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Early weaning: new insights on an ever-persistent problem in the dairy industry

Published online by Cambridge University Press:  10 August 2020

Tomislav Mikuš*
Affiliation:
Department of Hygiene, Technology and Food Safety, Faculty of Veterinary Medicine, University of Zagreb, Zagreb, Croatia
Rok Marzel
Affiliation:
GO-KO farm Ltd., Kočevje, Slovenia
Ornella Mikuš
Affiliation:
Department of Agricultural Economics and Rural Development, University of Zagreb, Faculty of Agriculture, Zagreb, Croatia
*
Author for correspondence: Tomislav Mikuš, Email: [email protected]
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Abstract

It is common practice in the dairy industry to separate the calf from the cow immediately after parturition, and in most parts of the world calves are housed individually during the milk-feeding period. Early and abrupt separation has major implications for the calf's physical and psychological development. In this Research Reflection short review we present and discuss the main housing systems and management practices regarding early weaning in today's dairy industry. Main benefits and disadvantages are critically addressed, and possible future research suggested. Furthermore, major policy issues related to consumers, scientific recommendations and economic performance of farms have been identified, as well as future drivers for more viable housing solutions for neonatal calves. This review serves as an introduction and preamble to the second section of this Special Issue, which is dedicated to cow-calf contact management systems.

Type
Research Reflection
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2020. Published by Cambridge University Press on behalf of Hannah Dairy Research Foundation

Introduction

Cattle are historically one of the most researched animal species in the context of animal welfare (Mikuš et al., Reference Mikuš, Radeski, Cziszter, Dimitrov, Jurkovich, Nenadović, Ostović, Zupan and Kirchner2018), yet there are still significant welfare issues which are not nearing resolution. One of those issues for the last couple of decades has been early weaning which is still a predominant practice in the dairy industry (EFSA, 2006, 2009; Cantor et al., Reference Cantor, Costa and Neave2019).

Weaning of calves in natural conditions occurs at the age of 6–9 months, and it is characterized by a decrease in the frequency of suckling, with a more frequent intake of solid foods and development of more complex social interactions (Weary et al., Reference Weary, Jasper and Hötzel2008). By contrast, in the present-day dairy industry calves are typically separated from their dams immediately or during the first hours after calving, whereby the maternal behaviour of cows is hampered and milk production continues without the calves. This practice is called early weaning and it has been shown to be stressful for both calves and cows (Mandel and Nicol, Reference Mandel and Nicol2017).

Early weaning is implemented in order to improve cow productivity, facilitate herd management and avoid possible neonatal enteric and respiratory infections, which are still a significant problem in calves (Svensson et al., Reference Svensson, Lundborg, Emanuelson and Olsson2003; Bolt et al., Reference Bolt, Boyland, Mlynski, James and Croft2017). Council Directive (97/2/EC) state that a single housed calf must be able to make direct visual contact through the pen barrier with other calves, which means that the calf, although single housed, can still share pathogen microorganisms through direct contact with its peers (Kung et al., Reference Kung, Demarco, Siebenson, Joyner, Haenlein and Morris1997).

Due to the complex natural hierarchies recognized among cattle, it is important that calves learn how to interact socially with their peers, as studies suggest that early social contact facilitates positive social responses and decreases agonistic behaviour (Veissier et al., Reference Veissier, Chazal, Pradel and Le Neindre1997; Pempek et al., Reference Pempek, Eastridge, Botheras, Croney and Bowen Yoho2013). Abrupt separation of dam and calf has a number of physiological and behavioural consequences for both animals, which can be recognized immediately after separation, during several weeks after separation and some of which can even be transferred to next-generation heifers (Mandel and Nicol, Reference Mandel and Nicol2017).

