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Digestibility and nitrogen balance of lambs fed sugarcane hydrolyzed under different conditions as roughage in the diet

Digestibilidade e balanço de nitrogênio em cordeiros alimentados com cana-de-açúcar hidrolisada em diferentes condições como volumoso na dieta

Abstracts

This study aimed to evaluate the digestibility and nitrogen balance (NB) of lambs fed sugarcane hydrolyzed under different conditions. Fifteen Ile de France lambs at, on average, 23.5kg of body weight were evaluated. Treatments were: in natura sugarcane (IN), sugarcane hydrolyzed using 0.6% calcium oxide (CaO) under aerobic condition (AER), and sugarcane hydrolyzed using 0.6% CaO under anaerobic condition (ANA). Therefore, a completely randomized design was constituted with five replicates per treatment. Treatments were supplied to animals along with concentrate. Both hydrolysis conditions aimed to alter the sugarcane fermentation pattern, therefore improving fiber digestibility. Lambs were housed in individual pens and fed with diet allowing 10% of refusals. Refusals, feces and urine were sampled daily during five days. They were collected to determine the digestibility and NB. A higher digestibility of neutral detergent fiber corrected for ash and protein (57.05%), organic matter (85.39%), hemicellulose (72.09%), NB (29.46g day-1 and 2.78g kg-0.75 day-1) and rate of nitrogen absorbed (3.00g kg-0.75 day-1) were observed for lambs fed with ANA than for those fed IN (41.17%, 73.76%, 53.80%, 21.39g day-1, 2.00g kg-0.75 day-1 and 2.22g kg-0.75 day-1, respectively). As roughage, ANA in the lamb diet, optimizes the nitrogen balance and is more efficient to improve the digestibility of some nutrients compared to IN. Whereas AER was as efficient as ANA and IN


O objetivo deste estudo foi avaliar a digestibilidade e o balanço de nitrogênio (BN) do volumoso cana-de-açúcar hidrolisada sob diferentes condições, na alimentação de cordeiros. Foram utilizados 15 cordeiros Ile de France, em média, com 23,5kg de peso corporal. Os tratamentos foram: cana-de-açúcar in natura, cana-de-açúcar hidrolisada com 0,6% de óxido de cálcio (CaO), sob condição aeróbica e cana-de-açúcar hidrolisada, com 0,6% de CaO, sob condição anaeróbica, constituindo um delineamento inteiramente casualizado com cinco repetições por tratamento. Os tratamentos foram fornecidos aos animais, juntamente com o concentrado. Ambas as condições das hidrólises tiveram o intuito de alterar o padrão de fermentação da cana-de-açúcar e, com isso, melhorar a digestibilidade de suas fibras. Os cordeiros foram confinados em baias individuais e a dieta foi fornecida permitindo 10% de sobras. Estas sobras foram amostradas diariamente por cinco dias, bem como as fezes e urina foram coletadas para determinar a digestibilidade e o BN. Foi observado, para cordeiros alimentados com ANA, maior digestibilidade da fibra em detergente neutro, corrigido para proteína e cinzas (57,05%), matéria orgânica (85,39%), hemicelulose (72,09%), maior BN (29,46g dia-1 e 2,78g kg-0,75 dia-1) e taxa de nitrogênio absorvido (3,00g kg-0,75 dia-1), em comparação ao IN (41,17%, 73,76% e 53,80%, 21,39g dia-1, 2,00g kg-0.75 dia-1 e 2,22g kg-0.75 dia-1, respectivamente). Como volumoso, ANA otimiza o balanço de nitrogênio e é mais eficiente em melhorar a digestibilidade de alguns nutrientes, comparado à IN. AER tão eficiente quanto ANA e IN

condição de hidrólise; fibra em detergente neutro; nitrogênio retido


INTRODUCTION:

