Abstract
This study evaluated intake and apparent digestibility of the nutrients in the diet of Morada Nova sheep that received diets containing increasing levels of juazeiro hay in substitution of Tifton 85 bermudagrass hay (0, 33, 67 and 100%). Sixteen non castrated male sheep, weighing an average of 26.75 kg, were used, placed in individual metabolic cages and distributed in a completely randomized block design with four treatments and four replications. Intakes of dry matter, organic matter, crude protein, ether extract, neutral detergent fiber, total carbohydrates, fibrous carbohydrates and non-fibrous carbohydrates and total digestible nutrients were not influenced by the addition of juazeiro hay to the diets, with mean values of 1,042.78 and 595.59 g/day of dry matter and neutral detergent fiber intake, respectively. Linear reduction was observed for digestibility of the dry matter, organic matter, neutral detergent fiber and fibrous carbohydrates. Quadratic reduction was observed for the acid detergent fiber digestibility coefficient. The digestibility coefficients of the crude protein, ether extract, total carbohydrates and fibrous carbohydrates were not significant. The nitrogen balance was not influenced and was positive for all the treatments. The inclusion of juazeiro hay did not influence nutrient intake or nitrogen balance, but reduced the digestibility coefficient of some diet components.
roughage; semiarid; Zizyphos joazeiro
RUMINANTS
Universidade Federal do Ceará, Centro de Ciências Agrárias, Departamento de Zootecnia, Bl. 808, Campus do Pici, 60355-970, Fortaleza-CE, Brazil
ABSTRACT
This study evaluated intake and apparent digestibility of the nutrients in the diet of Morada Nova sheep that received diets containing increasing levels of juazeiro hay in substitution of Tifton 85 bermudagrass hay (0, 33, 67 and 100%). Sixteen non castrated male sheep, weighing an average of 26.75 kg, were used, placed in individual metabolic cages and distributed in a completely randomized block design with four treatments and four replications. Intakes of dry matter, organic matter, crude protein, ether extract, neutral detergent fiber, total carbohydrates, fibrous carbohydrates and non-fibrous carbohydrates and total digestible nutrients were not influenced by the addition of juazeiro hay to the diets, with mean values of 1,042.78 and 595.59 g/day of dry matter and neutral detergent fiber intake, respectively. Linear reduction was observed for digestibility of the dry matter, organic matter, neutral detergent fiber and fibrous carbohydrates. Quadratic reduction was observed for the acid detergent fiber digestibility coefficient. The digestibility coefficients of the crude protein, ether extract, total carbohydrates and fibrous carbohydrates were not significant. The nitrogen balance was not influenced and was positive for all the treatments. The inclusion of juazeiro hay did not influence nutrient intake or nitrogen balance, but reduced the digestibility coefficient of some diet components.
Key Words: roughage, semiarid, Zizyphos joazeiro
Introduction
The primary determinants of forage conversion into animal products are intake of dry matter or energy, digestibility of nutrients and the conversion efficiencies of the digestible energy and metabolic energy (Waldo, 1986). As the primary component of this chain, dry matter intake plays an important role in nutrition studies because it establishes a quantity of nutrients available for production and maintenance of animal well-being (NRC, 2001).
The greatest limitation of the nutrient models for feed formulation is their inaccurate prediction of dry matter intake that includes more intimately the variations in production rather than food digestibility (Rayburn & Fox, 1993), which generates a continuous search for procedures to obtain reliable estimates of this variable. Dry matter intake is, in essence, a direct consequence of the genetic potential of the animal (Allen, 2000) where coordinated actions for the determined model of skeletal and muscle growth and the other metabolically active tissues, including homeostatic and homeorhetic directions, contribute to reaching or maintaining a continuous energetic status (long-term regulation) (Mertens, 1996).
Every food or feed ingested triggers, by different mechanisms, the hunger/satiation systems. This is the reason for a series of meals of different sizes, within a circadian biological rhythm, alternating between rumination and rest periods. Therefore, for each food/feed, there is a specific feeding model, and consequently a level of dry matter intake (short-term regulation) (Dulphy & Demarquilly, 1994).
Considering the importance of forage species native to the semi-arid region of Brazil, there is little reported research to assess the quality of these plants. In this case, it is very important to submit these species to nutrient intake and digestibility trials to understand their nutritional qualities and limitations in ruminant feeding.
Thus, the present study was carried out to assess the effects of substituting Tifton 85 Bermudagrass hay with juazeiro hay in the diet of Morada Nova sheep.
