., Michalzik, B. and Matzner, E. 2000. Controls on the dynamics of dissolved organic matter in soils: A review. Soil Science 165:277–304.
Keller, T. and Dexter, A.R. 2012. Plastic limits of agricultural soils as functions of soil texture and organic matter content. Soil Research 50:7–17.
Killham, K. and Prosser, J.I. 2015. The Bacteria and Archaea. In: Soil Microbiology, Ecology, and Biochemistry. Elsevier. UK. pp 41–76.
Kogel-Knabner, I. and Amelung, W. 2014. Dynamics, Chemistry, and Preservation of Organic Matter in Soils. In: Holland, D.H. and Turekian K.K. (Eds.). Treatise on Geochemistry (Second Edition). Elsevier. Amsterdam. pp 157–215.
Lal, R. and Shukla, M.K. 2004. Principles of Soil Physics. Marcel Dekker. Madison Avenue. New York. US. 682p.
Lestari, A.P., Sarman, S. and Indraswari, E. 2010. The substitution of inorganic fertilizer with municipal compost, sweet corn plant (Zea mays saccharata Sturt). Jurnal Penelitian Universitas Jambi Seri Sains 12(2):1–6. (in Indonesian).
Li, J., Li, Y., Yang, X., Zhang, J., Lin, Z. and Zhao, B. 2015. Microbial community structure and functional metabolic diversity are associated with organic carbon availability in an agricultural soil. Journal of Integrative Agriculture. 14:2500–2511.
Li, J., Wu, X., Gebremikael, M.T., Wu, H., Cai, D., Wang, B., Li, B., Zhang, J., Li, Y. and Xi, J. 2018. Response of soil organic carbon fractions, microbial community composition and carbon mineralization to high-input fertilizer practices under an intensive agricultural system. PLoS ONE 13(4):e0195144.
Luo, S., Wang, S., Tian, L., Shi, S., Yang, S. F., Li, X., Wang, Z. and Tian, C. 2018. Aggregate-related changes in soil microbial communities under different ameliorant applications in saline-sodic soils. Geoderma 329:108–117.
McGrath, D. and Henry, J. 2016. Organic amendments decrease bulk density and improve tree establishment and growth in roadside plantings. Urban Forestry & Urban Greening 20:120–127.
Mganga, K.Z. and Kuzyakov, Y. 2014. Glucose decomposition and its incorporation into soil microbial biomass depending on land use in Mt. Kilimanjaro ecosystems. European Journal of Soil Biology 62:74–82.
Minasny, B. and Mcbratney, A.B. 2018. Limited effect of organic matter on soil available water capacity. European Journal of Soil Science 69:39–47.
Montesanoa, F.F., Parentea, A., Santamariab, P., Sanninoc, A. and Serioa, F. 2015. Biodegradable superabsorbent hydrogel increases water retention properties of growing media and plant growth. Agriculture and Agricultural Science Procedia 4:451–458.
Mousavi, S.F., Moazzeni, M., Mostafazadeh-Fard, B. and Yazdani, M.R. 2012. Effects of rice straw incorporation on some physical characteristics of paddy soils. Journal of Agriculture Science and Technology 14:1173–1183.
Murphy, B.W. 2015. Key soil functional properties affected by soil organic matter – evidence from published literature. IOP Conference Series: Earth and Environmental Science 25:012008 doi:10.1088/1755-1315/25/1/012008.
Murphy, B.W. 2015a. Impact of soil organic matter on soil properties - a review with emphasis on Australian soils. Soil Research 53:605–635.
Mustoyo, Simanjuntak, B.H. and Suprihati. 2013. The influence of manure dosage to soil aggregate in organic farming systems. Agriculture 25(1):51–57. (in Indonesian).
Nath, T.N. 2014. Soil texture and total organic matter content and its influences on soil water holding capacity of some selected tea growing soils in Sivasagar District of Assam, India. International Journal of Chemical Science 12(4):1419–1429.
Ohu, J.O., Raghavan, G.S.V., Prasher, S. and Mehuys, G. 1987. Prediction of water retention characteristics from soil compaction data and organic matter content. Journal of Agricultural Engineering Research 38(1):27–35.
Rabot, E., Wiesmeier, M., Schluter, S. and Vogel, H.J. 2018. Soil structure as an indicator of soil functions: a review. Geoderma 314:122–137.
Rawls, W.J., Pachepsky, Y.A., Ritchie, J.C., Sobecki, T.M. and Bloodworth, H. 2003. Effect of soil organic carbon on soil water retention. Geoderma 116:61–76.
Rimbawanto, A., Susanto, M., Kartikawati, N.K., Baskorowati, L., Prastyono, Sukijan, and Alin. 2014. Leaf production models in cajuput plantation pruning shoots harvesting systems. Balai Besar Penelitian Bioteknologi dan Pemuliaan Benih Tanaman Hutan. Yogyakarta. (in Indonesian).
Rochayati, S. and Dariah, A. 2012. Acid Dry Land Development: Opportunities for Challenges and Strategies, and Management Technology. www.litbang.pertanian.go.id/buku/Lahan-Kering-Ketahan/BAB-III-6.pdf. (Accessed 23 November 2014). (in Indonesian).
