Abstract
Wooded pastures serve as a traditional source of forage in Europe, where forest grazing is valued as an efficient tool for maintaining the diversity of semi-natural habitats. In a forest grazing setting with diverse diet composition, assessing the energy content of animal diets can be a difficult task because of its dependency on digestibility measures. In the present study, prediction equations of metabolizable energy (ME) were obtained performing stepwise regression with data (n = 297; 44 plant species) on nutritional attributes (Acid Detergent Fiber, lignin, silica, dry matter, crude protein, in vitro organic matter digestibility) from 20 representative stands of Atlantic dry heathlands and pedunculate oak woodlands. The results showed that the prediction accuracy of ME is reduced when the general model (R2 = 0.64) is applied, as opposed to the use of the specific prediction equations for each vegetation type (R2 = 0.61, 0.66, 0.71 for oak woodlands; R2 = 0.70 heather-gorse dominated heathlands, R2 = 0.41 continental heathlands). The general model tends to overestimate the ME concentrations in heaths with respect to the observed ME values obtained from IVOMD as a sole predictor, and this divergence could be corrected by applying the specific prediction equations obtained for each vegetation type. Although the use of prediction equations by season would improve accuracy in the case of a Winter scenario, using the general model as opposed to the prediction equations for Spring, Summer or Fall would represent a much smaller loss of accuracy.
Highlights
The variation in acid detergent fiber (ADF), lignin and cellulose contents for each vegetation type was smaller than the metabolizable energy (ME) oscillations, especially for heathlands (CV between 9.6–17%)
The crude protein (CP) contents and CP variation found in continental heathlands (50.9 and 86.8 g/kg dry matter (DM), coefficient of variation (CV) = 14%) were more minor than in oak woodlands and Atlantic heathlands
We found that the content of ADF in combination with lignin or silica, as well as with DM, can be optimal predictors of ME for the understory of oak woodlands; in the case of heathlands, CP joined ADF and silica as a significant ME
Summary
Grazing is one of the influential and sustainable management interventions for shaping and maintaining semi-natural habitats and promoting greater biodiversity and multifunctionality in forest understory and heathlands [1,2,3,4]. For example, can decrease gorse dominance and promote heath composition in Atlantic heathlands [4,5,6], which are prized for their biodiversity, aesthetic and cultural value, and supported by the European Union (EU) within the High Nature Value farming framework. Grazing oak woodlands is included as a type of silvopasture that has been practiced throughout the ages across Europe and has gained growing recognition in the last decades [7,8,9,10,11,12]
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