Sugarcane is a tropical roughage widely used in cattle feed. It has several positive aspects: easily cultivated, high content of energy, and high potential of dry matter production per unit of area, especially when forage is scarce. It has, however, few drawbacks: low crude protein content that requires protein supplementation and a need for daily cut due to the high concentration of soluble carbohydrates. The high concentration of soluble carbohydrates makes the environment auspicious for the development of microorganisms that deteriorate the chopped sugarcane. To overcome this issue, hydrolysis using alkalizing treatments, e.g. calcium oxide (CaO), has been promoted on sugarcane, which can also improve the nutritive value of sugarcane by increasing the digestibility of fibers (CARVALHO et al., 2011CARVALHO, G.G.P. et al. Metabolismo de nitrogênio em novilhas alimentadas com dietas contendo cana-de-açúcar tratado com óxido de cálcio. Revista Brasileira de Zootecnia, v.40, n.3, p.622-629, jul. 2011. Available from: <http://dx.doi.org/10.1590/S1516-35982011000300022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982011000300022.
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). The alkalizing agents act in the hydrolysis solubilizing part of the hemicellulose and promoting the expansion of the cellulose molecules. This expansion causes the breaking of the hydrogen bonds between cellulose and hemicellulose, increasing their digestibility. Measurements to qualify food regarding its nutritive value are expressed by the digestibility coefficient which indicates the percentage of each nutrient that an animal is capable of using (BERCHIELLI et al., 2011BERCHIELLI, T.T. et al. Nutrição de ruminantes. Jaboticabal: Funep, 2011. 616p.). Hydrolyzed sugarcane showed an improvement of 6.61% in the in vitro dry matter digestibility, 12.95% for the neutral detergent fiber and 9.28% for the acid detergent fiber (OLIVEIRA, 2010OLIVEIRA, M.D.S. Cana-de-açúcar hidrolisada na alimentação de bovinos. Jaboticabal: Funep, 2010. 115p.). CaO improves the sugarcane nutritive value and because it is an alkaline additive, it can alter the ruminal environment and change the fermentation pattern, which reduces the metabolism and the nitrogen balance (CARVALHO et al., 2011CARVALHO, G.G.P. et al. Metabolismo de nitrogênio em novilhas alimentadas com dietas contendo cana-de-açúcar tratado com óxido de cálcio. Revista Brasileira de Zootecnia, v.40, n.3, p.622-629, jul. 2011. Available from: <http://dx.doi.org/10.1590/S1516-35982011000300022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982011000300022.
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).

A pH increase due to the application of CaO in sugarcane, followed by a gradual pH decrease due to aerobic exposure of sugarcane occurs during the hydrolysis. This decrease is linear but not desired, because the pH decrease occurs by action of aerobic microorganisms. These microorganisms consume the soluble carbohydrates and cause acidification of sugarcane (RABELO et al., 2011RABELO, C.H.S. et al. Estabilidade aeróbia de cana-de-açúcar in natura hidrolisada com cal virgem. Ciência Animal Brasileira, v.12, n.2, p.257-265, abr./jun. 2011.). With the hydrolysis of sugarcane under anaerobic condition, i.e. without exposure to oxygen, theoretically, in the course of time, pH decreases slower than in the hydrolysis under aerobic exposure, which may result in a less favorable environment for the development of aerobic microorganisms. The objective of this study was to evaluate the influence of aerobic and anaerobic conditions on hydrolyzed sugarcane as roughage in the diet, over the digestibility of nutrients and nitrogen balance of lambs.

MATERIAL AND METHODS:

Fifteen uncastrated Ile de France lambs at a mean body weight of 23.5±1.3kg were used. Lambs were housed in individual digestibility pens (1.0m2), with suspended floor and were distributed in a completely randomized design with three treatments and five replicates: in natura sugarcane+concentrate (IN), sugarcane hydrolyzed using 0.6% CaO under aerobic or anaerobic condition+concentrate (AER or ANA). Chemical composition of the ingredients is shown in table 1 and composition, percentage and chemical analysis of diets are in table 2. Diets were formulated according to NRC (2007)NATIONAL RESEARCH COUNCIL (RNC). Nutrient requirements of small ruminants: sheep, goats, cervids, and new world camelids. 6.ed. Washington, DC: National Academy, 2007. 384p. for lamb weight gain of 250g day-1, with a roughage to concentrate ratio of 50:50.

