Poder de suprimento do potássio de solos zona Fisiográfica de Baturité, Ceará, Brasil

Crisóstomo, Lindbergue Araújo

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DC Field	Value	Language
dc.contributor.author	Crisóstomo, Lindbergue Araújo	-
dc.date.accessioned	2024-08-14T01:29:12Z	-
dc.date.available	2024-08-14T01:29:12Z	-
dc.date.issued	1970-07	-
dc.identifier.citation	CRISÓSTOMO, Lindbergue Araújo. Poder de suprimento do potássio de solos zona fisiográfica de Baturité, Ceará, Brasil. 1970. 60 f. Dissertação (Mestrado em Agronomia - Ciência do Solo) – Instituo de Agronomia, Universidade Federal Rural do Rio de Janeiro, Seropédica, RJ, 1970.	pt_BR
dc.identifier.uri	https://rima.ufrrj.br/jspui/handle/20.500.14407/17712	-
dc.description.abstract	Vinte unidades de solos de zona fisiográfica de Baturité foram intensivamente cultivadas em vasos durante 240 dias, tendo o milho esmo planta indicadora. Os teores de potássio extraídos e liberados da forma não trocável polo cultivo contínuo foram determinados. Estes valores foram comparados com o potássio trocável, com potássio extraído e liberado da forma não trocável pele ácido nítrico N/l, com fervura e com o extraído pelo ácido sulfúrico (método 1, HUNTER e PRATT, 1957). Observou-se grande variação entre as unidades de solos no que respeita ao poder de suprimento de potássio. Estreitas correlações foram encontradas entre o poder de suprimento do potássio, como determinado polo cultivo contínuo, com o potássio extraído c liberado da forma nua trocável pelo ácido nítrico, com o extraído pelo ácido sulfúrico e com o potássio trocável determinado antes do cultivo. Os valores de r calculados foram transformados no Valor Z e a análise da variância destes não apresentou diferença significativa entre os coeficientes de correlação calculados. Em vista disto, pode-se admitir que o poder de suprimento do potássio, nos solos estudados, pode ser estimado a partir de qualquer um dos métodos empregados no presente trabalho.	pt_BR
dc.language	por	pt_BR
dc.publisher	Universidade Federal Rural do Rio de Janeiro	pt_BR
dc.subject	Potássio trocável	pt_BR
dc.subject	Solos	pt_BR
dc.subject	Baturité	pt_BR
dc.subject	exchangeable potassium	pt_BR
dc.title	Poder de suprimento do potássio de solos zona Fisiográfica de Baturité, Ceará, Brasil	pt_BR
dc.title.alternative	Potassium supply capacity of soils in the Baturité Physiographic Zone, Ceará, Brazil	en
dc.type	Dissertação	pt_BR
dc.description.abstractOther	Twenty soil units from the physiographic zone of Baturité were intensively cultivated in pots for 240 days, with corn as the indicator plant. The potassium contents extracted and released in the non-exchangeable form by continuous cultivation were determined. These values were compared with exchangeable potassium, with potassium extracted and released in the non-exchangeable form by nitric acid N/l, with boiling and with that extracted by sulfuric acid (method 1, HUNTER and PRATT, 1957). A large variation was observed between the soil units with respect to the potassium supply capacity. Close correlations were found between the potassium supply capacity, as determined by continuous cultivation, with the potassium extracted and released in the exchangeable form by nitric acid, with that extracted by sulfuric acid and with the exchangeable potassium determined before cultivation. The calculated r values were transformed into the Z value and the analysis of variance of these did not show any significant difference between the calculated correlation coefficients. In view of this, it can be admitted that the potassium supply power, in the studied soils, can be estimated from any of the methods used in the present work.	en
