Mapping in-field cotton fiber quality and relating it to soil moisture

Ge, Yufeng

15 May 2009

The overarching goal of this dissertation project was to address several fundamental aspects of applying site-specific crop management for fiber quality in cotton production. A two-year (2005 and 2006) field study was conducted at the IMPACT Center, a portion of the Texas A&M Research farm near College Station, Texas, to explore the spatial variability of cotton fiber quality and quantify its relationship with in-season soil moisture content. Cotton samples and in-situ soil moisture measurements were taken from the sampling locations in both irrigated and dry areas. It was found that generally low variability (CV < 10%) existed for all of the HVI (High Volume Instrument) fiber parameters under investigation. However, an appreciable level of spatial dependence among fiber parameters was discovered. Contour maps for individual fiber parameters in 2006 exhibited a similar spatial pattern to the soil electrical conductivity map. Significant correlations (highest r = 0.85) were found between most fiber parameters (except for micronaire) and in-season soil moisture in the irrigated areas in 2005 and in the dry area in 2006. In both situations, soil moisture late in the season showed higher correlation with fiber parameters than that in the early-season. While this relationship did not hold for micronaire, a non-linear relationship was apparent for micronaire in 2006. This can be attributed to the boll retention pattern of cotton plants at different soil moisture levels. In addition, a prototype wireless- and GPS-based system was fabricated and developed for automated module-level fiber quality mapping. The system is composed of several subsystems distributed among harvest vehicles, and the main components of the system include a GPS receiver, wireless transceivers, and microcontrollers. Software was developed in C language to achieve GPS signal receiving, wireless communication, and other auxiliary functions. The system was capable of delineating the geographic boundary of each harvested basket and tracking it from the harvester basket to the boll buggy and the module builder. When fiber quality data are available at gins or classing offices, they can be associated with those geographic boundaries to realize fiber quality mapping. Field tests indicated that the prototype system performed as designed. The resultant fiber quality maps can be used to readily differentiate some HVI fiber parameters (micronaire, color, and loan value) at the module level, indicating the competence of the system for fiber quality mapping and its potential for site-specific fiber quality management. Future improvements needed to make system suitable for a full-scale farming operation are suggested.

Cotton

Fiber quality

Precision agriculture

Soil moisture

Wireless communication

Improvement of Work-to-Break Characteristics of Cotton (Gossypium hirsutum L.) Fibers and Yarn through Breeding and Selection for Improved Fiber Elongation

