Commercial cuts and carcass characteristics of sheep and goats supplemented with multinutritional blocks Cortes comerciales y característica de la canal de borregos y cabritos suplementados con bloques multinutricionales

Objective. Aimed to identify the weight and yield of the commercial cuts, muscularity, and adiposity in the carcasses of sheep and goats grazing in the Caatinga supplemented with different sources of supplementations; these include feed-blocks. Material and methods. Sixty non-castrated males an initial average body weight of 18.63 ± 1.93 kg were used: 30 goats and 30 sheep all animals did not have a defined breed standard (WDBS). The experimental design used was entirely randomized (DIC), in factorial scheme 3x2 (three types of supplementation: mineral salt, MBs and MBs + buffel hay, and two species: sheep and goats) and 10 replications. Animals were raised in a rangeland grazing system in an area with vegetation characteristic of Caatinga ecosystem under three types of supplementation: 1: only mineral salt; 2: Feed blocks (MBs); and 3: MBs + buffel hay There were measured the weight, yield and the components of left half-part of carcass of lambs and kids. Results. The sheep were superior to goats in carcass conformation, loin-eye area, index of muscularity of the leg and compactness index of the leg while the goats were superior to sheep in leg muscles weight. Conclusions. Sheep and Goats, when fed with supplementation of pasture feeding blocks in the Caatinga ecosystem; Supplementation with mineral salt and Multinutritional Blocks with and without Buffel can be used to improve herds in the caatinga, with similar results among the three. Sheep show more adiposity of meat than goats, in contrast, goats have higher musculature than sheep when fed with feed blocks.


INTRODUCTION
The large proportion of small ruminants in the semi-arid regions around the world is raised under extensive grazing system.In Brazil, the Caatinga dry shrubland is the main feeding source for small ruminants.
In the dry season the Caatinga ecosystem decreases the forage quantity and quality, for that reason, farmers frequently use feedsupplement for their animals, aiming to keep the production around the year.
Makkar et al (1) affirm that feed-supplementation is even more profitable, when carried out in extensive rangeland grazing system, once that, it could a supply source of nutrients, improving the size and quality of the carcasses.
The buffel grass (Cenchrus ciliaris L.), is largely cultivated in drylands of Northeastern of Brazil.The farmers commonly use areas with Buffel grass as a supplementary fiber (forage) source in the dry season.
Feed blocks arise as a feed-supplementation alternative to grazing systems, Cordão et al (2) advocate that one of advantages of feedblock are the use of different sources of protein and energy easily accessible for each region.According to Atti and Ben Salem (3), the economic evaluation of the diets may show that the use of feed blocks is more profitable than conventional feed supplementation in animals in lambs in grazing systems.Feed block technology has been used by small farmers in Africa, showing impressive results in milk and meat production (1).However, Kawas (4) support that better economic results are reached in animals under rangeland grazing systems where the feed block increases the digestibility of low-quality forage and release an extra input of energy in the diet.
Los bloques de alimento surgen como una alternativa de suplementación alimenticia a los sistemas de pastoreo, Cordão et al (2) manifiestan que una de las ventajas del pienso en bloque es el uso de diferentes fuentes de proteína y energía de fácil acceso para cada región.Según Atti y Ben Salem (3), la evaluación económica de las dietas puede mostrar que el uso de bloques de alimento es más rentable que la suplementación de alimento convencional en corderos en sistemas de pastoreo.La tecnología de bloques de alimento ha sido utilizada por pequeños agricultores en África, mostrando resultados impresionantes en la producción de leche y carne (1).Sin embargo, Kawas (4) explica que se alcanzan mejores resultados económicos en animales bajo sistemas de pastoreo en pastizales donde el bloque de alimento aumenta la digestibilidad del forraje de baja calidad y libera un aporte adicional de energía a la dieta.(5) affirm that physical and chemical characteristics of feed-supplementation promote differences in growth rate and quality of carcass tissues.Thus, to study the effect of different feed sources in the growth and development of animals become an important information in order to increase the efficiency of system of production.