dc.contributor.advisor1	Castro, Abeilard Fernando de	-
dc.contributor.advisor1Lattes	Não informado	pt_BR
dc.creator.Lattes	http://lattes.cnpq.br/2134387152727857	pt_BR
dc.publisher.country	Brasil	pt_BR
dc.publisher.department	Instituto de Agronomia	pt_BR
dc.publisher.initials	UFRRJ	pt_BR
dc.publisher.program	Programa de Pós-Graduação em Agronomia - Ciência do Solo	pt_BR
dc.relation.references	1. ABED, F. H. and DREW, J. V. The importance of illite as a sorce of potassium in Nebraska soils. Soil Sci. Sco. Am. Proc. 30:242-244. 1966. 2. ANDREATA, C. L'alterazione dei minerali de lle rocce in repporte alio messa en circolazione del potassio. In: Potassium symposium. Bern, International Potash Ins-titute, 1955. p.104-119. 3. ARNOLD, P.W. and CLOSE, B. M. Release of non-exchangea-ble potassium from some British soils cropped in the glass house. J. Agr. Sci. 57:295-304. 1961. 4. ATTOE, O. J. and TRUOG, E. Exchangeable and acid-solu-ble potassium as regards availability and reciprocal relationships. Soil Sci. Sco. Am. Proc. 10:81-86. 1946. 5. ______. Potassium fixation and release in soils occurring under moist and drying conditions. Soil Sci. Sco. Am. Proc. 11:145-154. 1947. 6. ______. Rapid photometric determination of potassium and sodim in plant tissue. Soil Sci. Sco. Am. Proc. 12:131-134. 1948. 7. AYRES, A. S., TAKHASHI, M. and KANEHIRO, Y. Convertion of nonexchangeable potassium to exchangeable forms in Hawaiian soils. Soil Sci. Sco. Am. Proc. 11:175181. 1947. 8. Release of non-exchangeable potassium in Hawaiian sugar cane soils. University of Hawaii Agri-cultural Esperiment Station Technical Bulletin i:550. 1949. 9. BATES, T. E. and SCOTT, A. D. Soil moisture effects on potassium release observed on dryng soil with orga-nic additives. Soil Sci. Sco. Am. Proc. 29:673-676. 1965 10. BEAR, F. E., PRINCE, A. L. and MALCOLM, J. L. the potassium-supplying power of 20 New Jerseu soils. Soil Sci. 58:139-149. 1944. 11. BISHOP, R. F., MacLEAN, A. J. and LUTWICH,L.E. Ferti-lity studies on soils tupes IV. Potassium supple and requirement as shown by greenhouse studies and labo-ratory tests. Canadian Journal of Agricultural Science 34:374-384. 12. BLACK, C. A. Soil-plant relationships. New York, John Wiley, 1957. p.287-324. 13. BRAY, R. H. and DeTURK, E.E. The release of potassium from non-replaceable forms in Illinois soils. Soil Sci. Sco. Am. Proc. 3:101-106. 1939. 14. ______. Requirements for successful soil tests. Soil Sci. 66:83-88. 1948. 15. BRELAND, H. L. BERTRAMSON, B. R. and BORLAND, J.W. Potassium-suplying power of several Indiana soils. Soil Sci. 70:237-247. 1950. 16. BURNS, A. F. and BARBER, S. A. The effect of temperatu-re and moisture on exchangeable potassium. Soil Sci. Sco. Am. Proc. 25:349-352. 1961. 17. CATANI, R.A., GALLE, J.R. e GARGANTINI, H. Amostragem do solo, método de análise, interpretação e identificações gerais para fins de fertilidade. Instituto agronômico de Campinas (Brasil) Boletim 69:1-29. 