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Housing assessment in farms in the Northwest of Spain: main facility weaknesses and strengths

Published online by Cambridge University Press:  07 April 2022

Sonia Verdes
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
Uxía Yáñez
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
Yolanda Trillo
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
Pedro G. Herradón
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
Ana I. Peña
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
Juan J. Becerra
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
Luis A. Quintela*
Affiliation:
Unit of Reproduction and Obstetrics, Dept. of Animal Pathology, Faculty of Veterinary Medicine, Universidade de Santiago de Compostela, 27002 Lugo, Spain
*
Author for correspondence: Luis A. Quintela, Email: [email protected]
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Abstract

The aim of this research communication was to examine and report the current situation of dairy farms in the province of Lugo (Galicia, Spain) regarding facility problems. We assessed the facilities of 168 free-stall dairy farms, housing in total 9228 Holstein cows in milk. Housing factors related to the resting area, circulation area, feeding area, ventilation area and milking area, as well as animal-handling features, were evaluated. Distance measurements were performed using a laser metre or a roll metric tape. A survey was conducted to gather information about cleaning and preventive protocols. Our results showed that most farms do not comply with the objective for cubicle measurements, width of the crossovers, type of flooring and presence of a quarantine pen, which may have a negative impact on the health and productivity of the animals. Therefore, to maximise the profits of the farm, the recommendations given in this study may be useful as a guide when building a new farm or remodelling the existing ones.

Type
Research Article
Creative Commons
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (https://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use or in order to create a derivative work.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of Hannah Dairy Research Foundation

Dairy cattle welfare has become an important issue, as it is directly correlated with the production of the cows and, consequently, with the profitability of the farms (Verdes et al., Reference Verdes, Trillo, Peña, Herradón, Becerra and Quintela2020). Due to the current situation of high production costs and low price per litre of milk, animal welfare may make the difference between making profits or not. If a cow does not achieve an adequate state of welfare, it will not develop its full productive potential.

In the literature, numerous references can be found regarding how different aspects of dairy farm facilities and their use influence the health, longevity, reproductive performance, and production of the animals (Molina et al., Reference Molina, Agüera, Maroto-Molina and Pérez-Marín2019; Verdes et al., Reference Verdes, Trillo, Peña, Herradón, Becerra and Quintela2020; Bugueiro et al., Reference Bugueiro, Fouz and Diéguez2021). Therefore, if we want to improve animal welfare in our farms, one important issue to consider is the way our facilities are built and how the herd is handled.

Although it might be expected that old facilities do not comply with the needed standards to achieve proper animal welfare, it is surprising to see how many recently built farms do not do so either. In this context, being aware of the main housing mistakes within a certain region may be an important advantage when designing and building new farms or remodelling the already existing ones.

Given this circumstance, the aim of this research was to examine and report the current situation of dairy farms in the province of Lugo (Galicia, Spain) regarding facility weaknesses and strengths, so this study may be useful as a guide to rectify or avoid mistakes in order to achieve proper animal welfare and, consequently, improve the performance of the herd.

Materials and methods

Farms

From January to December 2015, herd welfare was evaluated in 168 dairy farms located in the Northwest of Spain (province of Lugo, Galicia). This province has the largest population census of dairy cattle in Spain. Out of the 844000 dairy cows that were registered in the census in 2015 in Spain, 360000 (43%) were from Galicia, and 161000 (19%) were from the province of Lugo. Additionally, out of the 6799 thousand tons of milk produced during that year in Spain, 2722 (40%) were produced in Galicia (MAPA, 2015a, 2015b).

Farms were selected within the collaborator veterinarians' client list. These veterinarians were responsible for the reproductive control on dairy farms in the region. We aimed to involve as many farms as possible within the areas where the density of farms was higher. Only free-stall farms were included. Although there still are tie-stall farms, these are usually old, and the tendency is for them to disappear. All animals included in this study were Holstein breed. The total number of cows in milk was 9228, with a mean number of cows in milk per farm of 55 (10–240).

