Volume 29, 2022
Special Issue – Combatting Anthelmintic resistance in ruminants. Invited Editors: Johannes Charlier, Hervé Hoste, and Smaragda Sotiraki
Article Number 10
Number of page(s) 16
Published online 28 February 2022
  1. Acharya M, Burke JM, Miller JE, Terrill TH, Wood EL, Muir JP. 2020. Quebracho tannins aid in the control of Eimeria spp. and gastrointestinal nematodes in lambs and goat kids. Veterinary Parasitology, 288, 109295. [Google Scholar]
  2. Adejoro FA, Hassen A, Akanmu AM. 2019. Effect of lipid-encapsulated acacia tannin extract on feed intake, nutrient digestibility and methane emission in sheep. Animals, 9, 863. [Google Scholar]
  3. Alves TP, Dall-Orsoletta AC, Ribeiro-Filho HMN. 2017. The effects of supplementing Acacia mearnsii tannin extract on dairy cow dry matter intake, milk production, and methane emission in a tropical pasture. Tropical Animal Health and Production, 49, 1663–1668. [Google Scholar]
  4. Andersen-Civil AIS, Leppa MM, Thamsborg SM, Salminen JP, Williams AR. 2021. Structure-function analysis of purified proanthocyanidins reveals a role for polymer size in suppressing inflammatory responses. Communications Biology, 4, 896. [Google Scholar]
  5. Athanasiadou S, Kyriazakis I, Jackson F, Coop RL. 2001a. Direct anthelmintic effects of condensed tannins towards different gastrointestinal nematodes of sheep: In vitro and in vivo studies. Veterinary Parasitology, 99, 205–219. [Google Scholar]
  6. Athanasiadou S, Kyriazakis I, Jackson F, Coop RL. 2001b. The effects of condensed tannins supplementation of foods with different protein content on parasitism, food intake and performance of sheep infected with Trichostrongylus colubriformis. British Journal of Nutrition, 86, 697–706. [Google Scholar]
  7. Athanasiadou S, Almvik M, Hellström J, Madland E, Simic N, Steinshamn H. 2021. Chemical analysis and anthelmintic activity against Teladorsagia circumcincta of Nordic bark extracts in vitro. Frontiers in Veterinary Science, 8, 666924. [Google Scholar]
  8. Auad P, Spier F, Gutterres M. 2020. Vegetable tannin composition and its association with the leather tanning effect. Chemical Engineering Communications, 207, 722–732. [Google Scholar]
  9. Bahuaud D, Martinez-Ortiz De Montellano C, Chauveau S, Prevot F, Torres Acosta JFJ, Fouraste I, Hoste H. 2006. Effects of four tanniferous plant extracts on the in vitro exsheathment of third-stage larvae of parasitic nematodes. Parasitology, 132, 545–554. [Google Scholar]
  10. Batlle I, Tous J. 1997. Carob tree (Ceratonia siliqua L): Promoting the conservation and use of underutilized and neglected crops 17. Institute of plant genetics and crop plant research, Gatersleben/International Plant Genetics Resources Institute: Rome, Italy. p. 23. [Google Scholar]
  11. Berbel J, Posadillo A. 2018. Review and analysis of alternatives for the valorisation of agro-industrial olive oil by-products. Sustainability, 10, 237. [Google Scholar]
  12. Blomstrand BM, Enemark HL, Øines Ø, Steinshamn H, Aasen IM, Mahnert KC, Sørheim KM, Athanasiadou S, Thamsborg SM, Woolsey ID. 2021. Extracts of pine bark (Pinus sylvestris) inhibit Cryptosporidium parvum growth in cell culture. Parasitology Research (submitted). [Google Scholar]
  13. Boudot C. 2014. Étude in vitro de l’activité anthelminthique de co-produits agro industriels riches en tanins et flavonoïdes. Report for the grade of Pharmacian Faculty of Pharmacy Univ Paul Sabatier Toulouse 3. [Google Scholar]
  14. Bravo L, Grades N, Saura-Calixto F. 1994. Composition and potential uses of mesquite pods (Prosopis pallida L.): Comparison with carob pods (Ceratonia siliqua L.). Journal of Science Food Agriculture, 65, 303–306. [Google Scholar]
  15. Burke JM, Miller JE, Terril TH, Orlik ST, Acharya M, Garza JJ, Mosjidis JA. 2013. Sericea lespdeza as an aid in the control of Eimeria spp. in lambs. Veterinary Parasitology, 193, 39–46. [Google Scholar]
  16. Calderón-Quintal JA, Torres-Acosta JFJ, Sandoval-Castro CA, Alonso MA, Hoste H, Aguilar-Caballero AJ. 2010. Adaptation of Haemonchus contortus to condensed tannins: can it be possible? Archivos Medicina Veterinaria, 42, 165–171. [Google Scholar]
