ABSTRACT:
Pornunça (Manihot sp.) is a potential forage to feed ruminants in drylands worldwide; however, evaluations of animal diets are necessary. This study assessed intake and digestibility of dry matter and nutrients, physiological responses, ingestive behavior, water intake, as well as hematological and biochemical responses of lambs fed diets containing increasing levels of Pornunça silage (PS) replacing Tifton-85 bermudagrass hay (Cynodon spp.). Treatments consisted of 0, 33, 66, and 100 % PS considering the roughage portion of the diet (% dry matter – DM). The experimental design was completely randomized with six replicates. Cyanide acid (HCN) levels in fresh Pornunça leaves were 207.7 mg kg−1 DM and 76.78 mg kg−1 DM in PS. Intake of DM and crude protein (CP), and neutral detergent fiber corrected for ash and protein (NDFap) increased linearly with increasing levels of PS in the diet. Digestibility of DM, NDF, and CP were higher with increasing levels of PS. Idle time decreased linearly, while water balance, water intake via food, and total water in feces increased with PS. Nitrogen balance, physiological, and hematological responses were not influenced by treatments, while the final alanine aminotransferase increased for lambs fed all diets evaluated. The PS up to 100 % of the roughage portion increased DM and nutrient intake and digestibility without altering physiological responses and the hematological and biochemical parameters, resulting in greater water intake via food.
Keywords:
Manihot sp.; feed alternative; forage; semi-arid
Introduction
Pornunça (Manihot sp.) is a natural hybrid between cassava and wild cassava used as forage in the Brazilian semi-arid region (Silva et al., 2017Silva, G.D.L.S.; Carneiro, M.S.D.S.; Edvan, R.L.; Andrade, A.P.D.; Medeiros, G.R.D.; Cândido, M.J.D. 2017. Determining a model to estimate leaf area in Pornunça (Manihot sp.) using morphometric measures. Acta Scientiarum. Animal Sciences 39: 351-356. https://doi.org/10.4025/actascianimsci.v39i4.36447
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), with potential for use in other drylands worldwide. Pornunça shows satisfactory forage yield, considering the Brazilian semi-arid environment (Alencar et al., 2019Alencar, F.H.H.; Silva, D.S.; Andrade, A.P.; La Bruno, R.; Melo Junior, J.L.A.; Melo, L.D.F.A.; Medeiros, A.N. 2019. Potential forage of Manihot spp. under the effect of cuts and sources of organic fertilization. Journal of Agricultural Science 11: 30-37. https://doi.org/10.5539/jas.v11n16p30
https://doi.org/10.5539/jas.v11n16p30...
), and suitable quality of fresh forage or silage (Voltolini et al., 2019Voltolini, T.V.; Belem, K.V.J.; Araújo, G.G.L.; Moraes, S.; Gois, G.C.; Campos, F. 2019. Quality of leucaena, gliricidia, and Pornunça silages with different old man saltbush levels. Semina: Ciências Agrárias 40: 2363-2374. https://doi.org/10.5433/1679-0359.2019v40n5Supl1p2363
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).
According to Carvalho et al. (2017)Carvalho, G.G.P.; Rebouças, R.A.; Campos, F.S.; Santos, E.M.; Araújo, G.G.L.; Gois G.C.; Cirne, L.G.A. 2017. Intake, digestibility, performance, and feeding behavior of lambs fed diets containing silages of different tropical forage species. Animal Feed Science and Technology 228: 140-148. https://doi.org/10.1016/j.anifeedsci.2017.04.006
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, Pornunça silage presents pH = 3.7, N-NH3/total = 5.5, acid lactic 3.85, acetic 1.13, propionic 0.36, and butyric 0.01 (% dry matter – DM). Thus, demonstrating an adequate fermentation profile and providing considerable productive performance, caracass traits (Campos et al., 2019Campos, F.S.; Carvalho, G.G.P.; Santos, E.M.; Araújo, G.G.L.; Gois, G.C.; Rebouças, R. A.; Magalhães, A.L.R.; Oliveira, J.S.; Voltolini, T.V.; Carvalho, B.M.A.; Perazzo, A.F. 2019. Characteristics of carcass and non-carcass components of lambs fed diets containing silages of forages adapted to the semi-arid environment. South African Journal of Animal Science 49: 119-130. http://dx.doi.org/10.4314/sajas.v49i1.14
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) and meat sensory properties (Campos et al., 2017Campos, F.S.; Carvalho, G.G.P.; Santos, E.M.; Araújo, G.G.L.; Gois, G.C.; Rebouças, R. A.; Leão, A.G.; Santos, S.A.; Oliveira, J.S.; Leite, L.C.; Araújo, M.L.G.M.L.; Cirne, L.G.A.; Silva, R.R.; Carvalho, B.M.A. 2017. Influence of diets with silage from forage plants adapted to the semi-arid conditions on lamb quality and sensory attributes. Meat Science 124: 61-68. https://doi.org/10.1016/j.meatsci.2016.10.011
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), presenting as alternative feed for ruminants.
