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Macromineral balance in lambs fed diets containing spineless cactus species

[Balanço macromineral em cordeiros alimentados com dietas contendo espécies de palma forrageira]

ABSTRACT

The purpose of the present study was to evaluate the effects of spineless cactus species in diets of feedlot lambs on intake, apparent absorption and retention of macrominerals. Thirty-six uncastrated male Santa Inês lambs presenting an average body weight of 22.0±2.87 kg were distributed in a completely randomized design with three treatments [diet containing Tifton-85 hay as exclusive roughage (control), Miúda cactus cladodes-based diet or Orelha de Elefante Mexicana (OEM) cactus cladodes-based diet] and twelve replicates. The calcium (Ca) and magnesium (Mg) intakes (from feed and total) were higher (P=0.001) for animals fed diets supplemented with Miúda spineless cactus. The spineless cactus, regardless of species, caused a mean decrease of 45.4% in sodium intake (P=0.001). There was a net loss of Ca by lambs fed OEM spineless cactus (P=0.001). The absorption and retention of P was higher in control diet compared to the OEM diet (P<0.05). The amount apparently absorbed, and body retention of Mg were higher for lambs fed Miúda spineless cactus-diet (P=0.001). Therefore, the diet containing Miúda spineless cactus increases the intake and body retention of Ca and Mg in lambs. However, the use of OEM spineless cactus may be unsuitable for a long-term.

Keywords:
sheep; apparent absorption; cactus cladodes; mineral elements; semiarid

RESUMO

O objetivo do presente estudo foi avaliar os efeitos de espécies de palma forrageira, em dietas para cordeiros confinados, sobre o consumo, a absorção aparente e a retenção de macrominerais. Trinta e seis cordeiros Santa Inês, machos, não castrados, com peso médio de 22,0±2,87kg, foram distribuídos em delineamento inteiramente ao acaso, com três tratamentos [dieta contendo feno de Tifton-85 como volumoso exclusivo (controle), dieta à base de palma miúda ou palma orelha-de-elefante-mexicana (OEM)] e 12 repetições. Os consumos de cálcio (Ca) e magnésio (Mg) (via dieta e total) foram maiores (P=0,001) para os animais alimentados com dietas suplementadas com palma forrageira miúda. A palma forrageira, independentemente da espécie, causou diminuição média de 45,4% na ingestão de sódio (P=0,001). Houve perda líquida de Ca pelos cordeiros alimentados com palma OEM (P=0,001). A absorção e a retenção de P foram maiores com a dieta controle em comparação à dieta OEM (P<0,05). A quantidade aparentemente absorvida e a retenção corporal de Mg foram maiores nos cordeiros alimentados com palma miúda (P=0,001). Portanto, a dieta contendo palma miúda aumenta o consumo e a retenção corporal de Ca e Mg por cordeiros. No entanto, o uso de palma OEM pode ser insustentável a longo prazo.

Palavras-chave:
ovinos; absorção aparente; cladódios de palma; elementos minerais; semiárido

INTRODUCTION

Spineless cactus (Opuntia and Nopalea) is a forage crop well-established as a nutritional alternative for ruminants in semiarid environments. However, there are studies that have already reported unbalanced mineral relationships in the different species and varieties of spineless cactus used to feed ruminants in the tropics: high concentrations of Ca, Mg and K, and low levels of P and Na (Carvalho et al., 2020CARVALHO, C.B.M.; EDVAN, R.L.; NASCIMENTO, K.S. et al. Methods of storing cactus pear genotypes for animal feeding. Afr. J. Range Forage Sci., v.37, p.173-179, 2020.; Sipango et al., 2022SIPANGO, N.; RAVHUHALI, K.E.; SEBOLA, N.A. et al. Prickly pear (Opuntia spp.) as an invasive species and a potential fodder resource for ruminant animals. Sustainability, v.14, p.1-16, 2022.). Furthermore, spineless cactus have oxalates that can affect the utilization of dietary minerals (Silva et al., 2021SILVA, T.G.P.; BATISTA, A.M.V.; GUIM, A. et al. Cactus cladodes cause intestinal damage, but improve sheep performance. Trop. Anim. Health Prod., v.53, p.1-10, 2021.).