Several review papers focused on weaning and housing of calves have already been published (Weary et al., Reference Weary, Jasper and Hötzel2008; Johnsen et al., Reference Johnsen, Zipp, Kälber, de Passillé, Knierim, Barth and Mejdell2016; Beaver et al., Reference Beaver, Meagher, von Keyserlingk and Weary2019), but given that early weaning and individual housing of calves is still persistent and common practice in the dairy industry, the authors decided to investigate and present new practices and potential new approaches in the housing and managing of neonatal calves, their benefits and disadvantages as well as policy drivers, economic performance and market trends. The methodology employed in the literature search is described in the online Supplementary File. Selected papers were grouped into the three major categories Calves-only Systems, Policy and Economics and Cow-Calf Rearing Systems. The remainder of this review will focus on the first two categories, since these are directly related to early weaning. The third category together with its references is covered in the online Supplementary File but is also the focus of the papers contained in the second section of this Special Issue, which is dedicated to the issue of cow-calf contact. As such, this Research Reflection also provides an introduction and preamble to that section.

Calves-only systems

In this section, the authors will focus primarily on group and pair housing of calves. In addition, possibilities of environmental enrichment as a tool to raise the minimum standard of individually and group managed calves will be investigated.

Group housing systems

Group housing system implies that calves are kept in groups of three or more animals depending on the space allowance and farm management system. Groups can be small (3–8) or large (9–30), and to avoid health issues, calves grouped together should be approximately of the same age, entering the group at the same time (Pedersen et al., Reference Pedersen, Sørensen, Skjøth, Hindhede and Nielsen2009). Due to increasing farm animal welfare concerns in the general public as well as among dairy farmers and other stakeholders involved in the dairy industry (Ventura et al., Reference Ventura, von Keyserlingk, Schuppli and Weary2013), group housing of calves has become more prevalent in recent years (Cobb et al., Reference Cobb, Obeidat, Sellers, Pepper-Yowell, Hanson and Ballou2014b). These housing systems are interesting to the industry as they provide easier management for the farmer (Hötzel et al., Reference Hötzel, Longo, Balcão, Cardoso and Costa2014), bring benefit to the social development of calves and increase productivity (Costa et al., Reference Costa, von Keyserlingk and Weary2016).

Although a few decades ago rearing calves in groups might have been challenging and time-consuming, technological advancement and development of automated feeding systems made group housing easily accessible to a large number of farmers (Kung et al., Reference Kung, Demarco, Siebenson, Joyner, Haenlein and Morris1997; Costa et al., Reference Costa, von Keyserlingk and Weary2016). Thus, increased economic benefit for the farmers is at the same time a great benefit for the calves. As reviewed by Costa et al. (Reference Costa, von Keyserlingk and Weary2016) young animals are more likely to start tasting solid food earlier when reared in groups than when kept individually. In addition, if joined earlier in life, calves tend to show frequent positive social interactions and smaller incidence of stressful behaviours (Abdelfattah et al., Reference Abdelfattah, Karousa, Lay, Marchant-Forde and Eicher2018).

Major differences between large and small group rearing systems are connected to potential health and welfare risks. As reported by Svensson et al. (Reference Svensson, Lundborg, Emanuelson and Olsson2003) calves housed in larger groups (10+ individuals) had a significantly higher mortality rate than individually housed calves or calves in smaller groups. In the same research, the incidence of sickness and mortality due to respiratory and digestive infections in smaller groups was similar to that in individually housed calves (Svensson et al., Reference Svensson, Lundborg, Emanuelson and Olsson2003). Similar results have been observed in studies conducted by Cobb et al. (Reference Cobb, Obeidat, Sellers, Pepper-Yowell and Ballou2014a). Furthermore, calves kept in larger groups face greater social challenges around feeding time when aggression and general behavioural disturbance most often occur (Jensen, Reference Jensen2003; von Keyserlingk et al., Reference von Keyserlingk, Brusius and Weary2004; de Passillé et al., Reference de Passillé, Borderas and Rushen2011). These behavioural issues can be avoided, or at least minimized, through proper feeding management. This involves smaller groups of calves feeding through a sufficiency of available teats, and more frequent availability of milk (Jensen, Reference Jensen2003; Costa et al., Reference Costa, von Keyserlingk and Weary2016; Mahmoud et al., Reference Mahmoud, Mahmoud and Ahmed2016).

