Hoof Characteristics of Anglo Arabian, Haflinger, Monterufoli, and Maremmano Horse
Subject Areas : Camel
1 - Dipartimento di Scienze e Tecnologie Agrarie, Alimentari Ambientali e Forestali (DAGRI), Sezione di Scienze Animali, Università degli Studi di Firenze, Firenze, Italy
2 - Ambientali e Forestali (DAGRI), Sezione di Scienze Animali, Università degli Studi di Firenze, Firenze, Italy
Keywords: Anglo Arabian horse, Haflinger horse, hoof characteristics, Maremmano horse, Monterufoli Pony,
Abstract :
In this work the hoof quality of 9 Anglo Arabian, 10 Haflinger, 7 Maremmano, and 15 Monterufoli equines was evaluated. Anglo Arabian is a cosmopolitan breed, others are Italian horses: Haflinger derives from Trentino Alto Adige, Maremmano and Monterufoli from Tuscany. Hoof samples, from the front left foot, were collected during the trimming in order to assess the physical-chemical characteristics and mineral content in nail. Collected data were submitted to ANOVA, principal component and discriminant analyses and a heathmap of the square distance among mineral content in hoof of different breeds was carried out. The softest hoof was found in Monterufoli Pony, having also highest dry matter content. Highest Fe, Ni, Pb, Se content, characterized the Anglo Arabian hoof, while Monterufoli Pony hoof showed the highest Na content. The multivariate analyses have shown K, Li, Mn, Na, and P were the most identifying minerals in the hoof nail. In Anglo Arabian, Haflinger, Maremmano hoof there was a high bioaccumulation of minerals, while the Monterufoli Pony hoof quickly remove the minerals, probably through the nail consumption and the osmoregulation activity. All statistical analysis showed that Monterufoli Pony hoof was different from the hoof of other considered breeds. All animals have shown foot of good quality suitable for the barefoot practice.
Abdi H. and Williams L.J. (2010). Principal component analysis. Wiley Interdiscip. Rev. Comput. Stat. 2(4), 433-459.
Abdin-Bey M.R. (2007). Hoof Quality: Correlation between calcium, phosphorous, copper and zinc levels in the hoof shavings and blood levels of Arabian horses in Saudi Arabia. Sci. J. King Faisal Univ (Basic Appl. Sci.). 1, 101-109.
Clayton H.M., Gray S., Kaiser L.J. and Bowker R.M. (2011). Effects of barefoot trimming on hoof morphology. Australian Vet. J. 89(8), 305-311.
Falaschini A., Rizzi S. and Pasquini M. (2003). Morphological evaluation of the Haflinger horse. Italian J. Anim. Sci. 2(1), 595-597.
Faria G.A., Rezende A.S.C., Sampaio I.B.M., Lana A.M.Q., Moura R.S., Madureira J.S. and Resende M.C. (2005). Composição quimica dos cascos de eqűinos das raças Pantaneira e Mangalarga Marchador. Arq. Bras. Med. Vet. Zootec. 57, 697-701.
Felicetti M., Lopes M.S., Verini-Supplizi A., da Cȃmara Machado A., Silvestrelli M., Mendonc D. and Distl O. (2010). Genetic diversity in the Maremmano horse and its relationship with other European horse breeds. Anim. Genet. 41(2), 53-55.
Goodman A.M. and Haggis L. (2009). Regional variation in the flexural properties of the equine hoof wall. Comp. Exe. Physiol. 5(3), 161-168.
Haarman B.C.M., Riemersma-Van der Lek R.F., Nolen W.A., Mendes R., Drexhage H.A. and Burger H. (2015). Feature expression heat maps: A new visual method to explore complex associations between two variable sets. J. Biom. Inform. 53, 156-161.
Jolliffe I.T. and Cadima J. (2016). Principal component analysis: A review and recent developments. Philos. Trans. R. Soc. 374, 1-16.
Landers T.A. (2006). Professional Care of Racehorse: A guide to Grooming, Feeding, and Handling the Equine Athlete. National Book Network, Lanham, Maryland, USA.
Ley W.B., Scott Pleasant R. and Dunnington E.A. (1998). Effects of season and diet on tensile strength and mineral content of the equine hoof wall. Equine Vet. J. 26, 46-50.
Lynghaug F. (2009). The Official Horse Breeds Standards Guide: the Complete Guide to the Standards of All North American Equine Breed Associations. Voyageur Press, Minneapolis, USA.
Noormohammady Z., Chamani M. and Khodae H.R. (2018). Effect of zinc on integrity of horse hoof. Agric. Vet. Sci. 2, 17-23.
Sargentini C., Tocci R., Andrenelli L. and Giorgetti A. (2012). Preliminary studies on hoof characteristics in Amiata donkey. Italian J. Anim. Sci. 11, 123-127.
Sargentini C., Tocci R., Martini A. and Bozzi R. (2018). Morphological characterization of Amiata donkey through Multivariate analyses. Rev. Bras. Zoot. 47, 1-10.
SAS Institute. (2001). SAS®/STAT Software, Release 8.2. SAS Institute, Inc., Cary, NC. USA.
Skibniewska E.M., Skibniewski M., Kośla T. and Kołnierzak M. (2015). Concentrations of zinc, cadmium and lead in the hoof horn of the European bison (Bison bonasus bonasus). Environ. Prot. Natl. Res. 3(65), 32-35.
Stachurska A., Walkuska G., Cebera M., Jaworski Z. and Chalabis-Mazurek A. (2011). Heavy metal status of Polish Konik horses from stable-pasture and outdoor maintenance systems in the Masurian environment. J. Elementol. 16(4), 623-633.
Tocci R., Sargentini C., Ciani F., Benedettini A., Lorenzin G., Martini A. and Giorgetti A. (2009). Morphological characterization of traditional maremmano horse. Pp. 422 in Proc. EAAP Annu. Meet., Barcelona, Spain.
Tocci R., Sargentini C., Lorenzini G., Degl’Innocenti P., Bozzi R. and Giorgetti A. (2007). Morphological characteristics of “Monterufoli horse”. Italian J. Anim. Sci. 6(1), 657-659.
Tocci R., Sargentini C., Martini A., Andrenelli L., Pezzati A., Benvenuti D. and Giorgetti A. (2017). Hoof quality of Anglo-Arabian and Haflinger horses. J. Vet. Res. 61, 367-373.