  17. Campione A, Natalello A, Valenti B, Luciano G, Rufino-Moya PJ, Avondo M, Morbidini L, Pomente C, Krol B, Wilk M, Migdal P, Pauselli M. 2020. Effect of feeding hazelnut skin on animal performance, milk quality, and rumen fatty acids in lactating ewes. Animals, 10, 588. [Google Scholar]
  18. Cenci FB, Louvandini H, McManus CM, DelľPorto A, Costa DM, Araújo SC, Minho AP, Abdalla AL. 2007. Effects of condensed tannin from Acacia mearnsii on sheep infected naturally with gastrointestinal helminths. Veterinary Parasitology, 144, 132–137. [Google Scholar]
  19. Chan JM, Day P, Feely J, Thompson R, Little KM, Norris CH. 2015. Acacia mearnsii industry overview: current status, key research and development issues. Southern Forests, 77, 19–30. [Google Scholar]
  20. Chan-Pérez JI, Torres-Acosta JFJ, Sandoval-Castro CA, Hoste H, Castañeda-Ramírez GS, Mathieu C, Vilarem G. 2016. In vitro susceptibility of ten Haemonchus contortus isolates from different geographical origins towards acetone:water extracts of two tannin rich plants. Veterinary Parasitology, 217, 53–60. [Google Scholar]
  21. Chan-Pérez JI, Torres-Acosta JFJ, Sandoval-Castro CA, Castañeda-Ramírez GS, Vilarem G, Mathieu C, Hoste H. 2017. Susceptibility of ten Haemonchus contortus isolates from different geographical origins towards acetone: water extracts of polyphenol-rich plants. Part 2: Infective L3 larvae. Veterinary Parasitology, 240, 11–16. [Google Scholar]
  22. Charlier J, Thamsborg SM, Bartley DJ, Skuce PJ, Kenyon F, Geurden T, Hoste H, Williams AR, Sotiraki S, Höglund J, Chartier C, Geldhof P, van Dijk J, Rinaldi L, Morgan ER, von Samson-Himmelstjerna G, Vercruysse J, Claerebout E. 2017. Mind the gaps in research on the control of gastrointestinal nematodes of farmed ruminants and pigs. Transboundary and Emerging Disease, 65, 217–234. [Google Scholar]
  23. Charlier J, van der Voort M, Kenyon F, Skuce P, Vercruysse J. 2014. Chasing helminths and their economic impact on farmed ruminants. Trends in Parasitology, 30(7), 361–367. [Google Scholar]
  24. Cherrah Y, Farah A, Ennabili A, Bali BE, Lachka M. 2011. Antioxidant activity, phytochemical screening, and total phenolic content of extracts from three genders of carob tree barks growing in Morocco. Arabian Journal of Chemistry, 4, 321–324. [Google Scholar]
  25. Corrêa PS, Mendes LW, Lemos LN, Crouzoulon P, Niderkorn V, Hoste H, Costa-Júnior LM, Tsai SM, Faciola AP, Abdalla AL, Louvandini H. 2020. Tannin supplementation modulates the composition and function of ruminal microbiome in lambs infected with gastrointestinal nematodes. FEMS Microbiology Ecology, 96, fiaa024. [Google Scholar]
  26. Correddu F, Lunesu MF, Buffa G, Atzori AS, Nudda A, Battacone G, Pulina G. 2020. Can agro-industrial by-products rich in polyphenols be advantageously used in the feeding and nutrition of dairy small ruminants? Animals, 10, 131. [Google Scholar]
  27. Costa-Júnior LM, Costa JS, Lôbo Í, Soares AM, Abdala AL, Chaves DP, Batista ZS, Louvandini H. 2014. Long-term effects of drenches with condensed tannins from Acacia mearnsii on goats naturally infected with gastrointestinal nematodes. Veterinary Parasitology, 205, 725–729. [Google Scholar]
  28. Covarrubias-Cárdenas AG. 2013. Evaluación del efecto antihelmíntico de un subproducto de Coffea arabica sobre un aislado de Haemonchus contortus susceptible a taninos. MSc Thesis. Universidad Autónoma de Yucatán: Mérida, México. [Google Scholar]
  29. Covarrubias-Cárdenas AG, Torres-Acosta JFJ, Sandoval-Castro CA, Hoste H. 2013. In vitro anthelmintic effect of Acacia pennatula and Coffea arabica extracts on Haemonchus contortus sensitive to tannins. In: Proceedings of the 7th Novel Approaches Meeting with a session of the CA-PARA COST ACTION “Goat parasite interaction: from knowledge to control”, Toulouse, France. [Google Scholar]
  30. Dahal J, Ketavong S, Pardo E, Barbier E, Gay M, Jean H, Niderkorn V, Hoste H. 2018. In vitro screening of the anthelmintic effects of by-products from the chestnut industry against parasitic nematodes of sheep and goats. In: EAAP 69th Conference, 27th–30th August, Dubrovnik, Croatia. [Google Scholar]
  31. Das AK, Islam N, Faruk O, Ashduzzaman M, Dungani R, Rosamah E, Hartati S, Rumidatul A. 2020. Hardwood tannin: sources, utilizations, and prospects in Tannin – structure properties biological properties current knowledge, in Aires A, Editor. IntechOpen. p. 1854–1858. [Google Scholar]