Pair housing systems

Pair housing systems imply that calves are kept in pairs for the first several weeks, thus joined immediately after birth or within the first neonatal days. Rearing of calves in pairs reduces potential health risks in early life due to easy access and monitoring of each animal pair and it lowers the potential welfare problems such as cross-suckling and feeding time disturbance. Moreover, the pairing system provides calves with more space for everyday interactions and social development (De Paula Vieira et al., Reference De Paula Vieira, von Keyserlingk and Weary2010).

A recent study by Morgan (Reference Morgan2018) shows that pair housing has positive effects on the calves' immune system, under well-managed conditions. There were no differences in humoral immunity potential between single and pair-housed animals, thus increasing the resistance to potential neonatal infections. Overvest et al. (Reference Overvest, Crossley, Miller-Cushon and DeVries2018) found that in the pair housing system, the presence of another animal promoted greater feeding rates of both solid feed and water, which translated into greater daily intake of feed in general. Results of the same study also suggest that calves joined in pairs from birth, rather than a few days later, may exhibit fewer behavioural disruptions in the post-weaning period. Pempek et al. (Reference Pempek, Eastridge, Swartzwelder, Daniels and Yohe2016) confirmed similar results regarding increased feed intake, while Whalin et al. (Reference Whalin, Weary and von Keyserlingk2018) also concluded that calves kept in pairs are less fearful towards novel foods.

Furthermore, Whalin et al. (Reference Whalin, Weary and von Keyserlingk2018) have not recorded any differences in body weight gain compared to individually housed calves. The authors explain the increased feed intake without gaining body weight with an increased social activity of the paired calves. Behavioural problems such as cross suckling which Pempek et al. (Reference Pempek, Eastridge, Swartzwelder, Daniels and Yohe2016) have recorded can be explained by low milk allowances and bucket feeders used in their research. Using a better feeding management system, cross-suckling issues are scarce (Whalin et al., Reference Whalin, Weary and von Keyserlingk2018). In general, the findings of the reviewed studies regarding pair housing of neonatal calves, reveal that the keeping of calves in this rearing system is beneficial in terms of health, performance and behaviour.

Enriched systems

Environmental enrichment in the dairy industry is almost non-existent in contrast to some other lifestock productions (pigs in particular), and as such it does not follow the needs of the animals reared in indoor housing systems (Mandel et al., Reference Mandel, Whay, Klement and Nicol2016). Enrichment should provide appropriate stimuli to promote normal behaviours, improve welfare and biological functioning of animals (Newberry, Reference Newberry1995; Mandel et al., Reference Mandel, Whay, Klement and Nicol2016). For the purpose of this review, the authors will consider only pen enrichments as potential benefit for the housing of calves.

Several published studies regarding enrichment of the calves' pens suggest that some practices can benefit the social and behavioural development of the animal, but others remain inconclusive. Thus, the study conducted by Jensen et al. (Reference Jensen, Duve and Weary2015) in which calves had access to an increased space allowance concluded that providing increased space can elevate the level of playing behaviour. Dividing the enclosure of group housed calves can increase opportunities for calves to avoid antagonistic behaviours and provide additional opportunity for exploratory behaviour (Newberry, Reference Newberry1995; Ninomiya and Sato, Reference Ninomiya and Sato2009). Some other additions to the enclosure such as fresh bedding in connection with a feeding routine can also stimulate playing behaviour (Jensen et al., Reference Jensen, Vestergaard and Krohn1998). However, as both stimuli were presented to calves at the same time it is not possible to separate individual effects of the two. When offered in the enclosure, calves will suckle a dry rubber teat, which can reduce cross-suckling behaviour by over 75% (de Passillé and Caza, Reference de Passillé and Caza1997), but as later argued by de Passillé et al. (Reference de Passillé, Borderas and Rushen2011), the negative repetitive behaviour of cross-suckling did not vanish, it was merely diverted from a calf to the dry teat. A better possibility is to offer calves teat-feeders, which will provide functional purpose and decrease the incidence of negative behaviour (Jensen et al., Reference Jensen, de Passillé, von Keyserlingk and Rushen2008).

