Anderson J, Ingram JS (1993) Tropical Soil Biology and Fertility: A Handbook of Methods. CAB International. Wallingford. UK.
Anderson MJ, Gorley RN, Clarke KR (2008). PRIMER+ for PERMANOVA: Guide to Software and Statistical Methods (Primer-E: Plymouth, UK).
Balasooriya WK, Denef K, Peters J, Verhoest NE, Boeckx P (2008). Vegetation composition and soil microbial community structural changes along a wetland hydrological gradient. Hydrology and Earth Systems Science Discussion 4: 3869 – 3907.
Barrios E, Herrera R (1994) Nitrogen cycling in a Venezuelan tropical seasonally flooded forest: Soil nitrogen mineralization and nitrification. Journal of Tropical Ecology 10(3): 399 – 416.
Bastianoni A, Chacón N, Méndez CL, Flores S (2015) Decomposition dynamics of mixed litter in a seasonally flooded forest near the Orinoco river. Acta Oecologica 64: 21-28.
Bossio DA, Scow KM (1995) Impact of carbon and flooding on the metabolic diversity of microbial communities in soils. Applied Environmental Microbiology 61: 4043–4050.
Braak CJ, Smilauer P (1997) Canoco for Windows version 4.51. Biometris - Plant Research International. Wageningen, The Netherlands.
Chacón N, Dezzeo N, Muñoz B, Rodríguez JM (2005) Implications of soil organic carbon and the biogeochemistry of iron and aluminum on soil phosphorus distribution in flooded forest of the lower Orinoco River, Venezuela. Biogeochemistry 73: 555 – 566.
Chacón N, Dezzeo N, Rangel M, Flores S (2008) Seasonal changes in soil phosphorus dynamics and root mass along a flooded tropical forest gradient in the lower Orinoco River, Venezuela. Biogeochemistry 87:157–168.
Chao T.T, Zhou L (1983) Extraction techniques for selective dissolution of amorphous iron oxides from soils and sediments. Soil Science Society of America Journal 47: 225 – 232.
Day PR (1965) Particle fractionation and particle size analysis. In: Black CA (ed). Methods of soils analysis, Part 1. American Society of Agronomy, Madison, Wisconsin. pp 545 – 567.
Fassbender H, Bornemisza W (1987) Química de Suelos, con énfasis en suelos de América Latina. Instituto interamericano de cooperación para la Agricultura. Editorial IICA. San José, Costa Rica.
Fernandez LC, Rojas NG, Roldán TG, Ramírez ME, Zegarra HG, Uribe R, Reyes RJ, Flores D, Arce JM (2006) Manual de técnicas de análisis de suelos aplicadas a la remediación de sitios contaminados. Instituto Mexicano del Petróleo. Secretaría del Medio Ambiente y Recursos Naturales. Instituto Nacional de Ecología. México DF.
Frohne T, Rinklebe J, Diaz-Bone RA (2014) Contamination of floodplain soils along the Wupper River, Germany, with As, Co, Cu, Ni, Sb, and Zn and the impact of pre-definite redox variations on the mobility of these elements. Soil and Sediment Contamination: An International Journal 23(7): 779-799.
Garassini LA (1962) El suelo y su microflora. Revista de la Facultad de Agronomía UCV. Alcance N° 4. Caracas.
Gutknecht JL, Goodman RM, Balser TC (2006) Linking soil processes and microbial ecology in freshwater wetland ecosystems. Plant and Soil 289: 17–34.
Hernández M, Klose M, Claus P, Bastviken D, Marotta H, Figueiredo V, Enrich-Prast A, Corad R (2019) Structure, function and resilience to desiccation of methanogenic microbial communities in temporarily inundated soils of the Amazon rainforest (Cunia Reserve, Rondonia). Environmental Microbiology 21(5): 1702 – 1717.
Herrera A (2013). Responses to flooding of plant water relations and leaf gas exchange in tropical tolerant trees of a black-water wetland. Frontiers in Plant Science 4: 106.
Hornibrook E, Longstaffe F, Fife W (1997) Spatial distribution of microbial methane production pathways in temperate zone wetland soils: Stable carbon and hydrogen isotope evidence. Geochimica et Cosmochimica Acta 61(4): 745 – 753.