  32. Denninger TM, Schwarm A, Birkinshaw A, Terranova M, Dohme-Meier F, Münger A, Kreuzer M. 2020. Immediate effect of Acacia mearnsii tannins on methane emissions and milk fatty acid profiles of dairy cows. Animal Feed Science and Technology, 261, 114388. [Google Scholar]
  33. Desrues O, Fryganas C, Ropiak HM, Mueller-Harvey I, Enemark HL, Thamsborg SM. 2016. Impact of chemical structure of flavanol monomers and condensed tannins on in vitro anthelmintic activity against bovine nematodes. Parasitology, 143, 444–454. [Google Scholar]
  34. Desrues O, Vargas-Magana J, Girard M, Manolaraki F, Pardo E, Mathieu C, Vilarem G, Torres-Acosta JFJ, Sandoval Castro CA, Jean H, Hoste H. 2012. Can hazel-nut peels be used to control gastrointestinal nematodes in goats? In: 11th International Goat Association (IGA) Conference. 4th CAPARA Conference, September 2012, Las Canarias, Book of abstract, p. 44. [Google Scholar]
  35. Dhakal S, Meyling NV, Williams AR, Mueller-Harvey I, Fryganas C, Kapel CMO, Fredensborg BL. 2015. Efficacy of condensed tannins against larval Hymenolepis diminuta (Cestoda) in vitro and in the intermediate host Tenebrio molitor (Coleoptera) in vivo. Veterinary Parasitology, 207, 49–55. [Google Scholar]
  36. Diaz Lira CM, Barry TN, Pomroy WE, McWilliam EL, López-Villalobos N. 2008. Willow (Salix spp.) fodder blocks for growth and sustainable management of internal parasites in grazing lambs. Animal Feed Science Technology, 141, 61–81. [Google Scholar]
  37. García-Ceballos CA, Ventura-Cordero J, Mendoza-López GF, González-Pech PG, Mancilla-Montelongo MG, Castañeda-Ramírez GS, Capetillo-Leal CM, Torres-Acosta JFJ, Sandoval-Castro CA. 2018. Evaluación de la inclusión de hojas de Theobroma cacao en la dieta de cabras. In: Ponencia. V Seminario Internacional y VI Nacional de Investigadores en Salud y Producción Animal SENISPA, Tunja, Boyacá, Colombia. [Google Scholar]
  38. Girard M, Dohme-Meier F, Silacci P, Kragten SA, Kreutzer Bee G. 2016. Forage legumes rich in condensed tannins may increase n-3 fatty acid levels and sensory quality of lamb meat. Journal Science Food Agriculture, 96(6), 1923–1933. [Google Scholar]
  39. Girard M, Thanner S, Pradervand T, Hu D, Ollagnier C, Bee G. 2018. Hydrolysable chestnut tannins for reduction of postweaning diarrhea: Efficacy on an experimental ETEC F4 model. Plos ONE, 13(5). [Google Scholar]
  40. Girard M, Gaid S, Mathieu C, Vilarem G, Gerfault V, Routier M, Gombault P, Pardo E, Manolaraki F, Hoste H. 2013. Effects of different proportions of sainfoin pellets combined with hazel nut peels on infected lambs, 26th -30th August 2013. Book of abstract p 506. [Google Scholar]
  41. González-Pech PG, Torres-Acosta JFJ, Sandoval-Castro CA, Tun-Garrido J. 2015. Feeding behavior of sheep and goats in a deciduous tropical forest during the dry season: the same menu consumed differently. Small Ruminant Research, 133, 128–134. [Google Scholar]
  42. Hajaji HE, Lachkar N, Alaoui K, Cherrah Y, Farah A, Ennabili A, Bali BE, Lachkar M. 2011. Antioxydant activity, phytochemical screening and total phenolic content of extracts from three genders of carob tree barks growing in Morocco. Arabian Journal of Chemistry, 4, 321–324. [Google Scholar]
  43. Hernández-Orduño G, Torres-Acosta JFJ, Sandoval-Castro CA, Aguilar-Caballero AJ, Reyes-Ramirez R, Hoste H, Calderón-Quintal JA. 2008. In vitro anthelmintic effect of Acacia gaumeri, Havardia albicans and quebracho tannin extracts on a mexican strain of Haemonchus contortus L3 larvae. Tropical and Subtropical Agroecosystems, 8, 191–197. [Google Scholar]
  44. Hoste H, Jackson F, Athanasiadou S, Thamsborg SM, Hoskin SO. 2006. The effects of tannin rich plants on parasitic nematodes in ruminants. Trends in Parasitology, 32, 253–261. [Google Scholar]
  45. Hoste H, Martinez Ortiz-De-Montellano C, Manolaraki F, Brunet S, Ojeda-Robertos N, Fourquaux I, Torres-Acosta JFJ, Sandoval-Castro C. 2012. Direct and indirect effects of bioactive legume forages against parasitic infections: experiences with tropical and temperate forages. Veterinary Parasitology, 186, 18–27. [Google Scholar]