Sarker, T.C., Incerti, G., Spaccini, R., Piccolo, A., Mazzoleni, S. and Bonanomi, G. 2018. Linking organic matter chemistry with soil aggregate stability: Insight from 13C NMR spectroscopy. Soil Biology and Biochemistry 117:175–184.
Schaumann, G.E. and Bertmer, M. 2008. Do water molecules bridge soil organic matter molecule segments?. European Journal of Soil Science 59(3):423–429.
Shahid, S.A., Qidwai, A.A., Anwar, F., Ullah, I. and Rashid, U. 2012. Improvement in the water retention characteristics of sandy loam soil using a newly synthesized poly (acrylamide-co-acrylic Acid)/AlZnFe2O4 superabsorbent hydrogel nanocomposite material. Molecules 17(8):9397–9412.
Six, J., Conant, R.T., Paul, E.A. and Paustian, K. 2002. Stabilization mechanisms of soil organic matter: Implications for C-saturation of soils. Plant and Soil 241:155–176.
Strosser, E. 2010. Methods for determination of labile soil organic matter: an overview. Journal of Agrobiology 27(2):49 – 60.
Sudaryono. 2001. Effect of giving soil conditioning materials to the physical and chemical properties of soil on marginal sandy soil. Jurnal Teknologi Lingkungan 2(1):106–112 (in Indonesian).
Sujatha, K.N., Kavya, G., Manasa, P. and Divya, K. 2016. Assessment of soil properties to improve water holding capacity in soils. International Research Journal of Engineering and Technology 3(3):1777–1783.
Tatipata, A. and Jacob, A. 2013. Remediation of sandy land in Vaishamu, which is planted with local corn through the application of ela sago compost. Jurnal Lahan Suboptimal 2(2):118–128 (in Indonesian).
Tisdall, J.M. and Oades, J.M. 1982. Organic matter and water-stable aggregates in soils. European Journal of Soil Science 33:141–163.
USDA-NRCS, 2008. Soil Quality Indicators: Bulk Density. United States Department of Agriculture-Natural Resources Conservation Service. www.nrcs.usda.gov/Internet/FSE_DOCUMENTS/nrcs142p2_053256.pdf. (Accessed 13 February 2018).
USDA-NRCS, 2011. Soil Quality for Environmental Health. United States Department of Agriculture-Natural Resources Conservation Service. soilquality.org/indicators/bulk_density.html. (Accessed 20 December 2018).
USDA-NRCS, 2013. Soil Bulk Density, Moisture, Aeration – Soil Quality Kit. United States Department of Agriculture-Natural Resources Conservation Service. www.nrcs.Usda.gov/Internet/FSE_DOCUMENTS/ nrcs142p2_053260.pdf. (Accessed 20 December 2018).
Gupta, V.V.S.R. and Germida, J.J. 2015. Soil aggregation: Influence on microbial biomass and implications for biological processes. Soil Biology and Biochemistry 80:A3–A9.
Vengadaramana, A. and Jashothan, P.T.J. 2012. Effect of organic fertilizers on the water holding capacity of the soils in different terrains. Journal of Natural Product and Plant Resources 2(4):500–503.
Wang, Q., Xiao, F., Zhang, F. and Wang, S. 2013. Labile soil organic carbon and microbial activity in three subtropical plantations. Forestry: An International Journal of Forest Research 86(5):569–574.
Xin, X., Zang, J., Zhu, A. and Zang, C. 2016. Effects of long-term (23 years) mineral fertilizer and compost application on physical properties of fluvo-aquic soil in the North China Plain. Soil and Tillage Research 156:166– 172.
Yang, F., Zhang, G.-L., Yang, J.-L., Li, D.-C., Zhao, Y.-G. and Liu, F. 2014. Organic matter controls of soil water retention in an alpine grassland and its significance for hydrological processes. Journal of Hydrology 519:3086–3093.
Yang, X., Ren, W., Sun, B. and Zhang, S. 2012. Effects of contrasting soil management regimes on total and labile soil organic carbon fractions in a loess soil in China. Geoderma 177–178:49–56.
Yin, T., Zhao, C., Yan, C., Du, Z. and He, W. 2018. Inter-annual changes in the aggregate-size distribution and associated carbon of soil and their effects on the straw-derived carbon incorporation under long-term no-tillage. Journal of Integrative Agriculture 17(11):2546–2557.
Young, I.M. and Ritz, K. 2000. Tillage, habitat space and function of soil microbes. Soil and Tillage Research 53:201–213.
Zacharias, S. and Wessolek, G. 2007. Excluding organic matter content from pedotransfer predictors of soil water retention. Soil Science Society of America Journal 71:43–50.
Zhang, X.F., Xin, X.L., Zhu, A.N., Zhang, J.B. and Yang, W.H. 2017. Effects of tillage and residue managements on organic C accumulation and soil aggregation in a sandy loam soil of the North China Plain. Catena 156:176–183.
Zhao, J., Chen, S., Hu, R. and Li, Y. 2017. Aggregate stability and size distribution of red soils under different land uses integrally regulated by soil organic matter, and iron and aluminum oxides. Soil and Tillage Research 167:73–79.
Zulkarnain, M., Prasetya, B. and Soemarno. 2013. The effect of compost, manure, and custom bio on soil properties, growth and yield of sugarcane (Saccharum officinarum L.) on entisol in the Ngrangkah-Pawon garden, Kediri. Journal of Indonesian Green Technology 2(1):45–52.
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