Several studies researching the effect of enriched environments on individually housed calves and cows have unconclusive results. In the experiment conducted by Mandel et al. (Reference Mandel, Wenker, van Reenen, Keil and Hillmann2019) cows were isolated in enclosures with a mirror, an automated grooming brush, or with both items at the same time, and they found no reducement of stress indicators compared to the non-enriched environment. A similar study which involved housing individual calves in a fully furnished pen (with two artificial teats, a stationary brush, a calf ‘lollie’, and a rubber chain link for calves to manipulate) came to a similar conclusion. Although calves were interacting with all of the items offered, the enrichment did not affect growth, starter intake, nor behavioural response to social and environmental novelty after weaning (Pempek et al., Reference Pempek, Eastridge and Proudfoot2017). Results of the studies reviewed in this section suggest that providing some physical complexity to standard individual housing can have minor or no significant benefits for cattle, compared to social enrichment in the sense of the presence of another calf.

Policy and economics

Conflicting research results about the effects of early and postponed cow-calf separation demand additional effort in gathering empirical data as this is an important area of public and policy concern (Ventura et al., Reference Ventura, von Keyserlingk, Schuppli and Weary2013; Hötzel et al., Reference Hötzel, Cardoso, Roslindo and von Keyserlingk2017). Different countries have used different instruments to raise questions and improve farm animal welfare standards. As reviewed by von Keyserlingk and Hötzel (Reference von Keyserlingk and Hötzel2015) legislation has played an important role in the implementation of improved animal welfare in industrialized countries such as parts of the EU, New Zealand, Canada and some states in the USA. At the same time, a lack of appropriate enforcement in some countries undermined confidence in this legislative approach (von Keyserlingk and Weary, Reference von Keyserlingk and Weary2017). The EU was the first region in the world to recognize the importance of animal welfare and to translate initiatives into reality by establishing concrete rules. The EU animal welfare rules for dairy cows are derived from the Council Directive 98/58/EC concerning the protection of animals kept for farming purposes and requiring that owners or keepers of dairy cows take all reasonable steps to ensure the welfare of animals (EC DG SANTE, 2017). Still, the requirements are general and nonspecific. There are no requirements on postponed or non-separation of calf and mother in the EU legal regulations of dairy animal welfare (Grethe, Reference Grethe2017), and the European Food Safety Authority (EFSA) is rather equivocal on the topic, stating: ‘There are conflicting research data as to whether it is best for the welfare of the cow to leave the calf with the cow for a prolonged lactation period or to remove it within 24 h’ (EFSA, 2009).

The question of cow-calf separation can evoke strong feelings of empathy in the public which is usually supportive of a more natural way of rearing that would prevent unnecessary stress for both cow and calf. Natural behaviour or naturalness appear to be idealized concepts of animal wellbeing created by the lay public outside the livestock industry (Hötzel et al., Reference Hötzel, Cardoso, Roslindo and von Keyserlingk2017). The public opinion towards animal production is a result of negative connotations connected to farm practices that are rated as adverse to animal welfare (Boogaard et al., Reference Boogaard, Bock, Osting and Krogh2010). According to a study conducted by Ventura et al. (Reference Ventura, von Keyserlingk, Schuppli and Weary2013), research participants with more knowledge and experience with dairy farming expressed their support of early separation and evaluated the practice considering the larger picture. In contrast, participants with no experience or interaction with farmers had little understanding for early separation (Ventura et al., Reference Ventura, von Keyserlingk, Schuppli and Weary2013).