1955 18. CATANI, R. A. e BERGAMIN, H. Sobre uma modificação no método de Neubauer. Anais da Escola Superior de Agricultura "Luiz de Queiroz" (Brasil) 18:288-299. 1964. 19. CHANDLER, R.F. PEECH, M. and CHANG, C. W. The release of exchangeable potassium from different soil upon cropping. Jour. Amer. Sco. Agron. 37:709-721. 1945. 20. COOK, M. G. and HUTCHESON, T.B. Soil potassium reacti-ons as related to clay mineralogy of sected Kentucky soils Soil Sci. Sco. Am. Proc. 24:252-256. 1960. 21. DeTURK, E E., WOOD, L. K. and BRAY, R. H. Potassium fixation in corn belt soils. Soil Sci. 55:1-12. 1943. 22. DOLL, E. C., et. al. Release of potassium from soil fractions during cropping. Soil Sci. Sco. Am. Proc. 29: 699-702. 1965. 23. ELLIS, B. G. and MORTLAND, M. M. Rate of potassium release from fixed and native formes. Soil Sci. Sco. Am. Proc. 23:451-453. 1959. 24. EVANS, C. E. and ATTOE, O. J. Potassium-supplying power of virgin and cropped soils. Soil Tci. 66:323-333. 1948. 25. FEIGENBAUN, S. and HAGIN, J. Evaluation of methods for determining available soil potassium based on potas-sium uptake by plants. J. Soil Sci. 18:197-203. 1967. 26. FRAPS, G S. Relation of potash removed by crops to the active, total, acid soluble, and acid-insoluble potash of the soil. Texas Agr. Expt. Sta. Bull, 355: 1-33. 1927. 27. GARMAN, W. L. Potassium release characteristics of several soil from Ohio and New York. Soil Sci. Sco. Am. Proc. 21:52-58. 1957. 28. GILLINGHAN, J. T. Some factors affecting the net 30. absorption of exchangeable potassium by Neubauer rye seedling method. Soil Sci. 100:384-389. 1965. 29. GLORIA, NADIR A., CATANI, R. A. e MATUO, T. M. O método do EDTA na determinação do cálcio e magnésio "trocá-vel" do solo. Revista de Agricultura (Brasil) 50:6774. 1965. 30. GRISSINGER, E. and JEFFRIES, C. D. Influence of continuous cropping on the fixation and release of potassium in three Pennsylvania soils. Soil Sci. Sco. Am. Proc. 21:409-412. 1957. 31. HAAGSMA, T. and MILLER, M. H. The release of nonexchangeable soil potassium to cation-exchange resins as influenced by temperature, moisture and exchanging ion. Soil Sci. Sco. Am. Proc. 27:153-156. 1963. 32. HALEY, D. E. Availability of potassium in orthoclase for plant nutrition. Soil Sci. 15:167-179. 1923. 33. HOAGLAND, D. R. and MARTIN, J. C. Absorption of potas-sium by plants in relation to replaceable, nonre-placeable, and soil solution potassium. Soil Sci. 36:1-33. 1933. 34. HANWAY, J. J. and SCOTT, A. D. Soil potassium-moisture relations: III. Determining the increase in exchangeable soil potassium on drying soil. Soil Sci. Sco. Am. Proc. 23:22-24. 1959. 35. HOAGLAND, R. R. and MARTIN, J.C. Availability of K to crops in relation to replaceable and non-replaceable K and to effects of cropping and O. M. Soil Sci. Am. Proc. 15:272-278. 1951. 36. HOOD, J. T., BRADY, N. C. and LATHWELL, D. J. The relationship of water soluble and exchangeable potassium to yild and potassium uptake by Ladino clover. Soil Sci. Sco. Am. Proc. 20: 228-230. 1956. 37. HUNTER, A. H. and PRATT, P. F. extraction of potassium from soils by sulfuric acid. Soil Sci. Sco. Am. Proc. 21:595-598. 1957. 38. INCLAN, R. S. e COELHO, F. A. de Paula. Levantamento exploratório dos solos da zona fisiográfica de Baturité. Superintendência do Desenvolvimento Econômico e Cultural (Ceará - Brasil) 174p. 1967. 