Huang N, Wang W, Yao Y, Zhu F, Wang W, Chang X (2017) The influence of different concentrations of bio-organic fertilizer on cucumber Fusarium wilt and soil microflora alterations. PLoS One 12 (2):e0171490.
Jackson M (1976) Análisis químico del suelo. 3ra ed. Omega, Barcelona.
Keeney DR, Nelson DW (1982) Nitrogen-inorganic forms. In: Page AL, Miller RH, Keeney DR (eds). Methods of soil analysis, Part 2. Madison Wisconsin. Agronomy 9: 643 – 698.
Li Y, Chapman SJ, Nicol GW, Yao H (2018) Nitrification and nitrifiers in acidic soils. Soil Biology and Biochemistry 116: 290-301.
Lin Y, Bhattacharyya A, Campbell AN, Nico PS, Pett-Ridge J, Silver WL (2018) Phosphorus fractionation responds to dynamic redox conditions in a humid tropical forest soil. Journal of Geophysical Research: Biogeosciences 123(9): 3016 – 3027.
Lowell J, Gordon N, Engstrom D, Stanford J, Holben W, Gannon J (2009) Habitat Heterogeneity and Associated Microbial Community Structure in a Small-Scale Floodplain Hyporheic Flow Path. Microbial Ecology 58: 611 – 620.
Luster J, Kalbitz K, Lennartz B, Rinklebe J (2014) Properties, processes and ecological functions of floodplain, peatland, and paddy soils. Geoderma 228:1-4.
McFaddin J (2004) Pruebas Bioquímicas Para La Identificación De Bacterias De Importancia Clínica. 3ª Edición. Ediciones Panamericana, Buenos Aires.
McLean EO (1965) Aluminum. In: Black CA (ed). Methods of soils analysis. Part 2. American Society of Agronomy, Madison, Wisconsin, pp 985 – 994.
Mentzer JL, Goodman RM, Balser TC (2006) Microbial seasonal response to hydrologic and fertilization treatments in a simulated wet prairie. Plant and Soil 284: 85–100.
Miller AJ, Shuur EA, Chadwick OA (2001) Redox control of phosphorus pools in Hawaiian montane forest. Geoderma 102: 219 – 237.
Moche M, Gutknecht J, Schulz E, Langer U, Rinklebe J (2015) Monthly dynamics of microbial community structure and their controlling factors in three floodplain soils. Soil Biology and Biochemistry 90: 169-178.
Morton JB (2005) Fungi. In: Sylvia DM, Fuhrmann JJ, Hartel PG, Zuberer DA (eds). Principles and Applications of Soil Microbiology. Prentice Hall. New Jersey, pp. 141-160.
Murphy J, Riley JP (1962) A modified single solution method for the determination of phosphate in natural waters. Analytica Chimica Acta 27: 31–36.
Myrold DD (2005) Transformations of nitrogen. In: Sylvia DM, Fuhrmann JJ, Hartel PG, Zuberer DA (eds). Principles and Applications of Soil Microbiology. Prentice Hall. New Jersey, pp. 333 – 367.
Nannipieri P, Giagnoni L, Renella G, Puglisi E, Ceccanti B, Masciandaro G, Fornasier F, Moscatelli MC, Marinari S (2012) Soil enzymology: classical and molecular approaches. Biology and Fertility of Soils 48:743–762.
Noe G, Hupp C (2007) Seasonal variation in nutrient retention during inundation of a short-hydroperiod floodplain. River Research and Applications 23: 1088 – 1101.
Ou Y, Rousseau AN, Wang L, Yan B, Gumiere T, Zhu H (2019) Identification of the alteration of riparian wetland on soil properties, enzyme activities and microbial communities following extreme flooding. Geoderma 337: 825-833.
Parkinson D, Gray TRG, Williams ST (1971) Methods for Studying the Ecology of Soil Micro-organisms. IBP Handbook No 19. International Biological Programme. Blackwell Scientific Publications, Oxford.
Paul EA, Clark FE (1996) Soil Microbiology and Biochemistry. Academic Press, San Diego, California.