Santos and Tozzetti
To Hashimoto et al (6) know the growth rate of tissues and the regions that compose the carcass enable us to determine with high precision the best time for slaughter, favoring the standardization and quality of meat product.
Several factors can affect carcass yield, especially food, which unquestionably, is one of the most important.The Carcass study is an assessment of the parameters related to objective measures and subjective in relation to it and must be linked to aspects and attributes inherent to the edible portion (7).
Therefore, this research aimed to identify the weight and yield of the commercial cuts, muscularity, and adiposity in the carcasses of sheep and goats grazing in the Caatinga supplemented with different sources of supplementations; these include feed-blocks.Experimental site.The research site was situated in an area with vegetation characteristic of the Caatinga ecosystem (8).The site was rested during four years before the experiment.The area was divided into three paddocks of 12.5 ha each, which divided the three experimental treatments.

Location
According to methodology described by Araújo Filho (8) the forage available was measured three times (previous, middle and final) during the experimental period, and then there were calculated the forage available per hectare (Kg of dry matter/ha -1 ), finally the kilograms of forage available per animal per hectare (kg dry matter M -1 / kg of live weight -1 ) (Table 1).
At the same time, another sample was collected and conducted to the laboratory for chemical composition: Mineral Matter (MM), organic matter Santos y Tozzetti (5) manifiestan que las características físicas y químicas de la suplementación con alimento fomentan diferencias en la tasa de crecimiento y la calidad de los tejidos de la canal.Por lo tanto, el estudio del efecto de las diferentes fuentes de alimento en el crecimiento y desarrollo de los animales se convierte e información importante para aumentar la eficiencia del sistema de producción.
Varios factores pueden afectar el rendimiento de la canal, especialmente el alimento, que sin duda es una de las más importantes.El estudio de la canal es una evaluación de los parámetros relacionados con las medidas objetivas y subjetivas en relación con ella y debe vincularse a los aspectos y atributos inherentes a su porción comestible (7).
Treatments.The experiment consisted of 3 treatments according to type of supplementation: 1) mix of mineral salt, 2) feed block and 3) Feed blocks + buffel hay.
There was utilized a commercial mix mineral salt specific for small ruminants.The feed blocks were manufactured with the following ingredients: 25% molasses, 5% urea, 24% corn grounded, 24% soybean meal, 5% salt and 10% hydrated lime.The procedure for the feed block manufacture is described by Allen (10).
Animals. 60 animals were used, being 30 sheep and 30 goats, without a defined breed standard (WDBS), non-castrated males, with an average of four-month-old and initial body weight of 18.63±1.93kg.Previous the experiment, the research protocol was submitted and approved by the ethics committee 30-2013.The animals were identified and separated equality in three groups.Each group was conditioned in the paddocks with vegetation characteristic of Caatinga ecosystem.Each paddock suited 20 animals (10 sheep and 10 goats), with a shelter with free access to water and each treatment the respective supplement.Tratamientos.El experimento consistió en 3 tratamientos según el tipo de suplementación: 1) mezcla de sal mineral, 2) bloque de alimento y 3) bloques de alimento + pasto buffel.
Animal performance.The animal performance was measured during to 108 days, preceded by 14 days of adaptation to the diet.At the end of the experimental period, the animals were submitted to 18 hours of water and food fasting, then stunned, suspended by their back legs and slaughtered bleeding from the jugular vein and carotid artery, skinned and eviscerated, thus obtained the carcass.All carcasses were stored and transported to a freezer room at 4°C, where they remained hanging by the leg tendons for 24 hours.
Carcass evaluation.After this period, the carcasses were subjectively evaluated and classified by means of scores, varying from 1 to 5 , in respect of their conformation (bad, reasonable, good, very good and excellent) and finishing (very lean, lean, average, fat and very fat), as well as from 1 to 3, and the pelvic-renal fat coverage (little, medium, great amount).
Posteriorly, this fat was removed and weighed to obtain its absolute and relative weight in relation to the empty body weight, following the methodology described by Cezar and Sousa (11).
Still in the left half carcass, was carried out a transversal cut between the 12 th and 13 th ribs, exposing the transversal section of the Longissimus dorsi muscle.Posteriorly, it was placed over the the surface of this transversal section, a transparent film, on which was delineated with a pen, the contour of the previously mentioned muscle, for the determination of the loin-eye area (LEA).For this purpose, were obtained, using a ruler, the maximum width (A) and the maximum depth (B), to be applied in the formula: LEA = (A/2 x B/2) x π.The subcutaneous fat thickness (SFT) was also measured, in the dorso-central point of the exposed surface and the GR measure, on the 12 th rib, on the point of 11 cm of distance from the medium line of the loin, both with a caliper.
The half carcass was sectioned in five commercial cuts to evaluate the regional composition of the carcass: neck, shoulder, ribs, loin and leg, and calculated the percentual ratio between the weight and reconstituted carcass.The leg was weighed and measured, for the determination of the leg compactness index (LCI = weight of the leg/length of the leg).Then the leg was frozen so as to, posteriorly, indirectly estimate the tissue composition of the carcass by its dissection into bones, muscles, and fat.From these weights the relations muscle:bone (RMB) and muscle:fat (RMF) were determined.Then, the muscularity index of the leg was calculated, using the formula MIL = [ ]/FL, where MW corresponds to the sum of the weights of the five muscles (MW/FL) Rendimiento animal.El rendimiento del animal se midió durante 108 días, precedido por 14 días de adaptación a la dieta.Al final del período experimental, los animales fueron sometidos a 18 horas de ayuno de agua y comida, luego aturdidos, suspendidos por sus patas traseras y sacrificados por desangrado de la vena yugular y la arteria carótida, despellejados y eviscerados, obteniéndose así la canal.Todos los canales fueron almacenados y transportados a una cámara frigorífica a 4 ° C, donde permanecieron colgando de los tendones de la pierna durante 24 horas.
Experimental design.The experimental design used was entirely randomized (DIC), in factorial scheme 3x2 (three types of supplementation: mineral salt, MBs and MBs + buffel hay, and two species: sheep and goats) and 10 replications.The data were submitted to variance analysis and the means were compared by Tukey's test at 5% of probability, using the statistical, computational software SAS.

