Simulating the selfing and migration of Luehea divaricata populations in the Pampa biome to investigate the conservation potential of their genetic resources.

Computer simulations are an important tool for developing conservation strategies for forest species. This study used simulations to investigate the genetic, ecological, and reproductive patterns that contribute to the genetic structure of the tree Luehea divaricata Mart. & Zucc. in five forest fragments in the Brazilian Pampa biome. Using the EASYPOP model, we determined the selfing and migration rates that would match the corresponding genetic structure of microsatellite marker data (based on observed and expected heterozygosity parameters). The simulated reproductive mode was mixed, with a high rate of outcrossing (rate = 0.7). This was consistent with a selfing-incompatible system in this species, which reduced, but did not prevent, selfing. The simulated migration rate was 0.02, which implied that the forest fragments were isolated by distance, and that the inbreeding coefficients were high. Based on Nei's gene diversity analysis, 94% of the genetic variability was distributed within the forest fragments, and only 6% of the genetic diversity was caused by differences between them. Furthermore, the minimum viable population and minimum viable area genetic conservation parameters (which determine conservation potential in the short and long term) suggested that only the Inhatinhum forest fragment had the short-term potential to maintain its genetic diversity. However, in the long term, none of the forest fragments proved to be sustainable, indicating that the populations will require intervention to prevent a decline in genetic variability. The creation of ecological corridors could be a useful solution to connect forest fragments and enhance gene flow between them.

Multiplicação in vitro de segmentos apicais caulinares de segurelha (Satureja hortensis L. ) / In vitro multiplication of apical shoot segments of Summer Savory (Satureja hortensis L. )

O presente estudo teve por objetivo avaliar o efeito de BAP, na presença e ausência de ANA, sobre a multiplicação in vitro de segmentos apicais caulinares de Satureja hortensis. Os explantes foram isolados de plântulas germinadas in vitro e cultivados em meio nutritivo MS. O delineamento experimental utilizado foi o inteiramente casualizado, em esquema fatorial 2x5, correspondendo às concentrações de ANA (0 e 1 µM) e de BAP (0; 5; 10; 15 e 20 µM), com seis repetições, cada uma composta por três explantes. Para a porcentagem de explantes com brotações houve efeito significativo para o fator BAP, aumentando à medida que cresce a concentração da citocinina. A variável "número de brotos por explante" apresentou interação entre os fatores, havendo a maior formação de brotos na presença de ANA na faixa de 10 - 15 µM de BAP. Na presença da auxina, o maior valor ocorreu com 15 µM de BAP tendendo a diminuir independente da presença de ANA. O enraizamento dos segmentos apicais foi maior na presença de ANA e ausência de BAP, diminuindo com o aumento da citocinina. O número de folhas foi influenciado pela maior concentração de BAP sendo que a 15 µM foi observado o maior número, tendendo à queda com aumento da concentração. A concentração de 15 µM de BAP, independente de ANA, proporcionou os melhores resultados na multiplicação da espécie produzindo aumento de brotações e número de folhas, à exceção do enraizamento que foi influenciado pela auxina.

This study aimed to evaluate the effect of BAP in the presence and absence of NAA, on the in vitro multiplication of shoot apical segments of Satureja hortensis. The explants were isolated from seedlings germinated in vitro and cultured in nutrient medium MS. The experimental design was completely randomized in a 2x5 factorial arrangement, corresponding to the concentrations of NAA (0 and 1 µM) and BAP (0, 5, 10, 15 and 20 µM), with six replicates, each consisting of three explants. For the percentage of explants with shoots, there was no significant effect for the factor BAP, increasing as the concentration of BAP grows. The variable number of shoots per explant showed interaction between factors, with the highest shoot formation in the presence of NAA and BAP in the range of 10 -15 µM. In the presence of auxin, the highest value occurred with 15 µM BAP, tending to decline regardless of the presence of NAA. The rooting of the apical segments was higher in the presence of NAA and absence of BAP, decreasing with increasing cytokinin. Leaf number was influenced by the higher concentration of BAP, and the amount of 15 µMhadthe largest number, tending to decrease with increasing concentration. The concentration of 15 µM BAP, regardless of NAA, provided better results in the multiplication of the species, producing increased number of shoots and leaves, except for rooting, whichwas influenced by auxin.