Producers and specialists in dairy farming are in the minority in relation to consumers, who are the providers of budget support for agricultural production and whose interest for animal welfare is increasing. That is why the decision-making process should address scientific evidence of best practices, as well as industry and non-industry stakeholders' feedback in order to be received and implemented properly. Although EU member states stakeholders have recently been giving great attention and importance to animal welfare support practices on dairy farms, good health and productivity are in focus, while affective states and natural living are less frequent worries. This is partially due to the cross-compliance mechanism of the Common Agricultural Policy which represents a series of mandatory requirements which farmers must respect in their agricultural practice when exercising the right to direct subsidies in agriculture. As animal welfare is only one of them and respective indicators are not clear or detailed, it is difficult to monitor and conclude to what extent the farming community implements various initiatives, especially behavioural issues (EC DG SANTE, 2017). Furthermore, it is difficult to prescribe animal welfare practices which would potentially cause higher production costs and an increase in domestic prices. There is no unambiguous and definitive answer on the economic questions as regards an extended period of suckling. Asheim et al. (Reference Asheim, Føske Johnsen, Havrevoll, Mejdell and Grøndahl2016) studied the profitability of different calf-feeding strategies in Norwegian organic dairy farms. Results indicated that heifer calves fed high amounts of milk also have higher milk yield in their first lactation. Additionally, suckling for several weeks may be considered an economically viable option for calf rearing, but it could lower the milk fat content and negatively affect the price. However, an increase of price could be justified by labelling the product as goods produced according to a certain animal welfare practice (Grethe, Reference Grethe2017). On the other hand, Kišac et al. (Reference Kišac, Brouček, Uhrinčať and Hanus2011) examined the impact of the length of a calf suckling milk from its own mother on the calf growth and cow production on a Slovak non-organic dairy farm. The results showed that prolonged nursing positively influenced the growth of calves, but reduced the mothers' milk production. Therefore, if the farmer's goal is high-yielding dairy cows, keeping calves with the dam for 21 d after birth is not recommended.

In terms of facilities, most modern farm buildings are not designed for keeping cows and calves together (Asheim et al., Reference Asheim, Føske Johnsen, Havrevoll, Mejdell and Grøndahl2016) and such reorganization would call for new investments not welcomed by farmers. Furthermore, separation and weaning of suckling dairy calves is a question of animal ethics rather than one of animal health and production. Consumers will continue to force changes in industry practices and argue for a reform of legislation based on morality rather than economics, especially in modern and rich societies. As market-oriented producers listen to consumer demands they will have to at least offer a compromise to raise the level of care for dairy cows and calves. Policy support will have to follow this trend and ensure new ways of compliance. However, there is no ‘one size fits all’ policy framework to respond to all animal welfare aspects, especially to its ethical dimension. Countries and even regions differ among each other with respect to all aspects of agricultural structure (e.g. structure and value of production, socioeconomic characteristics of farmers, implemented policy instruments). Economies will have to adapt to new market rules and demands, but will each have to walk their own path considering the characteristics of their respective agricultural sector.

Conclusions

Although modern farms are organized in such a way that different categories of dairy cattle are grouped separately and general management of farms does not allow much interaction, new scientific evidence presented in this review suggests that there are some management possibilities achievable with minimum investment which can improve the welfare of calves. As a final remark, the authors would like to stress that farmers and policy makers will soon need to recognize and recommend a viable way of managing neonatal calves, not only because of scientific advancement, but also due to public expectations which are growing stronger by the day.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0022029920000503

Acknowledgements

This article is based upon work from COST Action FA1308 DairyCare, supported by COST (European Cooperation in Science and Technology, www.cost.eu). COST is a funding agency for research and innovation networks. COST Actions help connect research initiatives across Europe and enable scientists to grow their ideas by sharing them with their peers. This boosts their research, career and innovation.

