Single nucleotide polymorphisms in the bovine leptin gene and their association with carcass and efficiency traits, and endocrine profiles, in female Angus cows

One hundred and fifty female Angus cattle were genotyped for the bovine leptin gene SNPs UASMS1, UASMS2, E2FB and E2JW. Net Feed Intake (NFI) Estimated Breeding Values (EBVs) and E2JW SNP data was also acquired from 169 Angus cattle that originated from Trangie Research Station, NSW, and were selected for a divergence in feed efficiency. The E2JW SNP was associated with NFI, NFI EBV and P8 fatness. The UASMS1 and UASMS2 SNPs were associated with circulating leptin concentrations. These particular associations have not been reported previously but similar associations have reported in North American studies. The inconsistent associations suggest that these SNPs are not good candidates for marker-assisted selection for NFI. Also, the investigation of associations with endocrine profiles that reflect body composition such as leptin, requires genotyping of a larger number of Australian cattle than was possible in this experiment

Effect of housing enrichment and type of flooring on the performance and behaviour of female rabbits

[EN] This study investigated the effect of housing enrichments (scratching card, gnawing material and a platform), of a change in height and in the type of flooring on the live weight, reproductive performance and behaviour of female rabbits, as well as on the feed intake and spatial distribution of females and their kits. A total of 40 multiparous female rabbits were monitored in three consecutive reproductive cycles (48-d intervals). Four days before parturition in each reproductive cycle, the females were randomly assigned to one of the five types of housing: Control (CNT: 102×47×30 cm, L×W× H); Scratching card (SCT: containing a scratching card); Gnawing materials (GNW: CNT dimensions plus a compressed lucerne hay block and a wooden stick); Platform (PLT: 102×47×60 cm, including a platform with a plastic floor) and Combination (CBN: PLT dimensions with the scratching card, the gnawing materials and a platform). Data were only recorded during the first and third reproductive cycles. The living conditions did not significantly alter the females’ live weight (4889 g at housing; 4890 g at mid-lactation; 4867 g at weaning), reproductive performance (9.0 kits born alive), survival of the kits (90%), nor the feed intake of females and their litters (542 g/day). Providing animals with a gnawing block stimulated Gnawing behaviour (median frequency per group: CTL=0.00, SCT=0.00, GNW=4.69, PLT=0.00, and CBN=2.34; PRearing up behaviour (median frequencies per group: CTL=0.00, SCT=0.00, GNW=0.00, PLT=2.08, and CBN=3.12; P=0.06), and when a platform was present, the rabbits used it (mean values per group: CTL=0.00, SCT=0.00, GNW=0.00, PLT=1.79, and CBN=4.91; P=0.003). Regarding the type of floor, females appeared to prefer the plastic mesh flooring (31.2%) to the wire mesh flooring (18.8%). To sum up, providing female rabbits with simple enrichments appears to stimulate specific behaviours like Gnawing and Rearing up and may contribute to their wellbeing.Huang, Y.; Bréda, J.; Savietto, D.; Debrusse, A.; Bonnemère, J.; Gidenne, T.; Combes, S.... (2021). Effect of housing enrichment and type of flooring on the performance and behaviour of female rabbits. World Rabbit Science. 29(4):275-285. https://doi.org/10.4995/wrs.2021.15848OJS275285294Altmann J. 1974. Observational study of behavior: sampling methods. Behaviour, 49: 227-266. https://doi.org/10.1163/156853974X00534Animal Welfare Committee. 2009. Five Freedoms. Available at https://webarchive.nationalarchives.gov.uk/20110909181150/http://www.fawc.org.uk/freedoms.htm. Accessed February 2021.ANSES. 2018. ANSES proposes a definition of animal welfare and sets the foundation for its research and expert appraisal work. Available at https://www.anses.fr/en/content/ansesproposes-definition-animal-welfare-and-sets-foundation-itsresearch-and-expert. Accessed February 2021.Barge P., Masoero G., Chicco R. 2008. Raising rabbit does in platform cages. In Proc.: 9th World Rabbit Congress, 10-13 June, 2008. Verona, Italy. 