39. JACKSON, M. L. Soil chemical analysis. New Jersey, Prentice Hall, 1958. 498p. 40. JAWORSKI, C. A. and BARBER, S. A. Soil properties in relation to potassium uptake by alfalfa. Soil Sci. 87:34-41. 1959. 41. JENNY, H. and AYERS, A. D. The influance of the degree of sturation of soil colloids on the nutrients intake by roots. Soil Sci. 48:443-459. 1939. 42. JONES, J. B. et. al. Effect of drying some Ohio soils upon the soil test potassium. Soil Sci. Sco. Am. Proc. 25:123-124. 1361. 43. JORGE, JOSÉ A. e GARGANTINI, H. Determinação do potássio do solo pelo método do Neubauer e por diversos extratores químicos. Bragantia (Brasil) 22:751-758. 1963. 44. KOLTERMAN, D. E. and TRUOG, E. Determination of fixed potassium. Soil Sci. Sco. Am. Proc. 17:347-351. 1951. 45. LEEG, J. O. and BEACHER, R.L. The potassium supplying power of representative Askansas soil. Soil Sci. Sco. Am. Proc. 16:210-214. 1952. 46. ______ and AXLEY, J. H. Investigation of a termal method for determination of fixed potassium. Soil Sci. Sco. Am. Proc. 22:287-290. 1958. 47. LUEBS, R. E., STANFORD, G. and SCOTT, A. D. Relation of available potassium to soil moisture. Soil Sci. Sco. Am. Proc. 20:45-50. 1956. 48. LUTZ, J. A. Ammonium and potassium fixation and release in selected soils of Southeastern United States. Soil Sci. 102:366-372. 1966. 49. McLEAN, E. O. and SIMON, R. H. Potassium status of some Ohio spils as revealed by greenchouse and laboratory studies. Soil Sci. 85:325-331. 1958. 50. MATHEWS, B. C. The fixation and release of soil potassium. Ph. D. thesis. New York, Cornell University, 1952. 125p. 51. MERWIN, H. D. and PEECH, M. Exchangeability of soil potassium in the sand silt and clay fractions as influenced by nature of the complementary cation. Soil Sci. Sco. Am. Proc. 15:125-128. 1951. 52. NELSON, L. E. A. Comparison of several methods for evaluating the potassium status of some Mississipe soils. Soil Sci. Sco. Am. Proc. 23:313-316.1959. 53. OLSEN, S. R. and SHAW, B. T. Chemical Mitscherlich, and Neubauer methods for determining available potassium in relation to crop response to potash fertilization. J. Am . Sco. Agron. 35:1-9. 1943. 54. PEARSON, R. W. Potassium-supplying power of eight Alabama soils. Soil Sci. 74:301-309. 1952. 55. PEECH, M. and BRADFIELD, R. The effect of lime and magnesia on the soil potassium and on absorption of potassium by plants. Soil Sci. 55:37-48. 1943. 56. POPE, A. and CHENEY, H. B. The potassium supplying power of several Western Oregon soils. Soil Sci. Sco Am. Proc. 21:75-79. 1957. 57. PRATT, P. F. Potassium removal from some soils by greenhouse and laboratory procedures. Soil Sci. 72: 107-117. 1952. 58. ______. Release of potassium from nonexchangeable forms from size fractions of several Iowa soils. Soil Sci. Sco. Am. Proc. 16:25-29. 1952. 59. PRATT. P. F., SIMON, R. H. and VOLK, G. W. Release of potassium from nonexchangeable forms in relation to soil reaction Soil Sci. Sco. Am. Proc. 20: 190-193. 1956. 60. ______. Potassium. In: BLACK, C. A. ed. Methods of soil analysis. Wisconsin, American Society of Agronomy, 1965. p. 1029. 61. REITEMEIER, R. F. et al. Release of nonexchangeable potassium by greenhouse, Neubauer and laboratory methods. Soil Sci. Sco. Am. Proc. 12:158-162. 1948. 62. ______, HOLMES, R. S. and BROWN, I. C. Available nonexchangeable soil potassium at three Northern Great Plains locations by a Neubauer procedure. Soil Sci. Sco. Am. Proc. 14:101-106. 