Data collected

All farms were visited once by the same evaluator, and all data were collected always following the same order (see online Supplementary Table 1). The facility-based factors regarding resting area, circulation area, feeding area, ventilation area and milking area, as well as animal-handling features, were evaluated as previously described by Juaristi et al. (Reference Juaristi, Bach and Rodríguez2004) and Verdes et al. (Reference Verdes, Trillo, Peña, Herradón, Becerra and Quintela2020) (see online Supplementary Table 2). Distance measurements were performed using a laser metre or a roll metric tape. A survey was conducted to gather information about the milking, the herd, the frequency of cleaning and the performance of hoof trimming.

Statistical analysis

To analyse the data, factors that complied with the welfare objective were scored 0 and those that did not comply were scored 1. The percentage of farms that complied with the objective was calculated for each factor. Then, factors were ordered according to this percentage, and quartiles were calculated. Those factors included between 0% and 25% (1st quartile) were classified as the main weaknesses, whereas those included between 75% and 100% (4th quartile) were characterised as the main strengths of the farms in the region of study. All data were analysed using SPSS version 20.0 for Windows (SPSS Inc, Chicago, IL, USA).

Results

Factors included in the 1st and 4th quartile are shown in Table 1. The factors with the least percentage of farms that comply with the objective were cubicle measurements, including total length (5.7%), brisket broad distance from curb (24.9%), neck rail distance from curb (5.7%), and curb height (15.5%); the width of the crossovers (16.6%) and the placing of rubber flooring (4.1%). Also included in this weakness category were the stripped surface or placing of rubber flooring over the waiting area of the milking parlour (7.9%), and the presence of a quarantine pen (13.5%).

Table 1. Proportions of the main housing weaknesses and strengths (expressed as percentages) observed in farms in the Northwest of Spain

a Circulation area.

b Resting area.

c Milking area.

d Ventilation area.

e Cow area.

f Feeding area.

On the contrary, among the main strengths we found: the bedding, focusing on dry bedding (76.6%), level bed surface (80.3%) and the frequency of bedding maintenance ≥2 times per day (80.8%); the alley maintenance, regarding slippery floor (76.6%), accumulation of manure in the alley (87.6%), and presence of slurry pit under the barn (89.1%); the animal handling, referring to cow crowding (77.2%), footbaths (80.3%), stress for a scarce commodity (82.9%), presence of cows with tail (87.6%), flight zone (89.6%), and presence of biting flies (95.3%). Also in this strength category were several factors related to the feeding area, including width of headlocks (82.9%), water analysis (86%), cleaning feeding fence (98.4%), continuous feeding availability (99%) and covered feeding table (99%), as well as the maintenance of an accurate environment, concerning spiderwebs (80.8%), lateral opening (81.3%), sidewall height (82.4%), height to ridge (86%), condensation (87.6%), air movement on the face of the cow (89.6%) and excessive humidity (93.8%).

Discussion

Overall, the results of this study showed that, although most farms in Lugo province have an accurate performance regarding the maintenance of facilities and animal handling, there still are several aspects to improve concerning housing measurements and materials, even in recently built farms.

Among the main weaknesses observed, it should be noted that cubicles were small, which can affect the resting time of the animals. Consequently, cows may lay less frequently, or may do so in other places besides the cubicles, including crossovers and alleys (Cook and Nordlund, Reference Cook and Nordlund2004). This has a negative impact on cattle hygiene. The presence of dirt over the udder and hindquarters due to laying out of the cubicle is a risk factor that favours the appearance of mastitis (de Pinho et al., Reference De Pinho, Borin, Yoshida, Zampolli, Donizete and Langoni2012) and affects hygienic milk production and thermoregulation (Bugueiro et al., Reference Bugueiro, Diéguez and Pedreira2018). Moreover, Molina et al. (Reference Molina, Agüera, Maroto-Molina and Pérez-Marín2019) reported a correlation between less clean animals and lower milk production. Additionally, according to Grant (Reference Grant2004), cows need to lie down for about 12–14 h a day; during this period, not only are the dry-matter intake and blood flow to the mammary gland favoured, but it also gives time for the hooves to rest (Calamari et al., Reference Calamari, Calegari and Stefanini2009). A substandard laying period would diminish feed intake, milk production and would promote the occurrence of lameness and hoof lesions (Tucker et al., Reference Tucker, Jensen, de Passillé, Hänninen and Rushen2021).

