DOI: 10.1590/1089-6891v17i432332
PRODUÇÃO ANIMAL
PHYSICOCHEMICAL AND MICROBIAL ANALYSIS OF FECES FROM HORSES FED DIETS CONTAINING CITRUS PULP
Roberta Ariboni Brandi1*
Adriana Moraes de Oliveira Tribucci2
Júlio César de Carvalho Balieiro3
Ricardo Luiz Moro de Souza2
Alfredo Manuel Franco Pereira4
Rhonda M. Hoffman5
1Universidade Estadual Paulista, Faculdade de Ciências Agrárias e Tecnológicas de Dracena, Dracena, SP, Brasil.
2Universidade de São Paulo, Faculdade de Zootecnia e Engenharia de Alimentos, Pirassununga, SP, Brasil 3Universidade de São Paulo, Faculdade de Medicina Veterinária e Zootecnia, Pirassununga, SP, Brasil 4Universidade de Évora, Évora, Portugal.
5 School of Agribusiness and Agriscience at Middle Tennessee State University in Murfreesboro, Estados Unidos
*Correspondig author - robertabrandi@usp.br
This study aimed to evaluate the effect of diets containing increasing levels of citrus pulp on the physicochemical and microbiological characteristics of horses feces. Five mares, at an average age of 3.5 years old and body weight of 492 ± 44.5 kg were arranged in a 5 x 5 Latin Square. The experimental diet consisted of 60% coast-cross hay and 40 % of concentrate with increasing levels of citrus pulp (0, 7, 14, 21, and 28 %). To determine the fecal pH, samples were collected directly from the floor, immediately after defecation, in the first feces of the day at 07:00 a.m., and color and fecal consistency were evaluated. For microbiological analysis, an aliquot was reserved in plastic bags, frozen, and sent to the microbiological laboratory for further analysis. Lactic acid bacteria were counted for Lactobacillus spp. and Streptococcus spp. from fecal samples under anaerobic conditions. The diet produced differences (P<0.05) in feces consistency: 98% of the animals had normal and firm stools, while 2% were loose ruminant-type feces. We observed no difference (P<0.05) for color, verifying 100% of the animals of greenish feces, normal for equines. There was no effect (P>0.05) on pH and on the number of Lactobacillus spp. and Streptococcus spp. The inclusion of up to 28% citrus pulp concentrates for horses did not promote change in the physicochemical characteristics and on the population of lactic acid-producing bacteria in feces.
Keywords: byproducts; lactobacillus; nutrition; pH.
O presente estudo teve como objetivo avaliar o efeito de dietas com níveis crescentes de polpa cítrica nas análises físico-químicas e microbiológicas nas fezes de cavalos. Cinco éguas, com idade média de 3,5 anos e peso corporal de 492 ± 44.5 kg foram dispostas em um quadrado latino 5x5. As dietas experimentais consistiram de 60% de feno coast–cross e 40% de concentrado com níveis crescentes de polpa cítrica (0, 7, 14, 21, 28%). Para determinar o pH fecal foram colhidas amostras (diretamente do reto) das primeiras fezes do dia às 07:00 min e foram avaliados as características de cor e consistência fecal. Para as análises microbiológicas, um alíquota foi reservada em plásticos, congeladas e enviadas para o laboratório para posterior análise. As bactérias láticas foram enumeradas por Lactobacillus spp. e Streptococcus spp. a partir das amostras fecais, em condições anaeróbicas. Não houve efeito (P<0,05) para a consistência fecal, 98% dos animais apresentaram fezes normais e firmes, enquanto 2% apresentaram fezes do tipo soltas. Não houve diferença (P<0,05) para a cor sendo que 100% dos animais apresentaram fezes verdes e normais. Não houve efeito (P>0,05) no pH e no número de Lactobacillus spp. e Streptococcus spp. A inclusão de até 28% de polpa cítrica no concentrado para equinos não promove mudanças nas características físico-químicas e na população de bactérias produtoras de ácido lático nas fezes.
Enviado em: 16 outubro 2014
Aceito em 27 junho 2016
An understanding of the physicochemical characteristics of feces can facilitate the diagnosis of intestinal acidosis and reduce risk of colic, endotoxemia, and laminitis(1). The measurement of pH, microbiota concentration, and short chain fatty acids (SCFA) has been previously used to determine the health of the digestive tract(2). Regular defecation, consistency, shape, and smell of feces are important for the evaluation of equine digestive tract health, and this cannot be ignored in assessing the well-being and the dietary changes(2).
