Yerba mate (Ilex paraguariensis) as a source of antioxidants with soybean grain in supplementation of lactating ewes reared in tropical pastures

[1]  Y. Mallem,et al.  Supplementing young cattle with a rumen-protected grape extract around vaccination increases humoral response and antioxidant defenses , 2022, Veterinary and animal science.

[2]  J. Cielecka‐Piontek,et al.  Yerba Mate—A Long but Current History , 2021, Nutrients.

[3]  S. A. Salami,et al.  Fatty acid metabolism in lambs supplemented with different condensed and hydrolysable tannin extracts , 2021, PloS one.

[4]  E. V. da Costa e Silva,et al.  Effects of supplementation on production and age anticipation at first mating of ewe lambs in tropical pastures , 2021, Tropical Animal Health and Production.

[5]  Joseane Silva,et al.  Respostas na fisiologia da digestão ruminal ao uso de taninos na alimentação de ruminantes , 2021 .

[6]  L. M. D. Menezes,et al.  Eficiência do creep feeding sobre o desempenho de ovelhas Ideal e cordeiros Merino Australiano x Ideal , 2021 .

[7]  A. S. Netto,et al.  Inclusion of soybean and linseed oils in the diet of lactating dairy cows makes the milk fatty acid profile nutritionally healthier for the human diet , 2021, PloS one.

[8]  S. A. Salami,et al.  Fatty acids in rumen and meat of lambs fed with different condensed and hydrolysable tannin extracts , 2020 .

[9]  G. Difante,et al.  Productive and Reproductive Performance of Ewes at 60 and 90 Days Postpartum Treated by Different Weaning System , 2020 .

[10]  R. Lobo,et al.  Inclusion of Yerba Mate (Ilex paraguariensis) Extract in the Diet of Growing Lambs: Effects on Blood Parameters, Animal Performance, and Carcass Traits , 2020, Animals : an open access journal from MDPI.

[11]  A. Czumaj,et al.  Biological Role of Unsaturated Fatty Acid Desaturases in Health and Disease , 2020, Nutrients.

[12]  G. Battacone,et al.  Can Agro-Industrial By-Products Rich in Polyphenols be Advantageously Used in the Feeding and Nutrition of Dairy Small Ruminants? , 2020, Animals : an open access journal from MDPI.

[13]  J. Muir,et al.  Nutritional values and chemical composition of tropical pastures as potential sources of α-tocopherol and condensed tannin , 2019 .

[14]  J. A. Silva,et al.  Performance, Ingestive Behavior and Gastrointestinal Helminths Control of Suckling Lambs Supplemented in Creep-Fed and Not Supplemented in Tropical Pastures , 2019, Journal of Agricultural Studies.

[15]  R. Andreazza,et al.  Ilex paraguariensis extract prevents body weight gain in rats fed a high-fat diet , 2019, Food Science and Technology.

[16]  L. Zeoula,et al.  Antioxidant action in diets with ground soybeans on ruminal microbial production, digestion, and fermentation in buffaloes , 2019, Revista Brasileira de Zootecnia.

[17]  José Renato Junqueira Borges,et al.  PERFIL METABÓLICO DURANTE O PERIPARTO DE OVELHAS DA RAÇA SANTA INÊS COM GESTAÇÃO SIMPLES E MÚLTIPLA , 2019, Ciência Animal Brasileira.

[18]  L. Zeoula,et al.  Effect of supplementation with Yerba Mate (Ilex paraguariensis) and vitamin E on milk lipoperoxidation in cows receiving diets containing ground soybean seeds , 2019, Journal of Dairy Research.

[19]  J. Visentainer,et al.  Antioxidant activity and lipid oxidation in milk from cows with soybean oil and propolis extract added to their feed , 2019, Food Science and Technology.

[20]  F. A. Anjo,et al.  Effect of yerba mate (Ilex paraguariensis A. St.-Hil.) addition on the functional and technological characteristics of fresh cheese , 2019, Journal of Food Science and Technology.

[21]  P. Celi,et al.  Dietary Supplementation of Yerba Mate (Ilex paraguariensis) during the Dry Period Improves Redox Balance in Lactating Dairy Cows , 2019, Antioxidants.

[22]  M. Mazur,et al.  Effect of yerba mate (Ilex paraguariensis A. St.-Hil.) supplementation on oxidative stress in ruminants , 2019 .

[23]  Ateeque Ahmad,et al.  Changes in Soybean (Glycine max L.) Flour Fatty-Acid Content Based on Storage Temperature and Duration , 2018, Molecules.

[24]  L. Tedeschi,et al.  The role of condensed tannins in ruminant animal production: advances, limitations and future directions , 2017 .

[25]  M. Rufino,et al.  Intake, digestibility and milk production and composition of dairy cows fed different levels of Yerba Mate in the diet , 2017 .

[26]  A. Alkhatib,et al.  Yerba Maté (Ilex paraguariensis) Metabolic, Satiety, and Mood State Effects at Rest and during Prolonged Exercise , 2017, Nutrients.

[27]  Manuel Gonzalez-Ronquillo,et al.  Effect of live weight pre- and post-lambing on milk production of East Friesian sheep , 2017 .

[28]  R. V. Barletta,et al.  Ruminal biohydrogenation and abomasal flow of fatty acids in lactating cows: Oilseed provides ruminal protection for fatty acids , 2016 .

[29]  A. de Palma,et al.  Canola Oil in Lactating Dairy Cow Diets Reduces Milk Saturated Fatty Acids and Improves Its Omega-3 and Oleic Fatty Acid Content , 2016, PloS one.