  46. Hoste H, Torres-Acosta JFJ, Alonso-Díaz MA, Brunet S, Sandoval-Castro C, Houzangbe Adote S. 2008. Identification and validation of bioactive plants for the control of gastro intestinal nematodes in small ruminants. Tropical Biomedicine, 25, 56–72. [PubMed] [Google Scholar]
  47. Hoste H, Torres-Acosta JFJ, Sandoval-Castro CA, Mueller-Harvey I, Sotiraki S, Louvandini H, Thamsborg SM, Terrill TH. 2015. Tannin containing legumes as a model for nutraceuticals against digestive parasites in livestock. Veterinary Parasitology, 212, 5–17. [Google Scholar]
  48. Hoste H, Torres-Acosta JFJ, Quijada J, Chan-Perez I, Dakheel MM, Kommuru DS, Mueller-Harvey I, Terrill TH. 2016. Interactions between Nutrition and Infections with Haemonchus contortus and related gastrointestinal nematodes in small ruminants, in Haemonchus contortus and Haemonchosis – past, present and future trends, advances in parasitology, Vol. 93. Gasser RB, von Samson-Himmelstjerna G, Editors. Academic Press. p. 239–351. [Google Scholar]
  49. Jaimez-Rodríguez PR, González-Pech PG, Ventura-Cordero J, Brito DRB, Costa-Júnior LM, Sandoval-Castro CA, Torres-Acosta JFJ. 2019. The worm burden of tracer kids and lambs browsing heterogeneous vegetation is influenced by strata harvested and not total dry matter intake or plant life form. Tropical Animal Health and Production, 51, 2243–2251. [Google Scholar]
  50. Janis DC. 1945. Production of industrial quebracho. Economic Geography, 21, 145. [Google Scholar]
  51. Johnston CMT, Radeloff VC. 2019. Global mitigation potential of carbon stored in harvested wood products. Proceedings of the National Academy of Sciences of the United States of America, 116, 14526–14531. [Google Scholar]
  52. Kim HC, Healey JM. 2001. Effects of pine bark extract administered to immunosuppressed adult mice infected with Cryptosporidium parvum. American Journal Chinese Medicine, 29, 469–475. [Google Scholar]
  53. Klongsiriwet C, Quijada J, Williams AR, Mueller-Harvey I, Williamson EM, Hoste H. 2015. Synergistic inhibition of Haemonchus contortus exsheathment by flavonoid monomers and condensed tannins. International Journal for Parasitology: Drugs and Drug Resistance, 5(3), 127–134. [Google Scholar]
  54. Kotrotsios N, Christaki E, Bonos E, Florou-Paneri P. 2012. Dietary carob pods on growth performance and meat quality of fattening pigs. Asian-Australasian Journal of Animal Sciences, 25, 880–885. [Google Scholar]
  55. Krecek RS, Waller PJ. 2006. Towards the implementation of the “basket of options” approach to helminth parasite control of livestock: Emphasis on the tropics/subtropics. Veterinary Parasitology, 119, 270–282. [Google Scholar]
  56. Kyratzis AC, Antoniou C, Papayiannis LC, Graziani G, Rouphael Y, Kyriacou MC. 2021. Pod morphology, primary and secondary metabolite profiles in non-grafted and grafted carob germplasm are configured by agro-environmental zone, genotype, and growing season. Frontiers in Plant Sciences, 11, 612376. [Google Scholar]
  57. Larsen JB, Emborg J, Kristensen KH. 2021. Dyrkede skove i Naturen i Danmark [Cultivated forests, The Nature of Denmark]. Downloaded 11 May 2021, [Google Scholar]
  58. LeCasble C. 2012. Le marc de café comme source atypique de tanins condensés dans le contrôle intégré des nématodes gastro-intestinaux chez les petits ruminants du Yucatán, Mexique. Thèse Doctorat Vétérinaire. Ëcole Nationale Vétérinaire Alfort: France. [Google Scholar]
  59. Legendre H, Saratsi K, Voutzourakis N, Saratsis N, Stefanakis A, Gombault P, Hoste H, Gidenne T, Sotiraki S. 2018. Coccidiostatic effects of tannin rich diets in rabbit production. Parasitology Research, 117, 3705–3713. [Google Scholar]
  60. Lima PMT, Crouzoulon P, Sanches TP, Zabré G, Kabore A, Niderkorn V, Hoste H, Amarante AFT, Costa-Júnior LM, Abdalla AL, Louvandini H. 2019. Effects of Acacia mearnsii supplementation on nutrition, parasitological, blood parameters and methane emissions in Santa Inês sheep infected with Trichostrongylus colubriformis and Haemonchus contortus. Experimental Parasitology, 207, 107777. [Google Scholar]
  61. Long R. 1991. Quebracho based polyphenols for use in wood panel adhesive system. Holz Als Roh-Und Werkstoff, 49, 485–487. [Google Scholar]