Table 1
: Chemical and crude energy composition of the ingredients of the experimental diets (expressed on DM).
Table 2
: Ingredients percentage, chemical and crude energy composition of the experimental diets (expressed in DM).

Lime consisted of a chemical composition of 93.4% CaO, 0.6% of magnesium oxide and 0.1% phosphorus. The IAC 86-2480 was the variety of sugarcane used. A second cut of sugarcane with nine months of growing, non-defoliated and chopped in particle size of 1.0cm was provided in natura and hydrolyzed under aerobic or anaerobic conditions, depending on the treatment. In natura sugarcane was cut daily and was kept for 2-day ripening, after that, it was chopped and provided to the lambs. Hydrolyzed sugarcane was cut daily, chopped and treated using 0.6% CaO per 100kg of sugarcane. A solution was made according to OLIVEIRA (2010)OLIVEIRA, M.D.S. Cana-de-açúcar hidrolisada na alimentação de bovinos. Jaboticabal: Funep, 2010. 115p.. Sugarcane remained under aerobic and anaerobic conditions for 2-day ripening before being provided to the lambs. The hydrolyzed sugarcane was obtained by chopping and spreading it on a tarp, forming a stack. Calcium oxide solution was poured over the sugarcane, and the stack was revolved for homogenization. The stack of sugarcane hydrolyzed under aerobic condition remained on the tarp. Whereas, sugarcane hydrolyzed under anaerobic condition was stored in screw-top drums, which avoided the contact of oxygen with the hydrolyzed sugarcane.

Lambs received a mixed diet at the feeder, generating 10% of refusals. Diets were offered twice a day, at 8 and 17 hours. The trial lasted 20 days, which 15 days were used for adaptation and five days to total feces and urine collection under mensuration of feed intake (Table 3). Daily amount of excreted feces was collected in plastic bowls and weighed using a digital scale. Urine was collected in beveled plastic buckets with a protecting net avoiding the entry of feces. A total of 100mL of a 20% solution of H2SO4 was added in the buckets to prevent the volatilization of the ammonia in the urine.

Table 3
: Nutrient intake based on dry matter of lambs fed diets containing sugarcane either in natura or hydrolyzed under aerobic and anaerobic conditions

A total of 10% of the feed refusals, excreted urine and feces were sampled daily. Samples were stored in a -18ºC freezer until the end of collection period for subsequent laboratory analyses. Posteriorly, samples were pre-dried in a forced-ventilation and milled with 1mm grinding plates. The milled samples were used to determine the contents of dry (DM) and organic matter (OM) following AOAC (1990)ASSOCIATION OF OFFICIAL ANALYTICAL CHEMISTS (AOAC). Official methods of analysis. 15.ed. Washington, D.C., 1990. 1298p. methodologies. The contents of neutral detergent fiber (NDFap), acid detergent fiber (ADFap) corrected for ash and protein, hemicellulose (HEM), cellulose (CEL) and lignin (LIG) corrected for ash were determined according to VAN SOEST et al. (1991)VAN SOEST, P.J. et al. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science, v.74, n.12, p.3583-3597, oct. 1991..

Digestibility's of DM, OM, NDFap, ADFap, HEM, CEL and LIG were calculated using the following formula: apparent digestibility, AD (%) = [(nutrient intake (g) - nutrient excretion (g)) / nutrient intake (g)] * 100. The nitrogen balance (NB) was expressed in g kg-0.75 day-1, and was calculated using the following equations

A completely randomized experimental design with three treatments and five replicates were used. Data were subjected to analysis of variance by PROC GLM using the statistical software (SAS, 2001STATISTICAL ANALYSIS SYSTEMS (SAS). 2001. User's guide: Statistics, Version 9.0 Cary, 2002.), at 5% significance level. When significant differences were detected, means were tested by Tukey HSD range test at 5% significance level.

