African Journal of
Agricultural Research

  • Abbreviation: Afr. J. Agric. Res.
  • Language: English
  • ISSN: 1991-637X
  • DOI: 10.5897/AJAR
  • Start Year: 2006
  • Published Articles: 6901

Full Length Research Paper

Soil chemical indicators and nutrient cycling variations across sequential years of rice cultivation: A case study of floodplain conditions of the Amazon, Brazil

Luis Sanchez
  • Luis Sanchez
  • Soil Department, Federal University of Roraima, Roraima (RO), Brazil.
  • Google Scholar
Valdinar Melo
  • Valdinar Melo
  • Soil Department, Federal University of Roraima, Roraima (RO), Brazil.
  • Google Scholar
Taline Nunes
  • Taline Nunes
  • Soil Department, Federal University of Roraima, Roraima (RO), Brazil.
  • Google Scholar
Diego Portalanza
  • Diego Portalanza
  • Climate Research Group, Department of Physics, Federal University of Santa Maria, Santa Maria (RS), Brazil.
  • Google Scholar
Angelica Durigon
  • Angelica Durigon
  • Agricultural Meteorology Group, Department of Crop Science, Federal University of Santa Maria, Santa Maria (RS), Brazil.
  • Google Scholar
Simón Farah
  • Simón Farah
  • Facultad de Ciencias Agrarias (FACIAG), Universidad Técnica de Babahoyo, Los Ríos, Ecuador.
  • Google Scholar


  •  Received: 29 May 2019
  •  Accepted: 12 July 2019
  •  Published: 30 September 2019

References

Acton DF, Gregorich LJ (2012). The health of our soils: toward sustainable agriculture in Canada. The health of our soils: toward sustainable agriculture in Canada. 
Crossref

 

Alloway B (2009). Soil factors associated with zinc deficiency in crops and humans. Environmental Geochemistry and Health 5:537-548.
Crossref

 

Asmamaw DK (2017). A Critical Review of the Water Balance and Agronomic Effects of Conservation Tillage under Rain-fed Agriculture in Ethiopia. Land Degradation and Development. 
Crossref

 

Audette Y, O'Halloran IP, Paul Voroney R (2016). Kinetics of phosphorus forms applied as inorganic and organic amendments to a calcareous soil. Geoderma 262:119-124.
Crossref

 

Bandyopadhyay P, Saha S, Mani P, Mandal B (2010). Effect of organic inputs on aggregateassociated organic carbon concentration under long-term rice-wheat cropping system.Geoderma 154:379-386.
Crossref

 

Batista K, Lumbreras J, Coelho M, Oliveira V, Vale Junior J (2018). Guia de campo da XI Reunião Brasileira de Classificação e Correlação de Solos: RCC de Roraima. 15 jan.

 

Becker M, Asch F (2005). Iron toxicity in rice - conditions and management concepts. Journal of Plant Nutrition and Soil Science 168:558-573.
Crossref

 

Behera S, Shukla A (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 26:71-79.
Crossref

 

Bowman R (1989). Sequential extraction procedure with concentrated sulfuric acid and diluted base for soil organic phosphorus. Soil Science Society of America Journal 53:262-366.
Crossref

 

Briedis C, Sá J, Lal R, Tivet F, Franchini J (2018). How does no-till deliver carbon stabilization and saturation in highly weathered soils? Catena 163:13-23.
Crossref

 

Byous E, Williams J, Jones G, Horwath W (2004). Nutrient requirements of rice with alternative straw management. Better Crops 36:6-11.

 

Comissão de Fertilidade do Solo do Estado de Minas Gerais (CFSEMG) (1999). Recomendações para o uso de corretivos e fertilizantes em Minas Gerais. In: Apresentação dos resultados das análises de solos. 5a Aproximação. Viçosa, MG. P. 310.

 

Chen K, Zhao K, Zhang H, Sun Q, Wu Z, Zhou Y, Zhong Y, Ke F (2013). Phosphorus removal from aqueous solutions using a synthesized adsorbent prepared from mineralized refuse and sewage sludge. Environmental Technology 34(9-12):1489-1496.
Crossref

 

Dang YP, Moody PW, Bell MJ, Seymour NP, Dalal RC, Freebairn DM, Walker SR (2015). Strategic tillage in no-till farming systems in Australia's northern grains-growing regions: II. Implications for agronomy, soil and environment. Soil and Tillage Research 152:115-123.
Crossref

 

de Figueiredo EB, Panosso AR, Reicosky DC, La Scala N (2015). Short-term CO2-C emissions from soil prior to sugarcane (Saccharum spp.) replanting in southern Brazil. Global Change Biology Bioenergy 7(2):316-327.
Crossref

 

Dobermann A, Fairhurst T (2000). Rice: Nutrient Disorders and Nutrient Management. Handbook Series, Potash and Phosphate Institute (PPI), Potash and Phosphate Institute of Canada (PPIC) and International Rice Research Institute, Philippine, P 191. 

