Resumen: Los árboles dispersos en pastizales son una fuente importante de nutrientes, reciclados a través de la hojarasca que los árboles liberan anualmente. El objetivo de este trabajo fue evaluar la descomposición y liberación de nutrientes de la hojarasca de Vachellia pennatula y Lysiloma acapulcense, en un clima cálido subhúmedo. Se colocaron bolsas de descomposición y se monitoreó la humedad del suelo y temperatura ambiental bajo el dosel de los árboles y en áreas abiertas durante 32 semanas. Se utilizó un diseño de bloques al azar y se modeló la descomposición de hojarasca en cuatro tratamientos: sombra de L. acapulcense con hojarasca de L. acapulcense (1) o de V. pennatula (2); sombra de V. Pennatula con hojarasca de L. acapulcense (3) o de V. pennatula (4). Se determinó la composición química de la hojarasca. Los parámetros de calidad evaluados (relación C/N, lignina, celulosa y hemicelulosa) fueron buenos predictores del proceso de descomposición. La hojarasca remanente a las 32 semanas fue similar en todos los tratamientos (P = 0.999). En el proceso de descomposición, la constante (k) osciló entre -0.00090 y -0.00096, que denota lenta descomposición (t50 = 1.98-2.11 años, t99 = 13.2-14.0 años). El nitrógeno y el fósforo aumentaron al final del experimento debido a la probable inmovilización de estos nutrimentos por microorganismos asociados (hongos y bacterias). La descomposición y liberación de nutrientes de la hojarasca de V. pennatula y L. acapulcense en este ambiente cálido subhúmedo es relativamente lenta, independientemente del microclima generado por la sombra.

Abstract Scattered trees in pastures are an important source of nutrients recycled through leaf litter released annually. The objective was to assess the decomposition and nutrient release by leaf litter from Vachellia pennatula and Lysiloma acapulcense in a sub-humid warm climate Decomposition litterbags were set under the canopies and then collected, and soil humidity and temperatura were measured over a 32-week period. A randomized block design was used, and litter decomposition was modeled in four treatments: litter from L. acapulcense under shade from L. acapulcense (1), litter from V. pennatula under shade from L. acapulcense (2), litter from L. acapulcense under shade from V. pennatula (3), and litter from V. pennatula under shade from V. pennatula (4). Chemical composition of leaf litter was assessed. Chemical composition of leaf litter was assessed. Chemical composition variables evaluated (C/N ratio, lignin, cellulose, and hemicellulose) were good predictors of decomposition. Remnant leaf litter at 32 weeks was similar in all treatments (P = 0.999). The decomposition rate (k) ranged from -0.00090 to -0.00096 across treatments, showing a low decomposition rate (t50 = 1.98-2.11 yr, t99 = 13.2-14.0 yr), where only litter fragmentation took place during the 32-week period, across decomposition conditions. Nitrogen and P increased at the end of the study suggesting nutrient sequestration by microorganisms (e.g. fungi and bacteria) associated with the litter during the study period. Litter decomposition and nutrient release from these tree species which have a high C/N ratio are relatively slow under sub-humid warm climate conditions.

Resumo As flores tropicais têm um mercado crescente, devido ao seu aspecto exótico, sendo necessárias técnicas para prolongar a sua vida útil. Assim, este estudo buscou avaliar a eficácia do uso de cera e ácido salicílico (1 mM) em hastes de Heliconia wagneriana armazenadas em baixa temperatura, a fim de reduzir as lesões por frio e prolongar a vida de vaso. Para isso, 120 hastes foram colhidas em uma área comercial. Destas, 60 hastes foram enceradas e secas ao ar; enquanto que 60 hastes não-enceradas serviram como controle. Em seguida, 2 grupos de 48 hastes, tanto enceradas quanto do controle, foram armazenadas a 13 °C e UR de 84% por 5 e 10 dias. Após o armazenamento, as hastes foram colocadas em solução de ácido salicílico (1 mM) ou água. As hastes restantes (12 enceradas e 12 controle) foram mantidas em temperatura ambiente. As variáveis avaliadas foram características anatômicas, perda de massa fresca, consumo de solução, vida de vaso, atividade enzimática (polifenol oxidase e peroxidase) e integridade de membrana. O enceramento manteve o peso fresco e prolongou a vida de vaso das hastes armazenadas em vaso em temperatura ambiente por até mais 2 dias. A vida de vaso das hastes refrigeradas de 5 e 10 dias estendeu-se por 3 e 2 dias a mais, respectivamente, em relação às hastes controle. Nenhum efeito significativo foi observado para o uso de ácido salicílico (1 mM). O tecido das hastes enceradas apresentou menor atividade enzimática, refletindo em menor estresse oxidativo em relação ao controle. Espécies tropicais como as helicônias apresentam baixa absorção de água, sendo recomendado o uso de recobrimento de cera para preservar a turgidez e a vida útil das hastes.

Abstract Tropical flowers have a growing market due to their exotic appearance and thus postharvest techniques are necessary to prolong their shelf life. The objective of this study was to evaluate the effectiveness of wax and salicylic acid (1 mM) in reducing chilling injury and increase the vase life in stems of Heliconia wagneriana stored at low temperature. For that, 120 stems were harvested in a commercial area. From these, 60 stems were waxed and air-dried; while 60 unwaxed stems served as controls. Then 2 groups of 48 stems from both treated and control were cold-stored at 13 °C and 84 % RH for 5 and 10 days. After storage, the stems were placed either in salicylic acid solution (1 mM) or tap water. The remaining stems (12 waxed and 12 control) were kept at room temperature. The variables evaluated were anatomical characteristics, fresh weight loss, solution uptake, vase life, enzymatic activity (polyphenol oxidase and peroxidase), and membrane integrity. The wax coating maintained the fresh weight and extended the vase life of the stored stems under room temperature for up to 2 more days. The vase life of the cold-stored stems of 5 and 10 days was extended by 3 and 2 more days respectively, as compared to the control. No significant effect was observed for the use of salicylic acid (1 mM). The bracts tissue of the waxed stems showed lower enzymatic activity, reflected in lower oxidative stress compared to the control. Tropical species as heliconia present a very low water absorption, then the use of wax coating is recommended to preserve the turgidity and shelf life of the stems.