RESULTS
Performance.The weight of half ½ carcass and loin were affected according to type of supplementation (p<0.05),however, to other cuts the supplementation did not promote statistical differences.Regarding the animal species, differences were observed for the weight of shoulder, ribs, percentages of the leg, loin, shoulder, and ribs (Table 3).
The weight of the ½ carcass was superior to animals that consumed only mineral salt as feed supplement (p<0.05),than those that consumed only feed blocks.Not statistical differences were observed between animals that consumed mineral salt and those that consumed feed blocks + buffel hay.
For the cuts, only the weight of loin (g) showed to be different according to type of supplementation, being superior to animals supplemented with mineral salt when compared cuádriceps femoral y aductor.Mientras que el FL se refiere a la longitud del fémur (11).
Para los cortes, solo el peso del lomo (g) mostró ser diferente según el tipo de suplemento, siendo superior a los animales suplementados con sal mineral en comparación con los que consumieron FB + pasto buffel.Los otros cortes no se vieron afectados por el tipo de suplemento.The sheep were superior to goats in leg and loin percentages; whereas the goats showed a larger shoulder and ribs than sheep (p<0.05)(Table 3).The sheep showed larger leg and loin than goats.These results indicate that sheep obtained better carcasses when raised in grazing system in the Caatinga ecosystem.According to Cezar and Sousa (13), the leg and loin are the most value commercial meat cuts.
Carcass muscularity components.The muscularity variables are showed in the Table 4.The supplementation did not affect the carcass compactness index and weight of the leg muscles (p>0.05).However, differences in the conformation for LEA, MIL, CIL and LMW% were observed between species (Table 4).
The type of supplementation did not affect the conformation of carcass.Therefore, animals supplemented with mineral salt, FBs or FBs + buffel hay, acquired the same musculature.
The CCI was highest for animals supplemented with mineral salt and lowest for animals that consumed FBs + buffel hay.This atypical results may be attributed the high availability of forage during to experiment.
Observing by animal species, the sheep surpassed the goats regarding the conformation, LEA, MIL and LCI, while the goats were superior in percentual of LMW (Table 3).
Componentes de adiposidad de la canal.Se observó que el tipo de suplemento alimenticio no promovió diferencias entre la mayoría de los  Table 4. Quantitative characteristics of the muscularity of the carcass of sheep and goats consuming different feed supplements in grazing system in the Caatinga rangeland observed that the type of feed supplementation did not promote differences between in most of aspects related with the carcass adiposity (p>0.05)(Table 5).
There were interactions among the variables studied (Table 6).The interaction occurred to SFT, pelvic fat (g and %), total leg fat (g and %), and the relation muscle:fat.Indicating, that the supplements interfered in the animal species in these factors.
The finishing, the SFT, pelvic fat (g) and total Araújo et al -Sheep and goats supplemented with multinutrient blocks aspectos relacionados con la adiposidad de la canal (p>0.05)(Tabla 5).
El tipo de suplementación no influyo en el acabado, el SFT, la grasa pélvica (g) y la grasa total de la pierna (%), con un promedio más bajo para las   The same pattern the supplementation did not promote differences in the muscle:fat ratio.