Pornunça, similar to other plants of the genus Manihot,contains cyanogenic glycosides that generate cyanide acid (HCN) when hydrolyzed, which can be toxic to the animal depending on the amount ingested (Beltrão et al., 2015Beltrão, F.A.S.; Silva, D.S.; Beelen, P.G.; Zarate, R.M.L.; Cruz, S.E.S.B.S. 2015. Chemical characterization of different sorts of Maniçoba (Manihot pseudoglaziovii Pax and Hoffm) of interest forage. Engenharia Ambiental 12: 135-142 (in Portuguese, with abstract in English).). The conservation of Pornunça as silage reduces HCN concentration and is considered a safe strategy to feed ruminants (Matos et al., 2005Matos, D.S.; Guim, A.; Batista, Â.M.; Pereira, O.G.; Martins, V. 2005. Chemical composition and nutritional value of maniçoba silage (Manihot epruinosa). Archivos de Zootecnia 54: 619-629 (in Portuguese, with abstract in English).).
Tropical grass hay, such as Tifton-85 bermudagrass (Cynodonspp.), is a traditional ingredient for ruminant feeding; nevertheless, this grass has limited availability and is costly for purchase. Thus, replacing Tifton-85 with Pornunça silage can reduce production costs for farmers and expand roughage alternatives for animal feeding in dry areas. However, the ideal levels of Pornunça silage to be added to diets for lambs are not well established, requiring studies to define the inclusion level for positive effects on intake and nutrient digestibility as well as biochemical and hematological responses.
We hypothesized that Pornunça silage can replace Tifton-85 hay in lamb diets without reducing productive performance, hematological, and biochemical physiological parameters. This study evaluated the effects of replacing Tifton-85 hay with Pornunça silage in the roughage portion of diets of feedlot lambs on intake, digestibility of dry matter and nutrients, physiological responses, ingestive behavior, water consumption, and hematological and biochemical parameters.
Materials and Methods
Ethical aspects
The project was submitted to the Animal Research Ethics Committee (CEUA) of the Brazilian Agricultural Research Company - Embrapa Semi-arid and approved under registration protocol number 06/2018.
Location, animals, facilities, experimental period
The experiment was carried in the municipality of Petrolina, Pernambuco State, Brazil (9°19’19.6” S, 40°33’40.8” W, altitude of 379 m). Twenty-four male, non-castrated, non-defined breed, with 22.28 kg of initial body weight were housed in a covered shed, ventilated, in individual metabolic cages, with individual feeders and drinkers. The study lasted 21 days, 16 days for adaptation and five days for data collection.
Treatments and experimental design
Pornunça was harvested six months after regrowth. The forage material was chopped (2.0 to 2.5 cm of particle size), homogenized, and compacted in plastic drums with a capacity of 200 L, at a density of 660 kg fresh matter m−3% and stored for 60 days.
The treatments consisted of levels of replacement of Tifton-85 hay with Pornunça silage (0, 33, 66 and 100 % roughage portion of the diet, in % DM), denominated 0 %PS, 33 %PS, 66 %PS and 100 %PS, in a completely randomized experimental design with six replicates.
