Botanical composition gradients in silvopastoral systems on temperate native grasslands of Uruguay

Silvopastoral systems may provide important production and environmental benefits. The loss of cool-season (C3) grasses from temperate grazed native grasslands is associated with selective grazing and excessive solar radiation that limit their survival. Silvopastoral systems integrate trees with gra...

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Veröffentlicht in:	Agroforestry systems 2024-10, Vol.98 (7), p.2055-2068
Hauptverfasser:	Pizarro, D. M., Zarza, R., Boggiano, P., Cadenazzi, M., Picasso, V. D.
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Sprache:	eng
Schlagworte:	Acacia Agriculture agroforestry Axonopus fissifolius Biomedical and Life Sciences botanical composition Bromus catharticus C3 plants canopy cattle cold season Composition effects ecosystems Eucalyptus Forestry Grasses Grasslands herbaceous plants Indigenous species Information processing Life Sciences Lolium multiflorum Nutritive value Paspalum notatum Pasture pastures Plant species Prosopis Seasons Shade Solar radiation Solonetz species Stipa Trees Uruguay warm season
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container_end_page	2068
container_issue	7
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container_title	Agroforestry systems
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creator	Pizarro, D. M. Zarza, R. Boggiano, P. Cadenazzi, M. Picasso, V. D.
description	Silvopastoral systems may provide important production and environmental benefits. The loss of cool-season (C3) grasses from temperate grazed native grasslands is associated with selective grazing and excessive solar radiation that limit their survival. Silvopastoral systems integrate trees with grasslands that provide shade to both cattle and herbaceous plants, potentially favoring C3 species. There is limited information about the effect of trees on the species and functional composition of native grasslands in the Campos biome in South America. The objective of this study was to detect gradients in the botanical composition of grasslands as affected by changes in the shade associated with distance to the trees and cardinal orientation in three situations defined by the combination of soil and tree species ( Prosopis on Solonetz, Acacia on Brunisols, and Eucalyptus on Brunisols). Soil cover of the herbaceous species under trees was recorded in double transects located in the four cardinal directions. In all situations there were changes in pasture composition in the different shaded regions (total shade, partial shade, or full sun). Under the canopy, there was an increase of cool-season grasses such as Bromus catharticus Vahl , Lolium multiflorum Lam. , Stipa hyalina (Nees) Barkworth , and S. setigera J.Presl. At greater distances from trees, cover of warm-season grasses, such as Axonopus affinis Chase and Paspalum notatum Flueggé increased. These gradients suggest that trees in silvopastoral systems can increase the abundance of cool-season species and potentially improve the forage nutritive value of the native pasture.
doi_str_mv	10.1007/s10457-024-01027-1
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subjects	Acacia Agriculture agroforestry Axonopus fissifolius Biomedical and Life Sciences botanical composition Bromus catharticus C3 plants canopy cattle cold season Composition effects ecosystems Eucalyptus Forestry Grasses Grasslands herbaceous plants Indigenous species Information processing Life Sciences Lolium multiflorum Nutritive value Paspalum notatum Pasture pastures Plant species Prosopis Seasons Shade Solar radiation Solonetz species Stipa Trees Uruguay warm season
title	Botanical composition gradients in silvopastoral systems on temperate native grasslands of Uruguay
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