Under-achievement and the glass ceiling: Evidence from a TV game show

We use a Colombian TV game show to test gender differences in competitivebehavior where there is no opportunity for discrimination and females face no genderspecificexternal constraints. Each game started with six contestants who had toanswer general knowledge questions in private. There were five rounds of questionsand, at the end of each, one participant was eliminated. Despite equality in startingnumbers, women earn less than men and exit the game at a faster rate. In particular,there are more voluntary withdrawals by women than men. We draw an analogybetween the game and the process by which employees rise through the levels of acorporation. As such, we note that glass ceilings may result, in part, from women sown behavior and this raises the issue of how women are socialized to behave. At thesame time, our results illustrate that maintaining and promoting gender diversity at thelower/middle ranks of organizations is necessary to obtain gender diversity at the top.

Relatório - Detecção de Tuta Absoluta (Myerick, 1917) em Cabo Verde

Tuta absoluta é praga minadora de folhas desenvolve-se principalmente no tomate (Lycopersicon esculentum) e não só mas também em outras espécies de Solanáceas tais como batata comum (Solanum tuberosum), beringela (Solanum melongina), Pimentos (Capsicum sp.) e no tomate silvestre (Lycopersicon hirsutum), (Solanum dulcamara), (Solanum nigrum), (Solanum elaeagnifolium), (Datura stramonium), (Datura ferox) e (Nicotiana glauca). No entretanto, esta praga ataca espécies de tomate em grande escala a nível dos trópicos, Sub-trópicos e regiões temperadas causando prejuízos económicos consideráveis (USDA, 2011). Esta praga encontra-se presente na América do Sul, (Chili, Bolívia, Brasil, Colômbia, Equador, Uruguai, Perú, Venezuela, Argentina). No continente Africano ela encontra-se na Africa Ocidental e Central designadamente no Benim, Camarões Cabo-Verde, Costa do Marfim, Congo Brazzaville, Gambia, Gabão, Ghana, Guiné-Conakry, Guiné- Bissau, Mali, Mauritânia, Niger, Nigéria, República Democrático do Congo, Serra Leoa, Senegal, Tchad e Togo. Pela primeira vez T. absoluta foi assinalada na Europa em 2006, e em Espanha na comunidade Valenciana em 2007 (Vieira, 2008). O cultivo de tomate em Cabo Verde tem aumentado nos últimos anos. Atualmente tomate é o legume mais cultivado em Cabo Verde. A sua quota parte na produção hortícola que não ultrapassavam os 1.000 t há uns anos, atinge atualmente 4200 t, o que representa 23% da produção total dos legumes. Apesar de alguns constrangimentos, nomeadamente problemas de ordem fitossanitária e escassez de água de rega a disponibilidade e a utilização generalizada das variedades locais, permitiram um escalonamento da produção durante o na, compreendendo o período quente e húmido. Um outro fator que contribui para o aumento substancial da produção, é a salinização de água de rega, em várias zonas do regadio. Os agricultores destas zonas viram nesta cultura a única saída para obterem algum rendimento (MAP/ CPDA/INIDA/ FAO GCP/CV/036/NET s/data). Em Cabo Verde a área média de um campo de produção de tomate é de 750 m2 sendo máxima de 1.400 m2. Este trabalho teve como objetivo estabelecimento instantâneo de presença ou ausência da nova praga Tuta absoluta no país que foi recentemente encontrada na Sub-região Saariana na Costa Ocidental e Central de África.

