Morphogenetic and structural comparative characterization of tropical forage grass cultivars under free growth
Understanding of the morphogenetic characteristics allows comprehension of aspects related to the form and function of forage plants, providing opportunities to identify potentially high productive plants and distinct defoliation management requirements. The objective of this experiment was to carry out a comparative study of ten tropical forage grasses using morphogenetic and structural variables. Treatments corresponded to grasses of the Panicum genus (P. maximum cultivars Tanzânia and Mombaça) and the Brachiaria genus (B. brizantha cultivars Piatã, Marandu, Xaraés, Capiporã and Arapoty; B. decumbens cultivar Basilisk; B. humidicola cultivars Comum and Tupi), evaluated under free growth conditions.. Response variables were leaf appearance and elongation rates, phyllochron, stem elongation rate, final leaf length, number of live leaves per tiller, leaf life span and tiller appearance, death and survival rates. There was difference between cultivars for these variables, indicating a large variability within plants. Considering the morphogenetic and structural variables of leaves and tillers, B. brizantha had a similar pattern of variation to those of P. maximum, and B. Decumbens, similar to those of B. humidicola. Tiller appearance was large at the onset of the experiment and second and third generations comprised the large majority of tiller population for the cultivars Mombaça, Tanzânia, Xaraés and Capiporã. Group analysis based on plant morphogenetic and structural characteristics of leaves and tillers was an interesting way of grouping cultivars, indicating the importance and the potential of using morphogenesis in plant selection and evaluation programmes.
-It was evaluated the morphogenic and structural characteristics of guinea grass under rotational at three grazing intervals and two defoliation intensities. Grazing intervals corresponded to the time needed by the forage canopy to reach 90, 95 or 100% of incident light interception during regrowth and they were evaluated combined to two defoliation severities (post-grazing conditions, 25 and 50 cm of height), being allocated to experimental units according to a complete randomized design, with three replicates and 3 × 2 factorial arrangement. The experiment was conducted from July 2003 to May 2004. For evaluation of morphogenetic and structural characteristics, ten tillers per experimental unit were selected. Morphogenetic and structural characteristics were strongly influenced by seasons of the year inasmuch as leaf elongation rate increased 3.5 fold from winter to summer. In addition to year season effect, there was also an effect of defoliation frequencies on tiller population density, which was greater in the defoliation period corresponding to 90% of light interception, especially if evaluated in relation to the interval corresponding to 100% of light interception. Defoliation frequency is determinant in expression of phenotypic plasticit, acting on the control of stem elongation.Key Words: canopy height, grazing management, light interception, Panicum maximumCaracterísticas morfogênicas e estruturais de pastos de capim-tanzânia submetidos a três frequências e duas severidades de desfolhação RESUMO -Foram avaliadas as características morfogênicas e estruturais do capim-tanzânia sob lotação rotativa em três intervalos de pastejo e duas severidades de desfolhação. Os intervalos de pastejo corresponderam aos tempos necessários para que o dossel forrageiro atingisse 90, 95 ou 100% de interceptação da luz incidente, durante a rebrotação e foram avaliados em combinação a duas severidades de desfolhação (condições pós-pastejo, 25 e 50 cm de altura), sendo alocados às unidades experimentais segundo um delineamento de blocos completos casualizados, com três repetições e arranjo fatorial 3 × 2. O experimento foi realizado de julho de 2003 a maio de 2004. Para avaliação das características morfogênicas e estruturais, foram selecionados dez perfilhos por unidade experimental. As características morfogênicas e estruturais foram fortemente influenciadas pelas épocas do ano, uma vez que a taxa de alongamento de folhas aumentou 3,5 vezes do inverno para o verão. Além do efeito da época do ano, também houve efeito das frequências de desfolhação sobre a densidade populacional de perfilhos, que foi maior no intervalo de desfolhação correspondente a 90% da interceptação luminosa, principalmente se avaliado em relação ao intervalo correspondente a 100% da interceptação luminosa. A frequência de desfolhação é determinante na expressão da plasticidade fenotípica, principalmente por influenciar na densidade populacional de perfilhos, atuando no controle do alongamento dos colmos.Palavras-chave: altura do dossel, intercep...
-The objective of this study was to evaluate the mass of the forage and of the morphological components, and the sward structure in Piata palisadegrass (Brachiaria brizantha cv. Piata) deferred in function of different initial heights and nitrogen levels. Two levels of nitrogen (75 and 150 kg/ha) and one control without fertilization associated to three initial deferring heights (20, 30, and 40 cm) were evaluated. The design was of completely randomized blocks with three replications in a subdivided plot scheme. A raise in the initial deferment height and in the fertilization elevated the sward and extended tiller heights, the leaf area index, and the light interception by the sward. The piata palisadegrass deferred with an initial height of 40 cm presented a higher forage mass with lower percentage of leaf blades, and higher stem and dead tissue quantity.Additionally, this management strategy resulted in lower bulk density of leaf blade and in higher bulk densities of stems and dead tissue. The utilization of 150 kg/ha of nitrogen raised the production and the bulk density of deferred piata palisadegrass forage and increased production and bulk density of leaves and stems. In the region of Viçosa, Minas Gerais, the piata palisadegrass deferred with an initial height of 30 cm and fertilized with 75 kg/ha of nitrogen in the beginning of the fall presents adequate mass and structure to animal production in the winter.
