RESUMOAs substâncias húmicas podem influenciar direta ou indiretamente o metabolismo das plantas, alterando assim o seu crescimento. O objetivo deste trabalho foi avaliar o efeito de substâncias húmicas (SH) no crescimento e na concentração de nutrientes em plantas de feijão (Phaseolus vulgaris, L.) e nos parâmetros cinéticos de absorção de K. O experimento foi realizado em bancada de laboratório, com luz artificial. As plantas cresceram em vasos contendo solução nutritiva completa acrescida de cinco doses (0; 2,5; 5; 10; e 20 mg L -1 de C) de SH solúveis em meio alcalino (ácido húmico + ácido fúlvico), extraídos de amostra de carvão mineral da mina de Candiota, RS, da Companhia Riograndense de Mineração, num delineamento completamente ao acaso, com três repetições. Aos 28 dias de cultivo, foram avaliados parâmetros cinéticos de absorção de K, massa da parte aérea e da raiz seca, teores de N, P, K, Ca e Mg no tecido da parte área e as características morfológicas de raízes (comprimento, área e raio). Os resultados evidenciaram que a adição de SH extraída de carvão mineral estimulou o crescimento do feijão e afetou a cinética de absorção de K. A produção de massa da parte aérea seca das plantas mostrou resposta quadrática à adição de substâncias húmicas, atingindo valor máximo na dose equivalente a 11 mg L -1 de(1) Recebido para publicação em outubro de 2008 e aprovado em maio de 2009.
IVTeor e qualidade de substâncias húmicas de planossolo sob diferentes sistemas de cultivo RESUMO de 0-0,025, 0,025-0,05, 0,05-0,20m
Este trabalho teve por objetivo avaliar e comparar os teores e as características químicas das substâncias húmicas (SHs) de um Planossolo háplico submetido a diferentes sistemas de cultivos de arroz. Amostras de solo foram coletadas em um experimento de longa duração (19 anos) nas profundidades
Rice yield increases in response to improvements in crop management, but the impact on greenhouse gas (GHG) emissions in the subtropical region of Southern Brazil remains unknown. A three-year field study was developed aiming to evaluate the impact that an increase in crop management levels (high and very high) has on soil methane (CH 4) and nitrous oxide (N 2 O) emissions, as compared to the level (medium) currently adopted by farmers in Southern Brazil. Differences in crop management included seed and fertilizer rates, irrigation, and pesticide use. The effect of crop management levels on the annual partial global warming potential (pGWP = CH 4 × 25 + N 2 O × 298) ranged from 7,547 to 17,711 kg CO 2 eq ha-1 and this effect was larger than on the rice grain yield (9,280 to 12,260 kg ha-1), resulting in approximately 60 % higher yield-scaled GHG with the high crop management level compared to the current level. Soil CH 4 emissions accounted for 98 % of pGWP in the flooded rice season, whereas N 2 O prevailed during the drained non-rice season (≈65 %). Although it was impossible to relate emissions to any individual input or practice, soil CH 4 emissions in the rice season were linearly related to the biomass produced by the rice crop (p<0.01) and by ryegrass in the previous non-rice season (p<0.1), both of which were possibly related to the supply of labile C for methanogenesis. A future increase in rice yield as a result of the adoption of improved crop management may require additional agricultural practices (e.g., intermittent irrigation) to offset the increased GHG emissions.
After open coal mining, soils are “constructed”, which usually contain low levels and quality of organic matter (OM). Therefore, the use of plant species for revegetation and reclamation of degraded areas is essential. This study evaluated the distribution of carbon (C) in the chemical fractions as well as the chemical characteristics and humification degree of OM in a soil constructed after coal mining under cultivation of perennial grasses. The experiment was established in 2003 with the following treatments: Hemarthria altissima (T1), Paspalum notatum (T2), Cynodon dactilon (T3), Urochloa brizantha (T4), bare constructed soil (T5), and natural soil (T6). In 2009, soil samples were collected from the 0.00-0.03 m layer and the total organic carbon stock (TOC) and C stock in the chemical fractions: acid extract (CHCl), fulvic acid (CFA), humic acid (CHA), and humin (CHU) were determined. The humic acid (HA) fraction was characterized by infrared spectroscopy and the laser-induced fluorescence index (ILIF) of OM was also calculated. After six years, differences were only observed in the CHA stocks, which were highest in T1 (0.89 Mg ha-1) and T4 (1.06 Mg ha-1). The infrared spectra of HA in T1, T2 and T4 were similar to T6, with greater contribution of aliphatic organic compounds than in the other treatments. In this way, ILIF decreased in the sequence T5>T3>T4>T1>T2>T6, indicating higher OM humification in T3 and T5 and more labile OM in the other treatments. Consequently, the potential of OM quality recovery in the constructed soil was greatest in treatments T1 and T4.
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