Osorio Marin, Juliana 1982-

14 March 2013

The development of cottons with improved fiber quality has been a major objective in breeding programs around the world. Breeders have focused their attention on improving fiber strength and length, and have generally not used fiber elongation in the selection process. Although literature has reported a negative correlation between fiber elongation and tenacity, this correlation is weak and should not prevent breeders from simultaneously improving fiber tenacity and fiber elongation. Furthermore, the work of rupture property, important in the spinning process, could be best enhanced by improving both fiber tenacity and fiber elongation. Fifteen populations were developed in 2007 by crossing good quality breeding lines with high elongation measurements to ‘FM 958’; a High Plains standard cultivar with good fiber quality but reduced elongation. Samples in every generation were ginned on a laboratory saw gin, and the lint was tested on HVI (High Volume Instrument). The F2 and F3 generations showed a wide range of variation for elongation (6.9% - 12.8% for the F2 and 4% - 9.20% for the F3) allowing divergent selection for low and high fiber elongation. A correlation (r) of -0.32 between strength and elongation was observed in the F2 individual plant selections. In the F3, the correlation (r) between strength and elongation was -0.36, and in the F4 the correlation (r) was -0.08. Nine lines were selected from the original 15 populations for spinning tests. The correlation between fiber elongation and strength for these lines was positive (r=0.424), indicating that with targeted selection, fiber elongation and strength can be simultaneously improved. Fiber elongation was positively correlated with yarn tensile properties tenacity (r=0.11), work-to-break (r=0.68) and breaking elongation (r=0.87); and was negatively correlated with yarn evenness properties, number of thin places (r=-0.16), number of thick places (r=-0.9), nep count (r=-0.24), hairiness (r=-0.38) and total number of imperfections (r=-0.38). All selections for high elongation were superior for all tensile properties compared to the low selections and the check in the analysis over locations and in each location. Furthermore, selections for high elongation were significantly different from the selections for low elongation and the check. In addition to developing lines for fiber spinning tests with improved, or differentiated, fiber elongation, this project was amended to evaluate and determine the heritability of fiber elongation. Three different methodologies were used to obtain estimates of heritability; variance components, parent off-spring regression, and realized heritability using F3, F4, and F5 generation. No inbreeding was assumed because there was no family structure in the generations within this study. Estimates of heritability by the variance component methods in the F3, F4 and F5 were 69.5%, 56.75% and 47.9% respectively; indicating that 40-50% of the variation was due to non-genetic effects. Parent off-spring regression estimates of heritability were 66.1% for the F3-4 and 62.8% for the F4-5; indicating a high resemblance from parents to off-spring. Estimates of realized heritability were obtained to determine the progress realized from selection for the low and high selection for fiber elongation. Estimates were intermediate (0.44–0.55), indicating moderately good progress from selection. The results from this project demonstrate that it is possible to improve fiber elongation and to break the negative correlation between elongation and strength. Furthermore, it has been demonstrated that improving fiber elongation results in the increase of length uniformity index and decreased short fiber content. Additionally, directed divergent selection was a successful methodology for the improvement of fiber elongation, and was useful to demonstrate that higher fiber elongation has a positive effect on yarn tensile properties, yarn evenness and processing. The development of new cultivars with improved fiber elongation will improve the quality and reputation of U. S.-grown cotton. The ultimate result will be better yarn quality and improved weaving efficiency, and particularly address current weaknesses in U. S. –grown cotton cultivars, especially from the High Plains of Texas, of more short fiber content, lower uniformity ratios, and weaker yarn strength.

Yarn spinning

Heritability

Cotton fiber quality

Plant breeding

Fiber elongation

Mapping in-field cotton fiber quality and relating it to soil moisture

Ge, Yufeng

15 May 2009

The overarching goal of this dissertation project was to address several fundamental aspects of applying site-specific crop management for fiber quality in cotton production. A two-year (2005 and 2006) field study was conducted at the IMPACT Center, a portion of the Texas A&M Research farm near College Station, Texas, to explore the spatial variability of cotton fiber quality and quantify its relationship with in-season soil moisture content. Cotton samples and in-situ soil moisture measurements were taken from the sampling locations in both irrigated and dry areas. It was found that generally low variability (CV < 10%) existed for all of the HVI (High Volume Instrument) fiber parameters under investigation. However, an appreciable level of spatial dependence among fiber parameters was discovered. Contour maps for individual fiber parameters in 2006 exhibited a similar spatial pattern to the soil electrical conductivity map. Significant correlations (highest r = 0.85) were found between most fiber parameters (except for micronaire) and in-season soil moisture in the irrigated areas in 2005 and in the dry area in 2006. In both situations, soil moisture late in the season showed higher correlation with fiber parameters than that in the early-season. While this relationship did not hold for micronaire, a non-linear relationship was apparent for micronaire in 2006. This can be attributed to the boll retention pattern of cotton plants at different soil moisture levels. In addition, a prototype wireless- and GPS-based system was fabricated and developed for automated module-level fiber quality mapping. The system is composed of several subsystems distributed among harvest vehicles, and the main components of the system include a GPS receiver, wireless transceivers, and microcontrollers. Software was developed in C language to achieve GPS signal receiving, wireless communication, and other auxiliary functions. The system was capable of delineating the geographic boundary of each harvested basket and tracking it from the harvester basket to the boll buggy and the module builder. When fiber quality data are available at gins or classing offices, they can be associated with those geographic boundaries to realize fiber quality mapping. Field tests indicated that the prototype system performed as designed. The resultant fiber quality maps can be used to readily differentiate some HVI fiber parameters (micronaire, color, and loan value) at the module level, indicating the competence of the system for fiber quality mapping and its potential for site-specific fiber quality management. Future improvements needed to make system suitable for a full-scale farming operation are suggested.