Diet directly affects fecal pH and may cause gastrointestinal disturbances, especially when provided carelessly. Horses fed diets with higher intake of hydrolysable carbohydrates present a reduction in fecal pH(3). The excessive consumption of hydrolysable carbohydrates overloads the capacity of the small intestine and results in rapid fermentation in the large intestine, leading to increased production of short chain fatty acids (SCFAs) and lactic acid. The supply of hay twice a day and the increase in the amount of dietary fiber are associated with increased fecal pH(4). Hay and fodders rich in fibers can potentially slow fermentation in the large intestine and, due to its dry matter content, may soak up excess SCFA produced by fermentation(5).
Currently, it is suggested that the maximum contribution of starch is 1 g/kg body weight (BW) per meal(6). In view of reducing the overload of starch in the diets of horses, new ingredients have been tested, among them byproducts such as citrus pulp and soybean hulls(7), which have similar energy amount to grains(8). Citrus pulp presents good alternative energy and high proportion of neutral detergent fiber (NDF) and acid detergent fiber (ADF)(5).
However, changes in the diet composition may lead to changes in the gastrointestinal microbial ecology, creating favorable conditions for the gastrointestinal imbalance with the proliferation of lactic acid-producing bacteria (LAB), thus sparking acidosis and equine laminitis(9). Therefore, monitoring populations of LAB as a reflection of a potentially imbalanced microflora are essential when considering dietary ingredients. The aim of this study was to evaluate the effect of diets with increasing levels of citrus pulp on the physiochemical and microbial content of feces.
The experiment was conducted at the Department of Equines of the City Hall of Pirassununga Campus, São Paulo, Brazil, in 2011. We used five crossbred horses, aged approximately 3.5 years, with body weight of 492.5 ± 44.5 kg, housed in individual box stalls. The animals adjusted to the diet for seven days, followed by three days of total collection of feces, and four days of rest. No significant body weight changes were observed during the experiment.
The animals were arranged in 5 x 5 Latin square (five horses and five diets). The experimental diets were formulated attending the requirement of maintaining animals as described by National Research Council(5). The proportion of forage:concentrate was 60:40, and the roughage used was coast-cross hay. The experimental concentrates were formulated with increasing levels of citrus pulp (Tables 1 and 2). The citrus pulp was obtained by processing oranges using the pressing technique with subsequent drying. In order to facilitate drying of the citrus pulp feed product, calcium oxide was added to release the bound juices and reduce the stickiness of the pulp, which otherwise can result in charring. The chemical composition of the citrus pulp used was as follows: 90.26 % dry matter, 7.26
% ash, 7.32 % crude protein, 12.31 % crude fiber, 1.65 % ether extract, 14.72 % ADF, and 20.17 % NDF.
The chemical analysis of the diets was completed at the Food Science Laboratory of ZAZ, and microbiological analysis was completed in the Zootechnical ZMV Hygiene Laboratory ZMV-FZEA- USP. For determination of pH, stool samples were collected in plastic bags, directly from the floor at 07:00 h, during three consecutive days and sent immediately to the laboratory, where the pH was measured introducing the fresh feces to pH meter directly. For microbiological analysis an aliquot was reserved in the plastic bags, frozen and sent to the microbiological laboratory for further analysis.
The classification of the characteristics regarding consistency and color of feces was performed with the aid of a score sheet(10). At the same time, fecal pH was evaluated, using the method of Berg et al.(2). For microbiological analysis, 10 g of each fecal sample was homogenized with 100 mL of sterile peptone water 0.1 % (w / v), making it a starting dilution of 10-1. The 10-1 starting dilution was further diluted to 10-8, and fecal samples were plated (100 mL) on Columbia Agar supplemented with either 5% defibrinated sheep blood (New Prov Ltda., Brazil), or Agar Man, Rogosa, Sharpe modified (LAMVAB)(11), respectively, for growth of Streptococcus spp. and Lactobacillus spp. under anaerobic conditions for 24 to 48 hours at 37 °C. The bacterial counts were recorded as colony forming units (CFU) per gram of feces and expressed as log CFU g-1 of feces.