RESULTS AND DISCUSSION:

The hydrolysis of sugarcane provides a better use of the fibers by the ruminal microorganisms. In this study, it was assessed the influence of the AER and ANA conditions on the sugarcane hydrolysis regarding digestibility parameters and the NB.

Lambs fed AER and ANA did not have significantly higher (P>0.05) digestibility of DM, ADFap, and CEL compared to lambs fed IN (Table 4). No difference for CEL was observed, however a higher digestibility of LIG was observed for lambs fed with AER than lambs fed IN. ADFap, which is constituted by cellulose and lignin, showed lower lignin than cellulose content on sugarcane, therefore the difference observed for LIG digestibility was not sufficient to influence the digestibility of ADFap. Lignin, which digestibility is either null or very low (MARAIS, 2000MARAIS, P.J. Use of markers. In: D'MELLO, J.P.F. Farm animal metabolism and nutrition: critical reviews. Wallingford: CAB International, 2000. p.255-277.), is a factor that can restrict the digestion of fiber carbohydrates (e.g. hemicellulose) because they are chemically bound. SUNDSTOL &amp; OWEN (1984)SUNDSTOL, J.; OWEN, E. Straw and other fibrous by-products as feed. Elsevier, 1984. 630p. stressed that the lignin fraction can be solubilized by a high concentration of sodium hydroxide. Cleavage of lignin's phenyl propane bonds forming free phenolic groups can occur due to the high temperature during hydrolysis. Lambs fed with AER had a higher LIG digestibility, which could have been caused by the temperature during hydrolysis. The temperature for IN was 19.66ºC, whereas for AER was 29.90ºC and for ANA was 21.90ºC.

Table 4
: Digestibility's of: dry matter (DDM), organic matter (DOM), neutral detergent fiber corrected for ash and protein (DNDFap), acid detergent fiber (DADF), hemicelluloses (DHEM), cellulose (DCEL) lignin (DLIG), total carbohydrates (DTC) and non-fiber carbohydrates (DNFC) for lambs fed in natura sugarcane or sugarcane hydrolyzed under aerobic or anaerobic conditions.

Lambs fed IN had lower digestibility (P<0.05) of OM and NDFap than lambs fed ANA. There was an increase on digestibility of 38.57% for NDFap and of 15.76% for OM for lambs fed ANA compared to lambs fed IN. The OM of a feed is the complement of its non-organic portion, i.e. mineral matter (DETMANN et al., 2012DETMANN, E. et al. Métodos para análise de alimentos. Visconde do Rio Branco: Instituto Nacional de Ciência e Tecnologia de Ciência Animal, 2012. 214p.). Therefore, the higher NDFap, HEM and LIG digestibility's justify the higher OM digestibility for the ANA than the IN. For HEM digestibility, lambs fed AER (66.41%) and ANA (72.09%) had higher values than lambs fed IN (53.80%). HEM acts as a bonding agent between CEL and LIG, therefore HEM was partly solubilized and the bonds were broken between CEL/HEM/LIG. The HEM digestibility had a higher influence than LIG digestibility on NDFap digestibility. This was observed when there was a higher digestibility of NDFap for the ANA than IN even when ANA only showed difference for HEM digestibility; the AER showed higher LIG and HEM digestibility's but no difference between NDFap.

FREITAS et al. (2008)FREITAS, A.W.P. et al. Consumo de nutrientes e desempenho de ovinos alimentados com dietas à base de cana-de-açúcar hidrolisada. Pesquisa Agropecuária Brasileira, v.43. n.11, p.1569-1574, nov. 2008. Available from: <http://dx.doi.org/10.1590/S0100-204X2008001100016>. Accessed: 10 jun. 2013. doi: 10.1590/S0100-204X2008001100016.
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who assessed nutrient digestibility in lambs found an increase of 18% and 22% for NDFap digestibility of hydrolyzed sugarcane (0.5% and 0.9% calcium hydroxide, respectively) compared to IN. Whereas, in the current study, there was an increase of 25% and 38% for NDFap digestibility of AER and ANA, respectively, compared to IN. This variation in the effectiveness of NDFap digestibility can be explained by the variation in the chemical composition of the lime used by the aforementioned authors. Their lime had a minimum of 54% CaO, whereas the lime used in our study had a minimum of 93% CaO.