Cotton

Fiber quality

Precision agriculture

Soil moisture

Wireless communication

COMPARISON OF PICKER AND STRIPPER HARVESTERS ON IRRIGATED COTTON ON THE HIGH PLAINS OF TEXAS

Faulkner, William B.

16 January 2010

Over a fourth of the cotton produced in the US since 2002 has been produced in Texas, with most coming from the High Plains. In recent years, Texas has accounted for almost half of all US cotton production (USDA-NASS, 2008b). Most cotton on the High Plains is of more storm-proof varieties that have traditionally been harvested using stripper harvesters. However, improvements in irrigation technology and shifting markets for US cotton have increased interest in picker harvesters in the region. A holistic comparison of picker and stripper harvesters in irrigated cotton on the High Plains of Texas was conducted focusing on differences in system efficiencies, the costs of ginning, fiber and yarn quality, and potential economic returns under comparable crop yields and conditions. Harvester performance was evaluated based on harvest efficiency, time-inmotion, and fuel consumption. Stripper harvesters left less cotton in the field, but most of the cotton left by the picker was of low quality. While the time spent in each operation of harvest was highly dependent on the operator and support equipment available, in general, picker harvesters were able to harvest a unit area of high-yielding cotton more quickly than stripper harvesters. The cost of ginning picked and stripped cotton was evaluated considering current fee schedules from gins on the High Plains. On average, it cost a producer $4.76 more per bale to gin stripped-and-field-cleaned cotton than picked cotton. Fiber quality parameters were compared between harvest treatments based on results from High Volume Instrument (HVI) and Advanced Fiber Information System (AFIS) tests. Samples were ring-spun into carded and carded-and-combed yarns. Differences in fiber quality between harvest treatments were more pronounced when growing conditions were less favorable. Few differences were detected in carded yarn quality between harvest treatments, while more pronounced differences favoring picked cotton were seen in carded-and-combed yarns. A cost-benefit analysis was conducted to determine the production scenarios in which picker and stripper harvesters were most appropriate. Results indicate that, if a producer has sufficient yields coupled with sufficient area to harvest per machine, picker harvesting is a more profitable alternative to producers of on the High Plains.

cotton

picker

stripper

fiber quality

yarn quality

time-in-motion

Automation of a Wireless Cotton Module Tracking System for Cotton Fiber Quality Mapping

Sjolander, Andrew J.

2009 August 1900

The ability to map the profit made across a cotton field would enable producers to see in detail where money is being made or lost on their farms. This ability, which requires sitespecific knowledge of yield, fiber quality, and input costs would further enable them to implement precise field management practices to ensure that they receive the highest return possible on each portion of a field and do not waste materials and other inputs throughout the field. Investigators at Texas A&M previously developed a wireless-GPS system that tracks where a module of cotton comes from within a field. This system is a necessary component in mapping fiber quality, which is a major determiner of price and thus profit. Three drawbacks to the previous wireless-GPS system are that (1) a person must manually trigger the system to send wireless communications when a field machine dumps its load of cotton, (2) multiple field machines of the same type (e.g., two cotton pickers) cannot be used simultaneously on the same system within the same field, and (3) no software is available to automatically produce fiber-quality maps after the data are downloaded from the gin. The first two drawbacks, the need for an automatic communication-triggering system and the needed capability for multiple field machines of the same type are the problems addressed in this work. To solve the first problem, a sensing and control system was added to a harvester to automatically indicate when the machine is dumping a basket load of cotton so that wireless messages can be automatically sent from the harvester to subsequent field machines without human intervention. This automated communication-triggering system was incorporated into the existing wireless- GPS system, rigorously field tested, and ultimately proven to operate as designed. Linking data collected with this system together with classing information will enable producers to create fiber-quality maps, and linking fiber-quality maps with yield and input-cost maps will enable them to create profit maps. Additionally, a radio-frequency identification (RFID) system was integrated with the wireless-GPS system to allow for multiple field machines of the same type. The RFID system was also rigorously field tested and proven to operate as designed. Finally, the entire system was field tested as a whole and operated according to design. Thus, the wireless-GPS module tracking system now operates without human intervention and works with multiple field machines of each type, two additional capabilities required for practical use in large farming operations.

