Desenvolvimento e produtividade do tomateiro sob diferentes freqüências de irrigação em estufa Tomato development and yield under different irrigation frequencies in greenhouse

O crescimento de plantas em substrato em cultivo protegido requer conhecimento técnico apropriado para uso racional e eficientede água e de nutrientes. O objetivo deste trabalho foi avaliar o efeito de seis freqüências de irrigação no desenvolvimento e na produção do tomateiro cultivado em ambiente protegido. O experimento foi conduzido em Campinas, de novembro de 2003 a abril de 2004. O delineamento experimental foi de blocos ao acaso com seis tratamentos e quatro repetições. Os tratamentos consistiram em seis freqüências de irrigação: cinco, quatro, três, duas, uma vez por dia e irrigação em dias alternados. A irrigação foi aplicada por gotejamento. O substrato utilizado foi o composto de fibra de coco. As freqüências de irrigação de uma, três, quatro e cinco vezes por dia resultaram nas maiores produções de frutos comerciáveis de tomateiro. O maior número e peso médio dos frutos foram obtidos nos tratamentos com freqüência de irrigação de uma, duas, três, quatro e cinco vezes por dia. As freqüências de irrigação de uma vez por dia e em dias alternados proporcionaram maior número de frutos não comerciáveis (fundo preto).<br>Plant cultivation in substrate under greenhouse conditions needs technical knowledge to promote water and nutrient use efficiency. In this work were evaluated the tomato development and yield under different irrigation frequencies cultivated in greenhouse. The experiment was carried out in Campinas, São Paulo State, Brazil, from November, 2003 to April, 2004. The experimental design consisted of six treatments in randomized blocks with four replications. The treatments consisted of the irrigation frequencies: five, four, three, two and one times a day and irrigation on alternating days. The irrigation was applied by drip irrigation system. The substrate consisted of coconut fiber. The one, three, four and five times a day irrigation frequency provided better total marketable tomato yield. The greater number of fruits and average weight of fruit were obtained under the one, two, three, four and five times a day irrigation frequencies. The irrigation frequency once a day and alternating days provided greater number of no marketable fruits

Impact of depth of pedigree and inclusion of historical data on the estimation of additive variance and breeding values in a sugarcane breeding program

Sugarcane breeders in Australia combine data across four selection programs to obtain estimates of breeding value for parents. When these data are combined with full pedigree information back to founding parents, computing limitations mean it is not possible to obtain information on all parents. Family data from one sugarcane selection program were analysed using two different genetic models to investigate how different depths of pedigree and amount of data affect the reliability of estimating breeding value of sugarcane parents. These were the parental and animal models. Additive variance components and breeding values estimated from different amounts of information were compared for both models. The accuracy of estimating additive variance components and breeding values improved as more pedigree information and historical data were included in analyses. However, adding years of data had a much larger effect on the estimation of variance components of the population, and breeding values of the parents. To accurately estimate breeding values of all sugarcane parents, a minimum of three generations of pedigree and 5 years of historical data were required, while more information (four generations of pedigree and 7 years of historical data) was required when identifying top parents to be selected for future cross pollination

Equivalence of Electron-Vibration Interaction and Charge-Induced Force Variations: A New O(1) Approach to an Old Problem

Calculating electron-vibration (vibronic) interaction constants is computationally expensive. For molecules containing N nuclei it involves solving the Schrödinger equation for Ο(3N) nuclear configurations in addition to the cost of determining the vibrational modes. We show that quantum vibronic interactions are proportional to the classical atomic forces induced when the total charge of the system is varied. This enables the calculation of vibronic interaction constants from O(1) solutions of the Schrödinger equation. We demonstrate that the O(1) approach produces numerically accurate results by calculating the vibronic interaction constants for several molecules. We investigate the role of molecular vibrations in the Mott transition in κ-(BEDT-TTF)2Cu[N(CN)2]Br