[30]  Fereidoon Shahidi,et al.  Phenolics and polyphenolics in foods, beverages and spices: Antioxidant activity and health effects – A review , 2015 .

[31]  R. Kaur,et al.  The Effect of Yerba Mate (Ilex Paraguariensis) Supplementation on Nutrient Degradability in Dairy Cows: An In sacco and In vitro Study , 2015, Asian-Australasian journal of animal sciences.

[32]  A. Amal,et al.  Impact of non-conventional energy sources in ration on productive and reproductive performance of ewes. , 2015 .

[33]  P. Toro-Mujica,et al.  A comparative study of the fatty acid profiles in commercial sheep cheeses , 2014 .

[34]  F. Zhao Biology of Glucose Transport in the Mammary Gland , 2014, Journal of Mammary Gland Biology and Neoplasia.

[35]  N. Rodriguez,et al.  CONSUMO, DIGESTIBILIDADE E TAXA DE PASSAGEM RUMINAL EM OVELHAS GESTANTES , 2012 .

[36]  J. E. F. Junior,et al.  Desempenho e parâmetros sanguíneos de vacas leiteiras alimentadas com grão de soja , 2012 .

[37]  P. Celi,et al.  The Effect of Yerba Mate (Ilex paraguarensis) Supplementation on the Productive Performance of Dorper Ewes and Their Progeny , 2012, Asian-Australasian journal of animal sciences.

[38]  S. Chae,et al.  Anti-obesity and anti-diabetic effects of Yerba Mate (Ilex paraguariensis) in C57BL/6J mice fed a high-fat diet , 2012, Laboratory animal research.

[39]  N. M. Rodriguez,et al.  NUTRIENT INTAKE AND DIGESTIBILITY AND RUMINAL RATE PASSAGE IN PREGNANT EWES , 2012 .

[40]  D. Lanna,et al.  Composition and fatty acid profile of milk from cows on pasture subjected to licuri oil supplement , 2011 .

[41]  A. Gugliucci,et al.  Recent advances on Ilex paraguariensis research: minireview. , 2011, Journal of ethnopharmacology.

[42]  J. Milne,et al.  Placental growth restriction reduces size at birth and influences early postnatal growth, body composition and metabolism , 2011, Archives of Disease in Childhood: Fetal and Neonatal Edition.

[43]  Russell J. Mumper,et al.  Plant Phenolics: Extraction, Analysis and Their Antioxidant and Anticancer Properties , 2010, Molecules.

[44]  P. Celi,et al.  Effects of Yerba Mate (Ilex paraguariensis) supplementation on the productive performance of dairy cows during mid-lactation , 2010 .

[45]  A. MacNeill Clinical Biochemistry of Domestic Animals, 6th Edition by Editors: J. Jerry Kaneko, John W. Harvey, and Michael L. Bruss , 2009 .

[46]  T. Beta,et al.  Comparison of antioxidant capacity and phenolic compounds of berries, chokecherry and seabuckthorn , 2009, Central European Journal of Biology.

[47]  M. Maraschin,et al.  Consumption of yerba mate ( Ilex paraguariensis ) improves serum lipid parameters in healthy dyslipidemic subjects and provides an additional LDL-cholesterol reduction in individuals on statin therapy. , 2009, Journal of agricultural and food chemistry.

[48]  Division on Earth,et al.  Nutrient requirements of small ruminants , 2007 .

[49]  Médico Veterinário PERFIL METABÓLICO PROTÉICO E ENERGÉTICO NA AVALIAÇÃO DO DESEMPENHO REPRODUTIVO EM RUMINANTES PROTEIN AND ENERGETIC METABOLIC PROFILE ON REPRODUCTIVE PERFORMANCE OF RUMINANTS , 2007 .

[50]  V. Oreopoulou,et al.  Effect of Compositional Factors against the Thermal Oxidative Deterioration of Novel Food Emulsions , 2006 .

[51]  R. Bessa,et al.  Effect of genotype, feeding system and slaughter weight on the quality of light lambs: II. Fatty acid composition of meat , 2002 .

[52]  J. Cant,et al.  DAIRY SHEEP NUTRITION , 2001 .

[53]  J. Thimonier,et al.  The ram effect: an up-to-date method for the control of oestrus and ovulation in sheep. , 2000 .

[54]  R. Cardellino,et al.  Comparison of weigh-suckle-weigh and machine milking for measuring ewe milk production. , 1999, Journal of animal science.

[55]  S. Loerch,et al.  Effects of feeding a high-grain diet at a restricted intake on lactation performance and rebreeding of ewes. , 1995, Journal of animal science.

[56]  R. G. Ackman,et al.  Capillary column gas chromatographic method for analysis of encapsulated fish oils and fish oil ethyl esters: Collaborative study , 1992 .

[57]  T. Ulbricht,et al.  Coronary heart disease: seven dietary factors , 1991, The Lancet.

[58]  L Hartman,et al.  Rapid preparation of fatty acid methyl esters from lipids. , 1973, Laboratory practice.

[59]  W. Vyncke Direct Determination of the Thiobarbituric Acid Value in Trichloracetic Acid Extracts of Fish as a Measure of Oxidative Rancidity , 1970 .

[60]  R. G. Gunn,et al.  Subjective assessment of body fat in live sheep , 1969, The Journal of Agricultural Science.

[61]  W. J. Dyer,et al.  A rapid method of total lipid extraction and purification. , 1959, Canadian journal of biochemistry and physiology.