Author:
Blake George R.,Steinhardt Gary C.,Pombal X. Pontevedra,Muñoz J. C. Nóvoa,Cortizas A. Martínez,Arnold R. W.,Schaetzl Randall J.,Stagnitti F.,Parlange J.‐Y.,Steenhuis T. S.,Chesworth Ward,Mualem Y.,Morel‐Seytoux H. J.,Spaargaren Otto,Chesworth Ward,Soon Y. K.,Orlov D. S.,Spaargaren Otto,Oertli J. J.,Gliński Jan,Lipiec Jerzy,Stępniewski Witold,Spaargaren Otto,Spaargaren Otto,Chesworth Ward,Monterroso Carmela,Cassel D. K.,Hammer R. D.,Sanchez Pedro A.
Reference19 articles.
1. Aggarwal, G.C., Sidhu, A.S., Sekhon, N.K., Sandhu, K.S., and Sur, H.S., 1995. Puddling and N management effects on crop response in a rice–wheat cropping system. Soil Tillage Res., 36: pp. 129–139.
2. Bodman, G.B., and Rubin, J., 1948. Soil puddling. Soil Sci. Soc. Am. Proc., 13: 27–36.
3. Breazeale, J.F., and McGeorge, W.T., 1937. Studies on soil structure: some nitrogen transformations in puddled soils. Ariz. Agric. Exp. Sta. Tech. Bull. No. 69, pp. 225–252.
4. Briones, A.M., 1966. Nitrogen availability in five soils under different systems and its affect on growth and yield of rice. M.S. Thesis, University of the Philippines, Los Baños, 107 pp.
5. Buehrer, T.F., and Rose, M.S., 1943. Studies in soil structure. V. Bound water in normal and puddled soils, Ariz. Agric. Exp. Sta. Tech. Bull, No. 100, pp. 155–218.