Microsoft Word - 22-Agra_42460_vet


1687 
Bioscience Journal  Original Article 

Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

CALF REARING PROFILE IN AGRARIAN REFORM SETTLEMENTS IN 
SANTANA OF LIVRAMENTO, RS, BRAZIL 

 
PERFIL DA CRIAÇÃO DE BEZERRAS NOS ASSENTAMENTOS DA REFORMA 

AGRÁRIA DE SANTANA DO LIVRAMENTO, RS, BRAZIL 
 

Nilva Terezinha de Souza MÜLLER1; Neliton Flores KASPER2*; Leonardo Ereno TADIELO3; 
Luana Cristina LUDWIG4; Gabrielly de Freitas SANT'ANNA4; Taiani Ourique GAYER4; 

Ricardo Pedroso OAIGEN5; Deise Dalazen CASTAGNARA5 
1. Médica Veterinária, Universidade Federal de Pelotas, UFPEL, Pelotas, RS, Brasil; 2. Médico Veterinário, Universidade Federal do 

Pampa, UNIPAMPA, Uruguaiana, RS, Brasil. nelitonfloreskasper@hotmail.com; 3.Discente, Programa de Pós-Graduação em Medicina 
Veterinária, Universidade Estadual Paulista, UNESP, campus Botucatu, SP, Brasil; 4. Discentes do curso de Medicina Veterinária, 

Universidade Federal do Pampa, UNIPAMPA, Uruguaina, RS, Brasil; 5. Prof(a). Dr(a)., Curso de Medicina Veterinária, Universidade 
Federal do Pampa, UNIPAMPA, Uruguaiana, RS, Brasil. 

 
ABSTRACT: In agrarian reform settlements there are obstacles in the rearing of calves; however, the 

main aspects that cause this obstacle are not known. Thus, the aim of this study was to diagnose the main 
obstacles in the management of these dairy heifers to target extension actions. For this, semi-structured guided 
questionnaires were applied to 40 families from 20 settlements. The questionnaire contained questions about 
the characteristics of the family, property and general management, feeding and sanitation of calves. The data 
were tabulated in Excel, transformed into variables and studied by means of multivariate analysis of main 
components after the farms were grouped into clusters according to similarity. The variables that most affected 
the heifer rearing system in dairy farms in the agrarian reform settlements of Santana do Livramento, RS, 
Brazil, were related to diet and occurrence of diarrhoea in calves. The 40 farms studied were grouped into six 
clusters, which differed especially in relation to who was responsible for the management of the heifers inside 
the property, regarding the infrastructure for the calves, time in milk production and concern regarding the care 
in the breeding of the calves. Based on these differences between the clusters being correctly identified, the 
technicians who work in these farms can establish strategies to work with settled families, emphasising the 
points where the obstacles are known to trigger the survival of heifers that will replace the dairy herds. 
 

KEYWORDS: Dairy cattle. Lactation. Nutrition. 
 
INTRODUCTION 

 
The stage of calf rearing is very important in 

dairy farms, and requires planning, because, through 
these will be accomplished the replacement of 
discarded animals or the expansion of the stock 
(GASPARI; KHATOUNIAN, 2016). However, this 
level of importance is not yet clear in many dairy 
farms, especially those of a lower technological 
level or that have limited access to technical 
information.  

There is technical assistance for the 
informative progress of dairy farming; however, the 
language used or the consistency of approaches are 
not sufficient to trigger cultural change or actions 
that would make the educated care definitive. 
Similarly, the work of the technicians is often 
developed empirically, emphasising aspects that are 
not necessarily those that have the greatest impact 
on the process of calf rearing. 

There exists a great diversity of precautions 
necessary in the rearing of calves (PETROCHI et 

al., 2011), that include aspects of infrastucture 
establishment, productive management of herds and 
organisation of property (GASPARI; 
KHATOUNIAN, 2016). Management can include 
colostration with passive transfer of motherly 
immunoglobulins (LEITE et al., 2017). Rational 
management and thermal comfort are decisive in the 
stability and reduction of mortality in calves, 
impacting directly on production when the calves 
arrive at the productive age (MARTINS et al., 
2016). 

The transmission of this relevant 
information from the producer and workers of dairy 
production is a challenge for the technicians. The 
knowledge of the more relevant aspects wich impact 
on the rearing of calves in the diferent systems of 
production should direct the extension actions and 
optimise the technical work. However, it is 
necessary to know which are the more relevant 
aspects from approaches about suitable tools.  