Diets were prepared and balanced to provide 200 g d−1% average daily gain (ADG) (NRC, 2007National Research Council [NRC]. 2007. Nutrient Requirements of Small Ruminants. NAP, Washington, DC, USA. https://doi.org/10.17226/11654
https://doi.org/10.17226/11654...
). The concentrate was composed of ground corn, soybean meal, wheat meal, and mineral salt. The roughages used (Tifton-85 and PS) were chopped.
Diets were provided as a total mixed ration, twice a day, at 9h00 a.m. and 3h00 p.m. Water was offered ad libitum, the animals were fed according to the dry matter intake (DMI) of the previous day and it was calculated to allow for 10 % leftovers.
Chemical analyses
Ingredients, diets, and leftovers samples were pre-dried in an oven at 55 °C. The chemical composition was determined following the recommendations of AOAC (1990)Association of Official Analytical Chemists [AOAC]. 1990. Official Methods of Analysis 12ed. AOAC, Washington, DC, USA. for DM contents (method 934.01), ash (method 930.05), and crude protein (CP) (method 981.10). The ether extract (EE) was determined according to AOCS (2017)American Oil Chemists’ Society [AOCS]. 2017. Official Methods and Recommended Practices of the AOCS. AOCS, Champaign, IL, USA.. Neutral detergent fiber (NDF) and acid detergent fiber (ADF) according to Van Soest et al. (1991)Van Soest, P.J.; Robertson, J.B.; Lewis, B.A. 1991. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science 74: 3583-3597. https://doi.org/10.3168/jds.S0022-0302(91)78551-2
https://doi.org/10.3168/jds.S0022-0302(9...
, and the lignin content according to Van Soest and Wine (1967)Van Soest, P.J.; Wine, R.H. 1967. Use of detergents in the analysis of fibrous feeds. IV. Determination of plant cell-wall constituents. Journal of Association of Official Analytical Chemists 50: 50-55. https://doi.org/10.1093/jaoac/50.1.50
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. The NDF was corrected for protein and ash (NDFap) (Licitra et al., 1996Licitra, G.; Hernandez, T.M.; Van Soest, P. 1996. Standardization of procedures for nitrogen fractionation of ruminant feeds. Animal Feed Science and Technology 57: 347-358. https://doi.org/10.1016/0377-8401(95)00837-3
https://doi.org/10.1016/0377-8401(95)008...
).
Non-fiber carbohydrates (NFC) were calculated according to Detmann and Valadares Filho (2010)Detmann, E.; Valadares Filho, S.C. 2010. On the estimation of non-fibrous carbohydrates in feeds and diets. Arquivo Brasileiro de Medicina Veterinária e Zootecnia 62: 980-984. https://doi.org/10.1590/S0102-09352010000400030
https://doi.org/10.1590/S0102-0935201000...
, and total carbohydrates (TC) were estimated according to Sniffen et al. (1992)Sniffen, C.J.; O’Connor, A.C.; Van Soest, P.J.; Fox, D.G.; Russell, J.B. 1992. A net carbohydrate and protein system for evaluating cattle diets. II. Carbohydrate and protein availability. Journal of Animal Science 70: 3562-3577. https://doi.org/10.2527/1992.70113562x
https://doi.org/10.2527/1992.70113562x...
. Tables 1 and 2 list the chemical composition of ingredients and diets, respectively.
The quantification of cyanide acid (HCN) in leaves of fresh Pornunça and Pornunça silage was carried out according to Ades Totah and Hernandes Luís (1986)Ades Totah, J.J.; Hernandez Luís, F. 1986. Presence of cyanidric acid in forage grown in Mexico = Presencia de acido cianhidrico en forrajes cultivados em Mexico. Agricultura Tecnica en México 12: 77-90 (in Spanish, with abstract in English)..
Intake and digestibility of dry matter and nutrients
The DMI and nutrient intake [organic matter (OM), NDFap, CP, EE, TC and NFC] were obtained by the difference of total feed offered daily and daily leftovers (% DM). The DM and nutrient digestibility were evaluated for five consecutive days, using bags for total collection of feces. Feces were collected, weighed, and sampled (10 % total excreted) twice a day. Urine was collected in plastic buckets containing 100 mL 2N hydrochloric acid.
