Distribution and seasonality of microbial indicators and thermophilic campylobacters in two freshwater sites on the River Lune in North West England.

Two freshwater bathing sites, the Crook O'Lune and the University Boathouse, on the River Lune in the north-west of England, were monitored over a 2 year period for the faecal indicators, faecal coliforms and faecal streptococci, the pathogens, Salmonella and Campylobacter, and compliance with the EU Directive on Bathing Water Quality. Faecal indicator numbers showed no seasonal variation, with numbers in the bathing season similar to those in the non-bathing season. They were consistently above the EU Guideline and Imperative standards so that if the EU Bathing Water Quality Directive (76/160/EEC) were applied, neither site would comply. Faecal indicator numbers in the sediments were an order of magnitude higher than in the overlying water. Campylobacter numbers showed seasonal variation in the water with higher counts in winter than in the summer, although numbers were low. Higher numbers were found in the sediments but there was no seasonal variation. Analysis of various inputs showed that indicators and campylobacters came from a mixture of sources, namely a sewage treatment works, agricultural run-off, streams and mallards. Microbial numbers in the water at the Crook O'Lune, which is closer to the sources of pollution, were twice those at the Boathouse. In the sediments they were six to eight times higher. Faecal coliforms were all identified as Escherichia coli of which 80% were a single biotype. Faecal streptococci were all enterococci of which 55% were E. avium, 38%E. faecalis and 7%E. durans. Salmonella was not isolated from either the water column or the sediments. Campylobacters were mainly Camp. jejuni, followed by Camp. coli, UPTC and Camp. lari

Imobilização de nitrogênio da uréia e do sulfato de amônio aplicado em pré-semeadura ou cobertura na cultura de milho, no sistema plantio direto Nitrogen immobilization of urea and ammonium sulphate applied to maize before planting or top-dressing in a no-till system

No segundo ano de estudo, sulfato de amônio (SA) e uréia (U) marcados com 15N foram aplicados na cultura do milho, em sucessão à aveia-preta (Avena strigosa Schieb.), no sistema plantio direto, 33 dias antes e 10 dias depois da semeadura, na dose de 80 kg ha-1 de N, incorporados a 5-7 cm de profundidade, em sulcos espaçados de 0,8 m, nas entrelinhas do milho. O objetivo foi quantificar o N dos fertilizantes imobilizado no solo (15N orgânico), no sulco de adubação, e o N recuperado na planta nos estádios de 4-5 folhas, 11-12 folhas, florescimento e colheita. O delineamento experimental foi de blocos casualizados, efetuando-se a análise de variância em esquema fatorial 2 x 6 em pré-semeadura (duas fontes, U e SA, em seis épocas de amostragem) e 2 x 3 (duas fontes em três épocas de amostragem) em cobertura, com três repetições. O experimento foi realizado em Latossolo Vermelho ácrico típico fase Cerrado subcaducifólio, na Fazenda Floresta do Lobo - Pinusplan, em Uberlândia (MG). Na aplicação em pré-semeadura, a máxima imobilização foi observada aos 22 dias da aplicação do SA (9,1 kg ha-1 ou 11,4 % do N aplicado) e aos 11 dias da aplicação da U (46,5 kg ha-1 ou 58,1 % do N aplicado). Até a colheita, a planta (parte aérea, grãos e raiz) acumulou 66,0 e 47,9 kg ha-1 de N-SA e N-U, respectivamente, correspondendo à eficiência de absorção de 82,5 e 59,9 % do N aplicado. Na aplicação em cobertura, a imobilização do N fertilizante das duas fontes foi inferior a 12,5 % do N aplicado, em todas as fases de crescimento da planta, evidenciando que a biomassa do solo não concorreu com a planta pelo N fertilizante, sendo similar à quantificação realizada na safra 1999/2000. Na média das duas safras (1999/2001) e dos estádios de 11-12 folhas e florescimento, para cada kg de N fertilizante imobilizado, as plantas de milho absorveram 8,9 e 15,4 kg ha-1 de N-SA, em pré-semeadura e cobertura, respectivamente. Para N-U, esses valores foram, respectivamente, de 4,5 e 5,2 kg ha-1, mostrando menor proporção de N-imobilizado de SA, com a aplicação dos fertilizantes em cobertura. As produtividades de grãos obtidas com SA e U, independentemente da época de aplicação, foram de 8.543 e 7.767 kg ha-1, respectivamente. Na adubação em pré-semeadura do milho, o SA apresentou maior rapidez na ciclagem do N imobilizado-mineralizado (turnover), em relação a U, e, conseqüentemente, causou maior absorção do N pela cultura, como verificado na safra anterior. Em cobertura, no sulco de adubação, de forma similar à observada na safra anterior, somente houve imobilização significativa do N-U, retardando sua absorção pela planta.<br>Ammonium sulfate (AS) and urea (U), labeled with 15N, were applied to no-till maize, 33 days before and 10 days after sowing, at a single rate of 80 kg ha-1 of N incorporated 5-7 cm deep along furrows spaced 0.8 m. Corn was sown after black oat (Avena strigosa Schieb.).The amount of immobilized N and of N-fertilizer recovered by corn plants was evaluated at the following plants stages: 4-5 leaves, 11-12 leaves, flowering, and at harvest. Treatments were applied in a randomized block design with three replications. The analysis of variance was performed based on one factorial scheme (2 x 6) with two sources in pre-planting (AS and U) on six sampling dates, and on a second (2 x 3) with two sources in top-dressing on three sampling dates. This field experiment was carried out on a Typic Acrustox in Uberlandia, Minas Gerais state, Brazil. Pre-planting applications resulted in a maximal AS-N immobilization 22 days after fertilizer application (9.1 kg ha-1 or 11.4 % of applied N), whereas the maximum immobilization of U-N occurred 11 days after fertilizer application (46.5 kg ha-1 or 58.1 % of applied N). Until harvest, the plants (aerial part, grains and roots) had accumulated 66.0 and 47.9 of AS-N and U-N, respectively (use efficiency of 82.5 and 59.9 % of applied N). N top-dressing resulted in 12.5 % less N immobilized applied as both sources in all growth stages, evidencing that the soil biomass did not compete with the plants for N-fertilizer, in agreement with results of the growing season 1999/2000. In both growing seasons (1999/2000 and 2000/2001) corn plants assimilated an average 8.9 and 15.4 kg ha-1 of AS-N for each kg of immobilized N-fertilizer from pre-planting and top-dressing, respectively, in the stage of 11-12 leaves and at flowering. For U-N these values were 4.5 and 5.2 kg ha-1, respectively, presenting a lower ratio of immobilized AS-N in top-dressing. Highest corn yields were obtained in the AS treatments (mean grain yield of 8.543 kg ha-1) independent of the application time. Urea treated plants obtained average grain yields of 7.767 kg ha-1 for both application periods. These results show that for pre-planting fertilizers the immobilization-mineralization N turnover was faster in the AS than in the U-N treatment. Consequently, N assimilation by corn plants was higher in the AS treatments. Only U-N was significantly immobilized more also in the second growing season when top-dressed, thus limiting plant N uptake