Material and Methods
The experiment was carried out in the Setor de Ovinocultura of the Departamento de Zootecnia at the Universidade Federal do Ceará, Pici Campus, in the city of Fortaleza, Ceará. The juazeiro hay was produced at the experimental farm Vale do Curu, which belongs to the Centro de Ciências Agrárias at UFC. To obtain the juazeiro hay, the juazeiro was collected at the pre-fructification stage, and branches were cut with thickness up to 1.5 cm, preserving tree canopy. They were then chopped in a forage chopping machine and dried. Nutrient intake, digestibility and nitrogen balance were assessed in 16 six-month old uncastrated male Morada Nova sheep weighing an average of 26.75 kg, confined in metabolism cages, supplied with drinker and feeder, equipped with feces and urine collectors and separators. Animals were distributed in four experimental diets consisting of four substitution levels (0, 33, 67 and 100%) of Tifton 85 bermudagrass hay by juazeiro hay, in a completely randomized block design with four replications. The experimental period lasted 21 days, 14 days for adaptation to the diets and the metabolism cages and seven days to measure the nutrient intake and digestibility and the nitrogen balance. The diet roughage:concentration relation was 60:40 and the experimental feeds were balanced following the recommendations by the NRC (2007).
Animals were weighed at the beginning and end of the experimental period. The total diet was supplied ad libitum, in the form of complete mixture once a day, and the leftovers were collected and weighed every day to determine daily intake. The quantity of feed supplied was calculated to allow approximately 10% leftovers, and water was offered ad libitum. Total feces collections were made to determine the nutrient digestibility between the 14th and 21st days of the experimental period. In this period, samples of foodstuffs and leftovers that were stored at -15 °C were also collected. The samples were pre-dried in a forced ventilation chamber, at 55 °C for 72 hours, ground in a Wiley mill with 1 -mm sieve and homogenized to make compound samples per animal/treatment.
Dry matter (DM), mineral matter (MM), crude protein (CP) and ether extract (EE) contents were determined according to the standard procedures reported in AOAC (1995); and those of neutral detergent fiber (NDF) acid detergent fiber (ADF) and cellulose, hemicelluloses and lignin as proposed by Van Soest et al. (1991) (Table 1). The carbohydrate fractioning was obtained according to Sniffen et al. (1992): CT = 100 - (CP% + EE% + MM%).
Urine samples were obtained by collections during 24 hours, stored in plastic containers containing 200 mL 10% sulfuric acid solution (H2SO4). After collection, the containers with urine were weighed to determine the total volume produced and then homogenized. Aliquots of approximately 100 mL were removed, labeled and stored at -5°C for later quantification of nitrogen compounds.
Total digestible nutrients intake (TDN) was calculated according to NRC (2001), where: TDN (%) = CPd + NDFd + NFCd + 2.25EEd, where: CPd = digestible crude protein; NDFd = digestible neutral detergent fiber, NFCd = digestible non-fibrous carbohydrates, and EEd = digestible ether extract.
The variables analyzed were interpreted statistically through analyses of variance and regression, using the Statistical Analysis System Institute (SAS, 2001).
Results and Discussion
The effects of juazeiro hay were not ascertained on nutrient intake. It is pointed out that the mean DM intake relative to animal live weight ranged from 3.36 to 4.07%, and was close to the value recommended by the NRC (2007) for animals of categories, physiological conditions and weight equivalent to the animals used in this study (Table 2). The mean DM intakes were close to 3.42% BW, reported by Araújo et al. (2004), in diets containing 70% maniçoba hay, which is also a tree species native to the Brazilian tropical thorn forest (caatinga).
This confirmed that when using plants that growth in unfavorable edafoclimatic conditions in ruminant feeding, an increase is caused in dry matter intake, because of the unavailability of the nutrients present in the composition. With this, the animals eat more because they seek to satisfy their nutritional requirements and the sensation of satiety is imposed by the physical filling of the space of the gastrointestinal tract (Mertens, 1987).
The mean NDF intake obtained in this study was 2.09% BW. The voluntary ingestion was probably regulated by the physical limitation of the gastrointestinal tract (Van Soest, 1994), thus leading to the limit of ruminal distention, that determines intake interruption (Baile & Forbes, 1974). The energy may have been restricted, because the rumen volume was occupied by the fiber. Mertens (1994) reported that food intake is limited by the physical filling of the ruminal compartment when the daily NDF intake is greater than 13 g/kg BW. According to Mertens (1987) ruminant diets should have a chemical composition that enables an NDF intake of around 1.2% BW, because higher values may cause rumen repletion, which causes physical satiety in the animal, that is, the spaces of the gastrointestinal tract will be occupied by indigestible particles. This experiment for all treatments, consumption, obeisant in % BW, were higher than those recommended by Mertens (1994), showing that nutrient intake was limited by the effect of the digestive tract filling.