View

 

Du H, Wang T, Xue X, Li S (2019). Estimation of soil organic carbon, nitrogen, and phosphorus losses induced by wind erosion in Northern China. Land Degradation and Development. 
Crossref

 

Empresa Brasileira de Pesquisa Agropecuaria (EMBRAPA) (2009). Manual de análises químicas de solos, plantas e fertilizantes. 2. ed. Brasilia P 627.

 

Evald A (2016). Qualidade do solo na cultura do arroz cultivado em várzea roraimense. 2016. Dissertação (Mestrado). Faculdade de Agronomia, Universidade Federal de Roraima. Boa Vista. 84f.

 

Favre F, Tessier D, Abdelmoula M, Génin J, Gates W, Boivin P (2002). Iron reduction and changes in cation exchange capacity in intermittently waterlogged soil. European Journal of Soil Science 53:175-183.
Crossref

 

Gonzalez-Rodriguez S, Fernandez-Marcos ML (2018). Phosphate sorption and desorption by two contrasting volcanic soils of equatorial Africa. PeerJ. 6:e5820.
Crossref

 

Guerra J (1993). Produção sazonal de Brachiaria decumbens Stapf. Conteúdo de fósforo orgânico e microbiano em solos tropicais de baixa fertilidade natural. 1993. Tese (Doutorado). Universidade Federal Rural do Rio de Janeiro - UFRRJ. 234f.

 

Havlin J, Beaton J, Tisdale S, Nelson W (2005). Soil Fertility and Fertilizers. 7 ed. NJ. Pearson Prentice Hall P 515.

 

Huang S, Zeng Y, Wu J, Shi Q, Pan X (2013). Effect of crop residue retention on rice yield in China: A meta-analysis. Field Crops Research 154:188-194.
Crossref

 

Impa S, Sarah E, Beebout J (2012). Mitigating zinc deficiency and achieving high grain Zn in rice through integration of soil chemystry and plant physiology research. Plant Soil 361:3-41.
Crossref

 

Jeong CY, Dodla SK, Wang JJ (2016). Fundamental and molecular composition characteristics of biochars produced from sugarcane and rice crop residues and by-products. Chemosphere 142:4-13
Crossref

 

Jia Z, Kuzyakov Y, Myrold D, Tiedje J (2017). Soil Organic Carbon in a Changing World. Pedosphere 27(5):789-791
Crossref

 

Jones C, Jacobsen J (2009). Micronutrients: cycling, testing and fertilizer recommendations. Nutrient Management Module 7:2-4.

 

Kashem M, Singh B (2001). Metal availability in contaminated soils: I. Effects of floodingand organic matter on changes in Eh, pH and solubility of Cd, Ni and Zn. Nutrient Cycling in Agroecosystems 61:247-255.
Crossref

 

Katsura K, Maeda S, Lubis I, Horie T, Cao W, Shiraiwa T (2008). The high yield of irrigated rice in Yunnan, China. 'a cross-location analysis'. Field Crops Research 107:1-11.
Crossref

 

Khush G (2005). What it will take to feed 5.0 billion rice consumers in 2030. Plant Molecular Biology 59:1-6.
Crossref

 

Kögel-Knabner I, Amelung W, Cao Z, Fiedler S, Frenzel P (2010). Biogeochemistry of paddy soils. Geoderma 157:1-14.
Crossref

 

Leal OA, Castilhos RMV, Pauletto EA, Pinto LFS, Pillon CN, Penning LH, Santos DC (2015). Organic Matter Fractions and Quality of the Surface Layer of a Constructed and Vegetated Soil After Coal Mining. II - Physical Compartments and Carbon Management Index. Revista Brasileira de Ciência do Solo 39:3.
Crossref

 

Lee CH, Hong CO, Kim SY, Schumacher T, Kim PJ (2011). Reduction of phosphorus release by liming from temporary flooded rice rotational system in greenhouse upland soil. Ecological Engineering 37(8):1239-1243
Crossref

 

Machado R, Vargas C, Pauletto E, Pillon C, Dos Anjos L (2011). Conteúdo de carbono orgânico em Planossolo Háplico sob sistemas de manejo do arroz irrigado. Revista Brasileira de Ciência do Solo 35:1769-1775.
Crossref

