B. , G. R. Hartge, and K. H. , Bulk density Methods of soil analysis: Physical and mineralogical methods. 2, pp.363-375, 1986.

B. , R. H. Corey, and A. , Hydraulic properties of porous media, p.27, 1964.

B. , Y. D. Cornelis, W. M. Baert, G. Van, R. et al., Evaluation of pedotransfer functions for predicting water retention of soils in Lower Congo, Congo)

C. , A. P. Sentelhas, and P. C. , Performance evaluation of different methods for estimating potential evapotranspiration in the state of São Paulo, Brazil. An analytical review of potential evapotranspiration, R. Bras. Agrometeo, vol.5, pp.89-97, 1997.

C. , H. P. Coquet, Y. Bruand, A. Mckenzie, and N. J. , The transferability of Australian pedotransfer functions for predicting water retention characteristics of French soils, Soil Use Manage, vol.22, pp.62-70, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00020213

C. , H. P. Paydar, and Z. , Functional evaluation of methods for predicting the soil water characteristic, J. Hydrol, vol.227, pp.160-172, 2000.

D. Estadual and D. Orçamento-e-finanças-deof, Estatísticas Paraense: Pacajá, p.44, 2011.

F. , P. A. Wösten, J. H. Jones, J. H. Jansen, and M. J. , Effects of uncertainty in major input variables on simulated functional soil behaviors, Hydrolog. Proces, vol.10, pp.661-669, 1996.

G. , T. Graef, F. Cordeiro, and J. C. , Water retention characteristics of soils with contrasting clay mineral composition in semi-arid tropical regions, Aust. J. Soil Res, vol.38, pp.523-536, 2000.

G. , G. W. Bauder, and J. W. , Particle size analysis Methods of soil analysis. 2, pp.383-411, 1986.

G. , N. F. Silva, A. P. Imhoff, and S. , Relationships between physical soil properties and characteristics of south Brazilian soil, R. Bras. Ci. Solo, vol.26, pp.885-893, 2002.

G. , S. Rajeev, P. Kodikara, J. Zhao, X. L. Burn et al., A new method for developing equations applied to the water retention curve, Soil Sci. Soc. Am. J, vol.76, pp.806-814, 2012.

G. , S. C. Larson, and W. , Estimating soil water retention characteristics from particle size distribution, organic matter percent and bulk density, Water Resour. Res, vol.15, pp.1633-1635, 1979.

H. , M. G. Tomasella, and J. , Marked differences between van Genuchten soil water-retention parameters for temperate and tropical soils: A new water-retention pedotransfer function developed for tropical soils, Geoderma, vol.108, pp.155-180, 2002.

I. Nacional and D. Meteorologia-inmet, Available at: <http://www.inmet.gov.br>. Accessed, 2012.

K. , M. Grieser, J. Beck, C. Rudolf, B. Rubel et al., World Map of the Köppen-Geiger climate classification updated, Meteorol. Zeitschrift, vol.15, pp.259-263, 2006.

M. , H. Tarawally, M. Valle, A. Ruiz, and M. E. , Estimating soil water retention curve in Rhodic Ferralsols from basic soil data, Geoderma, vol.108, pp.277-285, 2002.

M. , J. Larsbo, M. Bergstrom, L. Brown, C. D. Coquet et al., Functional test of pedotransfer functions to predict water flow and solute transport with the dual-permeability model MACRO, Hydrol. Earth Syst. Sci, vol.16, pp.2069-2083, 2012.
URL : https://hal.archives-ouvertes.fr/insu-00843789

N. , K. C. ?imùnek, J. Schaap, and M. G. , Development of pedotransfer functions for estimation of soil hydraulic parameters using support vector machines, Soil Sci. Soc. Am. J, vol.73, pp.1443-1452, 2009.

O. , L. B. Ribeiro, M. R. Jacomine, P. K. Rodrigues, J. V. Marques et al., Pedotransfer functions for the prediction of moisture retention and specific potentials in soils of Pernambuco State

P. , Y. A. Rawls, and W. J. , Development of pedotransfer functions in soil hydrology, Amsterdam, pp.498-528, 2004.

R. , J. M. Albuquerque, J. A. Kaiser, D. R. Reinert, D. J. Urach et al., Estimation of water retention and availability in soils of Rio Grande do, Sul. R. Bras. Ci. Solo, vol.33, pp.1547-1560, 2009.

K. E. Saxton, W. J. Rawls, J. S. Romberger, and R. I. Papendick, Estimating Generalized Soil-water Characteristics from Texture1, Soil Science Society of America Journal, vol.50, issue.4, pp.1031-1036, 1986.
DOI : 10.2136/sssaj1986.03615995005000040039x

S. , M. G. Leij, F. J. Van, G. , and T. M. Rosetta, A computer program for estimating soil hydraulic parameters with hierarchical pedotransfer functions, J. Hydrol, vol.251, pp.163-176, 2001.

S. , A. P. Tormena, C. A. Fidalski, J. Imhoff, and S. , Pedotransfer functions for the soil water retention and soil resistance to penetration curves, R. Bras. Ci. Solo, vol.32, pp.11-19, 2008.

S. Survey and . Staff, Keys to soil taxonomy. 11, 2010.

T. , J. Hodnett, and M. G. , Estimating soil water retention characteristics from limited data in Brazilian Amazonia, Soil Sci, vol.163, pp.190-202, 1998.

T. , J. Hodnett, and M. G. , Pedotransfer functions for tropical soils Development of pedotransfer functions in soil hydrology, pp.415-430, 2004.

T. , J. Hodnett, M. G. Rossato, and L. , Pedotransfer functions for the estimation of soil water retention in Brazilian soils, Soil Sci. Soc. Am. J, vol.64, pp.327-338, 2000.

T. , J. Pachepsky, Y. A. Crestana, S. Rawls, W. J. Van-den et al., Comparison of two techniques to develop pedotransfer functions for water retention Pedotransfer functions for the estimation of moisture retention characteristics of Ferralsols and related soils The RETC code for quantifying the hydraulic functions of unsaturated soils, Soil Sci. Soc. Am. J. Geoderma Soil Sci. Soc. Am. J, vol.67600, issue.44, pp.1085-1092161, 1980.

V. , H. Feyen, J. Maes, and J. , Estimating the soil moisture retention characteristic from particle size distribution, bulk density and carbon content, Soil Sci, vol.148, pp.389-403, 1989.

V. , H. Weynants, M. Javaux, M. Pachepsky, Y. Schaap et al., Using pedotransfer functions to estimate the van Genuchten-Mualem soil hydraulic properties: A review, Vadose Zone J, vol.9, pp.1-26, 2010.

W. , J. H. Lilly, A. Nemes, A. Le, B. et al., Development and use of a database of hydraulic properties of European soils, Geoderma, vol.90, pp.169-185, 1999.