  62. Mackown CT, Brown MA, Walker EL. 2011. Tannin rich peanut skins lack anthelmintic properties. Small Ruminant Research, 96, 195–200. [Google Scholar]
  63. Mahdi JG. 2010. Medicinal properties of willow: a chemical perspective of aspirin discovery. Journal of the Saudi Chemical Society, 14, 317–322. [Google Scholar]
  64. Mancilla-Montelongo M, Torres-Acosta JFJ, Sandoval-Castro CA. 2020. In vitro evaluation of Theobroma cacao leaf extracts against Trichostrongylus colubriformis larvae. SENISPA 2020 = 6 Seminario Internacional y National de Investigadiores en Salud y Porudccion Animal 2020, 29th Sept. 1st October, Tunja, Boyaca, Colombia. [Google Scholar]
  65. Mancilla-Montelongo MG, Gaudin-Barbier E, Castañeda-Ramírez GS, Canul-Velasco ML, Chan-Pérez JI, De-La-Cruz-Cortazar A, Mathieu C, Fourquaux I, Sandoval-Castro CA, Hoste H, Ventura-Cordero J, González-Pech PG, Torres-Acosta JFJ. 2021. In vitro evaluation of the nutraceutical potential of Theobroma cacao pod husk and leaf extracts for small ruminants. Acta Parasitologica, 66, 1122–1136. [Google Scholar]
  66. Manolaraki F, Sotiraki S, Skampardonis V, Volanis M, Stefanakis A, Hoste H. 2010. Anthelmintic activity of some Mediterranean browse plants against parasitic nematodes. Parasitology, 137, 686–695. [Google Scholar]
  67. Marakis S. 1996. Carob bean in food and feed: current status and future potentials – a critical appraisal. Journal of Food Science and Technology, 33, 365–383. [Google Scholar]
  68. Marchand S, Ketavong S, Barbier E, Gay M, Jean H, Niderkorn V, Sokrates S, Salminen JP, Hoste H. 2019. In vivo assessment of the anthelmintic effects of by-products (peels) from the chestnut industry, EAAP 70th Conference, August, Ghent, Belgium. [Google Scholar]
  69. Martínez-Ortíz De Montellano C, Arroyo-López C, Fourquaux I, Torres-Acosta JFJ, Sandoval-Castro CA, Hoste H. 2013. Scanning electron microscopy of Haemonchus contortus exposed to tannin-rich extracts under in vivo and in vitro conditions. Experimental Parasitology, 133, 281–286. [Google Scholar]
  70. Martínez-Ortíz-De-Montellano C, Torres-Acosta JFJ, Fourquaux I, Sandoval-Castro CA, Hoste H. 2019. Ultrastructural studies of adult Haemonchus contortus exposed to polyphenol-rich materials under in vivo conditions in goats. Parasite, 26, 65. [Google Scholar]
  71. Max RA, Wakelin D, Dawson JM, Kimambo AE, Kassuku AA, Mtenga LA, Craigon J, Buttery PJ. 2005. Effect of quebracho tannin on faecal egg counts and worm burdens of temperate sheep with challenge nematode infections. Journal of Agricultural Science, 143, 519–527. [Google Scholar]
  72. Minho AP, Bueno ICDS, Gennari SM, Jackson F, Abdalla AL. 2008. In vitro effect of condensed tannin extract from acacia (Acacia mearnsii) on gastrointestinal nematodes of sheep. Revista Brasileira de Parasitologia Veterinária, 17, 144–148. [Google Scholar]
  73. Minho AP, Filippsen LF, Amarante AFT, Abdalla AL. 2010a. Efficacy of condensed tannin presents in acacia extract on the control of Trichostrongylus colubriformis in sheep. Ciencia Rural, 40, 1360–1365. [Google Scholar]
  74. Minho AP, Gennari SM, Amarante AFT, Abdalla AL. 2010b. Anthelmintic effects of condensed tannins on Trichostrongylus colubriformis in experimentally infected sheep. Semina: Ciencias Agrarias, 31, 1009–1016. [Google Scholar]
  75. Min BR, Wilson EA, Solaiman S, Miller J. 2015. Effects of condensed tannin-rich pine bark diet on experimentally infected with Haemonchus contortus in meat goats. International Journal Veterinary Health Science Research, 3, 49–57. [Google Scholar]
  76. Molan AL. 2014. Effect of purified condensed tannins from pine bark on larval motility, egg hatching and larval development of Teladorsagia circumcincta and Trichostrongylus colubriformis (Nematoda: Trichostrongylidae). Folia Parasitologica, 61, 371–376. [Google Scholar]
  77. Molan AL, Liu Z, De S. 2009. Effect of pine bark (Pinus radiata) extracts on sporulation of coccidian oocysts. Folia Parasitologica, 56, 1–5. [Google Scholar]