Cotton

Fiber Quality

Mapping

Precision Agriculture

Profit Mapping

Effects of Thermomechanical Refining on Douglas fir Wood

Tasooji, Mohammad

03 July 2018

Medium density fiberboard (MDF) production uses thermomechanically refined fiber processed under shear with high pressure steam. The industry evaluates fiber quality with visual and tactile inspection, emphasizing fiber dimensions, morphology, and bulk density. Considering wood reactivity, the hypothesis is that a variety of chemical and physical changes must occur that are not apparent in visual/tactile inspection. An industry/university cooperation, this work studies effects of refining energy (adjusted by refiner-plate gap) on fiber: size, porosity, surface area, surface and bulk chemistry, fiber crystallinity and rheology, and fiber interaction with amino resins. The intention is to reveal novel aspects of fiber quality that might impact MDF properties or process control efficiency, specific to a single industrial facility. In cooperation with a North American MDF Douglas fir plant, two refining energies were used to produce resin and additive-free fibers. Refining reduced fiber dimensions and increased bulk density, more so at the highest energy. Thermoporosimetry showed increases in sub-micron scale porosity, greatest at the highest energy. Mercury intrusion porosimetry (MIP) revealed porosity changes on a higher dimensional scale. Brunauer-Emmett-Teller gas adsorption and MIP showed that refining increased specific surface area, more so at the highest energy. Inverse gas chromatography showed that the lowest refining energy produced surfaces dominated by lignin and/or extractives. The highest energy produced more fiber damage, revealing higher energy active sites. A novel rheological method was devised to study fiber compaction and densification; it did not distinguish fiber types, but valuable aspects of mechano-sorption and densification were observed. Refining caused substantial polysaccharide degradation, and other degradative effects that sometimes correlated with higher refining energy. Lignin acidolysis was detected using nitrobenzene oxidation, conductometric titration of free phenols, and formaldehyde determination. Formaldehyde was generated via the C2 lignin acidolysis pathway, but C3 cleavage was the dominant lignin reaction. Observations suggested that in-line formaldehyde monitoring might be useful for process control during biomass processing. According to rheological and thermogravimetric analysis, lignin acidolysis was not accompanied by repolymerization and crosslinking. Lignin repolymerization must have been prevented by the reaction of benzyl cations with non-lignin nucleophiles. This raises consideration of additives that compete for lignin benzyl cations, perhaps to promote lignin crosslinking and/or augment the lignin network with structures that impart useful properties. Fiber/amino resin interactions were studied with differential scanning calorimetry (DSC) and X-ray diffraction (XRD). All fiber types, refined and unrefined, caused only a slight increase in melamine-urea-formaldehyde (MUF) resin reactivity. Generally, all fiber types decreased the enthalpy of MUF cure, suggesting fiber absorption of small reactive species. But DSC did not reveal any dependency on fiber refining energy. According to XRD, all fiber types reduced crystallinity in cured MUF, more so with refined fiber, but independent of refining energy. The crystallinity in cured urea-formaldehyde resin was studied with one fiber type (highest refining energy); it caused a crystallinity decrease that was cure temperature dependent. This suggests that resin crystallinity could vary through the thickness of an MDF panel. / PHD

Thermomechanical refining

Medium density fiberboard

Fiber quality

Wood fiber characterization

Effect of an upper temperature threshold on heat unit calculations, defoliation timing, lint yield, and fiber quality in cotton

Fromme, Daniel D.