Most crossovers did not allow the simultaneous passage of two animals. In this regard, it is important to remark that there is a dominance relationship between animals in a herd, and some aggressive interactions increase when space constraints are imposed (Fregonesi et al., Reference Fregonesi, Tucker and Weary2007). As a consequence, subordinate cows may be bullied and inhibited from accessing a certain resource (such as the feeding fence, cubicles, or mechanical brush), acquiring a submissive or avoidance behaviour, and getting their movements blocked by dominant cows in their paths (Cook and Nordlund, Reference Cook and Nordlund2004).

Another facility drawback in most farms was the absence of rubber flooring or stripped surface over the waiting area of the milking parlour and the alleys and crossovers. The use of rubber flooring has been extensively documented in the literature. In this regard, Boyle et al., (Reference Boyle, Mee and Kiernan2007) suggested that cows prefer to stand on comfortable surfaces, but they did not find a beneficial effect of rubber flooring on either hoof health or oestrus expression and reproductive performance. However, other researchers stated that cows on rubber flooring show an earlier onset of regular oestrus behaviour, resulting in an earlier pregnancy and a shorter calving interval, but it has no effect on milk yield (Kremer et al., Reference Kremer, Scholz, Nüske and Föster2012). Concerning hoof health, Oehme et al. (Reference Oehme, Grund, Munzel and Mülling2019) reported a reduction in mechanical load while standing and walking on rubber flooring in comparison with concrete, which might reduce mechanically induced hoof lesions. Moreover, Telezhenko et al. (Reference Telezhenko, Magnusson and Bergsten2017) assessed the slip resistance of different types of solid flooring in cattle facilities; they concluded that the risk of slipping is reduced when the cow walked on a surface with better compressibility, such as rubber mats, where the claws could sink deep enough, providing significantly better gait.

In order to achieve proper biosecurity, farms need a biosecurity plan that considers all the risks and includes strategies to manage disease (Dargatz et al., Reference Dargatz, Garry and Traub-Dargatz2002). Among these strategies, the introduction of new animals should be carefully considered, as they might carry diseases either from the farm of origin or acquired at the market or during transit (Laurence, Reference Laurence, Cottle and Kahn2014). Consequently, not only a separation of time, but also a physical separation is needed to prevent spread of pathogens. Therefore, a period of quarantine and a quarantine pen are highly recommended to allow the number of pathogens to decline (Laurence, Reference Laurence, Cottle and Kahn2014). Nevertheless, few farms in the province of Lugo have a quarantine pen, which may negatively influence the welfare of the cows already in the herd regarding their health status. It has been reported by Bugueiro et al. (Reference Bugueiro, Diéguez and Pedreira2018) that management of diseases is a warning aspect to take into consideration in farms from Galicia, encouraging farmers to include new health-control plans to provide better prevention of pathologies.

Our results are different from those obtained by Molina et al. (Reference Molina, Agüera, Maroto-Molina and Pérez-Marín2019), who reported ‘excellent’ and ‘enhance’ scores (according to Welfare Quality® protocol) regarding housing assessment in farms in southern Spain. This may be explained by the different protocols used to evaluate housing factors, as they did not consider cubicle measurements or type of flooring. On the contrary, Bertocchi et al. (Reference Bertocchi, Fusi, Angelucci, Bolzoni, Pongolini, Strano, Ginestreti, Riuzzi, Moroni and Lorenzi2018) claimed that the presence of cubicles with wrong dimensions or design was one of the main housing hazards in Italian farms, as well as the type of floor in walking areas.

