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Full-Text Articles in Life Sciences
Anatomic And Chemical Traits, And In Vitro Digestibility Of Three Tropical Grasses, S Queiroz, Jose Alberto Gomide, Jose Maria
Anatomic And Chemical Traits, And In Vitro Digestibility Of Three Tropical Grasses, S Queiroz, Jose Alberto Gomide, Jose Maria
IGC Proceedings (1997-2023)
Single linear correlation was established between in vitro dry matter digestibility (IVDMD) and contents of chemical entities as well as proportion of different tissues. Top and bottom leaves were sampled from Jaraguagrass, setariagrass and dwarf elephantgrass. Among the chemical entities, lignin showed better correlation with IVDMD. The proportion of sclerenchyma in the samples of stem and leaf lamina from the top layer and the parenchymall cells in the leaf sheath showed highly significant correlations with the IVDMS NDF content correlated positively with percentage of sclerenchyma, lignified vascular tissues and parenchyma bundle sheath, but negatively with percentage mesophyll and epidermis tissues. …
Anatomy Of Forage Plant Parts In Relation To Digestion, P Rezvani Moghaddam, D Wilman
Anatomy Of Forage Plant Parts In Relation To Digestion, P Rezvani Moghaddam, D Wilman
IGC Proceedings (1997-2023)
The objective of this study was to contribute some quantitative information regarding the proportion of cell types and the thickness of cell walls in different plant parts of three major forage species, lucerne (Medicago sativa L.), tall fescue (Festuca arundinacea Schreb.) and maize (Zea mays L.). All plant parts examined contained a significant proportion of cell types with walls which appeared too thick to be completely degraded during the time which plant particles are likely to spend in the rumen; this applied particularly to lucerne stems and maize leaf blades.
Qualitative Parameters Of Two Cultivare Of Panicum Maximum, Jacq. Under Grazing, B Lempp, J.M B. Ezequiel, J.M Dos Dantos, A H. Zimmer, V Favorette, C F. Damiao, F.J W. Cattelan, L.F C. Defigueuredo, A P. Martins Jr
Qualitative Parameters Of Two Cultivare Of Panicum Maximum, Jacq. Under Grazing, B Lempp, J.M B. Ezequiel, J.M Dos Dantos, A H. Zimmer, V Favorette, C F. Damiao, F.J W. Cattelan, L.F C. Defigueuredo, A P. Martins Jr
IGC Proceedings (1997-2023)
Two Panicum maximum cultivars were studied with respect to forage leaf blade availability and extrusa through chemical parameters, tissue proportion and degradation. It was concluded by observing digestive residues that the studies qualitative parameters did not show indication of higher fragility of the cultivar ‘Aruana’ in relation the cultivar ‘Vencedor’.
Leaf Anatomy And Ultrastructure Of Poa Ligularis After Defoliation And Water Stress, M G. Klich, R E. Brevedan, S C. Villamil
Leaf Anatomy And Ultrastructure Of Poa Ligularis After Defoliation And Water Stress, M G. Klich, R E. Brevedan, S C. Villamil
IGC Proceedings (1997-2023)
The objective of this study was to determine the effect of defoliation and water stress on leaf anatomy and the mesophyll cell ultrastructure of Poa ligularis. Anatomical differences were detected mainly at epidermal level. Under water stress, leaf roughness was enhanced since the epidermal-cell surface contours became conspicuous. Under defoliation the microscopic roughness decreased as a result of fewer epicuticular wax crystals being formed. Defoliation produced an enhancement of the interlamellar spaces in the irrigated plantís chloroplast. Under no defoliation conditions, chloroplast structure was not affected by water stress. When subjected to water stress, lightly defoliated plants presented chloroplasts …
Leaf Growth And Anatomy During Winter Droughting Of Tetrachne Dregei Plants, M G. Klich, R E. Brevedan, H Laborde
Leaf Growth And Anatomy During Winter Droughting Of Tetrachne Dregei Plants, M G. Klich, R E. Brevedan, H Laborde
IGC Proceedings (1997-2023)
The purpose of this work was to study the leaf growth and anatomy of Tetrachne dregei plants when they were subjected to a winter drought period. Plants were grown in semicontrolled conditions under two soil moisture regimes: irrigated and non-irrigated. Anatomical characterization was made using optical and scanning electron microscopy. No differences were found in stomatal index, stomatal length and epidermal cell size, between irrigated and non-irrigated plants. The adaxial epidermis of water stressed plants was more pubescent. Leaf abaxial epidermis of non-irrigated plants showed more intercostal plates of crystallized epicuticular wax than that of the irrigated ones. Leaf tissue …
Stem Anatomy Of Switchgrass Plants Developed By Divergent Breeding Cycles For Tiller Digestibility, G. Sarath, K. P. Vogel, R. Mitchell, L. M. Baird
Stem Anatomy Of Switchgrass Plants Developed By Divergent Breeding Cycles For Tiller Digestibility, G. Sarath, K. P. Vogel, R. Mitchell, L. M. Baird
IGC Proceedings (1997-2023)
Switchgrass (Panicum virgatum. L.) is an important perennial forage and biomass crop that is native to the temperate prairies of the North America east of the Rocky Mountains. Breeding for improved forage in vitro dry matter digestibility (IVDMD) has been conducted using post-heading, whole-tiller IVDMD as the selection criterion (Hopkins et al., 1993; Vogel et al., 2002). One breeding cycle (C-1) for low IVDMD and three cycles for high IVDMD (C1, C2, C3) were completed in a switchgrass population adapted to the USA mid- latitudes. Sward trials demonstrated that whole plant IVDMD had been improved (Hopkins …