15 May 2009

Crop managers need to determine the most profitable time to defoliate cotton (Gossypium hirsutum L.) in a high rainfall environment such as the coastal region of Texas. In cotton production, delaying defoliation exposes open bolls to a higher probability of rainfall, and thus, reduces lint yield and fiber quality. Premature defoliation, however, has detrimental affects on lint yield and fiber quality. A more recent method to determine defoliation is based on heat-unit (HU or DD15) accumulation after physiological cutout or five nodes above white flower (NAWF=5). Results have been inconsistent across a wide range of field environments when utilizing HU accumulation past cutout; therefore, adoption of this method has been limited. Many regions of the Cotton Belt have maximum day time temperatures during the growing season that are above optimum for maximum growth. Field studies were conducted for three consecutive growing seasons in the Brazos River Valley and Upper Gulf Coast regions of Texas. The purpose of this research was to identify an upper temperature threshold (UTT) for calculating degree days for defoliation timing. The experimental design consisted of a split-plot design with four replications. The main plots consisted of three upper temperature thresholds (32°C, 35°C, and no upper limit) and the subplots were five HU timings (361, 417, 472, 528, and 583) accumulated from date of cutout. Utilizing an UTT to calculate daily HU failed to explain differences in the optimum time to defoliate based on accumulated HU from cutout for the upper thresholds investigated. Accumulated HU had a significant impact, however, on defoliation timing. Comparison of the two locations showed that maximum lint yield was obtained at 472 HU and 52% open boll at Wharton County versus a maximum of 528 HU and 62% open boll for the Burleson County location. Employing the NACB=4 method to time defoliation at both locations would have resulted in premature application of harvest aids and reduced lint yields. No differences were observed in adjusted gross income values at Wharton County among the 417, 472, 528, and 583 HU treatments. For Burleson County, adjusted gross income peaked in value at 528 HU.

cotton

heat units

upper temperature threshold

lint yield

fiber quality

defoliation timing

heat unit calculations

A Phenotypic Evaluation of 61 Mutated Lines of TAM 94L-25

Brown, Ismael Ning

2010 December 1900

Among the available methods of creating selectable variation, induced mutagenesis has been historically under-utilized in cotton improvement. Dick Auld showed that chemical mutagenesis could be used to enhance fiber length of a medium staple cotton cultivar without sacrificing yield. The goal of this project was to determine if mutagenesis could be used to improve the fiber quality of a germplasm line already considered to be at the upper-limits of fiber length. Seed of TAM 94 L-25 were treated with EMS in 2001 and the M2 generation was produced at Lubbock, Texas in 2002. More than 1200 M3 plants were grown at College Station, Texas in 2004, harvested individually, and HVI fiber properties determined. The top and bottom 1 percent for UHML, strength, and elongation were selected and the seeds of these individuals planted as an M4 progeny row nursery in 2005. Approximately ten individual plants per progeny row were harvested for re-evaluation of fiber parameters. From the approximately 1600 individual TAM 94L-25 M4 plants harvested in 2005, 61 were selected and subsequently treated as pure lines. Agronomic performance trials were conducted on 61 of those TAM 94L-25 M lines along with the M0 check and two commercial cultivar checks, Fiber Max 832 and Phytogen 355, in 2008 and 2009 in College Station and Weslaco, Texas. Within-boll yield components were examined for 13 representative mutant lines and the three checks. TAM 94L-25 averaged 751 kg lint ha^-1, 31.1 mm UHML, 303 kN m kg^-1 fiber bundle strength, and 6.0 percent elongation. The 61 mutant lines yielded from 366 to 932 kg lint ha^-1, exhibited UHML from 24.3 to 34.9 mm, fiber bundle strengths of 261 to 333 kN m kg^-1, and elongations from 5.4 to 8.1 percent. Seed surface area of the TAM 94L-25 M-lines was between 99 and 124 mm^2, and fibers per unit seed surface area from 123 to 168 fibers mm^-2. The M0 parent, TAM 94L-25 averaged 125 mm^2 seed-1, and 128 fibers mm^-2. The data presented herein demonstrate that EMS-induced mutagenesis was successful in creating TAM 94L-25 M-lines with superior fiber and yield traits to that of the non-mutated, high fiber quality parent, TAM 94L-25.