In most farms, appropriate maintenance of facilities was observed. More than 75% of the farms in this study kept the bed surface dry and levelled, and cleaned the cubicles with sufficient frequency. In addition, food and water supply were proper in almost all farms regarding water analysis, cleaning and cover of the feeding store as well as feed availability. Moreover, an accurate environment was noticed in most farms as far as infrastructure, alley maintenance, presence of biting flies and location of the slurry pit are concerned. As discussed above, hygiene is a key aspect of successful herds, as it affects the health of the cows and their milk yield (de Pinho et al., Reference De Pinho, Borin, Yoshida, Zampolli, Donizete and Langoni2012; Bugueiro et al., Reference Bugueiro, Diéguez and Pedreira2018; Molina et al., Reference Molina, Agüera, Maroto-Molina and Pérez-Marín2019). Furthermore, not only are their productive capacity and health affected by hygiene, but also by an adequate supply of basic needs such as feeding and drinking (Bugueiro et al., Reference Bugueiro, Fouz and Diéguez2021). Finally, it should be noted that most farms complied with proper animal handling, including cow crowding, foot baths, stress, flight zone, and presence of cows with a tail. On this subject, Bova et al. (Reference Bova, Chiavaccini, Cline, Hart, Matheny, Muth, Voelz, Kesler and Memili2014) claimed that certain management practices such as handling and housing conditions may act as major stressors, as they can severely affect the health and production of the cows.

In conclusion, cubicle and crossovers measurements, flooring materials and the absence of a quarantine pen are the main facility weaknesses observed in dairy farms in the province of Lugo. The design of the facilities should be carefully considered, as it is directly associated with the health and productivity of the cows. Therefore, to maximise both these factors and, consequently, the profits of the farm, the recommendations given in this study may be useful as a guide when building a new farm or remodelling the already existing ones.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0022029922000309

Acknowledgements

This study was partially supported by Diputación Provincial de Lugo (Convenio 2015-CP011). Uxía Yáñez Ramil holds a predoctoral contract (Ref. 2020/122) from the Xunta de Galicia. The authors wish to thank the veterinarians and farmers for their uninterested collaboration.