Relatório Detecção de Tuta Absoluta (Myerick,1917) em Cabo Verde

Tuta absoluta é praga minadora de folhas desenvolve-se principalmente no tomate (Lycopersicon esculentum) e não só mas também em outras espécies de Solanáceas tais como batata comum (Solanum tuberosum), beringela (Solanum melongina), Pimentos (Capsicum sp.) e no tomate silvestre (Lycopersicon hirsutum), (Solanum dulcamara), (Solanum nigrum), (Solanum elaeagnifolium), (Datura stramonium), (Datura ferox) e (Nicotiana glauca). No entretanto, esta praga ataca espécies de tomate em grande escala a nível dos trópicos, Sub-trópicos e regiões temperadas causando prejuízos económicos consideráveis (USDA, 2011). Esta praga encontra-se presente na América do Sul, (Chili, Bolívia, Brasil, Colômbia, Equador, Uruguai, Perú, Venezuela, Argentina). No continente Africano ela encontra-se na Africa Ocidental e Central designadamente no Benim, Camarões Cabo-Verde, Costa do Marfim, Congo Brazzaville, Gambia, Gabão, Ghana, Guiné-Conakry, Guiné- Bissau, Mali, Mauritânia, Niger, Nigéria, República Democrático do Congo, Serra Leoa, Senegal, Tchad e Togo. Pela primeira vez T. absoluta foi assinalada na Europa em 2006, e em Espanha na comunidade Valenciana em 2007 (Vieira, 2008). O cultivo de tomate em Cabo Verde tem aumentado nos últimos anos. Atualmente tomate é o legume mais cultivado em Cabo Verde. A sua quota parte na produção hortícola que não ultrapassavam os 1.000 t há uns anos, atinge atualmente 4200 t, o que representa 23% da produção total dos legumes. Apesar de alguns constrangimentos, nomeadamente problemas de ordem fitossanitária e escassez de água de rega a disponibilidade e a utilização generalizada das variedades locais, permitiram um escalonamento da produção durante o na, compreendendo o período quente e húmido. Um outro fator que contribui para o aumento substancial da produção, é a salinização de água de rega, em várias zonas do regadio. Os agricultores destas zonas viram nesta cultura a única saída para obterem algum rendimento (MAP/ CPDA/INIDA/ FAO GCP/CV/036/NET s/data). Em Cabo Verde a área média de um campo de produção de tomate é de 750 m2 sendo máxima de 1.400 m2. Este trabalho teve como objetivo estabelecimento instantâneo de presença ou ausência da nova praga Tuta absoluta no país que foi recentemente encontrada na Sub-região Saariana na Costa Ocidental e Central de África.

Detecção e Monitorização de Tuta Absoluta (Meyrick, 1917) em Cabo Verde

Tuta absoluta (Meyrick, 1917) (Microlepidoptera:Gelechiidae) é praga minadora de folhas desenvolve-se principal-mente no tomate (Lycopersicon esculentum) e não só mas também em outras espécies de Solanáceas tais como batata comum (Solanum tuberosum), beringela (Solanum melongina), Pimentos (Capsicum sp.) e no tomate silvestre (Lycopersicon hirsutum), (Solanum dulcamara), (Solanum nigrum), (Solanum elaeagnifolium), (Datura stramonium), (Datura ferox) e (Nicotiana glauca). Esta praga ataca espécies de tomate em grande escala a nível dos trópicos, Sub-trópicos e regiões temperadas causando prejuízos económicos consideráveis (USDA, 2011). Esta praga encontra-se presente na América do Sul, (Chili, Bolívia, Brasil, Colômbia, Equador, Uruguai, Perú, Venezuela, Argentina). No continente Africano ela encontra-se na Africa Ocidental e Central designadamente no Benim, Camarões, Cabo-Verde, Costa do Marfim, Congo Brazzaville, Gambia, Gabão, Ghana, Guiné-Conakry, Guiné- Bissau, Mali, Mauritâ-nia, Niger, Nigéria, República Democrático do Congo, Serra Leoa, Senegal, Tchad e Togo. Pela primeira vez T. abso-luta foi assinalada na Europa em 2006, e em Espanha na comunidade Valenciana em 2007 (Vieira, 2008). O cultivo de tomate em Cabo Verde tem aumentado nos últimos anos. Actualmente tomate é o legume mais cultivado em Cabo Verde. A sua quota parte na produção hortícola que não ultrapassavam os 1.000 t há uns anos, atinge actualmente 4200 t, o que representa 23% da produção total dos legumes. Apesar de alguns constrangimentos, nomeadamente problemas de ordem fitossanitária e escassez de água de rega a disponibi-lidade e a utilização generalizada das variedades locais, permitiram um escalonamento da produção durante o ano, compreendendo o período quente e húmido. Um outro fator que contri-bui para o aumento substancial da produção, é a salinização de água de rega, em várias zonas do regadio. Os agricultores destas zonas viram nesta cultura a única saída para obterem algum rendimento (MAP/ CPDA/INIDA/ FAO GCP/CV/036/NET s/data). Em Cabo Verde a área média de um campo de produção de tomate é de 750 m2 sendo máxima de 1.400 m2. Este trabalho teve como objetivo estabelecimento instantâneo de presença ou ausência da nova praga Tuta absoluta no país que foi recentemente encontrada na Sub-região Saariana na Costa Ocidental e Central de África.