1:1153-1158.Buijs S., Maertens L., Hermans K., Vangeyte J., Tuyttens F.A.M. 2015. Behaviour, wounds, weight loss and adrenal weight of rabbit does as affected by semigroup housing. Appl. Anim. Behav. Sci. 172: 44-51. https://doi.org/10.1016/j.applanim.2015.09.003Baumans, V. 2005. Environmental enrichment for laboratory rodents and rabbits: requirements of rodents, rabbits, and research. Ilar Journal, 46: 162-170. https://doi.org/10.1093/ilar.46.2.162Coureaud G., Fortun-Lamothe L., Rödel H.G., Monclús R., Schaal B. 2008. The developing rabbit: some data related to the behaviour, feeding and sensory capacities between birth and weaning. INRA-Prod. Anim. 21: 231-238. https://doi.org/10.20870/productions-animales.2008.21.3.3395Coureaud G., Rödel H.G., Le Normand B., Fortun-lamothe L. 2015. Habitat et Comportement. In: Gidenne T. (Eds), Le lapin de la biologie à l'élevage, Editions Quae, Versailles, France, pp. 107-136.Dixon L.M., Hardiman J.R., Cooper J.J. 2010. The effects of spatial restriction on the behavior of rabbits (Oryctolagus cuniculus). Journal of Veterinary Behavior: Clinical Applications and Research, 5: 302-308. https://doi.org/10.1016/j.jveb.2010.07.002EFSA AHAW Panel 2020. Scientific Opinion on the health and welfare of rabbits farmed in different production systems. EFSA Journal, 18: 5944. https://doi.org/10.2903/j.efsa.2020.5944Farkas T.P., Dal Bosco A., Szendro Z., Filiou E., Matics Z., Odermatt M., Radnai I., Paci G., Gerencser Z. 2016. Production of Growing Rabbits in Large Pens with and without Multilevel Platforms. In Proc.: 11th World Rabbit Congress, 15-18 June, 2016. Qingdao, China. 1: 663-666.Gerencsér Z., Farkas T.P., Dal Bosco A., Filiou E., Matics Z., Odermatt M., Paci G., Szendrő Z. 2016. The usage of multilevel platforms in growing rabbits housed in large pens as affected by platfor mmaterial (wire-mesh vs plastic-mesh). In Proc. 11th World Rabbit Congress, 15-18 June, 2016. Qingdao, China. 1: 671-674.Hawkins P., Hubrecht R., Buckwell A., Cubitt S., Howard B., Jackson A., Poirier, G. M. 2008. Refining rabbit care. A resource for those working with rabbits in research. RSPCA, West Sussex and UFAW, Hertfordshire.Huang Y., Breda J., Savietto D., Debrusse A., Combes S., Fortun-Lamothe L. 2021. Part-time grouping of rabbit does in enriched housing: effects on performances, injury occurrence and enrichment use. Animal. in press.Jordan D., Gorjanc G., Kermauner A., Štuhec I. 2011. The behaviour of individually housed growing rabbits and the influence of gnawing sticks as environmental enrichment on daily rhythm of behavioural patterns duration. Acta Agriculturae Slovenica, 98: 51-61.Jordan D., Gorjanc G., Štuhec I. 2008. Wooden sticks as environmental enrichment: effect on fattening and carcass traits of individually housed growing rabbits. World Rabbit Sci., 16: 237-243. https://doi.org/10.4995/wrs.2008.619Lang C., Hoy S. 2011. Investigations on the use of an elevated platform in group cages by growing rabbits. World Rabbit Sci., 19: 95-101. https://doi.org/10.4995/wrs.2011.800Leach M.C., Allweiler S., Richardson C., Roughan J.V., Narbe R., Flecknell P.A. 2009. Behavioural effects of ovariohysterectomy and oral administration of meloxicam in laboratory housed rabbits. Res. Vet. Sci., 87: 336-347. https://doi.org/10.1016/j.rvsc.2009.02.001Luzi F., Ferrante V., Heinzl E. Verga M. 2003. Effect of environmental enrichment on productive performance and welfare aspects in fattening rabbits. Ital. J. Anim. Sci., 2: 438-440.Matics Z., Farkas T. P., Dal Bosco A., Szendrő Z., Filiou E., Nagy I., Odermatt M., Paci G., Gerencsér Z. 2018. Comparison of pens without and with multilevel platforms for growing rabbits. Ital. J. Anim. Sci., 17: 469-476. https://doi.org/10.1080/1828051X.2017.1363640Mikó A., Matics Z., Gerencsér Z., Odermatt M., Radnai I., Nagy I., Szendrő K. Szendrő, Z. 2014. Performance and welfare of rabbit does in various caging systems. Animal, 8: 1146-1152. https://doi.org/10.1017/S1751731114001244Mirabito L., Buthon L., Cialdi G., Galliot P., Souchet C. 1999. Effet du logement des lapines en cages réhaussées avec plate-forme: Premiers resultats. In Proc.: 8èmes Journées de la Recherche Cunicole. 9-10 June, 1999. Paris, France. 1: 67-70.Mirabito L., Galliot P., Souchet C. 2000. Effect of different ways of cage enrichment on the productive traits and mortality of fattening rabbits. In Proc.: 7th World Rabbit Congress 4-7 July, 2000. Valencia, Spain. 1: 4-7.Monclús R., Rödel H. G. 2008. Different forms of vigilance in response to the presence of predators and conspecifics in a group-living mammal, the European Rabbit. Ethology, 114: 287-297. https://doi.org/10.1111/j.1439-0310.2007.01463.xMorton D.B., Jennings M., Batchelor G.R., Bell D., Birke L., Davies K., Eveleigh J.R., Gunn D., Heath M., Howard B., Koder P., Phillips J., Poole T., Sainsbury A.W., Sales G.D., Smith D.J.A., Stauffacher M., Turner R.J. 1993. Refinements in rabbit husbandry: Second report of the BVAAWF/FRAME/RSPCA/UFAW joint working group on refinement. Laboratory Animals, 27: 301-329. https://doi.org/10.1258/002367793780745633Podberscek A.L., Blackshaw J.K., Beattie A.W. 1991. The behaviour of group penned and individually caged laboratory rabbits. Appl. Anim. Behav. Sci., 28: 353-363. https://doi.org/10.1016/0168-1591(91)90167-VPrincz Z., Orova Z., Nagy I., Jordan D., Štuhec I., Luzi F., Verga M. Szendrő Z. 2007. Application of gnawing sticks in rabbit housing. 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Distribution models of deep-sea elasmobranchs in the Azores, Mid-Atlantic Ridge, to inform spatial planning