A composite sample from each animal was obtained at the end of the collection period for the chemical analyses. The apparent digestibility coefficients (DC) of DM, OM, NDFap, CP, EE, TC and NFC were calculated using the equation: DC = [(kg ingested fraction – kg excreted fraction)] / (kg ingested fraction) × 100.
Water and nitrogen balance
Water was supplied ad libitum. Additionally, three buckets containing water were randomly distributed in the shed to determine evaporation. The free water intake (FWI) was determined by the difference of water supplied and water remained, discounting the loss of water by evaporation. Water intake via diet (WID) was calculated by the difference of water in the diet and in leftovers.
The water balance was determined based on the following equations: Total water intake (kg d−1%) (TWI) = free water intake + water intake via diet; total excretion of water (kg d–1%) (TWE) = water excreted in urine + water excreted in feces; absorbed water (g d–1%) (AW) = TWI - water excreted in urine; water retained (kg d−1%) (Wret) = TWI − TWE; water balance (%WB) = (water retained/TWI) × 100.
Nitrogen balance was determined as the difference of total N ingested (Ning) and total N excreted in feces (Nfec) and in urine (Nur). Nitrogen absorbed (Nabs) was estimated considering: Nabs = Ning – Nfec and nitrogen retained (Nret): Nret = Ning – (Nfec + Nur). Nitrogen balance (NB) was estimated as NB (%) = [Ning – (Nfec + Nur) / Ning] × 100.
Ingestive behavior
Ingestive behavior assessments were performed on the 9th% day for 24 h uninterrupted. Observations were recorded every 5 min considering the following activities: intake, rumination, or idle.
Physiological responses and environmental variables
Physiological parameters were measured on the 8th% and 15th% days, in the morning (8h00 a.m.) and afternoon (2h00 p.m.). Rectal temperature (RT) was measured by introducing a digital clinical thermometer into the rectum of the animals. Respiratory rate (RR) was subjectively measured by a single evaluator, observing the movements of the animal flanks (breath min−1). Heart rate (HR) was measured by auscultating the left side of the animals, on the first rib, using a stethoscope (beat min−1).
The body surface temperature was measured using an infrared laser thermometer on the head, neck, hock, and flank.
Air temperature (°C) and relative humidity (RH, %) were evaluated using a digital thermo-hygrometer HT-700 at three different times every day: at 9h00 a.m., 12h00 p.m., and 3h00 p.m. (Table 3). The temperature-humidity index (THI) was calculated according to Buffington et al. (1981)Buffington, D.E.; Collazo-Arocho, A.; Canton, G.H.; Pitt, D.; Tatcher W.W.; Collier, R.J. 1981. Black globe-humidity index (BGHI) as a comfort equation for dairy cows. Transactions of the ASAE 24: 711-714. https://doi.org/10.13031/2013.34325
https://doi.org/10.13031/2013.34325...
, considering as < 82 = no heat stress; 82 to < 84 = moderate heat stress; 84 to < 86 = severe heat stress, and over 86 = extreme severe heat stress (Marai et al., 2007Marai, I.F.M.; El-Darawany, A.A.; Fadiel A.; Abdel-Hafez, M.A.M. 2007. Physiological traits as affected by heat stress in sheep: a review. Small Ruminant Research 71: 1-12. https://doi.org/10.1016/j.smallrumres.2006.10.003
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).
Air temperature, relative humidity (RH), and temperature-humidity index (THI) recorded in the shed (indoor) during the experimental period.
Hematological and biochemical parameters
Blood samples were taken on the 1st %day of adaptation and on the 21st% day of the experimental period. The jugular vein was punctured and 2 mL blood was drawn, using K50-1302S tubes with EDTA (ethylenediamine tetra-acetic acid) and K50-305M tubes without EDTA. Immediately after collection, blood samples were refrigerated and taken to laboratory for microscopy and the analyses with a magnifying glass. The samples were analyzed for white series (total leukocytes), complete red blood cell (erythrogram), and platelet count.
The analyses were performed using Bioclin analysis kits, determining albumin (ALB), aspartate aminotransferase (AST), alanine aminotransferase (ALT), alkaline phosphatase, urea (URE), and creatinine (CREA).