Effect of silicon and acibenzolar-s-methyl on colored cotton plants infested or not with Aphis gossypii Glover (Hemiptera, Aphididae)

Effect of silicon and acibenzolar-s-methyl on colored cotton plants infested or not with Aphis gossypii Glover (Hemiptera, Aphididae). The aphid Aphis gossypii is an insect pest that causes damage mainly at the beginning of the cotton plant development. The effect of resistance inductors silicon and acibenzolar-s-methyl (ASM) on the development of colored cotton plants were researched in the presence and absence of A. gossypii. Three colored cotton cultivars were sown in pots and individually infested with 25 apterous aphids, 13 days after the application of the inductors. Fifteen days after plant emergence, the silicon was applied at a dosage equivalent to 3 t/ha and acibenzolar-s-methyl in 0.2% solution of the product BION 500®. After 21 days of infestation the following parameters were evaluated: plant height, stem diameter, dry matter of aerial part and root, and total number of aphids replaced. It was verified that the plant height was reduced in the presence of aphids and all variables were negatively affected by the application of ASM. However, silicon did not affect plant development.

Arbuscular mycorrhiza-specific signaling in rice transcends the common symbiosis signaling pathway.

Knowledge about signaling in arbuscular mycorrhizal (AM) symbioses is currently restricted to the common symbiosis (SYM) signaling pathway discovered in legumes. This pathway includes calcium as a second messenger and regulates both AM and rhizobial symbioses. Both monocotyledons and dicotyledons form symbiotic associations with AM fungi, and although they differ markedly in the organization of their root systems, the morphology of colonization is similar. To identify and dissect AM-specific signaling in rice (Oryza sativa), we developed molecular phenotyping tools based on gene expression patterns that monitor various steps of AM colonization. These tools were used to distinguish common SYM-dependent and -independent signaling by examining rice mutants of selected putative legume signaling orthologs predicted to be perturbed both upstream (CASTOR and POLLUX) and downstream (CCAMK and CYCLOPS) of the central, calcium-spiking signal. All four mutants displayed impaired AM interactions and altered AM-specific gene expression patterns, therefore demonstrating functional conservation of SYM signaling between distant plant species. In addition, differential gene expression patterns in the mutants provided evidence for AM-specific but SYM-independent signaling in rice and furthermore for unexpected deviations from the SYM pathway downstream of calcium spiking.

Green manure in coffee systems in the region of Zona da Mata, Minas Gerais: characteristics and kinetics of carbon and nitrogen mineralization

The use of green manure may contribute to reduce soil erosion and increase the soil organic matter content and N availability in coffee plantations in the Zona da Mata, State of Minas Gerais, in Southeastern Brazil. The potential of four legumes (A. pintoi, C. mucunoides, S. aterrimum and S. guianensis) to produce above-ground biomass, accumulate nutrients and mineralize N was studied in two coffee plantations of subsistence farmers under different climate conditions. The biomass production of C. mucunoides was influenced by the shade of the coffee plantation. C. mucunoides tended to mineralize more N than the other legumes due to the low polyphenol content and polyphenol/N ratio. In the first year, the crop establishment of A. pintoi in the area took longer than of the other legumes, resulting in lower biomass production and N2 fixation. In the long term, cellulose was the main factor controlling N mineralization. The biochemical characteristics, nutrient accumulation and biomass production of the legumes were greatly influenced by the altitude and position of the area relative to the sun.

