Increased Multiplication Rates of Vriesea hieroglyphica (Carriere) E. Morren Through a Temporary Immersion System.

The main difficulty for the cultivation and conservation of bromeliad species is the reduced number of propagules and slow growth of many of the species, resulting in a low propagation efficiency. Bromeliad plants are hardy and relatively easy to cultivate, with a high ornamental and ecological importance. Aiming at efficient micropropagation rates of V. hieroglyphica, a highly valued bromeliad, with very low propagation efficiency, a temporary immersion system was used and compared to semisolid and liquid static medium. Cultures obtained from in vitro germinated seeds were used as explants, maintaining their genetic diversity. Micropropagation with this simple temporary immersion system, composed of two autoclavable flasks, each with one opening for the attachment of 22 µm syringe filters, connected by a rubber stopper and an inner glass tube. In the bottom flask, an air valve is attached to the filter, which is subsequently connected to an aquarium pump and a timer and plugged to an outlet. This simple temporary immersion system showed improved micropropagation efficiency and is a method that can also be evaluated for other species.

Alstroemeria Micropropagation in a RITA® Temporary Immersion System.

The use of temporary immersion systems (TIS) for plant micropropagation is an efficient technique for plant production, and we have applied it for the production of alstroemerias. This method involves the cultivation of explants such as rhizomes and axillary buds in a nutrient medium to stimulate shoot growth. TIS offer advantages such as accelerated multiplication processes, uniform production, and cost reduction. This process has shown promise in meeting the growing demand for alstroemeria plants in the market. This chapter describes a specific protocol for temporary immersion bioreactor micropropagation of the "Albatroz" cultivar, with the potential for large-scale automation.

Effects of different light spectra on the slow-grown in vitro storage and quality of banana plantlets cv. Prata Catarina (AAB).

Continues subculturing of in vitro plant subcultures is essential for commercial micropropagation and tissue culture research. In unusual situations, the subcultures can be delayed, and the slow-growth in vitro storage technic could be applied to reduce the loss of plant material. The present study aimed to evaluate the slow-growth in vitro storage of banana plantlets ('Prata Catarina'; group AAB) under different light spectra. Shoot cultures in MS medium without plant growth regulators were maintained under blue (B), red (R), red plus blue (R2B), and white (CW) light spectra (25 °C ± 2 °C; 50 µmol m-2 s-1) for up to 140 days. The plantlets maintained under the R, CW, and R2B spectra suffered severe root damage and browning after 140 days of in vitro slow-growth storage (SGS). All plantlets maintained under the B spectrum survived after 140 days of in vitro SGS and showed little browning.

Sacha inchi seeds from sub-tropical cultivation: effects of roasting on antinutrients, antioxidant capacity and oxidative stability.

Due to the strong bitter taste, sacha inchi seeds are usually consumed after roasting, which also contributes to the elimination of antinutrients. Sacha inchi plants fully adapted to cultivation under sub-tropical climate conditions were produced in southeastern Brazil. Our main goal was to evaluate the effect of dry heating (roasting) on the antinutrient content of these seeds. We also investigated the effects of the applied roasting treatments on the antioxidant activity, proximate composition and oxidative stability of the seeds. To the best of our knowledge, this is the first report on antinutrients of sacha inchi seeds cultivated under sub-tropical conditions, outside their native tropical environment. Except for saponins, which are not heat-labile compounds, the contents of all assessed antinutrients continually reduced with the increase in roasting temperature. Roasting improved antioxidant activity and phenolic content in the seeds at the highest temperature. Oxidation changes occurred in the seed oil, and they increased with temperature. However, maximum peroxide value was within the acceptable consumption limits. As a conclusion, roasting treatments can be applied to minimize the antinutrient potential in sacha inchi seeds. Knowledge on the composition and proper processing of sacha inchi cultivated under sub-tropical conditions may support future efforts focused on the development of new production areas.

Propagação in vitro de tucumã do Amazonas / In vitro propagation of Astrocarium aculeatum

O gênero Astrocaryum possui um grande número de espécies com potencial alimentício e produtoras de óleos. A espécie mais utilizada, o tucumã do Amazonas, é consumida em larga escala nos estados da região norte do Brasil e originado do extrativismo vegetal. Embriões zigóticos de sementes maduras e imaturas de tucumã do Amazonas (Astrocaryum aculeatum G. Mey) foram inoculados em meio de cultivo semi-sólido de Murashige e Skoog (MS) suplementado com vitaminas. Os embriões sobreviventes foram transferidos para o mesmo meio MS suplementado com 0,0; 1,0; 3,0 e 5,0mg L-1 de BAP, obtendo-se taxa crescente de brotação, sendo as mais eficientes as doses de 3,0 a 5,0mg L-1.

There is a large number of species within the genus Astrocaryum with the potential for use as food and for oil production. The most used species, tucumã do Amazonas, is consumed on a large scale in the States in the northern region of Brazil, originating from extractivism. Zygotic embryos of mature and immature tucumã do Amazonas (Astrocaryum aculeatum G. Mey.) seeds were inoculated in a semi-solid Murashige and Skoog (MS) culture medium supplemented with vitamins. The surviving embryos were transferred to the same MS medium supplemented with 0.0; 1.0; 3.0 and 5.0mg L-1 of BAP, obtaining an increasing rate of shoot formation.

Propagação in vitro de Sacha inchi / In vitro propagation of Sacha inchi

O objetivo do presente trabalho foi avaliar in vitro a relação auxina:citocinina a fim de obter propágulos nos segmentos distintos do epicótilo e hipocótilo de sementes germinadas in vitro de Sacha inchi (Plukenetia volubilis Linneo). Os segmentos apical (A), mediano (B) e o basal (C) foram introduzidos em meio de cultivo MS, semi sólido (2,0g L-1 Phytagel), suplementado com vitaminas de MS, sacarose (30,0g L-1) e submetidos a três doses da auxina ácido indolbutírico - IBA (0; 0,1; 0,5mg L-1), associadas a quatro doses da citocinina benzilaminopurina - BAP (0; 0,1; 0,5; 1,0mg L-1), totalizando 36 tratamentos. Após nove semanas de cultivo in vitro, o segmento apical (A) apresentou formação de brotações por organogênese direta nas concentrações de 0,5 e 1,0 de BAP, associado a 0,0 e 0,1 de IBA. O emprego do cultivo in vitro é viável na produção de mudas, utilizando como explante a região apical de sementes germinadas in vitro.

The aim of this study was to perform an in vitro evaluation of the auxin:cytokinine ratio in different segments of the epicotyl and hypocotyl of Sacha inchi (Plukenetia volubilis Linneo) seeds germinated in vitro. The segments apical (A), median (B) and basal (C) were introduced into semi-solid MS culture medium (2.0g L-1 Phytagel), supplemented with MS vitamins, sucrose (30.0g L-1) and submitted to three doses of auxin indolebutyric acid - IBA (0; 0.1; 0.5mg L-1), associated with four doses of the cytokinine benzylaminopurine - BAP (0; 0.1; 0.5; 1.0mg L-1), totaling 36 treatments. After nine weeks of in vitro cultivation, the apical segment (A) presented shoot formation by direct organogenesis at the concentrations of 0.5 and 1.0 of BAP associated with 0.0 and 0.1 of IBA. It is feasible to use in vitro cultivation with the apical region of seeds germinated in vitro used as explants.