In vitro behaviour of explants from potassium treated carrot matrixes (daucus carota l.). / Comportamento in vitro de explantes de matrizes de cenoura (Daucus carota L.) tratadas com variáveis níveis de potássio.

AUTOR(ES)
DATA DE PUBLICAÇÃO

2003

RESUMO

The growth of plants, organs, tissues and cells in vitro culture depends on the development of optimized culture medium for the perfect interaction among essential components such as phytoregulators, carbon source and minerals nutrients. The factors limiting the growth of organs or tissues in vitro conditions are similar to those limiting growth in vivo conditions. The objective of this work was aimed at studying the influence of the potassium nutritional status of matrixes plants of carrot Daucus carota Link on the in vitro morphogenesis. Matrixes plants were obtained from seeds germinated in organic substratum and cultivated in plastic pots containing washed sand in greenhouse conditions. The matrixes plants were then submitted to treatments with nutrients solutions containing variable potassium levels. After 30 and 60 days treatment, explants (internodes) were collected, disinfested and inoculated in solid culture medium of Murashige and Skoog (MS) containing different potassium concentrations and supplemented with 0,1mg.L -1 of 2,4-D for callogenesis induction in dark conditions. Cell differentiation by somatic embryogenesis was pursued by culturing the calli in auxina-free same culture medium in growth room under photoperiod of 16/8 hours (light/dark). The evaluation of the callogenesis induction and cell growth was carried out 60 days after explants inoculation, based on the mass of fresh and dry matter accumulation on each explant. The evaluation of cell differentiation (plant formed/explant) and of cell differentiation rate (number of plants formed/g of dry matter of callus) was carried after 30 days of culturing under light conditions. Callogenesis induction and cell growth on the explants of treated matrixes plants were affected by the potassium treatment levels in the nutrient solution and by the duration of the treatments. Explants from treated plants with the higher K + concentrations showed callus induction and growth inversely proportional to the concentration of K + in the culture medium for both (30 and 60 days) treatment duration. However the callogenesis accumulated after 60 days treatment was twice as much as that of 30 days treatments. Short time treatments duration (30 days) with higher levels of K + in the nutrient solutions and low concentrations of K + in the culture medium influenced the cell differentiation negatively (nº plants/explant) in the callus of the explants from treated plants. Cells from calli induced on explants from matrixes plants for 30 days were more morphogenic than the cells in the 60 days treatment where high callogenesis was observed. Also better cell differentiation rate was observed on calli induced on explants from treated matrixes plants with nutrient solutions containing the highest potassium levels and inoculated on MS culture medium containing highest potassium concentrations.

ASSUNTO(S)

potassium explante vegetal morphogenesis cultura de tecidos vegetais cenoura plant propagation title. callogenesis morfogênese carrot calogênese in vitro fertilization plant tissue culture fertilização in vitro propagação vegetal. plant explant potássio

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