Environmental and agricultural benefits of a management system designed for sandy loam soils of the humid tropics

A sustainable management of soils with low natural fertility on family farms in the humid tropics is a great challenge and overcoming it would be an enormous benefit for the environment and the farmers. The objective of this study was to assess the environmental and agronomic benefits of alley cropping, based on the evaluation of C sequestration, soil quality indicators, and corn yields. Combinations of four legumes were used in alley cropping systems in the following treatments: Clitoria fairchildiana + Cajanus cajan; Acacia mangium + Cajanus cajan; Leucaena leucocephala + Cajanus cajan; Clitoria fairchildiana + Leucaena leucocephala; Leucaena leucocephala + Acacia mangium and a control. Corn was used as a cash crop. The C content was determined in the different compartments of soil organic matter, CEC, available P, base saturation, percentage of water saturation, the period of the root hospitality factor below the critical level and corn yield. It was concluded that alley cropping could substitute the slash and burn system in the humid tropics. The main environmental benefit of alley cropping is the maintenance of a dynamic equilibrium between C input and output that could sustain up to 10 Mg ha-1 of C in the litter layer, decreasing atmospheric CO2 levels. Alley cropping is also beneficial from the agricultural point of view, because it increases base saturation and decreases physical resistance to root penetration in the soil layer 0 - 10 cm, which ensures the increase and sustainability of corn yield.

Growth of seedlings of pigeon pea (Cajanus cajan (l.) millsp), wand riverhemp (Sesbania virgata (cav.) pers.), and lead tree (Leucaena leucocephala (lam.) de wit) in an arsenic-contaminated soil

Phytoremediation strategies utilize plants to decontaminate or immobilize soil pollutants. Among soil pollutants, metalloid As is considered a primary concern as a toxic element to organisms. Arsenic concentrations in the soil result from anthropogenic activities such as: the use of pesticides (herbicides and fungicides); some fertilizers; Au, Pb, Cu and Ni mining; Fe and steel production; coal combustion; and as a bi-product during natural gas extraction. This study evaluated the potential of pigeon pea (Cajanus cajan), wand riverhemp (Sesbania virgata), and lead tree (Leucaena leucocephala) as phytoremediators of soils polluted by As. Soil samples were placed in plastic pots, incubated with different As doses (0; 50; 100 and 200 mg dm-3) and then sown with seeds of the three species. Thirty (pigeon pea) and 90 days after sowing, the plants were evaluated for height, collar diameter and dry matter of young, intermediate and basal leaves, stems and roots. Arsenic concentration was determined in different aged leaves, stems and roots to establish the translocation index (TI) between the plant root system and aerial plant components and the bioconcentration factors (BF). The evaluated species showed distinct characteristics regarding As tolerance, since the lead tree and wand riverhemp were significantly more tolerant than pigeon pea. The high As levels found in wand riverhemp roots suggest the existence of an efficient accumulation and compartmentalization mechanism in order to reduce As translocation to shoot tissues. Pigeon pea is a sensitive species and could serve as a potential bioindicator plant, whereas the other two species have potential for phytoremediation programs in As polluted areas. However, further studies are needed with longer exposure times in actual field conditions to reach definite conclusions on relative phytoremediation potentials.

Attributes of irrigated rice and soil solution as affected by salinity levels of the water layer

In the State of Rio Grande do Sul, Brazil, flooded rice fields using Patos Lagoon as the source of water for irrigation are subject to be damaged by salinity, since this source is bound to the sea on its southern end. The sensitivity of rice is variable during plant development, being higher in the seedling and reproductive periods. However, there is not enough information about the behavior of plants under salt stress during the course of its development, especially in the vegetative stage. This study evaluated the effect of different levels of salinity of irrigation water on the salinity of soil solution over time and on some plant attributes, during the vegetative stage of rice. The study was conducted in a greenhouse, where seeds of the variety IRGA 424 were sown in pots and irrigated with water with electrical conductivity (ECi) levels of: 0.3, 0.75, 1.5, 3.0 and 4.5 dS m-1; from the tillering initiation (V4) until the panicle initiation (PI). The evaluations made were the electrical conductiviy of soil solution (ECe), the dry biomass of plants and stems, tillering, height and the transpiration of plants. The ECe increased with the ECi over time, and was determined by water transpiration flux in pots. The ECe values at the end of the experiment were high and, in most cases, higher than the critical values for flooded rice. The growth attributes of rice were negatively affected from ECi of 2.0 dS m-1 and ECe of 4.0 dS m-1.