 

Mazzoncini M, Antichi D, Di Bene C, Risaliti R, Petri M, Bonari E (2016). Soil carbon and nitrogen changes after 28 years of no-tillage management under Mediterranean conditions. European Journal of Agronomy. 77, 156-165.
Crossref

 

McLaren TI, Smernik RJ, McLaughlin MJ, McBeath TM, Kirby JK, Simpson RJ, Guppy CN, Doolette AL, Richardson AE (2015). Complex Forms of Soil Organic Phosphorus-A Major Component of Soil Phosphorus. Environmental Science and Technology 49(22):13238-1345.
Crossref

 

Moreira F, Kasuya M (2016). Fertilidade e biologia do solo: Integração e tecnologia para todos. ed. Viçosa: Sociedade Brasileira de Ciência do Solo P 592.

 

Nascimento P, Bayer C, Netto S, França L (2009). Sistemas de manejo e a matéria orgânica de solo de várzea com cultivo de arroz. Revista Brasileira de Ciência do Solo 33:1821-1827.
Crossref

 

Nava G, Bohnen H (2002). Oxidação de ferro em raízes de dois cultivares de arroz em solução de solo inundado. Revista Brasileira de Ciência do Solo 26(2):325-332.
Crossref

 

Neto T, Taketomi Y, Junior R, Oliveira D, Gallo J, Tanabe C, Martins I, Da-Silva A (2015). Quantificação de restos culturais e concentração de nutrientes na cultura do milho no Municipio de Belterra. Espaço Cientifico 14:60-68.

 

Ntanos D, Koutroubas S (2002). Dry matter and N accumulation and translocation for Indica and Japonica rice under Mediterranean conditions. Field Crops Research 74:93-101.
Crossref

 

Ohsumi A, Furuhata M, Matsumura O (2014). Climatic responses of biomass production and grain yield in Japanese high-yielding rice cultivars under different transplanting times. Field Crops Research 168:38-47.
Crossref

 

Qiu H, Ge T, Liu J, Chen X, Hu Y, Wu J, Su Y, Kuzyakov Y (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.
Crossref

 

R Development Core Team (2017). R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. http://www.R-project.

 

Rabaioli C, Merchesan E, Rossato T, Teló G, Arosemena D (2008). Influência da aplicação de nitrogênio e fungicida no estádio de emborrachamento sobre o desempenho agronômico do arroz irrigado. Bragantia 67:153-159.
Crossref

 

Schadel C, Luo Y (2012). Biofuels and Ecosystem Carbon Balance Under Global Change. In Environmental Impact of Biofuels. 
Crossref

 

SigmaPlot (2008). Statistics for user's guide, Chicago, Systat Software Inc, P. 578.

 

Tedesco M, Gianello C, Bissani C, Bohnen H, Volkweiss S (1995). Análise de solo, plantas e outros materiais. 2 ed. Porto Alegre: Universidade Federal do Rio Grande do Sul. 

View

 

Tokura M, Furtini N, Carneiro L, Curi N, Lopes S, Alovisi A (2011). Dinâmica das formas de fósforo em solos de textura e mineralogia contrastantes cultivados com arroz. Acta Scientiarum. Agronomy 33(1):171-179.
Crossref

 

Wang H, Guan D, Zhang R, Chen Y, Hu Y, Xiao L (2014). Soil aggregates and organic carbon affected by the land use change from rice paddy to vegetable field. Ecological Engineering 70:206-211.
Crossref

 

Wang Y, Wang Z, Zhang Q, Hu, N, Li Z (2018). Long-term effects of nitrogen fertilization on aggregation and localization of carbon, nitrogen and microbial activities in soil. Science of The Total Environment 624:1131-1139.
Crossref

 

Yamada T, Roberts T (2005). Anais do Simpósio sobre Potássio na Agricultura Brasileira. Piracicaba P 841.

 

Yang C, Yang L, Ouyang Z (2005). Organic carbon and its fractions in paddy soil as affected by different nutrient and water regimes. Geoderma 124(1):133-142.
Crossref

 

Yoo G, Yang X, Wander MM (2011). Influence of soil aggregation on SOC sequestration: A preliminary model of SOC protection by aggregate dynamics. Ecological Engineering. 
Crossref

 

Yoshida S (1981). Fundamentals of Rice Crop Science. Los Baños: International Rice Research. Institute P 269.

 

Yu Z, Zhang J, Zhang C, Xin X, Li H (2017). The coupling effects of soil organic matter and particle interaction forces on soil aggregate stability. Soil and Tillage Research 174:251-260.
Crossref