Statistical analysis
Data were checked for normal distribution and tested by the analysis of variance followed by linear and quadratic regression, using the statistical software SAS (Statistical Analysis System). Significance was declared when was p ≤ 0.05.
Results and Discussion
The HCN in the fresh plant and in the PS were 207.7 mg kg–1% DM and 76.78 mg kg–1% DM, respectively, demonstrating that ensiling was efficient to reduce HCN levels. Matos et al. (2005)Matos, D.S.; Guim, A.; Batista, Â.M.; Pereira, O.G.; Martins, V. 2005. Chemical composition and nutritional value of maniçoba silage (Manihot epruinosa). Archivos de Zootecnia 54: 619-629 (in Portuguese, with abstract in English). found 972 mg kg–1% HCN for fresh maniçoba and reported 162 mg kg–1 %for maniçoba silage. The final body weight of animals was 22.33, 26.00, 29.35, and 28.33 kg for groups fed 0, 33, 66, and 100 % PS, respectively.
The DMI and the intake of OM, EE, CP, NDFap, TC and NFC increased linearly with the inclusion of PS replacing Tifton-85 hay (Table 4), due to the increase in NFC (Table 2) and high nutrient digestibility (NDFap, TC and CP) (Table 4). Lower fiber digestibility results in rumen filling, which limits feed intake, while high fiber contents reduce ruminal degradation and decrease the passage rate of the fiber fraction. According to Allen et al. (2019)Allen, M.S.; Sousa, D.O.; VandeHaar, M.J. 2019. Equation to predict feed intake response by lactating cows to factors related to the filling effect of rations. Journal of Dairy Science 102: 7961-7969. https://doi.org/10.3168/jds.2018-16166
https://doi.org/10.3168/jds.2018-16166...
, the forage NDF content and the digestibilibity of forage NDF are the main factors affecting the rumen filling effect.
Intake and digestibility of dry matter (DM, %) and nutrients from lamb diets based on Pornunça silage replacing Tifton-85 hay, % dry matter.
The highest DMI provided by increasing PS levels in the diets resulted in a greater nutrient intake, increasing intake of CP, NDF, ash, EE, TC, and NFC in feedlot lambs (Table 4).
The inclusion of PS increased linearly the digestibility of DM and nutrients (CP, OM, TC, NFC), except for EE. The PS presented lower lignin and ADF contents (Table 2) as well as ower lignin/NDF ratio. Huhtanen and Kahlili (1991)Huhtanen, P.; Kahlili, H. 1991. Sucrose supplements in catle given grass silage based diet: rumen pool size and digestion kinetics. Animal Feed Science and Technology 33: 275-287. https://doi.org/10.1016/0377-8401(91)90066-2
https://doi.org/10.1016/0377-8401(91)900...
reported a negative relationship between NDF digestibility and total NDF in the rumen. Therefore, fiber acts limiting the disappearance rate of the material in the digestive tract.
Animals fed 0 % PS diets presented the lowest TC digestibility (Table 4), which is related to the high fiber digestibility and cell content.
The replacement of Tifton-85 hay with PS did not influence the time of feeding and ruminating as well as the efficiency of ingestion and rumination of DM and NDF of lambs (Table 5). However, the increase of PS levels reduced the iddle time. Animals fed 0 % PS spent more time idling. The reduction in idle time is atributed to higher nutritional values of diets containing PS (Table 2) and greater nutrient supply due to greater intake and digestibility (Table 4) provided by PS.
Ingestive behavior of feedlot lambs fed with increasing levels of Pornunça silage (% roughage portion) replacing Tifton-85 hay.
The PS levels incluced to replace Tifton-85 hay did not influence FWI, TWI, WU (water in urine), WF (water in feces), Wret, and WB. There was a positive linear effect of PS inclusion on WID and TWE (Table 6).
Water and nitrogen balance of lambs fed with increasing levels of Pornunça silage (% roughage portion) replacing Tifton-85 hay.
