Environmental Influences on Yield and In Vitro True Digestibility of Warm‐Season Perennial Grasses and the Relationships to Fiber Components<sup>1</sup>

Henderson, M. S.; Robinson, D. L.

doi:10.2134/agronj1982.00021962007400060004x

Cited by 49 publications

(33 citation statements)

References 5 publications

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“…According to these authors, temper- ature influences the rate of plant development, the relative proportion of leaf and stem weights and the tissue type within leaves or stems. Plants invest more carbon into structural components at high temperatures (Deinum and Dirven 1975), increasing the lignin (Dirven and Deinum 1977;Pitman and Holt 1982;Wilson et al 1991), and the neutral detergent fiber content (Henderson and Robinson 1982). An increase in temperature of 18C decreased the leaf blade digestibility by 6 g kg À1 for Dactylis glomerata, and by 5.3 g kg À1 for Festuca arundinacea (Duru et al 1995).…”

Section: Criticisms Of Plant Sampling and Analysis Methodsmentioning

confidence: 99%

Using Leaf Traits to Rank Native Grasses According to Their Nutritive Value

Khaled¹,

Duru²,

Decruyenaere

et al. 2006

REM

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Leaf traits (leaf dry matter content [LDMC], specific leaf area [SLA] and leaf life span [LLS]) previously proposed to predict plant strategies for resource use, were studied to test if they can be used to rank grasses for digestible organic matter (DOM). On 14 native grass species from natural meadows in the French Pyrenees, leaf blade chemical components (fiber, cellulose, hemicellulose and lignin) and DOM were estimated for two growing periods using two different methods (chemical-enzymatic and Near Infrared Reflectance Spectroscopy). The ranking of species based on LDMC, SLA and LLS was conserved. Fiber content and DOM were significantly correlated even though the data were obtained in different years (2001 and 2002), on different organs (youngest adult blades in 2001 and all the green blades of tillers in 2002) and by different analytical methods. LDMC seems to be the most suitable trait to rank native grasses according to their nutritive value because it ranks species as well as leaf traits and it is the easiest to measure. We suggest using LDMC as an indicator to rank grassland communities for herbage nutritive values. ResumenTres atributos foliares, el contenido en materia seca (LDMC), el á rea foliar específica (SLA) y la longevidad foliar (LLS) fueron estudiados sobre 14 gramíneas nativas de praderas situadas en los Pirineos franceses para determinar si dichos atributos las clasifican en el mismo orden que variables de valor nutritivo. Para esto, la composició n química (fibra, celulosa, hemi-celulosa y lignina) y la digestibilidad de la materia seca (DOM) de las laminas foliares fueron estimados durante dos períodos de crecimiento utilizando métodos diferentes (químico-enzimá tico y espectroscopia o NIRS). LDMC, LLS y SLA clasifican las especies de igual manera en que lo hacen la proporció n de fibras y la DOM. La composició n de tejidos foliares y la DOM mostraron une correlació n significativa aú n cuando los datos fueron obtenidos con métodos analíticos diferentes, en añ os diferentes y sobre muestras de ó rganos diferentes (la lá mina de la hoja adulta mas joven en 2001 y todas las láminas verdes en 2002). La LDMC se presenta como el mejor atributo para clasificar las especies por su valor nutritivo pues las ordena como los otros y su medició n es má s simple. Este atributo puede ser usado para clasificar comunidades herbáceas naturales segú n su valor nutritivo.