In the gastrointestinal tract of ruminants, synergistic or antagonistic interactions can occur between the minerals that make up the feed and between other substances in the diet (Pordeus Neto et al., 2016), which implies in predisposition to mineral imbalances. According to Underwood and Suttle (1999UNDERWOOD, E.J.; SUTTLE N.F. The mineral nutrition of livestock. 3.ed. New York: CAB International, 1999. 614p.) and Mayberry et al. (2010MAYBERRY, D.; MASTERS, D.; VERCOE, P. et al. Mineral metabolism of sheep fed saltbush or a formulated high-salt diet. Small Rumin. Res., v.91, p.81-86, 2010.), factors such as ruminal pH, cation-anionic difference, and rate of passage of diets through the gastrointestinal tract can affect the absorption of minerals.

Diets with increasing levels of spineless cactus cv. Baiana (Nopalea cochenillifera Salm-Dyck) cause linear decrease in ruminal pH of sheep (Lima et al., 2018LIMA, T.J.; COSTA, R.G.; MEDEIROS, G.R. et al. Ruminal and morphometric parameters of the rumen and intestines of sheep fed with increasing levels of spineless cactus (Nopalea cochenillifera Salm-Dyck). Trop. Anim. Health Prod., v.51, p.363-368, 2018.). Additionally, Costa et al. (2016COSTA, C.T.F.; FERREIRA, M.A.; CAMPOS, J.M.S. et al. Intake, total and partial digestibility of nutrients, and ruminal kinetics in crossbreed steers fed with multiple supplements containing spineless cactus enriched with urea. Livest. Sci., v.188, p.55-60, 2016.) reported an increase in the passage rate with the inclusion of spineless cactus in the diet for cattle. Thus, it is possible that the dietary levels of spineless cactus usually used in diets for ruminants (300-500g/kg of dry matter - DM) may cause changes in the absorption of minerals. Previous studies have reported changes in serum levels and bone content of macrominerals in lambs fed diets containing cactus cladodes (Silva et al., 2023aSILVA, T.G.P.; LOPES, L.A.; MUNHAME, J.A. et al. Effect of diets containing cactus cladodes on physical and histomorphometric parameters, and bone mineral content of feedlot lambs and goats. Small Rumin. Res., v.221, 106946, 2023a., 2023b). However, there is a gap in scientific knowledge regarding the effects of diets containing spineless cactus species on macrominerals balance in small ruminants.

In this context, it is hypothesized that diets containing spineless cactus change macromineral dynamics in sheep. Therefore, the purpose of the present study was to evaluate the effects of spineless cactus in diets of feedlot lambs on intake, apparent absorption, and retention of macrominerals.

MATERIAL AND METHODS

The procedures in this experiment were approved by the Committee of Ethics in the Use of Animals of the Federal Rural University of Pernambuco (UFRPE) (License 142/2018). The study was carried out at the Department of Animal Science, UFRPE, Recife, Pernambuco, Brazil. This research is a part of a larger project with methodology based on previous studies (Lopes et al., 2020LOPES, L.A.; FERREIRA, M.A.; BATISTA, A.M.V. et al. Intake, digestibility, and performance of lambs fed spineless cactus cv. Orelha de Elefante Mexicana. Asian Australas. J. Anim. Sci., v.33, p.1284-1291, 2020.; Silva et al., 2022SILVA, T.G.P.; LOPES, L.A.; CARVALHO, F.F.R. et al. Water balance and urinary parameters of lambs fed diets containing cactus cladodes varieties. J. Agric. Sci., v.160, p.557-563, 2022., 2023a).

Thirty-six uncastrated male Santa Inês lambs, with approximately six months and average body weight (BW) of 22.0±2.87kg were distributed in a completely randomized design, with three treatments and twelve replicates per treatment. All animals were maintained in a covered shed and housed in individual pens with a suspended slatted floor, equipped with feeder and drinker. The experimental period lasted 86 days, with 30 days of adaptation. Before starting the experiment, the lambs were identified, weighed, treated against parasites with doramectin 1% (Dectomax®, Guarulhos, SP, Brazil) and vaccinated against clostridiosis (Covexin 9®, São Paulo, SP, Brazil).