References

Abdelfattah, EM, Karousa, MM, Lay, DC Jr, Marchant-Forde, JN and Eicher, SD (2018) Short communication: effect of age at group housing on behavior, cortisol, health, and leukocyte differential counts of neonatal bull dairy calves. Journal of Dairy Science 101, 596602.CrossRefGoogle ScholarPubMed
Asheim, LJ, Føske Johnsen, J, Havrevoll, Ø, Mejdell, CM and Grøndahl, AM (2016) The economic effects of suckling and milk feeding to calves in dual purpose dairy and beef farming. Review of Agricultural, Food and Environmental Studies 97, 225236.CrossRefGoogle Scholar
Beaver, A, Meagher, RK, von Keyserlingk, MAG and Weary, DM (2019) Invited review: a systematic review of the effects of early separation on dairy cow and calf health. Journal of Dairy Science 102, 57845810.CrossRefGoogle ScholarPubMed
Bolt, SL, Boyland, NK, Mlynski, DT, James, R and Croft, DP (2017) Pair housing of dairy calves and age at pairing: effects on weaning stress, health, production and social networks. PLoS ONE 12, 118.Google ScholarPubMed
Boogaard, BK, Bock, BB, Osting, SJ and Krogh, E (2010) Visiting a farm: an exploratory study of the social construction of animal farming in Norway and the Netherlands based on sensory perception. International Journal of Sociology of Agriculture and Food 17, 2450.Google Scholar
Cantor, MC, Costa, JHC and Neave, HW (2019) Current perspectives on the short- and long-term effects of conventional dairy calf raising systems: a comparison with the natural environment. Translational Animal Science 3, 549563.CrossRefGoogle Scholar
Cobb, CJ, Obeidat, BS, Sellers, MD, Pepper-Yowell, AR and Ballou, MA (2014a) Group housing of Holstein calves in a poor indoor environment increases respiratory disease but does not influence performance or leukocyte responses. Journal of Dairy Science 97, 30993109.Google Scholar
Cobb, CJ, Obeidat, BS, Sellers, MD, Pepper-Yowell, AR, Hanson, DL and Ballou, MA (2014b) Improved performance and heightened neutrophil responses during the neonatal and weaning periods among outdoor group-housed Holstein calves. Journal of Dairy Science 97, 930939.Google Scholar
Costa, JHC, von Keyserlingk, MAG and Weary, DM (2016) Invited review: effects of group housing of dairy calves on behavior, cognition, performance, and health. Journal of Dairy Science 99, 24532467.CrossRefGoogle Scholar
Council Directive 97/2/EC of 20 January 1997 amending Directive 91/629/EEC laying down minimum standards for the protection of calves.Google Scholar
Council Directive 98/58/EC of 20 July 1998 concerning the protection of animals kept for farming purposes.Google Scholar
de Passillé, AM and Caza, N (1997) Cross-sucking by calves occurs after meals and is reduced when calves suck a dry teat. Journal of Dairy Science 80, 229.Google Scholar
de Passillé, AM, Borderas, F and Rushen, J (2011) Cross-sucking by dairy calves may become a habit or reflect characteristics of individual calves more than milk allowance or weaning. Applied Animal Behavior Science 133, 137143.Google Scholar
De Paula Vieira, A, von Keyserlingk, MA and Weary, DM (2010) Effects of pair versus Single housing on performance and behavior of dairy calves before and after weaning from milk. Journal of Dairy Science 93, 30793085.CrossRefGoogle ScholarPubMed
EFSA (2006) Opinion of the scientific panel on Animal Health and Welfare (AHAW) on a request from the Commission related with the risks of poor welfare in intensive calf farming systems. EFSA Journal 4, 366, n/a.CrossRefGoogle Scholar