chemical mutagenesis

cotton

fiber quality

lint yield

seed surface area

EMS

CARACTERIZAÇÃO DA FIBRA DE CO-PRODUTOS AGROINDUSTRIAIS E SUA AVALIAÇÃO NUTRICIONAL PARA COELHOS EM CRESCIMENTO / FIBER CARACTERIZATION OF AGRICULTURAL BY-PRODUCTS AND ITS NUTRITIONAL EVALUATION FOR GROWING RABBITS

Retore, Marciana

26 February 2009

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Two experiments were carried out in Rabbit Laboratory of Animal Science Department at Federal University of Santa Maria, RS, where were studied the influence of different fractions of fiber from agricultural by-products (citrus pulp, soybean hulls, linseed bran and corn gluten meal) on performance, digestibility coefficients, blood parameters and meat quality of rabbits submitted to diets. The diets were isoproteic and isoenergetic, 18% of crude protein and 3,000 kcal/kg of digestible energy, respectively. Eight New Zealand White rabbits were utilized to each treatment, from 40 to 89 days of age. At the first experiment, the treatments were: AHcontrol diet, with alfalfa hay; CP- total substitution of alfalfa hay by citrus pulp and SH- total substitution of alfalfa hay by soybean hulls. The animals of the treatments CP and SH showed similar performance, carcass weight and carcass dressing percentage to the animals of the treatment AH. The DM, OM, CP and NDF apparent digestibility coefficients were superior for the diet SH, due to fiber quality. Reductions on triglycerides, cholesterol, hemoglobin and glucose levels were observed in the blood of the animals fed with citrus pulp, because of the high cation-exchange capacity of this by-product. Meat tenderness was higher for those animals that consumed the diet with soybean hulls, due to better nutrients digestibility. The different fiber fractions from citrus pulp and soybean hulls do not affect animals performance and weight and dressing carcass, showing that these ingredients can substitute the alfalfa hay on rabbits diet. Fiber quality of citrus pulp decrease animals blood triglycerides and cholesterol levels. The lower amount of lignin in relation to cellulose and hemicellulose of the soybean hulls provides better nutrients digestibility coefficients. At the second experiment the treatments were: AH- control diet, with alfalfa hay; LB- total substitution of alfalfa hay by linseed bran and GM- total substitution of alfalfa hay by corn gluten meal (20% of crude protein). The animals from GM treatment showed similar performance in relation to the ones from AH treatment, although the carcass dressing percentage did not differ among the byproducts. Linseed bran proportioned lower performance, due to higher fiber hydration capacity and gel formation. The DM, OM, CP and NDF apparent digestibility coefficients were superior for GM treatment, due to fiber quality. Meat tenderness was higher for those animals that consumed the diet of the treatment GM because of the better digestibility coefficients. Corn gluten meal can substitute alfalfa hay on rabbits diet. Linseed bran, due to high amount of soluble fiber and high hydration