There was no difference (P>0.05) for N intake (36.46g animal-1 day-1 and 3.43g kg-0.75 day-1), N excreted in the feces (7.92g-1 animal-1 day-1 and 0.74g kg-0.75 day-1) and in the urine (2.56g animal-1 day-1 and 0.24g kg-0.75 day-1). N loss via feces and urine correspond to 22.01% and 7.14% of N intake, totalizing 29.15% (Table 5). MORENO et al. (2010)MORENO, G.M.B. et al. Desempenho, digestibilidade e balanço de nitrogênio em cordeiros alimentados com silagem de milho ou cana-de-açúcar e dois níveis de concentrado. Revista Brasileira de Zootecnia v.39, n.4, p.853-860, abr. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010000400022>. Accessed: 03 mar. 2013. doi: 10.1590/S1516-35982010000400022.
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did not find effect on the N intake (27.26g day-1), N excreted in the feces (12.57g day-1) and in the urine (6.37g day-1) in lambs fed corn or sugarcane silage in different proportions. CARVALHO et al. (2010)CARVALHO, G.G.P. et al. Balanço de nitrogênio, concentração de ureia e síntese de proteína microbiana em caprinos alimentados com dietas contendo cana-de-açúcar tratada com óxido de cálcio. Revista Brasileira de Zootecnia v.39, n.10, p.2253-2261, out. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010001000022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982010001000022.
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and CARVALHO et al. (2011)CARVALHO, G.G.P. et al. Metabolismo de nitrogênio em novilhas alimentadas com dietas contendo cana-de-açúcar tratado com óxido de cálcio. Revista Brasileira de Zootecnia, v.40, n.3, p.622-629, jul. 2011. Available from: <http://dx.doi.org/10.1590/S1516-35982011000300022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982011000300022.
http://dx.doi.org/10.1590/S1516-35982011...
however, assessing the NB of goats and heifers fed diets containing IN sugarcane or hydrolyzed using CaO in different levels (zero, 0.75%, 1.50% and 2.25%), found a negative effect for N intake for heifers, whereas it was a crescent linear effect for goats fed hydrolyzed sugarcane. They have justified the effects by a possible relation in the changes of the fermentative patterns by the use of alkaline additive CaO. In the current study, the CaO level using 0.6% might have not been sufficient to change the ruminal environment or the rumen fermentative patterns and, consequently change the N intake.

Table 5
: Nitrogen (N) intake, N excreted in the feces, N excreted in the urine and N balance (NB), for lambs fed in natura sugarcane or sugarcane hydrolyzed under aerobic or anaerobic conditions.

ZEOULA et al. (2006)ZEOULA, L.M. et al. Digestibilidade e balanço de nitrogênio de rações com diferentes teores de proteína degradável no rúmen e milho moído como fonte de amido em ovinos. Revista Brasileira de Zootecnia, v.35, n.5, p.2179-2186, mai. 2006. studying diets with different contents of rumen degradable protein (RDP) and ground corn (slow ruminal degradability) as starch source in sheep found values of 56.04% for total nitrogen loss (feces and urine). MORENO et al. (2010)MORENO, G.M.B. et al. Desempenho, digestibilidade e balanço de nitrogênio em cordeiros alimentados com silagem de milho ou cana-de-açúcar e dois níveis de concentrado. Revista Brasileira de Zootecnia v.39, n.4, p.853-860, abr. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010000400022>. Accessed: 03 mar. 2013. doi: 10.1590/S1516-35982010000400022.
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found values of 68.33% for total nitrogen loss (feces and urine), whereas we found 29.15%. CARVALHO et al. (2010)CARVALHO, G.G.P. et al. Balanço de nitrogênio, concentração de ureia e síntese de proteína microbiana em caprinos alimentados com dietas contendo cana-de-açúcar tratada com óxido de cálcio. Revista Brasileira de Zootecnia v.39, n.10, p.2253-2261, out. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010001000022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982010001000022.
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, studying goats fed sugarcane hydrolyzed using CaO (zero, 0.75%, 1.5% and 2.25%), found that 75.79% of the N intake was lost in the feces and urine.