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Section: Criticisms Of Plant Sampling and Analysis Methodsmentioning

confidence: 99%

Using Leaf Traits to Rank Native Grasses According to Their Nutritive Value

Khaled¹,

Duru²,

Decruyenaere

et al. 2006

REM

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“…The objectives of this experiment were to (i) determine whether switchgrass could be harvested for greater nutritive value during the vegetative stage relative to early reproductive growth (boot stage); (ii) compare biomass yields of switchgrass harvested once vs. twice per year for bioenergy; and (iii) examine effects of N fertilizer rates on harvest systems. Although N fertilizer application is reported to increase forage quality (Fribourg et al, 1971(Fribourg et al, , 1979, prevailing weather conditions could affect crop response to N fertilizer (Sanderson et al, 1991) by affecting leaf-to-stem ratio (Griffin and Watson, 1982) and degree of lignification (Henderson and Robinson, 1982). Biomass yield was greatest and nutrient concentrations were least in the one-cut system.…”

Section: Researchmentioning

confidence: 99%

Harvest Timing Affects Switchgrass Production, Forage Nutritive Value, and Nutrient Removal

et al. 2013

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Switchgrass (Panicum virgatum L.) has potential for both bioenergy and forage. The objectives of this experiment were to (i) determine whether switchgrass could be harvested for greater nutritive value during the vegetative stage relative to early reproductive growth (boot stage); (ii) compare biomass yields of switchgrass harvested once vs. twice per year for bioenergy; and (iii) examine effects of N fertilizer rates on harvest systems. The experiment was a randomized complete block design with a split‐plot arrangement of harvest system treatments as main plot (harvest once per year after frost, harvest twice per year first at vegetative or boot stage, and regrowth after frost) and N fertilizer rate as subplots (0, 90, 180, and 270 kg N ha−1). Biomass yield was greatest and nutrient concentrations were least in the one‐cut system. For the two‐cut system, nutritive values and yields were similar. Total annual biomass increased linearly with N fertilization. Across N rates, crude protein (CP) concentration for the two‐cut systems was 50% greater (71 g kg−1) and acid detergent fiber (ADF) and neutral detergent fiber (NDF) concentrations were 20% lesser (465 and 856 g kg−1, respectively) than switchgrass in the one‐cut system. –Switchgrass harvested at vegetative through boot stage and its regrowth could provide forage of acceptable nutritive value to beef cows. However, greater nutrient removal requires appropriate soil fertility evaluation and fertilizer management for sustainable yields.

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“…Environmental conditions also affect nutritive value (Henderson andRobinson 1982a,1982b;Van Soest et al 1978). The strong correlation (PcO.05) between growing degree days and leaf IVDMD indicates that temperature had some influence on nutritive value.…”

Section: Sneciesmentioning

confidence: 99%

“…High temperatures and low soil moisture reduced the nutritive value of Cynodon and Paspalum spp. (Henderson andRobinson 1982a, 1982b). Plant tissues produced in more extreme environmental stresses may result in lower nutritive value regardless of tissue age or stage of plant development.…”

Section: Introductionmentioning

confidence: 99%

Leaf Nutritive Value Related to Tiller Development in Warm-Season Grasses

Hendrickson¹,

Moser²,

Moore³

et al. 1997

Journal of Range Management

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Environmental Influences on Yield and In Vitro True Digestibility of Warm‐Season Perennial Grasses and the Relationships to Fiber Components¹

Cited by 49 publications

References 5 publications

Using Leaf Traits to Rank Native Grasses According to Their Nutritive Value

Using Leaf Traits to Rank Native Grasses According to Their Nutritive Value

Harvest Timing Affects Switchgrass Production, Forage Nutritive Value, and Nutrient Removal

Leaf Nutritive Value Related to Tiller Development in Warm-Season Grasses

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Environmental Influences on Yield and In Vitro True Digestibility of Warm‐Season Perennial Grasses and the Relationships to Fiber Components1

Cited by 49 publications

References 5 publications

Using Leaf Traits to Rank Native Grasses According to Their Nutritive Value

Using Leaf Traits to Rank Native Grasses According to Their Nutritive Value

Harvest Timing Affects Switchgrass Production, Forage Nutritive Value, and Nutrient Removal

Leaf Nutritive Value Related to Tiller Development in Warm-Season Grasses

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Product

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Environmental Influences on Yield and In Vitro True Digestibility of Warm‐Season Perennial Grasses and the Relationships to Fiber Components¹