Elasmobranchs inhabiting depths beyond 200 m are extremely susceptible to overexploitation but are extracted by fisheries around the world either as target species or as bycatch. There is little information available to formulate management strategies to reduce elasmobranch-fishery interactions in the deep sea. In European Union waters, prohibiting the catches of deep-sea elasmobranchs has provided the necessary impetus to study by-catch avoidance of these threatened species. We used over 20 years of fisheries-independent and fisheries-dependent data to model the spatial distribution of 15 species of deep-sea elasmobranchs (12 sharks and 3 rays) captured frequently in the Exclusive Economic Zone of the Azores Archipelago (Mid-Atlantic Ridge) to explore spatial management to reduce unwanted catches of these species. We applied Generalised Additive Models to predict the probability of presence of 15 species, as well as the abundance of 6 of those species, within the Azores EEZ and neighbouring seamounts (up to 2000 m depth), using environmental and operational variables as predictors. Our results identified that depth is most influential in determining the distribution of these sharks and rays, in addition to seafloor topography. Distinctive bathymetric features such as seamounts and ridges were highlighted as areas where the probability of presence of the greatest number of species overlapped. Although not related to habitat, gear type influenced the capture probability of certain species, with the artisanal handline, gorazeira, having lower captures than bottom longline. Our results support using depth-based, area-based, and gear-based tactics to design management measures to reduce elasmobranch bycatch, for more sustainable deep-sea fisheries.Postprint2,42

