Validation of a new proposal of quantitative sperm culture for industrialized bull semen

The Brazilian Ministry of Agriculture (MAPA) has discussed the mandatory culture of industrialized semen, both to ensure biosefety, and to prevent in vitro fertilization problems caused by oocyte contamination with ubiquitous and opportunistic bacteria from preputial microbiota. Pour plate, a quantitative technique recommended by the World Organization for Animal Health (OIE), is operationally difficult and costly for routine analysis in Artificial Insemination Centers (AICs). The objectives of this study were to evaluate and validate viable superficial bacteria counts (VSBC), in CFU/mL, compared with pour plate counts, in industrialized bull semen samples from AICs. Semen straws from Projeto Hungria - MAPA bulls were used. VSBC and pour plate were carried out in parallel in serial dilutions of the samples, from 10(-1) to 10(-5). CFU/mL means or medians recorded in each dilution and technique were compared, and no statistical differences were observed between the two techniques regarding the quantification of bacteria in CFU/mL, suggesting that it may be possible to replace pour plate for CBSV, a cheaper and more practical technique.

Dynamics of adventitious rooting in mini-cuttings of Eucalyptus benthamii x Eucalyptus dunnii

It is possible to determine the optimum time for permanence of vegetative propagules (mini-cuttings) inside a greenhouse for rooting, and this value can be used to optimize the structure of the nursery. The aim of this study was to determine the dynamics of adventitious rooting in mini-cuttings of three clones of Eucalyptus benthamii x Eucalyptus dunnii. Sprouts of H12, H19 and H20 clones were collected from mini-stumps that were planted in gutters containing sand and grown in a semi-hydroponic system. The basal region of the mini-cuttings was immersed in 2,000 mg L-1 indole-3-butyric acid (IBA) solution for 10 seconds. The rooting percentage of the mini-cuttings, the total length of the root system and the rooting rate per mini-cutting were also evaluated at 0 (time of planting), 7, 14, 21, 28, 35, 42, 49 and 56 days. We used logistic and exponential regression to mathematically model the speed of rhizogenesis. The rooting percentage was best represented as a logistic model, and the total length of the root system was best represented as an exponential model. The clones had different speeds of adventitious rooting. The optimum time for permanence of the mini-cuttings inside the greenhouse for rooting was between 35 and 42 days, and varied depending on the genetic material.