capacity, affects animal performance and meat tenderness. / Dois experimentos foram realizados no Laboratório de Cunicultura do Departamento de Zootecnia, da Universidade Federal de Santa Maria, RS, onde se estudou a influência das diferentes frações de fibra advindas de co-produtos agroindustriais (polpa de citros, casca de soja, farelo de linhaça e farelo proteinoso de milho) sobre o desempenho, coeficientes de digestibilidade, parâmetros sanguíneos e características da carne de coelhos submetidos às dietas. As dietas foram isoprotéicas (18% PB) e isoenergéticas (3000 kcal/kg ED). Foram utilizados oito coelhos da raça Nova Zelândia Branca por tratamento, testados dos 40 aos 89 dias de idade. No primeiro experimento, os tratamentos foram: FA- ração controle, com feno de alfafa; PC- substituição total do feno de alfafa por polpa de citros e CS- substituição total do feno de alfafa por casca de soja. Os animais dos tratamentos PC e CS apresentaram desempenho, peso e rendimento de carcaça semelhantes aos animais do tratamento FA. Os coeficientes de digestibilidade aparente da MS, MO, PB e FDN foram superiores para a dieta com casca de soja, em função da qualidade de fibra deste ingrediente. Foi observado redução nos níveis séricos de triglicerídeo, colesterol, hemoglobina e glicose dos animais alimentados com polpa de citros, devido à alta capacidade de ligação catiônica deste co-produto. A maciez da carne foi superior para os animais que consumiram a dieta com casca de soja, em virtude da melhor digestibilidade dos nutrientes. As diferentes frações da fibra advindas da polpa de citros e casca de soja não afetam o desempenho dos animais e o peso e rendimento de carcaça, mostrando que estes ingredientes podem substituir o feno de alfafa na dieta de coelhos. A qualidade de fibra da polpa de citros reduz os níveis séricos de triglicerídeo e colesterol dos animais. A baixa quantidade de lignina em relação à celulose e hemicelulose da casca de soja propicia melhores coeficientes de digestibilidade dos nutrientes. No segundo experimento, os tratamentos foram: FA- ração controle, com feno de alfafa; FL- substituição total do feno de alfafa por farelo de linhaça e FP- substituição total do feno de alfafa por farelo proteinoso de milho (20% PB). Os animais do tratamento FP apresentaram desempenho semelhante aos animais do tratamento FA. Porém, o rendimento de carcaça não diferiu entre os co-produtos testados. O farelo de linhaça proporcionou desempenho inferior aos demais ingredientes, devido à alta capacidade de hidratação da fibra e formação de gel. Os coeficientes de digestibilidade aparente da MS, MO, PB e FDN foram superiores para o tratamento FP, em função da qualidade de fibra. A maciez da carne foi superior para os animais que consumiram a dieta do tratamento FP, em virtude da melhor digestibilidade dos nutrientes. O farelo proteinoso de milho pode substituir o feno de alfafa na dieta de coelhos. O farelo de linhaça, pela grande quantidade de fibra solúvel e alta capacidade higroscópica, prejudica o desempenho dos animais e maciez da carne.