Piata palisade grass deferred with two distinct initial heights: luminous environment and tillering dynamics
The study was carried out between March 1st and July 1st, 2011, in order to evaluate the tillering pattern of the deferred Piata palisade grass (Brachiaria brizantha cv. Piata). Three sward heights were evaluated in the beginning of the period of deferment: lower (20 cm), medium (30 cm) and higher (40 cm). The experimental design was of completely randomized blocks with three replications. The Piata palisade grass deferred with low initial height presented lower leaf area index, lower light interception and higher leaf angle in relation to the ones deferred with medium and high heights. The advance in the period of deferment increased the leaf area index and the light interception by the sward, in a way that the highest values were recorded in the periods from 91 and 120 days. The leaf angle reduced linearly with the advance in the period of deferment. For basal and aerial tillers, the rates of appearance, mortality and survival of tillers, as well as the balance between appearance and mortality, and the tiller density stability index were not affected by the initial height of the sward. The stability index of the tiller density was lower in the period from 1 to 30 days of deferment in relation to the periods from 31 to 60, from 61 to 90 and from 91 to 120 days. The variation of the initial height of the Piata palisade grass does not influence the tiller density dynamics during the period of deferment. The reduction of the initial height of the Piata palisade grass improves the luminous environment inside the sward, but it does not stimulate the grass tillering during the period of deferment.
Morphogenetic and structural characteristics of guinea grass tillers at different ages under intermittent stocking
The objective of this research was to assess morphogenetic and structural characteristics of tillers of guinea grass cv. Tanzania at different ages. The pastures of guinea grass were managed in six pasture conditions related to the combination of three frequencies (90, 95, and 99% light interception) and two post-grazing heights (25 and 50 cm). In these six pastures conditions, three tiller ages were evaluated (young, mature, and old). The design was of completely randomized block with three replications. Young tillers exhibited higher leaf appearance rate and leaf elongation rate and, consequently, higher final leaf length and number of live leaves than mature and old tillers, regardless of the pasture condition. On pastures managed with 90 or 95% light interception associated with a post-grazing height of 25 cm, old tillers presented longer leaf lifespan than young and mature ones. There is a progressive reduction in the vigor of growth of pastures of guinea grass cv. Tanzania with advancing tiller age
-This study was conducted in order to evaluate the morphogenetic and structural characteristics of guinea grass cv. Mombasa under three post-grazing heights (intense -30 cm, lenient -50 cm and variable -50 in springsummer and 30 cm in autumn-winter) when sward light interception reached 95% during regrowth. Post-grazing heights were allocated to experimental units (0.25 ha) in a completely randomized block design with three replications. Postgrazing heights affected only leaf elongation rate and the number of live leaves. Pastures managed with variable postgrazing height showed higher leaf elongation rate in the summer of 2007. This management strategy also resulted in a higher number of live leaves. During the spring of 2006, plants showed lower leaf elongation rate, leaf appearance rate and number of live leaves, and greater phyllochron and leaf lifespan. In contrast, during the summer of 2007, the leaf appearance rate, leaf elongation rate, number of live leaves, and final leaf length were greater while phyllochron, stem elongation rate, and leaf senescence rate were lower. The management of the guinea grass cv. Mombasa with intense or variable post-grazing height throughout the year seems to represent an interesting management target, in terms of leaf appearance rate and number of live leaves.
Objetivou-se neste trabalho avaliar as características bromatológicas de silagens de milho produzidas com milho em diversos estádios de maturação. Utilizou-se delineamento experimental de blocos casualizados, com quatro repetições, em esquema de parcelas subdivididas no tempo. Os cultivares Geneze 2004, Agroceres 1051, Pioneer 30S40 e Pioneer 30F90 foram ensilados nos seguintes estádios de maturação: grãos sem linha de leite (SLL); redução da linha de leite em 1/3 do grão (1/3 LL); 1/2 do grão (1/2 LL); 2/3 do grão (2/3 LL); e camada negra (CN) formada. A porcentagem de MS das silagens variou de 26,5 a 45,0%. As maiores perdas de efluente ocorreram nas silagens dos cultivares AG1051 e P30S40 no estádio sem linha de leite, que não apresentaram perdas a partir do estádio 1/2 LL. Com o avançar do estádio de maturação, observou-se aumento nos valores de pH. Os estádios de maturação influenciaram a porcentagem de PB das silagens, que variou de 10,7 a 8,1%. Os maiores valores de fibra em detergente neutro (FDN) e fibra em detergente ácido (FDA) foram observados nos estádios 2/3 LL e CN. A porcentagem de lignina foi influenciada pelos cultivares e foi maior nas silagens do cultivar P30S40. A digestibilidade in vitro da matéria seca (DIVMS) foi influenciada pelos cultivares e pelos estádios de maturidade, variando de 51,1 a 69,8%, e foi maior no cultivar P30F90. A ensilagem do milho no estádio 1/2 LL promoveu melhor DIVMS, que reduziu após este estádio. Os cultivares GNZ 2004, AG1051 e P30F90 são mais indicados para ensilagem e o melhor estádio de maturidade para ensilagem desses cultivares é quando os grãos apresentam redução da linha de leite na metade do grão (1/2 LL).
Tillering dynamics in pastures of guinea grass subjected to grazing severities under intermittent stocking
which may be important to maximize the use of the forage species in the production system.
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