Quantitative parameters were analyzed according to the statistical model yijk = μ + Ai + Tj + Pk + ɛijk, where yijk represents the dependent variable; μ the overall mean; Ai, the effect of the animal (i = 1 to 5); Tj, the treatment effect (j = 1 to 5); Pk, the effect of the period (k = 1 to 5); and ɛijk the residual error. For statistical analysis, the PROC GLM of SAS statistical package for Windows(12) was used, and means were compared by Tukey test with a probability level of 5%. A chi-square test was used for the evaluation of the frequency parameters of fecal consistency and color. Comparisons between the results obtained for the bacterial counts from different samples, considering the different diets and the control group were performed using simple analysis of variance (one-way ANOVA) using the GraphPad Prism 5 (GraphPad Software Inc., USA) with a probability level of 5 %.
The increasing levels of citrus pulp on the diet had no effect (P>0.05) on pH values and population counts of Lactabacillus spp and Streptococcus spp in feces of horses (Table 3).
The pH values observed in this study were similar to previous reports, ranging between 6.48 and 6.38, affected by increasing levels of fructooligosaccharides (FOS) in diets for horses(2), and approximate to those cited by Van Soest(13), ranging from 6.4 to 6.7. Berg et al.(2) observed a reduction in pH (P<0.05) as the FOS diet was included and attributed this result to increased production of SCFA. A similar situation was not observed in the present study. The pH stability of LAB and population examined in our laboratory could suggest that diets with increasing levels of citrus pulp do not allow the passage of the excess of easily fermentable carbohydrates into the large intestine and the quantity and quality of the hay provided together with the action of the citrus pulp kept the fermentation in the large intestine constant, which is useful to animal’s health(13).
In the present study, no effect of the diets was observed (P>0.05) on the population count of Lactobacillus spp and Streptococcus spp in horses feces. The optimum pH for activity of fiber- fermenting bacteria is between 6.5 and 7.0, while bacteria that produces and uses lactate (Lactobacillus spp and Streptococcus spp) operates in lower pH(14), which reinforces the results of the present study.
When horses were fed with diets containing 15 g probiotic (Saccharomyces cerevisiae), an increase (P<0.05) in Lactobacillus and Streptococcus population was observed. The higher pH values occurred with the addition of probiotic, an increased utilization of lactate, and an elevation in ammonia nitrogen concentration.
The production of acidosis in the large intestine is linked to a greater production of SCFA and lactate, using FOS as the main substrate and soluble carbohydrates that escape the digestion in the small intestine(14). The use of diets containing higher intake of roughage help to maintain the pH. This maintenance of pH can buffer the products of fermentation in the large intestine due to its rich dry matter content (15).
This amount of roughage may also have affected the maintenance of the feces characteristics such as consistency and color. Feces consistency was classified as normal, indicating that there were no intraluminal changes, mainly in the tangent osmotic pressure. These results suggest that all of the acid generated by fermentation was properly buffered, and there was no influx of water into the large intestine to cause diarrhea(5). The stool color (green) also reflected the typical coloration of coast-cross hay used in this study(10).
There were differences (p<0.05) in feces consistency due to the diet, 98% were normal and firm, while only 2% of the horses had loose-type ruminant feces. Santos et al.(1) observed, when working with an overload of starch, that feces became more fluid with the passage of time after eating. This effect on feces was attributed to the increased production of lactic acid in the large intestine that promotes increased intraluminal osmotic pressure, resulting in an osmotic influx of water into the intestinal lumen(1). In the present study, it is possible that there was no overload of starch in the large intestine, as well as no change in lactic acid production, which could have been enhanced by maintaining the pH between treatments and maintaining populations of Lactobacillus spp and Streptococcus spp (Table 1).
The color of feces showed no difference (p>0.05) between dietary treatments, and 100% had greenish coloration typical of the equine species. The typical green coloration is closely related to the type and quantity of forage offered to the animal. In the present study, 60% of dietary energy were offered coast-cross hay, which may have influenced the consistency and color of feces of horses(10,5).
The inclusion of up to 28% citrus pulp in concentrate for horses did not promote change in physicochemical characteristics and does not interfere on the population of lactic acid-producing bacteria from feces.
The authors acknowledge the support of the Faculty of Animal Science and Food Engineering, University of São Paulo, and the financial support of the Coordination of Improvement of Higher Education Personnel (CAPES).
The research project titled “Physicochemical and microbiological feces of horses fed with diets containing citrus pulp” (Protocol: 06/2012), developing in the period July-December 2012, was approved “by referendum” by the Management Council Pirassununga Campus Faculty of Animal
Science and Food Engineering - FZEA.
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