This study aimed at adapting harvest time of different potato cultivars in two seasons during the year. Two experiments were conducted: one in the rainy season and another in the dry period. Two production factors were studied in experiments using a splitplot design in a complete randomized block design. The first factor (including 3 sweet potato cultivars: ESAM 1, Paraná and Mãe de Família) was assigned to the plots. The second factor (harvest time: 90, 105, 120, 135 and 150 days after planting) was assigned to the subplots. Soluble solids, total soluble sugars, starch content, pulp firmness, cooking time and vitamin C were assessed. The harvest after 150 days resulted in increased levels of soluble sugars, starch, and vitamin C in both growing seasons, compared to other harvests, demonstrating that tuberization does not depend on season. In addition, late harvesting increased the cooking times with all cultivars, especially those grown in the rainy season. In the dry season, cooking time was higher for cv. ESAM 1. Of the three sweet potato cultivars, cv. Parana presented the highest total amount of soluble sugars and vitamin C, as well as faster cooking time, while cv. ESAM 1 had the highest starch content, pulp firmness and the longest cooking time. The results suggest that Paraná and Mãe de Família are feasible for the fresh market and ESAM 1 for industry, regardless of the season or harvest time. These cultivars offer growers flexibility when deciding on sweet potato crops for different purposes, i.e. fresh market or industry. Delaying the harvest of sweet potatoes until 150 days gives greater flexibility to producers in the semi-arid region of Brazil in relation to either fresh or the industrial market.
The use of saline water is one of the major challenges of agriculture, as it can cause nutritional imbalances and thus reduce crop yield. This study proposes to examine the efficiency of potassium nutrition as a salt stress-mitigating agent in melon grown in a protected environment. The experiment was laid out in a randomized-block design with ten treatments in a 2 × 4 factorial arrangement represented by two melon cultivars (McLaren and SV1044MF) and four nutrient solutions (S1 - standard nutrient solution, 2.5 dS m-1; S2 - nutrient solution salinized with NaCl, 5.0 dS m-1; S3 - nutrient solution salinized with NaCl + 50% K, 6.5 dS m-1; and S4 - nutrient solution salinized with NaCl + 100% K, 7.5 dS m-1). Yield (average fruit weight, production, fruit diameter, internal cavity, and pulp thickness), quality (pulp firmness, total sugars, soluble solids [SS], vitamin C, pH, titratable acidity [TA] and SS/TA ratio) and nutritional (K, Na and K/Na ratio) variables were evaluated. Plants fertigated with standard nutrient solution showed the highest values for fruit weight (1,190.6 g), production (2,381.3 g per plant), fruit diameter (13.6 cm) and pulp thickness (2.6 cm). Cultivar McLaren produced heavier fruits (931.4 g) with larger diameter (12.4 cm) and pulp thickness (2.4 cm). The addition of NaCl to nutrient solution induced a reduction in the yield variables but did not influence fruit quality. The addition of extra K to salinized nutrient solution did not mitigate the deleterious effect of salinity on the yield of melon.
Reduction in plant growth under salt stress is due, among other factors, to changes in photochemical efficiency and, consequently, in photosynthesis. The objective of this study was to evaluate the effect of salt stress on the chlorophyll fluorescence variables in cultivars of basil (Ocimum basilicum L.). The experiment was conducted in a greenhouse, using a randomized block design in a 5 x 3 factorial scheme, corresponding to five basil cultivars (‘Grecco a Palla’, ‘Alfavaca Basilicão’, ‘Alfavaca Verde’, ‘Lemoncino’ and ‘Roxo’) and three salinity of the nutrient solution (2.0, 3.5 and 5.0 dS m-1), with three repetitions, and the experimental plot was represented by three pots containing 3.0 dm3 of coconut fiber. At the full flowering stage, plants were evaluated for chlorophyll fluorescence, when adapted to the dark, as well as under saturating light conditions. In general, there were changes in fluorescence variables only at salinity above 3.5 dS m-1. Fertigation using high-salinity water promotes strong changes in the chlorophyll a fluorescence of sensitive basil cultivars. The cultivars ‘Grecco a Palla’ and ‘Alfavaca Verde’ were little affected by the increase of salinity, being the most tolerant to salt stress. In the cultivars ‘Alfavaca Basilicão’, ‘Lemoncino’ and ‘Roxo’, chlorophyll fluorescence was strongly affected by salinity, being the most sensitive. The tolerance ranking based on chlorophyll fluorescence is: ‘Grecco a Palla’ = ‘Alfavaca Verde’ > ‘Alfavaca Basilicão’ > ‘Lemoncino’ > ‘Roxo’.
Resumo: A construção civil tem sido considerada uma das mais importantes atividades para o desenvolvimento da sociedade, porém é uma atividade que causa impactos ambientais, pois utiliza recursos naturais, modifica o meio ambiente e gera um grande volume de resíduos. Nota-se que as atividades ligadas à construção civil no município de Mossoró-RN, são responsáveis por gerar uma quantidade considerável de resíduos de construção civil (RCC), que na maioria das vezes, são depositados em locais irregulares, por não haver na cidade um local específico para esse fim. Esses resíduos constituem um grave problema, tanto para o meio ambiente quanto para qualidade de vida da população. A pesquisa foi realizada com o objetivo de mapear áreas de depósito irregular de resíduos provenientes da construção civil na cidade de Mossoró-RN. Foi realizada a demarcação dos pontos de acordo com a localização do despejo dos resíduos, com a finalidade de identificar e indicar sua localização dentro da zona urbana de Mossoró-RN. No presente estudo, foi possível identificar 11 pontos de deposição irregular de resíduos provenientes da construção civil, espalhados em diferentes locais da cidade, alguns situando-se próximo de áreas residenciais, o que caracteriza sérios riscos à saúde pública, e outros dispostos próximos de cursos d'água, o que provoca degradação do meio ambiente. Palavras-chave:Sustentabilidade, Impacto Ambiental, Entulho, Construção Civil.Abstract: Construction industry has been considered one of the most important activities regarding to society development, however it causes environmental impacts, because it uses natural resources, modifies the environment and generate a huge amount of waste. It was observed that in Mossoró, RN, Brazil, a large amount of construction waste is often deposed in unauthorized sites because the municipality does not provide a specific site for this purpose. Such waste is a serious problem for the environment and for the people's quality of living. In this context a research was carried out with the objective of mapping sites of non authorized deposition of construction waste in the city of Mossoró, RN, Brazil. With this intent, points were georeferenced according to the location of deposition of waste, with the objective of identifying and indicating its location inside the urban zone of the city. At the end of the study were identified eleven sites of unauthorized deposition o f construction waste, all over the city, some of which were located near residential areas, what poses a serious hazard to public health, while other sites were near water streams, what promote environmental degradation.
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