Nutrição mineral de plantas ornamentais XI: deficiências de macronutrientes e de boro em Catharanthus Roseus (L.) G. Don e Catharanthus roseus f. albus (sweet) G. Don

Demattê, M.E.S.P.; Haag, H.P.; Vasques, L.H.

doi:10.1590/S0071-12761987000100023

Resumos

Plantas de duas formas botânicas de Catharanthus roseus, de flores lilases e de flores brancas foram cultivadas em soluções nutritivas deficientes em N, P, K, Ca, Mg, S e B, e em solução completa, a fim de se obter o quadro sintomatológico das deficiências, assim como os níveis analíticos de nutrientes nas folhas, caules, raízes e flores. Manifestaram-se sintomas de deficiência claros para todos os nutrientes estudados. Nas plantas de flores lilases, as concentrações de nutrientes na matéria seca de folhas de plantas normais e deficientes foram, respectivamente, para cada nutriente estudado: N(%): 3,53-1,20; P(%): 0,35-0,11; K(%): 2,45-0,76; Ca(%): 1,77-0,81; Mg(%): 0,55-0,46; S(%):0,21-0,12; B(ppm): 382-37. Nas plantas de flores brancas, estas concentrações foram: N(%): 3,78-0,92; P(%): 0,38-0,09; K(%): 2,60-0,86; Ca(%): 1,37-1,15; Mg(%): 0,56-0,44; S(%): 0,10-0,07; B(ppm):372-39.

Plants of two botanical forms of Catharanthus roseus, with pink and white flowers, were cultived in nutrient solutions, complete or lacking one of the following elements: N, P, K, Ca, Mg, S and B. Clear deficiency symptoms were observed for all the elements and they were comproved by chemical analysis of leaves. Chemical composition of leaf matter of normal and deficient pink flowered plants were, respectively, for each of the studied elements: N(%): 3.53-1.20; P(%): 0.35-0.11; K(%)2.45-0.76; Ca(%): 1.77-0.81; Mg(%): 0.55-0.46; S(%): 0.21-0.12; B(ppm): 382-37. For plants with white flowers, these values were: N(%): 3.78-0,92; P(%): 0.38-0.09; K(%): 2.60-0.86; Ca(%): 1.37-1.15; Mg (%): 0.56-0.44; S(%): 0.10-0.07; B(ppm): 372-39.

M.E.S.P. Demattê^I; H.P. Haag^II; L.H. Vasques^I

^IDepartamento de Fitotecnia da Faculdade de Ciências Agrárias e Veterinárias do Campus de Jaboticabal da Universidade Estadual Paulista (FCAVJ/UNESP), Jaboticabal, SP

^IIDepartamento de Química da E.S.A. "Luiz de Queiroz", USP, Piraciaba, SP

RESUMO

Plantas de duas formas botânicas de Catharanthus roseus, de flores lilases e de flores brancas foram cultivadas em soluções nutritivas deficientes em N, P, K, Ca, Mg, S e B, e em solução completa, a fim de se obter o quadro sintomatológico das deficiências, assim como os níveis analíticos de nutrientes nas folhas, caules, raízes e flores. Manifestaram-se sintomas de deficiência claros para todos os nutrientes estudados.

Nas plantas de flores lilases, as concentrações de nutrientes na matéria seca de folhas de plantas normais e deficientes foram, respectivamente, para cada nutriente estudado: N(%): 3,53-1,20; P(%): 0,35-0,11; K(%): 2,45-0,76; Ca(%): 1,77-0,81; Mg(%): 0,55-0,46; S(%):0,21-0,12; B(ppm): 382-37. Nas plantas de flores brancas, estas concentrações foram: N(%): 3,78-0,92; P(%): 0,38-0,09; K(%): 2,60-0,86; Ca(%): 1,37-1,15; Mg(%): 0,56-0,44; S(%): 0,10-0,07; B(ppm):372-39.