In-furrow inoculation of soybean as alternative to fungicide and micronutrient seed treatment

Soybean is a major grain crop in Brazil, and yields can be considerably improved by inoculation with selected Bradyrhizobium strains. However, the incompatibility between inoculation and seed treatments with fungicides and micronutrients represents a major barrier to the achievement of high rates of biological N2 fixation. Inoculation practices that can alleviate the negative effects of agrochemicals must therefore be found and in-furrow inoculation seems to be an attractive alternative. This study reports the results of seven field experiments conducted in three growing seasons in Brazil; three in soils previously cropped with inoculated soybean (> 10(4) cells g-1 of soil of Bradyrhizobium), and four in areas where the crop was sown for the first time (< 10² cells g-1 of soil of Bradyrhizobium). The compatibility with fungicides and micronutrients was compared in seeds inoculated with peat or liquid inoculants, or treated with different doses of liquid inoculant in-furrow. In areas with established Bradyrhizobium populations, seed-applied agrochemicals did generally not affect nodulation, but also did not increase yields, while inoculation always increased N grain accumulation or yield, and N fertilizer decreased both nodulation and yield. Where soybean was sown for the first time, the seed treatment with agrochemicals affected nodulation when applied together with peat or liquid inoculant. In-furrow inoculation alleviated the effects of seed treatment with agrochemicals; the best performance was achieved with high Bradyrhizobium cell concentrations, with up to 2.5 million cells seed-1.

Phosphatase activity in sandy soil influenced by mycorrhizal and non-mycorrhizal cover crops

Cover crops may difffer in the way they affect rhizosphere microbiota nutrient dynamics. The purpose of this study was to evaluate the effect of mycorrhizal and non-mycorrhizal cover crops on soil phosphatase activity and its persistence in subsequent crops. A three-year experiment was carried out with a Typic Quartzipsamment. Treatments were winter species, either mycorrhizal black oat (Avena strigosa Schreb) or the non-mycorrhizal species oilseed radish (Raphanus sativus L. var. oleiferus Metzg) and corn spurry (Spergula arvensis L.). The control treatment consisted of resident vegetation (fallow in the winter season). In the summer, a mixture of pearl millet (Pennisetum americanum L.) with sunnhemp (Crotalaria juncea L.) or with soybean (Glycine max L.) was sown in all plots. Soil cores (0-10 cm) and root samples were collected in six growing seasons (winter and summer of each year). Microbial biomass P was determined by the fumigation-extraction method and phosphatase activity using p-nitrophenyl-phosphate as enzyme substrate. During the flowering stage of the winter cover crops, acid phosphatase activity was 30-35 % higher in soils with the non-mycorrhizal species oilseed radish, than in the control plots, regardless of the amount of P immobilized in microbial biomass. The values of enzyme activity were intermediate in the plots with corn spurry and black oat. Alkaline phosphatase activity was 10-fold lower and less sensitive to the treatments, despite the significant relationship between the two phosphatase activities. The effect of plant species on the soil enzyme profile continued in the subsequent periods, during the growth of mycorrhizal summer crops, after completion of the life cycle of the cover crops.

Calibration of the century, apsim and ndicea models of decomposition and n mineralization of plant residues in the humid tropics

The aim of this study was to calibrate the CENTURY, APSIM and NDICEA simulation models for estimating decomposition and N mineralization rates of plant organic materials (Arachis pintoi, Calopogonium mucunoides, Stizolobium aterrimum, Stylosanthes guyanensis) for 360 days in the Atlantic rainforest bioma of Brazil. The models´ default settings overestimated the decomposition and N-mineralization of plant residues, underlining the fact that the models must be calibrated for use under tropical conditions. For example, the APSIM model simulated the decomposition of the Stizolobium aterrimum and Calopogonium mucunoides residues with an error rate of 37.62 and 48.23 %, respectively, by comparison with the observed data, and was the least accurate model in the absence of calibration. At the default settings, the NDICEA model produced an error rate of 10.46 and 14.46 % and the CENTURY model, 21.42 and 31.84 %, respectively, for Stizolobium aterrimum and Calopogonium mucunoides residue decomposition. After calibration, the models showed a high level of accuracy in estimating decomposition and N- mineralization, with an error rate of less than 20 %. The calibrated NDICEA model showed the highest level of accuracy, followed by the APSIM and CENTURY. All models performed poorly in the first few months of decomposition and N-mineralization, indicating the need of an additional parameter for initial microorganism growth on the residues that would take the effect of leaching due to rainfall into account.