The treatments consisted of three diets formulated to meet the requirements to gain 200g/day (Nutrient…, 2007): (1) diet containing Tifton hay as exclusive roughage (control); (2) diet with partial replacement of Tifton hay by Miúda spineless cactus (Nopalea cochenillifera Salm Dyck) or (3) diet with partial replacement of Tifton hay by Orelha de Elefante Mexicana (OEM) spineless cactus (Opuntia stricta Haw.), with roughage:concentrate ratio of 60:40. The experimental diets were composed of two spineless cactus species, Tifton-85 hay (Cynodon spp.), ground corn, soybean meal, mineral mix and urea (Table 1).

The chemical composition of diets and ingredients proportion are presented in Table 2. The total mixed ration (TMR) was provided ad libitum twice daily (08:00 am and 03:00 pm), allowing leftovers of 15% of total DM offered. To avoid selection of the TMR, the mixture of ingredients was conducted manually in the feeders. The spineless cactus mucilage allowed a uniform aggregation of the other dietary ingredients. Further information regarding the processing and chemical analysis of feed and leftovers, as well as feces collection, were reported by Lopes et al. (2020LOPES, L.A.; FERREIRA, M.A.; BATISTA, A.M.V. et al. Intake, digestibility, and performance of lambs fed spineless cactus cv. Orelha de Elefante Mexicana. Asian Australas. J. Anim. Sci., v.33, p.1284-1291, 2020.), and the water and urine collections were described by Silva et al. (2022SILVA, T.G.P.; LOPES, L.A.; CARVALHO, F.F.R. et al. Water balance and urinary parameters of lambs fed diets containing cactus cladodes varieties. J. Agric. Sci., v.160, p.557-563, 2022.).

Table 1
Chemical composition of ingredients of experimental diets (g/kg dry matter, unless stated)
Table 2
Ingredients proportion and chemical composition of the experimental diets

The quantification of minerals in samples of water, feed, leftovers, and feces were reported by Silva et al. (2023aSILVA, T.G.P.; LOPES, L.A.; MUNHAME, J.A. et al. Effect of diets containing cactus cladodes on physical and histomorphometric parameters, and bone mineral content of feedlot lambs and goats. Small Rumin. Res., v.221, 106946, 2023a.), and urine mineral analyzes were performed according to Silva et al. (2022), in studies previously published by our research group. The mineral element intake was calculated by the difference between the amount of the mineral offered and its leftover. Apparent absorption of minerals was calculated as mineral intake − mineral fecal output. The mineral retention was calculated by the following equation: mineral intake - (mineral fecal output + mineral urine output).

A completely randomized design with three treatments and twelve replications was used, considering initial BW as a covariate, according to the model below:

Y i j = µ + T i + β ( X i j X ) + e i j

Where Yij = the observed dependent variable; µ = general mean; Ti = treatment effect; β(Xij − X) = covariate effect (initial BW); and eij = experimental error.

The data were submitted to analysis of variance (ANOVA), considering significant differences (P<0.05) as the critical probability level for type I error. The averages were compared by the Tukey's test (P<0.05), in the statistical SAS software (Statistical…, 2009).

RESULTS

The Ca and Mg intakes (from feed and total) were higher (P=0.001) for animals fed diets supplemented with Miúda spineless cactus. On the other hand, this diet provided a lower P intake (P=0.014), compared to the control treatment. The spineless cactus, regardless of species, caused a mean decrease of 45.4% in Na intake (P=0.001) (Table 3).

Table 3
Macrominerals intake by lambs fed spineless cactus-based diets

The fecal excretion of Ca was 336% and 460% higher by animals fed Miúda and OEM spineless cactus, respectively, compared to the control group. The apparent absorption of Ca was higher in diets control and containing Miúda spineless cactus. Furthermore, there was a net loss of Ca by lambs fed OEM spineless cactus (P=0.001) (Table 4). There was greater apparent absorption and body retention of Ca by lambs that received Miúda spineless cactus, and Ca total excretion was higher in animals fed spineless cactus (P=0.001) (Table 4).