SUMMARY

Plants of two botanical forms of Catharanthus roseus, with pink and white flowers, were cultived in nutrient solutions, complete or lacking one of the following elements: N, P, K, Ca, Mg, S and B. Clear deficiency symptoms were observed for all the elements and they were comproved by chemical analysis of leaves. Chemical composition of leaf matter of normal and deficient pink flowered plants were, respectively, for each of the studied elements: N(%): 3.53-1.20; P(%): 0.35-0.11; K(%)2.45-0.76; Ca(%): 1.77-0.81; Mg(%): 0.55-0.46; S(%): 0.21-0.12; B(ppm): 382-37. For plants with white flowers, these values were: N(%): 3.78-0,92; P(%): 0.38-0.09; K(%): 2.60-0.86; Ca(%): 1.37-1.15; Mg (%): 0.56-0.44; S(%): 0.10-0.07; B(ppm): 372-39.

Texto completo disponível apenas em PDF.

Full text available only in PDF format.

LITERATURA CITADA

Entregue para publicação em 15/04/87.

BENNETT, W.F.; PESEK, J. & HANWAY, J., 1962. Effect of nitrogen on phosphorus absorption by corn. Agron. J 5:437-442.
BERA, A.K. & SAHA, A., 1983. Antifungal activity of an aquaeous extract of Catharanthus roseus. Zeitschrift für Pflanzenkrankheiten und Pflanzenschutz, 90(4):363-365. Apud Horticultural Abstracts, 54(1):33, 1984.
BOWEN, J.E., 1969. Absorption of copper, zinc and manganese by sugarcane leaf tissues. Plant Physiol 44:255-261.
CHAUDHRY, F.M. & LONERAGAN, J.F., 1970. Zinc absorption by wheat seedlings and the nature of its inhibition by alkaline earth cations. J. Exp.Bot, 23:552-560.
COLE, C.V.; GRUNES, D.L. & OLSEN, S.R., 1963. The effects of nitrogen on short term phosphorus absorption and translocation in corn (Zea mays). Soil Sci. Soc. Amer. Proc, 27:671-674.
DIONELLO-BASTA, S.B. & BASTA, F., 1984. Inibidores de germinação e de crescimento em plantas usadas na medicina popular. Ciência e Cultura, 36(9):1602-1606.
FARNSWORTH, N.R., 1961. The pharmacognosy of the periwinkles: Vinca and Catharanthus. Lloydia, 24 (3):105-138.
FARNSWORTH, N.R.; SVOBODA, G.H. & BLOMSTER, R.N., 1968. Antiviral activity of selected Cantharanthus alkaloids. Journal of Pharmaceutical Sciences, 57 (12):2174-2175.
FREI, III, E., 1964. Vinca alkaloids in the treatment of neoplastic disease in man. Lloydia, 27 (4): 364-367.
FREI, III, E.; SUTOW, W.W. & LUCE, J.K., 1967. Plant products and the treatment od cancer in man. Lloydia, 30(4):324-331.
GRUNES, D.L., 1959. Effect of nitrogen on the availability of soil and fertilizer phosphorus to plants. Advances in Agronomy, 11:369-396.
LUNDEGARDH, H., 1935. The influence of the soil upon the growth of the plant. Soil Sci, 40:89-101.
MAAS, E.V.; MOORE, D.F. & MASON, B.J., 1968. Influence of calcium and magnesium on manganese absorption. Plant Physiol, 44:796-800.
PARIS, R. & MOYSE, H., 1957. Les pervenches indigènes et exotiques. Journal d' Agriculture Tropicale et de Botanique Appliquée, 4(11):481-489.
RASHID, A.; CHAUDHRY, F.M. & SHARIF, M., 1976. Micronutrient availability to cereals from calcareous soils. Plant and Soil, 45:613-623.
SARRUGE, J.R., 1970. Soluções nutritivas. Summa Phytopathologica, 1:223-233.
SARRUGE, J.R. & HAAG, H.P., 1974. Análises químicas em plantas Piracicaba, E.S.A. "Luiz de Queiroz", USP. 56 p.
SVOBODA, G.H.; GORMAN, M. & ROOT, M.A., 1964. Alkaloids of Vinca rosea (Catharanthus roseus). XXVIII. A preliminary report on hypoglycemic activity. Lloydia, 27(4):361-363.