The greater water intake via food with increasing PS levels in the diets can be explained by greater water content in this ingredient (27.67 % DM) compared to Tifton-85 hay (80.12 % DM) (Table 1), resulting in diets with lower DM contents (Table 2).
Water is a scarce natural resource in semi-arid regions and its offer via diet, such as the Pornunça silage, saves drinking water (Araújo, 2015Araújo, G.G.L. 2015. Impacts of climate change on water resources and animal production in semi-arid regions. Revista Brasileira de Geografia Física 8: 598-609 (in Portuguese, with abstract in English). https://doi.org/10.5935/1984-2295.20150017
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). In this study, WID increased proportionally with the PS inclusion in the diets resulting in 19.44 %, 26.33 %, and 28.69 % in relation to the total water ingested daily for 33 %, 66 %, and 100 % PS, respectively. Lambs fed 0 % PS offset the lower WID by the intake of free water; therefore, there was no effect on the TWI.
Diets contatining higher levels of Pornunça silage showed higher water content, promoted greater WID, and provided higher TWE without affecting Wret and WB. All diets resulted in positive WB for feedlot lambs.
The replacement of Tifton-85 hay with PS did not affect Nur, Nfec, and NB. The N ingested, Nabs, and Nret were influenced, presenting higher values with increasing PS levels (Table 6). Greater DMI with increasing PS levels in the diets enhanced CP intake and N intake. The higher CP intake combined with higher CP digestibility for 66 % PS and 100 % PS increased Ning and consequently increased Nabs and Nret.
Physiological responses RR, HR, RT, and body surface temperature were not affected by the diets evaluated (Table 7). Indoor temperatures observed during the morning and in the afternoon (Table 3) were above the values considered ideal for sheep (25 °C); however, they were below the upper critical temperature (35 °C). The relative humidity in the afternoon was also below the ideal values (50 to 70 %) (Furtado et al., 2020Furtado, D.A.; Oliveira, F.M.; Sousa, W.H.; Medeiros, G.R.; Oliveira, M.E.C.; Veigas, R.R. 2020. Thermal comfort indexes and physiological parameters of Santa Inês and crossbreed ewes in the semi-arid. Journal of Animal Behaviour and Biometeorology 5: 72-77. http://dx.doi.org/10.31893/2318-1265jabb.v5n2p72-77
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). In addition, THI (Table 3) indicated no heat stress.
Physiological responses (respiratory rate, heart rate, rectal temperature, and body surface temperature) measured three times a day in feedlot lambs fed with increasing levels of Pornunça silage (% roughage portion in diets) replacing Tifton-85 hay.
The respiratory rates of 40-60, 60-80, and 80-120 breath min−1 are considered low, medium-high, and high stress, respectively. Above 200 breath min−1 is considered severe stress (Silanikove, 2000Silanikove, N. 2000. Effects of heat stress on the welfare of extensively managed domestic ruminants. Livestock Production Science 67: 1-18. https://doi.org/10.1016/S0301-6226(00)00162-7
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), indicating low thermal stress for lambs fed 33 %, 66 %, and 100 % PS and medium stress for 0 % PS (Table 7), possibly due to the higher DMI and shorter idle time provided for by greater PS levels in the diets. Rectal temperature and body surface temperature were considered normal for lambs fed all diets evaluated. On the other hand, lambs presented tachycardia in the afternoon, considering HR above 70-80 beat min−1.
Hematological parameters (total leukocytes-TL, red blood cells, hemoglobin-HEM, and platelets) were not influenced by increasing PS levels (Table 8). Total leukocytes, red blood cells, hemoglobin, and platelets were normal for lambs, according to Radostits et al. (2000)Radostits, O.M.; Gay, C.C.; Blood, D.C.; Hinchcliff, K.W. 2000. Veterinary Medicine: A Textbook of Cattle, Sheep, Pigs, Goats and Horses. 9ed. W.B. Saunders, London, UK., indicating that an inflamatory process or intoxication did not occur, considering that HCN may increase hemoglobin and red blood cells to offset the oxygen (O2) transport limitations to tissues.
Hematological parameters determined at the beginning (initial) and at the end of the study (final) with sheep fed diets based on Pornunça silage replacing Tifton-85 hay.