Critical Exponents from AdS/CFT with Flavor

We use the AdS/CFT correspondence to study the thermodynamics of massive N=2 supersymmetric hypermultiplet flavor fields coupled to N=4 supersymmetric SU(Nc) Yang-Mills theory, formulated on curved four-manifolds, in the limits of large Nc and large 't Hooft coupling. The gravitational duals are probe D-branes in global thermal AdS. These D-branes may undergo a topology-changing transition in the bulk. The D-brane embeddings near the point of the topology change exhibit a scaling symmetry. The associated scaling exponents can be either real- or complex-valued. Which regime applies depends on the dimensionality of a collapsing submanifold in the critical embedding. When the scaling exponents are complex-valued, a first-order transition associated with the flavor fields appears in the dual field theory. Real scaling exponents are expected to be associated with a continuous transition in the dual field theory. For one example with real exponents, the D7-brane, we study the transition in detail. We find two field theory observables that diverge at the critical point, and we compute the associated critical exponents. We also present analytic and numerical evidence that the transition expresses itself in the meson spectrum as a non-analyticity at the critical point. We argue that the transition we study is a true phase transition only when the 't Hooft coupling is strictly infinite.Comment: 31 pages, 21 eps files in 12 figures; v2 added one reference and one footnote, version published in JHE

Review of the effects of protection in marine protected areas: current knowledge and gaps

The effectiveness of marine protected areas (MPAs) and the conservation of marine environments must be based on reliable information on the quality of the marine environment that can be obtained in a reasonable timeframe. We reviewed studies that evaluated all aspects related to the effectiveness of MPAs in order to describe how the studies were conducted and to detect fields in which research is lacking. Existing parameters used to evaluate the effectiveness of MPAs are summarised. Two–hundred and twenty–two publications were reviewed. We identified the most commonly used study subjects and methodological approaches. Most of the studies concentrated on biological parameters. Peer reviewed studies were based on control vs. impact design. BACI and mBACI designs were used in very few studies. Through this review, we have identified gaps in the objectives assigned to MPAs and the way in which they have been evaluated. We suggest some guidelines aimed at improving the assessment of the effects of protection in MPAsRevisión de los efectos de la protección en las áreas marinas protegidas: conocimiento y deficiencias actuales.— La efectividad de las áreas marinas protegidas (AMPs) y la conservación del medio ambiente marino debe basarse en información fiable sobre la calidad del medio marino que pueda obtenerse en un plazo de tiempo razonable. Se revisaron estudios que evalúan aspectos relacionados con la efectividad de las AMPs con el fin de describir cómo se realizaron los estudios y detectar donde existen vacíos en la investigación. En este estudio se enumeran los parámetros existentes para evaluar la efectividad de las AMPs. Se revisaron 224 publicaciones. Identificamos los objetos de estudio más utilizados y los enfoques metodológicos. La mayoría de los estudios se centran en el estudio de parámetros biológicos. Los estudios publicados se basaron en el diseño control frente a impacto. En muy pocos estudios se utilizaron diseños de muestreo BACI y mBACI. A través de esta revisión, se han identificado deficiencias en los objetivos de las AMPs y en la manera como han sido evaluados. Como conclusión sugerimos algunas pautas para mejorar la evaluación de los efectos de la protección en estas zonasPublicado