A higher (P<0.05) nitrogen absorption was observed for lambs fed ANA (3.00g kg-0.75 day-1) than for lambs fed IN (2.22g kg-0.75 day-1). Non-ionized ammonia (NH3) is absorbed by the ruminal walls but not on its ionized form (NH4 +). This happens because the decrease of ruminal pH favors the ammonia ionization and reduces its absorption (BERCHIELLI et al., 2011BERCHIELLI, T.T. et al. Nutrição de ruminantes. Jaboticabal: Funep, 2011. 616p.). The supply of sugarcane hydrolyzed using CaO could have changed the ruminal environment resulting in a higher pH, therefore increasing the N absorption compared to lambs fed IN. AER did not show statistical difference in N absorption (2.82g kg-0.75 day-1) but it showed a tendency of a higher N absorption compared to IN (2.22g kg-0.75 day-1).

Non-protein nitrogen (NPN) from the diet is rapidly available for the ruminal microorganisms and converted into microbial protein. A portion of the NPN is absorbed as non-ionized ammonia (NH3) and sent to the liver, via enterohepatic circulation, where ammonia is converted into urea. The urea can be either recycled via blood stream to the saliva, via diffusion to the rumen (N absorbed) or it can be excreted in the urine. The N recycling process starts when the NH3 is absorbed by the rumen walls (BERCHIELLI et al., 2011BERCHIELLI, T.T. et al. Nutrição de ruminantes. Jaboticabal: Funep, 2011. 616p.). There is a possibility that there was a high rate of N recycled in the current study, once the N absorption (28.54g day-1) was higher than other studies, e.g. 14.69 and 18.25g day-1 found by MORENO et al. (2010)MORENO, G.M.B. et al. Desempenho, digestibilidade e balanço de nitrogênio em cordeiros alimentados com silagem de milho ou cana-de-açúcar e dois níveis de concentrado. Revista Brasileira de Zootecnia v.39, n.4, p.853-860, abr. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010000400022>. Accessed: 03 mar. 2013. doi: 10.1590/S1516-35982010000400022.
http://dx.doi.org/10.1590/S1516-35982010...
and CARVALHO et al. (2010)CARVALHO, G.G.P. et al. Balanço de nitrogênio, concentração de ureia e síntese de proteína microbiana em caprinos alimentados com dietas contendo cana-de-açúcar tratada com óxido de cálcio. Revista Brasileira de Zootecnia v.39, n.10, p.2253-2261, out. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010001000022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982010001000022.
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, respectively. Moreover, the N excreted in the urine was lower (2.56g day-1) compared to 11.30, 6.37 and 12.28g day-1 found by ZEOULA et al. (2006)ZEOULA, L.M. et al. Digestibilidade e balanço de nitrogênio de rações com diferentes teores de proteína degradável no rúmen e milho moído como fonte de amido em ovinos. Revista Brasileira de Zootecnia, v.35, n.5, p.2179-2186, mai. 2006., MORENO et al. (2010)MORENO, G.M.B. et al. Desempenho, digestibilidade e balanço de nitrogênio em cordeiros alimentados com silagem de milho ou cana-de-açúcar e dois níveis de concentrado. Revista Brasileira de Zootecnia v.39, n.4, p.853-860, abr. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010000400022>. Accessed: 03 mar. 2013. doi: 10.1590/S1516-35982010000400022.
http://dx.doi.org/10.1590/S1516-35982010...
and CARVALHO et al. (2010)CARVALHO, G.G.P. et al. Balanço de nitrogênio, concentração de ureia e síntese de proteína microbiana em caprinos alimentados com dietas contendo cana-de-açúcar tratada com óxido de cálcio. Revista Brasileira de Zootecnia v.39, n.10, p.2253-2261, out. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010001000022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982010001000022.
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.