EFSA (2009) Scientific opinion on the overall effects of farming systems on dairy cow welfare and disease. EFSA Journal 1143, 338.Google Scholar
European Commission DG Health and Food Safety (EC DG SANTE) (2017) Overview report Welfare of Cattle on Dairy Farms. Ref. Ares (2017)562387017/11/2017Google Scholar
Grethe, H (2017) The economics of farm animal welfare. Annual Review of Resource Economics 9, 7594.Google Scholar
Hötzel, MJ, Longo, C, Balcão, LF, Cardoso, CS and Costa, JHC (2014) A survey of management practices that influence performance and welfare of dairy calves reared in southern Brazil. PLoS ONE 9, 117.Google ScholarPubMed
Hötzel, MJ, Cardoso, CS, Roslindo, A and von Keyserlingk, MAG (2017) Citizens’ views on the practices of zero-grazing and cow-calf separation in the dairy industry: does providing information increase acceptability? Journal of Dairy Science 100, 41504160.CrossRefGoogle ScholarPubMed
Jensen, MB (2003) The effects of feeding method, milk allowance and social factors on milk feeding behaviour and cross-sucking in group housed dairy calves. Applied Animal Behavior Science 80, 191206.CrossRefGoogle Scholar
Jensen, MB, Vestergaard, KS and Krohn, CC (1998) Play behaviour in dairy calves kept in pens: the effect of social contact and space allowance. Applied Animal Behavior Science 56, 97108.CrossRefGoogle Scholar
Jensen, MB, de Passillé, AM, von Keyserlingk, MAG and Rushen, J (2008) A barrier can reduce competition over teats in pair-housed milk-fed calves. Journal of Dairy Science 91, 16071613.CrossRefGoogle ScholarPubMed
Jensen, MB, Duve, LR and Weary, DM (2015) Pair housing and enhanced milk allowance increase play behavior and improve performance in dairy calves. Journal of Dairy Science 98, 25682575.Google ScholarPubMed
Johnsen, JF, Zipp, KA, Kälber, T, de Passillé, AM, Knierim, U, Barth, K and Mejdell, CM (2016) Is rearing calves with the dam a feasible option for dairy farms? – current and future research. Applied Animal Behavior Science 181, 111.CrossRefGoogle Scholar
Kišac, P, Brouček, J, Uhrinčať, M and Hanus, A (2011) Effect of weaning calves from mother at different ages on their growth and milk yield of mothers. Czech Journal of Animal Science 56, 261268.Google Scholar
Kung, L, Demarco, S, Siebenson, L, Joyner, E, Haenlein, G and Morris, R (1997) An evaluation of two management systems for rearing calves fed milk replacer. Journal of Dairy Science 80, 25292533.Google ScholarPubMed
Mahmoud, ME, Mahmoud, FA and Ahmed, AE (2016) Impacts of self- and cross-sucking on cattle health and performance. Veterinary World 9, 922928.CrossRefGoogle ScholarPubMed
Mandel, R and Nicol, CJ (2017) Re-direction of maternal behaviour in dairy cows. Applied Animal Behavior Science 195, 2431.CrossRefGoogle Scholar
Mandel, R, Whay, HR, Klement, E and Nicol, CJ (2016) Environmental enrichment of dairy cows and calves in indoor housing. Journal of Dairy Science 99, 16951715.Google ScholarPubMed
Mandel, R, Wenker, ML, van Reenen, K, Keil, NM and Hillmann, E (2019) Can access to an automated grooming brush and/or a mirror reduce stress of dairy cows kept in social isolation? Applied Animal Behavior Science 211, 18.CrossRefGoogle Scholar
Mikuš, T, Radeski, M, Cziszter, LT, Dimitrov, I, Jurkovich, V, Nenadović, K, Ostović, M, Zupan, M and Kirchner, MK (2018) The Danube region – on stream with animal welfare assessment in the last 35 years: a review of research on animal welfare assessment in a multi-lingual area in Europe. Journal of Agricultural and Environmental Ethics 31, 511526.CrossRefGoogle Scholar