  78. Morgan ER, Aziz NA, Blanchard A, Charlier J, Charvet C, Claerebout E, Geldhof P, Greer AW, Hertzberg H, Hodgkinson J, Höglund J, Hoste H, Kaplan RM, Martínez-Valladares M, Mitchell S, Ploeger HW, Rinaldi L, von Samson-Himmelstjerna G, Sotiraki S, Schnyder M, Skuce P, Bartley D, Kenyon F, Thamsborg SM, Vineer HR, de Waal T, Williams AR, van Wyk JA, Vercruysse J. 2019. 100 Questions in Livestock Helminthology Research. Trends in Parasitology, 35, 52–71. [Google Scholar]
  79. Mueller-Harvey I, Bee G, Dohme-Meier F, Hoste H, Karonen M, Kölliker R, Lüscher A, Niderkorn V, Pellikaan WF, Salminen JP, Skøt L, Smith L, Thamsborg SM, Totterdell T, Wilkinson I, Williams AR, Azuhnwi BN, Baert N, Grosse Brinkhaus A, Copani G, Desrues O, Drake C, Engström M, Fryganas C, Girard M, Huyen NT, Kempf K, Malisch K, Mora-Ortiz CM, Quijada J, Ramsay J, Ropiak HM, Waghorn GC. 2019. Benefits of condensed tannins in forage legumes fed to ruminants: importance of structure, concentration, and diet composition. Crop Science, 59, 861–885. [Google Scholar]
  80. Mupeyo B, Barry TN, Pomroy WE, Ramírez-Restrepo CA, López-Villalobos N, Pernthaner A. 2011. Effects of feeding willow (Salix spp.) upon death of established parasites and parasite fecundity. Animal Feed Science and Technology, 164, 8–20. [Google Scholar]
  81. Muscat A, de Olde EM, Ripoll-Bosch R. 2021. Principles, drivers and opportunities of a circular bioeconomy. Natural Food, 2, 561–566. [Google Scholar]
  82. Musonda K, Barry TN, McWilliam EL, López-Villalobos N, Pomroy WE. 2009. Grazing willow (Salix spp.) fodder blocks for increased reproductive rates and internal parasite control in mated hoggets. Animal Feed Science and Technology, 150, 46–61. [Google Scholar]
  83. Niderkorn V, Barbier E, Macheboeuf D, Torrent A, Mueller-Harvey I, Hoste H. 2020. In vitro rumen fermentation of diets with different types of condensed tannins derived from sainfoin (Onobrychis viciifolia Scop.) pellets and hazelnut (Corylus avellana L.) pericarps. Animal Feed Science and Technology, 259, 114357. [Google Scholar]
  84. Ogawa S, Yazaki Y. 2018. Tannins from Acacia mearnsii De Wild. Bark: Tannin determination and biological activities. Molecules, 23, 1–18. [Google Scholar]
  85. Ortíz-Ocampo G, Chan-Pérez JI, Covarrubias-Cárdenas AG, Santos-Ricalde RH, Sandoval- Castro CA, Hoste H, Capetillo-Leal CM, Torres-Acosta JFJ. 2016. Efecto antihelmíntico in vitro e in vivo de residuos de Coffea arabica sobre un aislado de Haemonchus contortus con baja susceptibilidad a taninos. Tropical and Subtropical Agroecosystems, 19, 41–50. [Google Scholar]
  86. Palomo-Couoh JG, Aguilar-Caballero AJ, Torres-Acosta JFJ, Sandoval-Castro CA, Capetillo-Leal CM. 2012. Reduction of gastrointestinal nematode egg output in goats fed tannin rich fodder (Acacia penatulla) or coffee waste (Coffea arabica). Las Palmas de Gran Canaria: Spain. [Google Scholar]
  87. Paolini V, Bergeaud JP, Duranton-Grisez C, Prevot F, Dorchies P, Hoste H. 2003a. Effects of condensed tannins on goats experimentally infected with Haemonchus contortus. Veterinary Parasitology, 113, 253–261. [Google Scholar]
  88. Paolini V, Fouraste I, Hoste H. 2004. In vitro effects of three woody plant and sainfoin extracts on two parasitic stage of three parasitic nematode species. Parasitology, 129, 69–77. [Google Scholar]
  89. Paolini V, Frayssines A, De La Farge F, Dorchies P, Hoste H. 2003b. Effects of condensed tannins on established populations and on incoming larvae of Trichostrongylus colubriformis and Teladorsagia circumcincta in goats. Veterinary Research, 34, 331–339. [CrossRef] [EDP Sciences] [PubMed] [Google Scholar]
  90. Paolini V, Prevot F, Dorchies Ph, Hoste H. 2005. Lack of effects of quebracho and sainfoin hay on incoming third stage larvae of Haemonchus contortus in goats. Veterinary Journal, 170, 260–263. [Google Scholar]
  91. Parisi F, Mancini S, Mazzei M, Forzan M, Turchi B, Perrucci S, Poli A, Paci G. 2018. Effect of dietary supplementation of a mix of chestnut and quebracho tannins on intestinal morphology, bacterial load, Eimeria spp oocyst excretion and immune response after vaccination in rabbits. American Journal Animal Veterinary Sciences, 13(3), 94–103. [Google Scholar]
  92. Pena Espinoza M, Valente A, Thamsborg SM, Simonsen HT, Boas U, Einemark HL, Lopez-Munoz R, Williams AR. 2018. Anti parasitic activity of chicory (Cichorium intybus) and the role of its natural bioactive compounds: a review. Parasite & Vectors, 2018(11), 475. [Google Scholar]