DISCUSSION
The values observed for the weight of the ½ carcass in this study agree with the reported by Carvalho Júnior et al (12) when studying the effect of the supplementation in the characteristics of the carcass of goats finished off in shrubland grazing system, feed supplemented based on 1% of body weight.
In concordance with our results, Hashimoto et al (6) reported similar weight and yield of the lambs finished in grazing system and feed supplemented with soybean pellets at 1% of body weight.
The values for carcass conformation observed in this study corroborated with those reported by Sousa et al (14), where sheep showed better carcass than goats grazing in the Caatinga.Also, Sousa et al (14) reported that sheep had more proportion of meat in the carcass than goats.According to Álvarez et al (15), the carcasses with high conformation scores are more valued by consumers, which means better price and appreciation in the market.
However, a higher percentage of leg muscles for goats represents a heavier carcass and with more muscles, as found by Sousa et al (14), who observed the superiority of goats about sheep regarding the muscle percentage, and reported that the goats presented a greater muscularity in comparison the sheep.
According to Louvandini et al (16), the nutrition is the key-point for obtaining of carcass more uniform in goats and sheep, which is a mandatory factor to improve the market value of this product to attract consumers.
Contrarily the results obtained in our research, Sen et al (17), stated that sheep tend to obtain a better fat coverage than goats.Sen et al (17) also reported that the carcass of goat is leaner when compared with the carcass of sheep.The fact that becomes an advantage for the sheep, as according to Rosa et al (18), the fat is the tissue with the most variability ovejas suplementadas con FB + pasto buffel.Para las especies, las ovejas obtuvieron mejores resultados que las cabras en los tres suplementos.