Van Soest (1994) suggested that ruminants tended to surpass the NDF intake limit by 0.8 and 1.2% when the diets have low energy levels, in an attempt to compensate the dietetic deficiency.
It can be inferred that because of the higher proportions of juazeiro hay in the feeds, the animals submitted to these diets rarely ingested sufficient energy to meet their requirements for potential productions, except in diets formulated with higher concentrate levels.
Juazeiro hay inclusion caused a quadratic reduction for the digestibility coefficients of ADF digestibility, but for CP, EE, TC and NFC the inclusion of juazeiro hay did not present significant variations (Table 3).
Van Soest (1985) reported that feed digestibility was influenced by the amount and type of fiber present, therefore, based on Table 1, we observed that the addition of juazeiro hay reduced the NDF content and digestibility of the diets also because of its higher lignin content in the hay with respect to Tifton 85 bermudagrass.
Reduction in the digestibility of some nutrients can be attributed to the increase in the lignin content in the diets with the increase in the level of juazeiro hay, which reduced the action of the ruminal microorganisms on nutrient digestion, because for digestion of the cellular contents to take place, the ruminal bacteria must have access to the external wall of the mesophyl cells of the leaves that go through the masticating process (Wilson & Mertens, 1995).
The DM digestibility coefficients decreased from 649.91 g/day (0% juazeiro hay) to 533.01 g/day (100% juazeiro hay). One must remember that the activities of the ruminal microorganisms depend directly on the availability of ammonia nitrogen in the rumen (Russell et al., 1992). Therefore, supplementing animals with protein sources with high rumen degradation supplied by a concentrated feed could optimize microbial growth and increase nutrient digestibility (Acedo et al., 2007).
Regarding the carbohydrate digestibility coefficients, juazeiro hay inclusion only influenced the fibrous carbohydrates negatively and linearly. Total carbohydrates and non-fibrous carbohydrate digestibilities were not influenced by including juazeiro hay and presented means of 186.24 and 580.27 g/day, respectively. The low TC digestibility may be attributed to the chemical composition of the diets, where a high degree of fibrous carbohydrates was observed, and a high percentage of ADF that was present in its composition reduced the fermentation rate of the cell wall, causing a fall in total carbohydrate digestibility. According to Valadares Filho et al. (1987) NFC has an apparent total digestibility coefficient of over 90%, while for fibrous carbohydrates the apparent digestibility is around 50%. These considerations suggested that there was a great DM ingestion in feeds with lower fibrous carbohydrate contents, i.e., in feeds with a greater proportion of concentrate.
Juazeiro hay inclusion did not influence animal nitrogen use efficiency, and presented values of 7.28, 6.01, 6.02 and 4.81 g/day (Table 4).
The nitrogen excreted in the urine measured by urea concentration was positively correlated with the nitrogen concentrations in the plasma and with nitrogen ingestion (Van Soest, 1994), and was an indication of efficient nitrogen use in the rumen.
The nitrogen excreted in the urine measured by urea concentration was positively correlated with the nitrogen concentrations in the plasma and with nitrogen ingestion (Van Soest, 1994), and was an indication of efficient nitrogen use in the rumen.
Thus, the positive nitrogen balance observed in all the treatments indicated that there were no protein or nitrogen compound losses during the experimental period that showed that the protein fraction of the diets was used efficiently by the animals. This positive balance indicated that there was protein retention in the animal organism, giving conditions so the animals did not lose weight. The average value of retained nitrogen presented in the present study was close to the value of 6.0 g/day obtained by Barros et al. (1991), who administered only juazeiro hay.
Conclusions
Juazeiro hay inclusion in Morada Nova sheep diets, in substitution of Tifton 85 bermudagrass hay does not influence nutrient intake, but reduces the digestibility of dry matter, organic matter, neutral detergent fiber and fibrous carbohydrate.
Received May 7, 2010 and accepted April 13, 2011.
Corresponding author: mr.goes@gmail.com
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Juazeiro hay in diets of Morada Nova sheep
Publication Dates
-
Publication in this collection
02 Dec 2011 -
Date of issue
Nov 2011
History
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Accepted
13 Apr 2011 -
Received
07 May 2010