  93. Pizzi A. 2019. Tannins: Prospectives and actual industrial applications. Biomolecules, 9, 344. [Google Scholar]
  94. Priolo A, Waghorn GC, Lanza M, Biondi L, Pennisi P. 2000. Polyethylene glycol as a means to reducing the impact of condensed tannins in carob pulp: effect on lamb growth and meat quality. Journal of Animal Science, 78, 810–816. [Google Scholar]
  95. Priolo A, Lanza M, Bella M, Pennisi P, Fasone V, Biondi L. 2002. Reducing the impact of condensed tannins in a diet based on carob pulp using two levels of polyethylene glycol: lamb growth, digestion and meat quality. Animal Research, 51, 305–313. [Google Scholar]
  96. Prosess21. 2020. Ekspertgrupperapport: Biobasert Prosessindustri [Bio-based process industry]. Report (summary in English). Nærings- og Fiskeridepartementet: Drammen. p. 1–35. [Google Scholar]
  97. Quijada J, Drake C, Gaudin E, El-Korso R, Hoste H, Mueller-Harvey I. 2018. Condensed tannins changes along the digestive tract in lambs fed with sainfoin pellets or hazelnut skins. Journal of Agricultural Food and Chemistry, 66, 2136–2142. [Google Scholar]
  98. Quijada J, Fryganas C, Ropiak HM, Ramsay A, Mueller-Harvey I, Hoste H. 2015. Anthelmintic activities against Haemonchus contortus or Trichostrongylus colubriformis from small ruminants are influenced by different structural features of condensed tannins. Journal of Agricultural Food and Chemistry, 63, 6346–6354. [Google Scholar]
  99. Ramón-Laca L, Mabberley DJ. 2004. The ecological status of the carob-tree (Ceratonia siliqua, Leguminosae) in the Mediterranean. Botanical Journal of the Linnean Society, 144, 431–436. [Google Scholar]
  100. Ramsay AR, Williams AR, Quijada J, Hoste H, Thamsborg SM, Mueller-Harvey I. 2015. Anthelmintic activity of galloylated proanthocyanidins from shea meal (Vitellaria paradoxa). Planta Medica, 81, 16. [Google Scholar]
  101. Ropiak HM, Ramsay A, Mueller-Harvey I. 2016. Condensed tannins in extracts from European medicinal plants and herbal products. Journal of Pharmaceutical and Biomedical Analysis, 121, 225–231. [Google Scholar]
  102. Rose Vineer H, Morgan ER, Hertzberg H, Bartley DJ, Bosco A, Charlier J, Chartier C, Claerebout E, de Waal T, Hendrickx G, Hinney B, Höglund J, Ježek J, Kašný M, Keane OM, Martínez-Valladares MM, Mateus TL, McIntyre J, Mickiewicz M, Munoz AM, Phythian CJ, Ploeger HW, Aleksandra Vergles Rataj A, Skuce PJ, Simin S, Sotiraki S, Spinu M, Stuen S, Thamsborg SM, Vadlejch J, Varady M, von Samson-Himmelstjerna G, Rinaldi L. 2020. Increasing importance of anthelmintic resistance in European livestock: creation and meta-analysis of an open database. Parasite (Special issue COMBAR), 27, 69. [Google Scholar]
  103. Saratsi K, Hoste H, Voutzourakis N, Tzanidakis N, Stefanakis A, Thamsborg SM, Mueller-Harvey I, Hadjigeorgiou I, Sotiraki S. 2020. Feeding of carob (Ceratonia siliqua) to sheep infected with gastrointestinal nematodes reduces faecal egg counts and worm fecundity. Veterinary Parasitology, 284, 109200. [Google Scholar]
  104. Saratsi K. 2021. The contribution of Mediterranean flora against gastrointestinal nematodes in small ruminants. PhD Thesis. Agricultural University of Athens: Athens. [Google Scholar]
  105. Saratsis A, Regos I, Tzanidakis N, Voutzourakis N, Stefanakis A, Treuter D, Joachim A, Sotiraki S. 2012. In vivo and in vitro efficacy of sainfoin (Onobrychis viciifolia) against Eimeria spp in lambs. Veterinary Parasitology, 188, 1–9. [Google Scholar]
  106. Silanikove N, Landau S, Kababya D, Bruckental I, Nitsan Z. 2006. Analytical approach and effects of condensed tannins in carob pods (Ceratonia siliqua) on feed intake, digestive and metabolic responses of kids. Livestock Science, 99, 29–38. [Google Scholar]
  107. Stavrou IJ, Christou A, Kapnissi-Christodoulou CP. 2018. Polyphenols in carobs: A review on their composition, antioxidant capacity and cytotoxic effects, and health impact. Food Chemistry, 269, 355–374. [Google Scholar]
  108. Steinshamn H. 2014. Bark in feed – for improved feed utilization and animal health. Bioforsk Fokus, 10, 1–53 (summary in English). [Google Scholar]