Farelo de linhaça

Qualidade da fibra

Capacidade higroscópica

Linseed bran

Fiber quality

Hydration capacity

CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA

Efeito do fornecimento de silagens de milho com alta ou baixa digestibilidade da fibra sobre o ganho de peso e consumo de novilhas em crescimento / Effect of feeding growing heifers with corn silages with high or low fiber digestibility on intake, body gain

Marques, Bárbara Santos

25 January 2013

Objetivou-se avaliar o efeito da digestibilidade da fibra do milho sobre o consumo, ganho de peso e composição da carcaça de novilhas Nelore em crescimento, de modo a validar este índice como indicador da qualidade nutricional de híbridos de milho em programas de melhoramento genético e de seleção de híbridos para silagem. Foram plantados quatro híbridos de milho com diferente digestibilidade da fibra, IAC 8390, 30F90Y, 30S40Y e DKB 390Y, sendo a digestibilidade da FDN da dieta determinada após incubação de 30 horas. Os milhos foram colhidos aos 62, 82 e 104 dias crescimento, para determinar principalmente a digestibilidade da folha e do colmo dos híbridos, para determinar quais híbridos fariam parte da dieta experimental. Foram utilizadas quarenta e oito novilhas da raça Nelore com aproximadamente 250 kg, confinadas por 63 dias, em delineamento de bloco casualizados, em grupo de 3 novilhas por baia, de acordo com o peso vivo inicial. A cada 21 dias, os animais eram pesados, sendo a avaliação da carcaça feita no início do período A dieta experimental foi constituída de quatro rações, com relação volumoso/concentrado de 20:80 e 40:60, com volumoso de duas silagens de milho, 30F90Y, de alta digestibilidade da FDN e, 30S40Y, de baixa digestibilidade da FDN. Foi analisado o tamanho de partícula de amostras da dieta e das sobras/baia pela peneira Penn State Forage Particle. Houve diferença na digestibilidade da FDN dos híbridos na fração colmo, entre os dias de coleta, sendo que a digestibilidade in vitro da matéria seca (DIVMS) reduziu após o período de florescimento dos híbridos e houve uma variação entre os híbridos, em cada coleta. A digestibilidade in vitro da fibra em detergente neutro (DIVFDN), também reduziu com a maturidade da planta, porém houve uma diferença entre os híbridos apenas na coleta aos 82 dias de crescimento. O híbrido 30F90Y foi superior aos demais ao analisar a DIVMS e DIVFDN. Houve diferença entre o tamanho de partículas da dieta oferecida e o tamanho de partícula que restou na sobras, sendo que houve efeito de seleção apenas para a dieta com 40% de concetrado. Houve interação milho*dieta tanto para consumo de matéria seca (CMS) quanto para consumo da fibra em detergente neutro (CFDN), sendo que o híbrido 30F90Y, de maior digestibilidade, teve consumo maior, inclusive na dieta com 20% de concentrado. Para desempenho, foi observado efeito da dieta no ganho médio diário (GMD), sendo maior o ganho de peso (GP) na dieta com a silagem do híbrido 30F90Y Já a conversão alimentar e a composição de carcaça não tiveram efeito de dieta, híbrido de milho ou interação dieta*milho. A utilização de híbridos com melhor digestibilidade da fibra, é uma indicador de híbr do destinado a nutrição animal, pois alterou o consumo, o ganho de peso, porém não alterou a conversão alimentar e composição de carcaça. / The objective of this study was to evaluate the effect of fiber digestibility on intake, weight gain and carcass of growing Nellore heifers, aiming to validate this rate as an indicator of nutritional quality on corn hybrids in programs of genetical improvement and selection of hybrids for silage. Four corn hybrids on different fiber digestibility were raised, IAC 8390, 30F90Y, 30S40Y and DKB 390Y, being the FDN digestibility determined on the diet after a 30-hour-incubation period. The harvest was at the 62, 82 and 104 growing days to mainly determine the leaf and stem digestibility in hybrids to identify which ones would be part of the experimental diet. Forty-eight Nellore heifers of approximately 250 kg BW were housed for 63 days, in randomized blocks, in groups of three heifers per pen, according to its initial body weight. Each 21 days the animals were weighed and the carcass evaluation was done in the beginning of the period. The experimental diet was composed of four rations at 20:80 and 40:60 of roughage/concentrate respectively, in which the corn silage was used the 30F90Y, the one with high digestibility in FDN, and the 30S40Y, of low digestibility in FDN. The particle size of samples collected from the diets and ortis of each pens were analyzed by the Penn State Forage Particle sieve. There was difference in the FDN digestibility for hybrids in the stem fraction among the collection days, being the dry matter digestibility in vitro (DIVMS) reduced after the hybrid blossom and there was a variancy among the hybrids, in each collection. The digestibility in vitro of fiber detergente neuter (DIVFDN), was also reduced according to tha plant maturity, however there was a difference among the hybrids only in the collection at the 82 day of growth. The hybrid 30F90Y was superior to the other when analyzed the DIVMS and DIVFDN. There was difference between the particle size on the diets and the particle size on the ortis, with a selection affect only for the diet at 40% concentrate. There was interaction on the corn*diet for the dry matter intake (CMS) and for the fiber detergent neuter intake (CFDN), beingt the hybrid 30F90Y of higher digestibility, intake, and also on the diet with 20% concentrate. For performance was observed the diet effect on the average in daily weight gain (GMD), in which the highest weight gain (GP) was obtained on the silage of the hybrid 30F90Y. The feed conversion and carcass had no diet effect, neither corn hybrid nor interaction diet*corn. The hybrids with higher fiber digestibility is an indicator for its usage in animal nutrition once they altered the intake and the weight gain, although it hasn\'t altered the feed conversion and the carcas.

Alto volumoso

Consumo de matéria seca

Desempenho de novilhas

Dry matter intake

Fiber quality

Heifers performance

High roughage

Qualidade da fibra