1950. 63. ______. Soil potassium. Advances in Agronomy 3:113 - 164. 1951. 64. RICH, C. I. and BLACK, W. R. Potassium exchange as affected by cation size and mineral structure. Soil Sci. 97:384-390. 1964. 65. RICHARDS, G. E. and McLEAN, E. O. Release of fixed potassium from soils by plant uptake and chemical extraction techniques. Soil Sci. Sco. Am. Proc. 25: 98-101. 1961. 66. ROUSE, R. D. and BERTRAMSON, B. R. Potassium Avaulabili-ty in several Indiana soils: Its nature and methods of evaluation. Soil Sci. Sco. Am. Proc. 14:113-123. 1950. 67. SALOMON, M. and SMITH, I. B. A comparison of methods for determining extractable soil potassium in fertilizer test plots. Soil Sci. Sco. Am. Proc.21: 222-225. 1953. 68. SCHIMITZ, G. W. and PRATT, P. F. Exchangeable and nonexchangeable potassium absorption by corn in greenhouse. Soil Sci. 76:345-353. 69. SCHUFFELEN, A. A. and Van der MAREL, H. W. Potassium fixation in soils. In: Potassium symposium. Bern, International Potash Institute, 1955. p.104-119. 70. SCOTT, A. D., HANWAY, J.J. and STICKNEY, E. M. Soil potassium moisture relations: I. Potassium release observed on drying Iowa soils with added salts or HC1. Soil Sci. Sco. Am. Proc. 21:498-501. 1957. 71. ______, and WILCH, L.F. Release of nonexchangeable soil potassium during short periods of cropping and sodium tetraphenylboron extraction. Soil Sci. Sco. Am. Proc. 25:128-131. 1961. 72. STEWART, E. H. and VOLD, N.J. Relation between potash in soils and that extracted by plants. Soil Sci. 61:125-129. 1946. 73. SUTTON, P. and SEAY, W. A. Relationship between potassium removed by millet and red clover and the potassium extractec by 4 chemical methods form 6 Kentucky soils. Soil Sci. Sco. Am. Proc. 22:110-115. 1958. 74. TABATABAI, M. A. and HANWAY, J. J. Potassium supplying power et their "minimal" leveis of exchangeable potassium. Soil Sci. Sco. Am. Proc. 33:105-108. 1969. 75. ter KUILE, C.H.H. Some studies on the release of potassium from soils. Ph. D. thesis. New York, Cornell University, 1952. 96p. 76. TISDALE, S. L. and NELSON, W.L. Soil fertility and fertilizers. New York, MacMillan, 1966. p. 252-271. 77. DEPARTAMENT OF ABRICULTURE Hand book n°. 60. Diagnosis and improvement of saline and alkali soils. 1954. p. 9-13. 78. Van ITALLIE, TH.B. Cation equilibria in plants in relation to the soil. Soil Sci. 46:175-186. 1938. 79. VETTORI, L. Métodos de análises de solo E quipe de Pedologia e Fertilidade do Solo, Ministério da Agricultura, Boletim técnico 7:3-23. 1969. 80. VOLK, G. W. The nature of potassium fixation in soils. Soil Sci. 45:263-276. 1938. 81. WEBER, J. B. Potassium supplying power of several Minesota surface soils and subsoils. Soil Sci. 100: 34-43. 1965. 82. WELCH, L.F. and SCOTT, A. D. Availability of nonexchan-geable soil potassium to plants as affected by added potassium and ammonium. Soil Sci. Sco. Am. Proc. 25: 102-104. 1961. 83. WILLIAMS, D. E. and JENNY, H. The replacement of nonex-changeable potassim by various acids and salts. Soil Sci. Sco. Am. Proc. 16:216-221. 84. 94. WOOD, L. K. and DeTURK, D. E. The absorption of potassium in soils in non-replaceable forms. Soil Sci. Sco. Am. Proc. 5:152-161.	pt_BR
dc.subject.cnpq	Agronomia	pt_BR
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