Table 4
Apparent absorption and macromineral retention by lambs fed spineless cactus-based diets

The diet containing OEM spineless cactus caused negative Ca absorption and retention (Tab. 4). The absorption and retention of P was higher in control diet compared to the OEM diet (P<0.05) (Table 4). The amount apparently absorbed, and body retention of Mg were higher by lambs fed Miúda spineless cactus-diet (P=0.001; Table 4). The diet containing OEM spineless cactus caused greater urinary excretion of Mg compared to the control diet (P=0.031), and animals that received spineless cactus species excreted more Mg (total excretion) (P=0.001; Table 4). The apparent absorption of Na and K was higher in diets containing spineless cactus (Table 4).

DISCUSSION

The macrominerals intake observed in animals that consumed all diets were greater than the requirements for growing lambs (Nutrient…, 2007). Ca intake by lambs fed Miúda diet represented 658% of the requirements of this macromineral, which indicates an excess in the diets offered. Additionally, the macrominerals intake via water decreased with the addition of spineless cactus (P=0.001) (Table 3), being a result of the greater voluntary intake of water by lambs fed the control diet. The highest excretion of Ca occurs through the faeces, with very low losses through the urine due to the renal reabsorption (Santos et al., 2009SANTOS, K.L.L.; GUIM, A.; BATISTA, A.M. et al. Balanço de macrominerais em caprinos alimentados com palma forrageira e casca de soja. Rev. Bras. Saúde Prod. Anim., v.10, p.546-559, 2009.). The Miúda spineless cactus showed higher levels of Ca (Silva et al., 2023aSILVA, T.G.P.; LOPES, L.A.; MUNHAME, J.A. et al. Effect of diets containing cactus cladodes on physical and histomorphometric parameters, and bone mineral content of feedlot lambs and goats. Small Rumin. Res., v.221, 106946, 2023a.), which increased the intake, absorption, and body retention.

Negative Ca absorption and retention caused by diet containing OEM spineless cactus may be related to the highest intake of oxalates (Table 3), since these can bind with Ca, forming insoluble Ca oxalate. Rumen bacteria can partially metabolize the soluble oxalate (Ward et al., 1979WARD, G.; HARBERS, L.H.; BLAHA, J.J. Calcium-containing crystals in alfalfa: their fate in cattle. J. Dairy Sci., v.62, p.715-722, 1979.). However, most of the Ca oxalate passes intact through the ruminant digestive tract (Rahman et al., 2013RAHMAN, M.M.; ABDULLAH, R.B.; WAN KHADIJAH, W.E. A review of oxalate poisoning in domestic animals: tolerance and performance aspects. J. Anim. Physiol. Anim. Nutr., v.97, p.605-614, 2013.). In this study, the total oxalates intake by lambs fed OEM spineless cactus represented 0.53% of the DM intake and this level of oxalates intake was able to cause a net loss of Ca. Panda and Sahu (2002PANDA, N.; SAHU, B.K. Effect of dietary levels of oxalic acid on calcium and phosphorus assimilation in crossbred bulls. Indian J. Anim. Res., v.19, p.215-220, 2002.), using bulls, reported that the total oxalates intake at the level of 1.19% of the DM intake caused a negative balance of Ca. These results indicate that low levels of oxalates, despite not causing intoxication, may make some dietary minerals unavailable.

The greater intake of P by lambs of the control treatment (P=0.014) was reflected in the greater absorption and retention (P<0.05) of this element. In contrast, animals in this group excreted more P via urine (P=0.032). According to Louvandini and Vitti (2007LOUVANDINI, H.; VITTI, D.M.S.S. Phosphorus kinetics using mathematical models for adult sheep. Pesqui. Agropecu. Bras., v.42, p.1467-1472, 2007.), the greater excretion of P via urine indicates that the dietary levels of this mineral were able to meet the requirements of the lambs, with urine being a route of homeostatic control. Silva et al. (2023bSILVA, T.G.P.; LOPES, L.A.; CARVALHO, F.F.R. et al. Blood biochemical parameters of lambs fed diets containing cactus cladodes. Arq. Bras. Med. Vet., v.75, p.48-60, 2023b.), in research related to the present study, reported that serum P levels remained within the physiological range, regardless of dietary treatment.