DISCUSIÓN
Los valores observados para el peso de la ½ canal en este estudio son acordes con lo reportado por Carvalho Júnior et al (12) al estudiar el efecto de la suplementación en las características de la canal de cabras rematadas en sistema de pastoreo de arbustos con pienso suplementado basado en el 1% del peso corporal.
However, a higher percentage of leg muscles for goats represents a heavier carcass and with more muscles, as found by Sousa et al (14), who observed the superiority of goats about sheep regarding the muscle percentage, and reported that the goats presented a greater muscularity in comparison the sheep.
Por el contrario, los resultados obtenidos en nuestra investigación, Sen et al (17), afirmó que las ovejas tienden a obtener una mejor cobertura de grasa que in the animal, either in quantitative terms or by its distribution and fundamental biological function of energy storage for periods of food scarcity.However, there are controversies, Osório et al (19) affirmed that fat increase the conformation improves and the edible portion (muscle:fat ratio) might not be the one desired by the consumer, as excess fat in undesirable.
It is uneconomical for the producers to accumulate fat in the animal body, once that, it is necessary more kilos calories in the diet than to produce muscle.According to Santos et al (20), the currently market demands a product with a maximum muscle production (edible fraction) and a reasonable quantity of fat that not affect the organoleptic properties of the meat.
Differently of the results reported in this research, Osório et al (19) stated that edible portion of the meat is composed of muscle and meat and the determination of the optimal time for slaughter of animals must be the one in which there is a proportion of fat adequate for the consumer's preference.
In conclusion, sheep and goats, when fed with supplementation of pasture feeding blocks in the Caatinga ecosystem, present weights and cuts of meat adequate to Brazilian commercial requirements; Supplementation with mineral salt and Multinutritional Blocks with and without Buffel can be used to improve herds in the caatinga, with similar results among the three.Sheep show more adiposity of meat than goats, in contrast, goats have higher musculature than sheep when fed with feed blocks in pasture grass in the Caatinga ecosystem.

.
The experiment was carried out in the Pendência Experimental Station, research unit part of the EMEPA-PB (Agricultural Research Corporation of the state of the Paraiba (EMEPA-PB) located in the semiarid region of the state of Paraíba.

a
Conf. = Conformation; CCI = Carcass compactness index; LEA = Loin-eye area; MIL = Muscular index of the leg; LCI = Leg compactness index; RLW = Reconstituted leg weight; LMW = Leg muscle weight; BW = Bone weight; M:B = Muscle:bone relation; M:F:B = Muscle:Fat:Bone relation; FB = Feed blocks.b Different letters, upper case for the types of supplementation and lower-case for the species, on the same line mean statistical differences between the treatments by Turkey's test at 5% of probability.

Table 1 .
Availability of dry matter per hectare and by unit of animal weight in the herbaceous and shrubby-arboreal lawyers, grasses and dicotyledonous plants present in the three paddocks in an area of Caatinga grazed by sheep and goats supplemented with feed blocks

Table 2 .
Chemical composition (g/kg) of forage available in the experimental area in the Caatinga ecosystem grazed by sheep and goats supplemented with feed blocks Araújo et al -Sheep and goats supplemented with multinutrient blocks detergente ácida (ADF) según a la metodología descrita por Detmann et al (9) (Tabla 2).

Table 3 .
Reconstituted weight of the left half carcass and yield of the commercial cuts of sheep and goats consuming different feed supplements in grazing system in the Caatinga rangeland whose that consumed FB + buffel hay.The other cuts were not affected by the type of supplementation.
Different letters, upper case for the supplementation types, and lower-case for species, on the same line mean statistical differences between the treatments by Tukey's test at 5% of probability.

Table 5 .
Quantitative characteristics of the adiposity of the carcass of sheep and goats consuming different feed supplements in grazing system in the Caatinga rangeland Different letters, upper case on the same line for the types of supplementations and lower case in the same column for species, mean statistical differences between the treatments by Turkey's test at 5% of probability.
a MBs = Feed blocks.b

Table 6 .
Unfolding of the interaction of the quantitative characteristics of the carcass's adiposity of sheep and goats consuming different feed supplements in grazing system in the Caatinga rangeland leg fat (%) did no have influence of the type of supplementation, with a lower average for sheep supplemented with FBs + buffel hay.To animal species, sheep obtained a better finishing than goats in the three supplementations.