Production of Aruana Guinea Grass Submitted to Cutting Severities and Nitrogen Fertilization

Aruana Guineagrass (Panicum maximum Jacques cv. Aruana) is widely used as pasture for sheep, which are extremely susceptible to infestation by larvae of gastrointestinal parasites in tropical pasture-based systems (Zanini et al. 2012) A way to mitigate this problem, and consequently reduce the need for use of anthelmintics, is by managing pastures with post-grazing height low enough to favor the incidence of sunlight at the base of tussocks that will kill and control larval development, without jeopardizing canopy regrowth and persistence. The pre-grazing sward height recommended for Aruana Guineagrass is 30 cm, when the canopy intercepts 95% of the incident light, and a 15 cm post-grazing height (Zanini et al. 2012). As cutting severity and nitrogen (N) fertilization cause morphological and physiological adaptations in individual plants - altering the production of forage grasses - the objective of this study was to evaluate the accumulation of morphological components of Aruana Guineagrass subjected to cutting severities and N fertilization

Crescimento de folhas do capim-bermuda tifton 85 submetido à adubação nitrogenada após o corte Leaf growth of tifton 85 bermudagrass submitted to nitrogen fertilization after cutting

Com o objetivo de avaliar a influência de doses e épocas de aplicação de nitrogênio após o corte no fator de correção de área foliar, na taxa de alongamento de folhas e no comprimento e área da lâmina foliar do capim-bermuda tifton 85 (Cynodon spp) foram conduzidos dois experimentos em casa de vegetação. Ambos os experimentos foram estabelecidos em vasos com capacidade para 7 kg de terra, com solo classificado como Neossolo Quartzarênico Órtico típico, em esquema fatorial 4 × 2, para avaliação de quatro doses de nitrogênio (0, 80, 160 e 240 mg kg-1 de solo) e duas épocas de aplicação (imediatamente após o corte e sete dias após o corte das plantas). O delineamento experimental foi em blocos completos ao acaso, com quatro repetições. Com o fornecimento de nitrogênio, observou-se diminuição no fator de correção de área foliar. O nitrogênio proporciona variação positiva no comprimento foliar, na área da lâmina foliar e na taxa de alongamento da folha, variações que ocorreram em maior grandeza entre a não-aplicação de nitrogênio e a dose de 80 mg kg-1 de solo.<br>With the objective of evaluating the influence of nitrogen rates and application time after cutting on correction factor for leaf area, on leaf elongation rate and on blade leaf length and area of tifton 85 bermudagrass (Cynodon spp), two experiments were carried out in a greenhouse. Both experiments were established in pots with capacity for 7 kg of soil classified as Entisol, in a 4 × 2 factorial scheme, for evaluation of four nitrogen rates (0, 80, 160 and 240 mg kg-1 of soil) and two application times (immediately after cutting and seven days after cutting of the plants). It was used a complete randomized block design, with four replications. As nitrogen was supplied, it was observed a decrease in the correction factor for leaf area. There is a predominance of positive effects of nitrogen on leaf length, on leaf blade area and on leaf elongation rate. Great nitrogen effect was observed when comparying no-nitrogen application with the rate of 80 mg kg-1 of soil