Microclimate of grass canopies and biomass accumulation are influenced by the use of caged exclosures in grazing research.

Exclosure cages are often used for estimating biomass accumulation on continuously stocked pastures in grazing experiments. The microclimate inside the cages may affect the estimates of biomass accumulation, but this has not been previously identified or quantified. We evaluated how the exclusion from grazing for 21 days in Mulato II brachiariagrass (Brachiaria brizantha × Brachiaria decumbens × Brachiaria ruziziensis) pastures affected canopy air temperature (T) and relative humidity (RH) and how this related to biomass accumulation. We also evaluated the effect of the exclosure cage on wind speed (WS) and incoming solar radiation (SR), and how these impacted evapotranspiration (ET) and estimates of biomass accumulation on grazed canopies maintained at 20- and 30-cm height under continuous stocking. Regardless of canopy height, changes in canopy structure during the exclusion period up to 21 days did not affect T and RH (averages of 24.3 °C and 88.7%, respectively), indicating that the air circulation was not affected by the exclusion. The cage structure reduced SR by 5%, although there were times during clear days when SR was slightly greater inside the cage than outside. The cage also reduced WS by 4.4%. Smaller SR and WS resulted in less ET inside the cages than outside, although with close values (2.9 vs. 3.0 mm day-1; P = 0.0494). The biomass accumulation rate was greater inside than outside the cages for both canopy heights. This overestimation would be 5.8 and 9.7% greater if the structure of the cage did not reduce the SR, WS, and ET.

Aveia preta e azevém anual colhidos por interceptação de luz ou intervalo fixo de tempo em sistemas integrados de agricultura e pecuária no Estado de São Paulo / Black oats and annual ryegrass harvested by light interception or fixed rest interval in integrated crop-livestock systems in São Paulo State, Brazil

Objetivou-se caracterizar o potencial produtivo, a distribuição mensal, a composição morfológica e botânica da forragem de aveia preta e de azevém anual submetidos a estratégias de manejo de corte no estado de São Paulo. O delineamento experimental foi inteiramente casualizado, com tratamentos correspondendo a combinações entre formas de cultivo (aveia e azevém exclusivos ou combinados) e estratégias de colheita (cortes com 95% de interceptação de luz (IL) ou intervalo FIXO de 30 dias de rebrotação), em arranjo fatorial com três repetições. Os estandes colhidos por IL acumularam 1580kg MS ha-1 corte-1, e os por FIXO 2020kg de MS ha-1 corte-1. A proporção de folhas foi maior no azevém (70%), seguido do cultivo combinado (64%) e depois pela aveia (52%). Entre os manejos, a IL resultou em maiores proporções de folha e menor proporção de colmos que o FIXO. A proporção de azevém foi de 64%, sob o manejo por IL, e 70% no manejo por descanso FIXO. Ao longo do tempo, ocorreu a substituição da aveia pelo azevém na composição do dossel combinado. Ambas as estratégias de manejo podem ser adotadas para essas forrageiras de inverno em sistemas de integração agricultura e pecuária, com vantagem para o azevém.

The objective in this study was to characterize the productive potential, monthly yield distribution, and forage plant-part and botanical composition of black oats and annual ryegrass under harvest strategies in São Paulo. The experimental design was completely randomized with treatments corresponding to the combination among stand composition (exclusive oats, exclusive annual ryegrass, or oats + ryegrass, O+R) and harvest strategies (at 95% LI or every 30 days of regrowth, FIXED), in a factorial arrangement with three replications. Stands managed by LI accumulated 1580kg DM ha-1 harvest-1, and those managed by FIXED 2020kg DM ha-1 harvest-1. Leaf proportion was higher in ryegrass (70%), followed by O+R (64%) and oat (52%). Swards managed by LI had higher proportion of leaves and less stem than those harvested at FIXED intervals. The proportion of ryegrass was higher under the LI management (64%), than under the FIXED (70%). Over time there was the replacement of oats by ryegrass in the mixed canopy composition. Exclusive ryegrass stands are recommended. Both harvest strategies can be adopted for these winter forages in integrated systems of agriculture and livestock.

Método alternativo para cálculo da temperatura base de gramíneas forrageiras / Alternate method to compute the base temperature of forage grasses

O conhecimento da temperatura abaixo da qual o crescimento das plantas cessa, a temperatura base (Tb), é de grande importância na avaliação do potencial produtivo de um recurso vegetal em uma determinada área e na correta inserção de uma cultura em um sistema de produção, em especial no caso de espécies forrageiras perenes. Objetivou-se, no presente trabalho, avaliar um novo método para a determinação dessa temperatura base, usando não apenas a temperatura média do ar, mas também o fotoperíodo na forma de uma variável climática denominada de unidade fototérmica (UF) como variável preditora da Tb. Usando-se dois ciclos de rebrotação e as suas respectivas quantidades de forragem acumulada, pode-se calcular o valor da Tb se as relações entre produção de forragem e acúmulo de UFs em cada período forem as mesmas. Dados de produtividade de duas diferentes espécies forrageiras, capim-elefante (Pennisetum purpureum Schum. cv. Napier) e grama-estrela (Cynodon nlemfuensis Vanderyst var nlemfuensis cv. Florico), provenientes de dois diferentes experimentos, foram usados para avaliar o método de cálculo proposto, obtendo-se valores de Tb de 15 e 12°C para as duas espécies, respectivamente. Esses valores são consistentes com os apresentados na literatura, o que comprova a eficiência do método proposto.

The assessment of the temperature below which plant growth ceases, known as base temperature (Tb) is key in for establishing the potential yield of a plant resource at a given location, and for quantifying the fitness of a given crop for a given production system. Whereas this is widely recognized, it is especially true in the case of perennial crops such as many of the forage species. This present study was aimed at developing, evaluating, and proposing a new methodological approach for the calculation of the Tb of forage crops, using both temperature and daylength, as a climatic variable named photothermal unit (PU). By using two regrowth cycles and their respective amounts of forage accumulated, the value of Tb can be calculated if the proportion between harvested yields and accumulated PUs of both regrowth cycles are the same. Yield data from two forage grass species, elephantgrass (Pennisetum purpureum Schum. cv. Napier) and Florico stargrass (Cynodon nlemfuënsis Vanderyst var. nlemfuënsis), from two field trials were used to test the proposed approach. Calculated Tb values were 15 and 12°C for elephantgrass and stargrass, respectively. These values are consistent with those generated by the classic method and reported in the literature.