Randle-Boggis RJ, Ashton PD, Helgason T (2018). Increasing flooding frequency alters soil microbial communities and functions under laboratory conditions. Microbiology Open 7:e548.
Ravot G, Ollivier B, Magot M, Patel C (1995) Thiosulfate reduction, an important physiological feature shared by members of the order Thermotogales. Applied Environmental Microbiology 61: 2053 – 2055.
Richards L (1941) A pressure membrane extraction apparatus for soil solution. Soil Science 51: 377 – 386.
Rinklebe J, Franke C, Neue HU (2007) Aggregation of floodplain soils based on classification principles to predict concentrations of nutrients and pollutants. Geoderma 141: 210-223.
Rinklebe J, Langer U (2010) Relationship between soil microbial biomass determined by SIR and PLFA analysis in floodplain soils. Journal of Soils and Sediments 10(1): 4-8.
Rosales J (1989) Análisis florístico-estructural y algunas relaciones ecológicas en un bosque inundable en la boca del río Mapire (estado Anzoétgui). Msc Thesis, Instituto Venezolano de Investigaciones Científicas, Caracas, 233 p.
Shaheen SM, Rinklebe J, Rupp H, Meissner R (2014) Lysimeter trials to assess the impact of different flood–dry-cycles on the dynamics of pore water concentrations of As, Cr, Mo and V in a contaminated floodplain soil. Geoderma 228: 5-13.
Slifkin M (2000) Tween 80 Opacity Test Responses of Various Candida Species. Journal of Clinical Microbiology 38(12): 4626–4628.
Smart K, Jackson C (2009) Fine Scale Patterns in Microbial Extracellular Enzyme Activity during Leaf Litter Decomposition in a Stream and its Floodplain. Microbial Ecology 58: 591 – 598.
Stoeckel DM, Miller-Goodman MS (2001) Seasonal Nutrient Dynamics of Forested Floodplain Soil Influenced by Microtopography and Depth. Soil Science Society of America Journal 65: 922–931.
Stookey LL (1970) Ferrozine: a new Spectrophotometric reagent for iron. Analytical Chemistry 42(7): 779 – 781.
Thomas GW (1982) Exchangeable cations. In: Page AL, Miller RH, Keeney DR (eds). Methods of soil analysis, Part 2. Madison Wisconsin. Agronomy 9: 159–165.
Tiessen H, Moir JO (1993) Characterization of available P by sequential extraction. In: Carter MR (ed) Soil sampling and methods of analysis. Special publication of the Canadian Society of Soil Science. Lewis, Boca Raton, pp. 75-86.
Vegas-Vilarrúbia T, Herrera F (1993) Effects of periodic flooding on thewater chemistry and primary production of the Mapire systems (Venezuela). Hydrobiologia 262: 31–42.
Vos M,Wolf AB, Jennings SJ, Kowalchuk (2013) Micro-scale determinants of bacterial diversity in soil. FEMS Microbiology Reviews 37: 936-954.
Wagner GH, Wolf DC (2005) Carbon transformations and soil organic matter formation. In: Sylvia DM, Fuhrmann JJ, Hartel PG, Zuberer DA (eds). Principles and Applications of Soil Microbiology 2nd edition. Prentice Hall, Upper Saddle River, New Jersey, pp. 218-258.
Walkley A, Black A (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: 29–38.
Xue D, Yao HY, Ge DY, Huang CY (2008) Soil microbial community structure in diverse land use systems: a comparative study using Biolog, DGGE, and PLFA analyses. Pedosphere 18(5):653–663.
Yu S, Ehrenfeld J (2010) Relationships among plants, soils and microbial communities along a hydrological gradient in the New Jersey Pinelands, USA. Annals of Botany 105: 185–196.
Zamora AC, Malaver N (2012) Methodological aspects for the culture and quantification of heterotrophic sulfate-reducing bacteria. Revista de la Sociedad Venezolana de Microbiología 32:121-125.
Zamora AC, Malaver N (2019). Dinámica de comunidades microbianas heterotróficas en la planicie de inundación del Río Mapire, Venezuela. Acta Biologica Venezuelica 39(1):49-71.