  109. Stepek G, Behnke JM, Buttle DJ, Duce IR. 2004. Natural plant cysteine proteinases as anthelmintics? Trends in Parasitology, 20, 322–327. [Google Scholar]
  110. Thamsborg SM, Roepstorff A, Larsen M. 1999. Integrated and biological control of parasites in organic and conventional production systems. Veterinary Parasitology, 84, 169–186. [Google Scholar]
  111. Teichmann K, Kuliberda M, Schatzmayr G, Pacher T, Zitterl-Eglseer K, Joachim A, Hadacek F. 2016. In vitro inhibitory effects of plant-derived by-products against Cryptosporidium parvum. Parasite, 23, 1–8. [Google Scholar]
  112. Torres-Acosta JFJ, Hoste H. 2008. Alternative or improved methods to limit gastro-intestinal parasitism in grazing / browsing sheep and goats. Small Ruminant Research, 77, 159–173. [Google Scholar]
  113. Torres-Acosta JFJ, Hoste H, Sandoval-Castro CA, Ventura-Cordero J, Gonzalez Pech PG, Mancilla-Montelongo MG, Ojeda-Robertos NF, Martinez Ortiz De Montellano C. 2019. The “art of war” against gastro intestinal nematodes in sheep and goat herds of the tropics. Revista Acadamica Ciencia Animal, 17 (suppl 1), 39–46. [Google Scholar]
  114. Tous J, Romero A, Hermoso JF, Ninot A, Plana J, Batlle I. 2009. Agronomic and commercial performance of four Spanish carob cultivars. Horticultural Technology, 19, 465–470. [Google Scholar]
  115. Vargas-Magaña JJ, Torres-Acosta JFJ, Aguilar-Caballero AJ, Sandoval-Castro CA, Hoste H, Perez JI. 2014. Anthelmintic activity of acetone-water extracts against Haemonchus contortus eggs: interactions between tannins and other plant secondary compounds. Veterinary Parasitology, 206, 322–327. [Google Scholar]
  116. Vargas-Magaña JJ, Torres-Acosta JFJ, Aguilar-Caballero AJ, Sandoval-Castro CA, Hoste H, Vilarem G, Mathieu C, Chan-Pérez JI. 2012. Comparación de la sensibilidad de tres ensayos in vitro para evaluar el efecto antihelmíntico de materiales ricos en taninos contra Haemonchus contortus. VII Seminario Internacional de Parasitología Animal, Querétaro, México, p. 764–771. [Google Scholar]
  117. Varmola MI, Carle JB. 2002. The importance of hardwood plantations in the tropics and sub-tropics. International Forestry Review, 4, 110–121. [Google Scholar]
  118. Ventura-Cordero J, González-Pech PG, Torres-Acosta JFJ, Sandoval-Castro CA, Tun-Garrido J. 2019. Sheep and goat browsing a tropical deciduous forest during the rainy season: why does similar plant species consumption result in different nutrient intake? Animal Production Science, 59, 66–72. [Google Scholar]
  119. Waller PJ. 2006. From discovery to development: current industry perspectives for the development of novel methods of helminth control in livestock. Veterinary Parasitology, 139, 1–14. [Google Scholar]
  120. Waller PJ, Bernes G, Thamsborg SM, Sukura A, Richter SH, Ingebrigtsen K, Höglund J. 2001. Plants as de-worming agents of livestock in the Nordic countries: historical perspective, popular beliefs and prospects for the future. Acta Veterinaria Scandinavica, 42, 31–44. [Google Scholar]
  121. Williams AR, Krych L, Ahmad HF, Nejsum P, Skovgaard K, Nielsen DS, Thamsborg SM. 2017. A polyphenol-enriched diet and Ascaris suum infection modulate mucosal immune responses and gut microbiota composition in pigs. PLoS One. [Google Scholar]
  122. Williams AR, Andersen-Civil AIS, Zhu L, Blanchard A. 2020. Dietary phytonutrients and animal health: regulation of immune function during gastrointestinal pathogen infection. Journal of Animal Science, 98, skaa030. [Google Scholar]
  123. Wright C. 2015. The effects of phytochemical tannin-containing diets on animal performance and internal parasite control in meat goats. College of Agriculture, Environment and Nutrition Science, Graduate Theses and Dissertations, Paper 4. [Google Scholar]
  124. Yoshihara E, Minho AP, Cardim ST, Tabacow VBD, Yamamura MH. 2014. In vitro ovicidal and larvicidal activity of condensed tannins on gastrointestinal nematode infestations in sheep (Ovis aries). Semina Ciencias Agrarias, 35, 3173–3180. [Google Scholar]
  125. Yoshihara E, Minho AP, Tabacow VBD, Cardim ST, Yamamura MH. 2015. Ultrastructural changes in the Haemonchus contortus cuticle exposed to Acacia mearnsii extract. Semina Ciencias Agrarias, 36, 3763–3768. [Google Scholar]

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