Alcaline phosphatase (AP) and aspartate aminotransferase (AST) were not affected by diets, while alanine aminotransferase was increased (ALT) (Table 9). However, the concentrations of these enzimes are considered normal for lambs, according to Radotists et al. (2000)Radostits, O.M.; Gay, C.C.; Blood, D.C.; Hinchcliff, K.W. 2000. Veterinary Medicine: A Textbook of Cattle, Sheep, Pigs, Goats and Horses. 9ed. W.B. Saunders, London, UK., indicating adequate liver function and absence of metabolic disturbances. Cassava plants are rich in carotenoids, precursor of vitamins A, C, and B complex, and may activate ALT, increasing its concentration.
Serum biochemical parameters determined in the beginning (initial) and at the end of the study (final) with sheep fed diets based on Pornunça silage replacing Tifton-85 hay.
Albumin (ALB) concentration was not influenced by the replacement of Tifton-85 hay with PS in lamb diets (Table 9). Albumin is a sensitive marker for a protein nutritional status, suggesting high protein supply. Pornunça silage presented high protein content resulting in high protein intake. In addition, PS diets provided high protein digestibility.
Urea and creatinine were not affected by increasing levels of PS replacing Tifton-85 hay (Table 9). Values of initial and final urea were high, possibly due to the adequate supply of protein and protein/energy ratio to the lambs, increasing the serum ammonia that is transformed into urea, increasing the circulating urea (Menezes et al., 2012Menezes, D.R.; Costa, R.G.; Araújo, G.G.L.; Pereira, L.G.R.; Oliveira, P.T.L.; Silva, A.E.V.N. 2012. Blood, liver and rumen parameters of sheep fed diets containing detoxified castor bean meal. Pesquisa Agropecuária Brasileira 47:103-110 (in Portuguese, with abstract in English). https://doi.org/10.1590/S0100-204X2012000100014
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).
The initial and final values of creatinine were below normal, demonstrating that creatinine was not affected by diets. This is used as a reference for correcting changes that may occur in blood urea variations. Therefore, creatinine is generally used to distinghish whether the increase in urea is due to prerenal causes, such as factors related to feed or kidneys. Low creatinine can be explained by compensation or correction of serum urea.
Our results demonstrate that the replacement of Tifton-85 hay with Pornunça silage, including up to 100 % roughage portion in diets for lambs, increased DM and nutrient intake and reduced idle time due to the lower lignin contents and higher NDF digestibility. The greater feed intake and the higher water concentration of Pornunça silage diets increased the amount of WID. Diets composed of Pornunça silage did not promote changes in the main physiological, biochemical, and hematological responses.
Acknowledgments
The authors wish to thank FACEPE (Research Support Foundation of the Pernambuco State) for the scholarship to the first author (IBPG-0499-5.04/17) and the teams of animal metabolism, animal nutrition, microscopy, and bioclimatology laboratories at Univasf (Federal University of the São Francisco Valley) for the assistance in the analyses.
References
- Ades Totah, J.J.; Hernandez Luís, F. 1986. Presence of cyanidric acid in forage grown in Mexico = Presencia de acido cianhidrico en forrajes cultivados em Mexico. Agricultura Tecnica en México 12: 77-90 (in Spanish, with abstract in English).
- Alencar, F.H.H.; Silva, D.S.; Andrade, A.P.; La Bruno, R.; Melo Junior, J.L.A.; Melo, L.D.F.A.; Medeiros, A.N. 2019. Potential forage of Manihot spp. under the effect of cuts and sources of organic fertilization. Journal of Agricultural Science 11: 30-37. https://doi.org/10.5539/jas.v11n16p30
» https://doi.org/10.5539/jas.v11n16p30 - Allen, M.S.; Sousa, D.O.; VandeHaar, M.J. 2019. Equation to predict feed intake response by lactating cows to factors related to the filling effect of rations. Journal of Dairy Science 102: 7961-7969. https://doi.org/10.3168/jds.2018-16166
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Publication Dates
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Publication in this collection
18 Feb 2022 -
Date of issue
2023
History
-
Received
08 Feb 2021 -
Accepted
13 Dec 2021