Perdas de solo e água por erosão hídrica após mudança no tipo de uso da terra, em dois métodos de preparo do solo e dois tipos de adubação

A mudança no tipo de uso da terra, se não devidamente planejada e conduzida, poderá resultar em solos com capacidade produtiva diminuída e com propensão à erosão aumentada, o que irá diminuir o rendimento das culturas e prejudicar a conservação do solo e da água. Esta pesquisa teve como objetivo avaliar a erosão hídrica pluvial do solo em área originalmente de campo nativo, nos seus segundo e terceiro anos de cultivo com culturas anuais em fileira (respectivamente, feijão-miúdo - Vigna unguiculata - e sorgo - Sorghum bicolor), nos métodos de preparo do solo reduzido (escarificação) e sem preparo (semeadura direta) e nos tipos de adubação mineral (fertilizante NPK) e orgânica (cama de aviário), além de uma condição sem adubação (tratamento testemunha). O estudo foi desenvolvido em campo, na EEA/UFRGS, em Eldorado do Sul (RS), nos verões de 2007/2008 e 2008/ 2009. Usou-se chuva simulada e um Argissolo Vermelho distrófico típico com textura franco-arenosa na camada superficial e declividade média de 0,13 m m- 1. Realizaram-se dois testes de erosão em cada ciclo cultural: o primeiro, logo após o preparo do solo e a semeadura das culturas; e o segundo, cerca de 90 dias mais tarde (estádio fenológico de enchimento de legumes, no caso do feijão-miúdo, e de maturação, no do sorgo). As chuvas foram aplicadas com o simulador de braços rotativos, na intensidade planejada de 64 mm h-1 e com duração de 1,5 h cada uma. Os resultados evidenciaram que a mudança no tipo de uso da terra, excluída a condição sem adubação, não ocasionou perdas relevantes de solo e água por erosão hídrica. A mobilização do solo pela escarificação, na maior parte dos casos, favoreceu a infiltração e a retenção superficial da água da chuva e, em decorrência, reduziu a enxurrada, ao mesmo tempo em que satisfatoriamente controlou a erosão. Por sua vez, a ausência de mobilização do solo na semeadura direta, também na maior parte dos casos, induziu a formação de maior enxurrada, porém controlou melhor a erosão. Comparadas à condição sem adubação, a adubação mineral e a adubação orgânica contribuíram para reduzir a enxurrada e a erosão nos dois métodos de preparo do solo investigados, sem diferenças definidas entre elas em qualquer um destes últimos.

Straw decomposition of nitrogen-fertilized grasses intercropped with irrigated maize in an integrated crop-livestock system

The greatest limitation to the sustainability of no-till systems in Cerrado environments is the low quantity and rapid decomposition of straw left on the soil surface between fall and spring, due to water deficit and high temperatures. In the 2008/2009 growing season, in an area under center pivot irrigation in Selvíria, State of Mato Grosso do Sul, Brazil, this study evaluated the lignin/total N ratio of grass dry matter , and N, P and K deposition on the soil surface and decomposition of straw of Panicum maximum cv. Tanzânia, P. maximum cv. Mombaça, Brachiaria. brizantha cv. Marandu and B. ruziziensis, and the influence of N fertilization in winter/spring grown intercropped with maize, on a dystroferric Red Latosol (Oxisol). The experiment was arranged in a randomized block design in split-plots; the plots were represented by eight maize intercropping systems with grasses (sown together with maize or at the time of N side dressing). Subplots consisted of N rates (0, 200, 400 and 800 kg ha-1 year-1) sidedressed as urea (rates split in four applications at harvests in winter/spring), as well as evaluation of the straw decomposition time by the litter bag method (15, 30, 60, 90, 120, and 180 days after straw chopping). Nitrogen fertilization in winter/spring of P. maximum cv. Tanzânia, P. maximum cv. Mombaça, B. brizantha cv. Marandu and B. ruziziensis after intercropping with irrigated maize in an integrated crop-livestock system under no-tillage proved to be a technically feasible alternative to increase the input of straw and N, P and K left on the soil surface, required for the sustainability of the system, since the low lignin/N ratio of straw combined with high temperatures accelerated straw decomposition, reaching approximately 30 % of the initial amount, 90 days after straw chopping.