Morgan, CK (2018) Evaluation of Single vs. Pair Housing Holstein Calves on Specific Antibody Concentrations to KLH (Honors Thesis Projects). University of Tennessee, Knoxville, USAGoogle Scholar
Newberry, RC (1995) Environmental enrichment: increasing the biological relevance of captive environments. Applied Animal Behaviour Science 44, 229243.CrossRefGoogle Scholar
Ninomiya, S and Sato, S (2009) Effects of ‘Five freedoms’ environmental enrichment on the welfare of calves reared indoors. Animal Science Journal 80, 347351.CrossRefGoogle ScholarPubMed
Overvest, MA, Crossley, RE, Miller-Cushon, EK and DeVries, TJ (2018) Social housing influences the behavior and feed intake of dairy calves during weaning. Journal of Dairy Science 101, 81238134.CrossRefGoogle ScholarPubMed
Pedersen, RE, Sørensen, JT, Skjøth, F, Hindhede, J and Nielsen, TR (2009) How milk-fed dairy calves perform in stable versus Dynamic groups. Livestock Science 121, 215218.CrossRefGoogle Scholar
Pempek, JA, Eastridge, ML, Botheras, NA, Croney, CC and Bowen Yoho, WS (2013) Effects of alternative housing and feeding systems on the behavior and performance of dairy heifer calves. The Professional Animal Scientist 29, 278288.CrossRefGoogle Scholar
Pempek, JA, Eastridge, ML, Swartzwelder, SS, Daniels, KM and Yohe, TT (2016) Housing system may affect behavior and growth performance of Jersey heifer calves. Journal of Dairy Science 99, 569578.CrossRefGoogle ScholarPubMed
Pempek, JA, Eastridge, ML and Proudfoot, KL (2017) The effect of a furnished individual hutch pre-weaning on calf behavior, response to novelty, and growth. Journal of Dairy Science 100, 48074817.Google Scholar
Svensson, C, Lundborg, K, Emanuelson, U and Olsson, S-O (2003) Morbidity in Swedish dairy calves from birth to 90 days of age and individual calf-level risk factors for infectious diseases. Preventive Veterinary Medicine 58, 179197.Google ScholarPubMed
Veissier, I, Chazal, P, Pradel, P and Le Neindre, P (1997) Providing social contacts and objects for nibbling moderates reactivity and oral behaviors in veal calves. Journal of Animal Science 75, 356365.Google ScholarPubMed
Ventura, BA, von Keyserlingk, MAG, Schuppli, CA and Weary, DM (2013) Views on contentious practices in dairy farming: the case of early cow-calf separation. Journal of Dairy Science 96, 61056116.CrossRefGoogle ScholarPubMed
von Keyserlingk, MAG and Hötzel, MJ (2015) The ticking clock: addressing farm animal welfare in emerging countries. Journal of Agricultural and Environmental Ethics 28, 179195.Google Scholar
von Keyserlingk, MAG and Weary, DM (2017) A 100-year review: animal welfare in the journal of dairy science – The first 100 years. Journal of Dairy Science 100, 1043210444.Google ScholarPubMed
von Keyserlingk, MAG, Brusius, L and Weary, DM (2004) Competition for teats and feeding behavior by group-housed dairy calves. Journal of Dairy Science 87, 41904194.Google ScholarPubMed
Weary, DM, Jasper, J and Hötzel, MJ (2008) Understanding weaning distress. Applied Animal Behavior Science 110, 2441.CrossRefGoogle Scholar
Whalin, L, Weary, DM and von Keyserlingk, MAG (2018) Short Communication: pair housing dairy calves in modified calf hutches. Journal of Dairy Science 101, 54285433.CrossRefGoogle ScholarPubMed
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