The N excretion in the urine (7.14% of N intake) was lower than the N excretion in the feces (22.01%) in the current study. ZEOULA et al. (2003)ZEOULA, L.M. et al. Substituição do milho pela farinha de varredura de mandioca (Manihot esculenta crantz) em rações de ovinos: consumo, digestibilidade, balanços de nitrogênio e energia e parâmentros ruminais. Revista Brasileira de Zootecnia v.32, n.2, p.491-502, fev. 2003., used fed diets containing different levels of cassava by-product meal (fast ruminal degradation) replacing corn (slow ruminal degradation) and soybean meal as a protein source, also found lower N excretion in the urine (30.90%) than the N excretion in the feces (35.2%). The soybean meal as source of protein N and urea as source of non-protein N, besides the use of sugarcane as source of readily fermentable carbohydrate in the rumen might have influenced the synchronization with the N released, increasing the N retained (NB) (29,46g day-1 and 2,78g kg-0.75 day-1) by a higher N recycling. According to ZEOULA et al. (2006)ZEOULA, L.M. et al. Digestibilidade e balanço de nitrogênio de rações com diferentes teores de proteína degradável no rúmen e milho moído como fonte de amido em ovinos. Revista Brasileira de Zootecnia, v.35, n.5, p.2179-2186, mai. 2006. this available energy generated a 21% increase of N retained because it seemed to have provided a better synchronization of the N released with the readily available energy of the rumen.

We found NB values of 25.97g day-1 and 2.44g kg-0.75 day-1 which were higher than values found by MORENO et al. (2010)MORENO, G.M.B. et al. Desempenho, digestibilidade e balanço de nitrogênio em cordeiros alimentados com silagem de milho ou cana-de-açúcar e dois níveis de concentrado. Revista Brasileira de Zootecnia v.39, n.4, p.853-860, abr. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010000400022>. Accessed: 03 mar. 2013. doi: 10.1590/S1516-35982010000400022.
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who reported 8.55g day-1 and 0.67g kg-0.75 day-1. This difference is due to the higher N intake and a lower N excreted in feces and urine obtained in our study. The sugarcane hydrolysis using CaO (alkaline additive) could have changed the fermentative ruminal environment and reduced the nitrogen balance (CARVALHO et al., 2011CARVALHO, G.G.P. et al. Balanço de nitrogênio, concentração de ureia e síntese de proteína microbiana em caprinos alimentados com dietas contendo cana-de-açúcar tratada com óxido de cálcio. Revista Brasileira de Zootecnia v.39, n.10, p.2253-2261, out. 2010. Available from: <http://dx.doi.org/10.1590/S1516-35982010001000022>. Accessed: 13 ago. 2013. doi: 10.1590/S1516-35982010001000022.
http://dx.doi.org/10.1590/S1516-35982010...
); our results, however, show that the 0.6% CaO content used in the sugarcane hydrolysis did not have a negative effect in the ruminal degradation. Conversely, the readily available carbohydrates in the rumen coming from the sugarcane resulted in a higher N retained (NB).

CONCLUSION:

As roughage, the sugarcane hydrolyzed under anaerobic condition in the lamb diet, optimizes the NB and is more efficient to improve the digestibility of NDFap, HEM and OM compared to in natura sugarcane. Whereas sugarcane hydrolyzed under aerobic condition was as efficient as sugarcane hydrolyzed under anaerobic condition and in natura.

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Publication Dates

  • Publication in this collection
    Feb 2015

History

  • Received
    20 Dec 2013
  • Accepted
    18 June 2014
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