**Nutrição mineral de plantas ornamentais. XI deficiências de macronutrientes e de boro em Catharanthus Roseus (L.) G. Don e Catharanthus roseus f. albus (sweet) G. Don**

Mineral nutrition of ornamental plants XI deficiencies of macronutrients and boron in Catharanthus roseus (L.) G. Don and Catharanthus roseus f. albus (Sweet) G. Don

Datas de Publicação

Publicação nesta coleção
20 Ago 2010
Data do Fascículo
1987

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BENNETT, W.F.; PESEK, J. & HANWAY, J., 1962. Effect of nitrogen on phosphorus absorption by corn. Agron. J 5:437-442.

[2] BERA, A.K. & SAHA, A., 1983. Antifungal activity of an aquaeous extract of Catharanthus roseus. Zeitschrift für Pflanzenkrankheiten und Pflanzenschutz, 90(4):363-365. Apud Horticultural Abstracts, 54(1):33, 1984.

[3] BOWEN, J.E., 1969. Absorption of copper, zinc and manganese by sugarcane leaf tissues. Plant Physiol 44:255-261.

[4] CHAUDHRY, F.M. & LONERAGAN, J.F., 1970. Zinc absorption by wheat seedlings and the nature of its inhibition by alkaline earth cations. J. Exp.Bot, 23:552-560.

[5] COLE, C.V.; GRUNES, D.L. & OLSEN, S.R., 1963. The effects of nitrogen on short term phosphorus absorption and translocation in corn (Zea mays). Soil Sci. Soc. Amer. Proc, 27:671-674.

[6] DIONELLO-BASTA, S.B. & BASTA, F., 1984. Inibidores de germinação e de crescimento em plantas usadas na medicina popular. Ciência e Cultura, 36(9):1602-1606.

[7] FARNSWORTH, N.R., 1961. The pharmacognosy of the periwinkles: Vinca and Catharanthus. Lloydia, 24 (3):105-138.

[8] FARNSWORTH, N.R.; SVOBODA, G.H. & BLOMSTER, R.N., 1968. Antiviral activity of selected Cantharanthus alkaloids. Journal of Pharmaceutical Sciences, 57 (12):2174-2175.

[9] FREI, III, E., 1964. Vinca alkaloids in the treatment of neoplastic disease in man. Lloydia, 27 (4): 364-367.

[10] FREI, III, E.; SUTOW, W.W. & LUCE, J.K., 1967. Plant products and the treatment od cancer in man. Lloydia, 30(4):324-331.

[11] GRUNES, D.L., 1959. Effect of nitrogen on the availability of soil and fertilizer phosphorus to plants. Advances in Agronomy, 11:369-396.

[12] LUNDEGARDH, H., 1935. The influence of the soil upon the growth of the plant. Soil Sci, 40:89-101.

[13] MAAS, E.V.; MOORE, D.F. & MASON, B.J., 1968. Influence of calcium and magnesium on manganese absorption. Plant Physiol, 44:796-800.

[14] PARIS, R. & MOYSE, H., 1957. Les pervenches indigènes et exotiques. Journal d' Agriculture Tropicale et de Botanique Appliquée, 4(11):481-489.

[15] RASHID, A.; CHAUDHRY, F.M. & SHARIF, M., 1976. Micronutrient availability to cereals from calcareous soils. Plant and Soil, 45:613-623.

[16] SARRUGE, J.R., 1970. Soluções nutritivas. Summa Phytopathologica, 1:223-233.

[17] SARRUGE, J.R. & HAAG, H.P., 1974. Análises químicas em plantas Piracicaba, E.S.A. "Luiz de Queiroz", USP. 56 p.

[18] SVOBODA, G.H.; GORMAN, M. & ROOT, M.A., 1964. Alkaloids of Vinca rosea (Catharanthus roseus). XXVIII. A preliminary report on hypoglycemic activity. Lloydia, 27(4):361-363.

Brasil

Brasil

Nutrição mineral de plantas ornamentais XI: deficiências de macronutrientes e de boro em Catharanthus Roseus (L.) G. Don e Catharanthus roseus f. albus (sweet) G. Don

Mineral nutrition of ornamental plants XI: deficiencies of macronutrients and boron in Catharanthus roseus (L.) G. Don and Catharanthus roseus f. albus (Sweet) G. Don

Resumos

**Nutrição mineral de plantas ornamentais. XI deficiências de macronutrientes e de boro em Catharanthus Roseus (L.) G. Don e Catharanthus roseus f. albus (sweet) G. Don**

Datas de Publicação