References

Bertocchi, L, Fusi, F, Angelucci, A, Bolzoni, L, Pongolini, S, Strano, RM, Ginestreti, J, Riuzzi, G, Moroni, P and Lorenzi, V (2018) Characterization of hazards, welfare promoters and animal-based measures for the welfare assessment of dairy cows: elicitation of expert opinion. Preventive Veterinary Medicine 150, 818.CrossRefGoogle ScholarPubMed
Bova, TL, Chiavaccini, L, Cline, GF, Hart, CG, Matheny, K, Muth, AM, Voelz, B, Kesler, D and Memili, E (2014) Environmental stressors influencing hormones and systems physiology in cattle. Reproductive Biology and Endocrinology 12, 58.CrossRefGoogle ScholarPubMed
Boyle, LA, Mee, JF and Kiernan, PJ (2007) The effect of rubber vs. concrete passageways in cubicle housing on claw health and reproduction of pluriparous dairy cows. Applied Animal Behaviour Science 106, 112.10.1016/j.applanim.2006.07.011CrossRefGoogle Scholar
Bugueiro, A, Diéguez, FJ and Pedreira, J (2018) Study on the major welfare problems of dairy cows from the Galicia region (NW Spain). Jounal of Animal Behaviour and Biometeorology 6, 8489.CrossRefGoogle Scholar
Bugueiro, A, Fouz, R and Diéguez, FJ (2021) Associations between on-farm welfare, milk production and reproductive performance in dairy herds in northwestern Spain. Journal of Applied Animal Welfare Science 24, 2938.CrossRefGoogle ScholarPubMed
Calamari, L, Calegari, F and Stefanini, L (2009) Effect of different free stall surfaces on behavioural, productive and metabolic parameters in dairy cows. Applied Animal Behaviour Science 120, 917.CrossRefGoogle Scholar
Cook, NB and Nordlund, KV (2004) Behavioral needs of the transition cow and considerations for special needs facility design. Veterinary Clinics Food Animal Practice 20, 495520.CrossRefGoogle ScholarPubMed
Dargatz, DA, Garry, FB and Traub-Dargatz, JL (2002) An introduction to biosecurity of cattle operations. The Veterinary Clinics Food Animal Practice 18, 15.CrossRefGoogle ScholarPubMed
De Pinho, M, Borin, D, Yoshida, P, Zampolli, M, Donizete, B and Langoni, H (2012) Relationships between teat-end condition, udder cleanliness and bovine subclinical mastitis. Research in Veterinary Science 93, 430434.CrossRefGoogle Scholar
Fregonesi, JA, Tucker, CB and Weary, DM (2007) Overstocking reduces lying time in dairy cows. Journal of Dairy Science 90, 33493354.CrossRefGoogle ScholarPubMed
Grant, RJ (2004) Incorporating dairy cow behaviour into management tools. Proceedings of the Cornell NutritionConference for Feed Manufacturers, 19.-21.10.2004. Ithaca, New York (USA), pp. 6596.Google Scholar
Juaristi, JL, Bach, A and Rodríguez, P (2004) Cuadernos de Campo: Cow Comfort [Field Notebooks: Cow Comfort]. Zaragoza, Spain: Laboratorios Merial, p. 221.Google Scholar
Kremer, PV, Scholz, AM, Nüske, S and Föster, M (2012) Do mats matter? – comparison of fertility traits and milk yield in dairy cows on rubber or concrete flooring. Archiv fur Tierzucht 55, 438449.Google Scholar
Laurence, M (2014) 13 Biosecurity and beef cattle health, husbandry and welfare. In Cottle, D and Kahn, L (eds), Beef Cattle Production and Trade. Collingwood, Australia: CSIRO Publishing, pp. 251289.Google Scholar
Ministerio de Agricultura, Pesca y Alimentación (MAPA) (2015a) Encuestas de efectivos de ganado bovino [Surveys of cattle numbers]. Available at https://www.mapa.gob.es/es/estadistica/temas/estadisticas-agrarias/informebovino2015_tcm30-423113.pdf [21/07/2021].Google Scholar
Ministerio de Agricultura, Pesca y Alimentación (MAPA) (2015b) Cuadros de producciones de leche de vaca en las explotaciones desglosadas por CCAA [Tables on the production of cow milk in farms, classified by autonomous community]. Available at https://www.mapa.gob.es/es/estadistica/temas/estadisticas-agrarias/cuadroicuadrosdeproduccionesdelechedevacaenlasexplotacionesdesglosadasporccaa_tcm30-103606.pdf [21/07/2021].Google Scholar
Molina, L, Agüera, E, Maroto-Molina, F and Pérez-Marín, CC (2019) Assessment of on-farm welfare for dairy cattle in southern Spain and its effects on reproductive parameters. Journal of Dairy Research 86, 165170.10.1017/S0022029919000207CrossRefGoogle ScholarPubMed
Oehme, B, Grund, S, Munzel, J and Mülling, CKW (2019) Kinetic effect of different ground conditions on the sole of the claws of standing and walking dairy cows. Journal of Dairy Science 102, 1011910128.CrossRefGoogle ScholarPubMed
Telezhenko, E, Magnusson, M and Bergsten, C (2017) Gait of dairy cows on floors with different slipperiness. Journal of Dairy Science 100, 110.CrossRefGoogle ScholarPubMed
Tucker, CB, Jensen, MB, de Passillé, AM, Hänninen, L and Rushen, J (2021) Lying time and the welfare of dairy cows. Journal of Dairy Science 104, 2046.10.3168/jds.2019-18074CrossRefGoogle ScholarPubMed
Verdes, S, Trillo, Y, Peña, AI, Herradón, PG, Becerra, JJ and Quintela, LA (2020) Relationship between quality of facilities, animal-based welfare indicators and measures of reproductive and productive performances on dairy farms in the northwest of Spain. Italian Journal of Animal Science 19, 319329.10.1080/1828051X.2020.1743784CrossRefGoogle Scholar
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Table 1. Proportions of the main housing weaknesses and strengths (expressed as percentages) observed in farms in the Northwest of Spain

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