Lambs fed Miúda spineless cactus absorbed and retained more Mg in the body due to the greater supply of this mineral provided by this diet, which increased the intake of Mg and its use by the organism. Silva et al. (2021SILVA, T.G.P.; BATISTA, A.M.V.; GUIM, A. et al. Cactus cladodes cause intestinal damage, but improve sheep performance. Trop. Anim. Health Prod., v.53, p.1-10, 2021.) also reported higher Mg concentrations in the Miúda species compared to the OEM species, using cladodes of the same age and cultivated under the same edaphoclimatic and management conditions. The absorption of Mg from the gastrointestinal tract is reduced when sheep are fed diets containing high levels of Ca and K (Newton et al., 1972NEWTON, G.L.; FONTENOT, J.; TUCKER, R.E. et al. Effects of high dietary potassium intake on the metabolism of magnesium by sheep. J. Anim. Sci., v.35, p.440-445, 1972.). The diet with OEM cactus caused lower absorption of Mg, but the intake and absorption of Ca was higher by the animals that received the diet containing Miúda cactus (P=0.001). These results suggest that Ca was probably little available.

The control diet also contains oxalates in its composition (Silva et al., 2023cSILVA, M.P.; CARVALHO, F.F.R.; BATISTA, A.M.V. et al. Nutritional and mineral composition of Opuntia stricta Haw: Balance of macrominerals, renal function and blood metabolites in sheep. Arq. Bras. Med. Vet., v.75, p.333-346, 2023c.), which may have caused the negative Na balance. In hay, the oxalate is predominantly forming crystals with monovalent cations, such as Na, but are more soluble in comparison to Ca oxalate (Rahman et al., 2013RAHMAN, M.M.; ABDULLAH, R.B.; WAN KHADIJAH, W.E. A review of oxalate poisoning in domestic animals: tolerance and performance aspects. J. Anim. Physiol. Anim. Nutr., v.97, p.605-614, 2013.). There was lower Na intake with the addition of cacti in the diets. However, fecal excretion of Na by animals submitted to these diets decreased, resulting in greater absorption of this element (average of 77.7%), result similar to that reported by Lucena (2011LUCENA, R.B. Utilização da palma forrageira (Nopalea cochenillifera Salm-Dyck) nas formas in natura e desidratada sobre: consumo, digestibilidade, balanço hídrico e absorção dos minerais em ovinos. 2011. 74f. Dissertação (Mestrado em Zootecnia) - Universidade Federal Rural de Pernambuco, Recife, PE.): Na absorption rates of 71% and 75% by lambs fed diets containing Tifton hay + cactus or only cactus, respectively.

The reduction in fecal K excretion provided by cactus based diets increased its absorption rate. Silva et al. (2023cSILVA, M.P.; CARVALHO, F.F.R.; BATISTA, A.M.V. et al. Nutritional and mineral composition of Opuntia stricta Haw: Balance of macrominerals, renal function and blood metabolites in sheep. Arq. Bras. Med. Vet., v.75, p.333-346, 2023c.) reported this same behavior when evaluating the replacement of Buffel grass hay by OEM spineless cactus in sheep diets. According to Cuppari and Bazanelli (2010CUPPARI, L.; BAZANELLI, A.P. Funções plenamente reconhecidas de nutrientes: potássio. São Paulo: ILSI Brasil, 2010. 16p. (Série de Publicações ILSI Brasil, 11).), minimal amounts of K are excreted through feces and sweat, being the renal excretion responsible for regulating the body balance of this element. Most of the K consumed by ruminants are absorbed from the small intestine and excreted by the kidneys (McDowell, 1992).

CONCLUSIONS

The diet containing Miúda spineless cactus increases the intake and body retention of calcium and magnesium by lambs. However, the use of Orelha de Elefante Mexicana spineless cactus may be unsuitable for lambs long-term. Thus, further studies are required to fully evaluate the mineral balance of sheep fed diets based-spineless cactus species.

ACKNOWLEDGEMENTS

This research was supported by Fundação de Amparo à Ciência e Tecnologia do Estado de Pernambuco (FACEPE) - Recife, PE, Brazil (Grant: APQ-0425-5.01/14 and BFP-0004-5.04/22), and by Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq).

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Publication Dates

  • Publication in this collection
    24 June 2024
  • Date of issue
    Jul-Aug 2024

History

  • Received
    31 Oct 2023
  • Accepted
    11 Dec 2023
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