One these tools is the study of production 
systems where the survey of management 

Received: 08/04/19 
Accepted: 30/12/19 



1688 
Calf rearing profile...  MÜLLER, N. T. S. et al. 

Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

characteristics allows, through multivariate analysis, 
the indication of those that have the greatest impacts 
on the different processes. Still, through systems 
studies, it is possible to know the properties that are 
similar, group them in Clusters (groups) and to look 
into these as bounding aspects and existing 
potentials. With this information, the extension 
techniciand can still adopt them to be used and the 
approach can be more strategic and more 
compatible with each type of property.  

In this way, this study aimed to diagnose the 
characteristics of milk production systems in 
agrarian reform settlements in the town of Santana 
do Livramento relevant to techniques adopted in the 
rearing of calves.  
 
MATERIAL AND METHODS 
 

The project was developed from January of 
2017 to June of 2017, in family agrarian reform 
farms in the town of Santana of Livramento, Rio 
Grande do Sul, Brazil, that undertake milk 
production.  

The data collection for calf production in 
milk production systems (SMP) was performed 
using a semi-structured guide questionnaire with 43 
questions that had the objective of identifying at the 
very least 40% of properties in this study. This quiz 
contained questions about registration data, 
characterisation of the owner and of farmer 
property, milk production and of herd, milking 
management, sanitation management and addressed 
in detail the management of rearing calves.  

For the integralisation of the project, two 
representative properties were randomly selected of 
each one of 20 settlements visited. The quiz was 
applied in visits performed to properties during the 
months of June, July and the beginning of August of 
2017. 

After the application of questionnaire, the 
data was tabulated and each answer was considered 
a variable. Subsequently, the method of variable 
selection was performed. Multiple correspondence 
analysis (MCA), methodology was utilised for the 
categorical data exploration, analogous to factorial 
analysis, utilised essentially for the graphical 
verification of the relationship between categories of 
variables. The variables that resulted in high 
contribution scores described in terms of variance 
explained and true to the original data (α de 
Crombach > 0.75) were retained. They were 
constituted by the criteria that the variables and each 
one they contained the levels of occurrence in the 
data groups. 

The creation of these variables obeyed the 
concept of creation of "constructs", in other words, 
there was an effort to give statistic meaning to the 
concepts that were evaluate in the data collection 
group. After the selection and construction of 
variables, the answers of surveys were tabulated in 
order to generate a matrix in which the lines 
corresponded to the SMP and the columns 
corresponded to variables. Categories of each 
variable, when necessary, that completed the MCA, 
were transformed and coded. Finally, in this 
process, the resulting data variables were subjected 
to MCA, that determined the weight, in other words, 
the importance that each variable plays in the data 
group for the achievement of the study objectives. 
The variables that resulted in high contribution 
scores described in terms of variance explained 
were kept (KUBRUSLY, 2001). 

From the relative weights that resulted from 
each variable complementary tools for hierarchical 
clusters analysis (CHA) were adopted, from the 
properties that were divided into groups allowing 
the study of separate groups, identifying the 
obstacles and potentialities in the study theme in 
each group. The grouping of properties and 
description could result in the optimisation of 
extension actions and technical assistance at the 
conclusion this study, with availability of results for 
extension organisations and technical assistance, 
which could be used for the optimisation of the 
performance of extension pratices.  
 
 RESULTS AND DISCUSSION 
 

The characteristics of calf rearing in this 
study were compiled and interpreted through MCA 
in two main components (1 and 2). These explain, 
respectively, 39.080% and 31.474% of the variance 
of the data groups, totalling 70.554% of explained 
variance of the information of all collected variables 
(Table 1). The reliability of the results obtained 
through studies of production systems with use of 
MCA is determined by the total variance explained, 
which must be higher than 70%, as recommended 
by Fávero et al. (2009) and is consistent with 
70.554% obtained in these study. The result 
reliability is determined by the variance explained 
value, because the larger the percentage of 
accumulated variations, the greater is the number of 
variables utilised to explain the results measured in 
the survey. Lange et al. (2016) when studying milk 
production systems in the West of Paraná, obtained 
an accumulated variance of 71.9%. Meanwhile, 
Bodenmüller Filho et al. (2010) when studying dairy 



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Calf rearing profile...  MÜLLER, N. T. S. et al. 

Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

farms in North-Center of Parana-Brazil, had 70.52% 
of accumulated variance. 

The Cronbach alpha parameter measures the 
confidence in tests utilised in research for the 
characterisation of systems, and its value should be 
between 0.70 and 0.90 (HORA et al., 2010). In this 

present study, both values for Cronbach alpha, for 
the dimensions within the indicated range by Hora 
et al. (2010) appear valid (Table 1). These result 
confirms realiability of the questionnaire used and 
shows the high correlation between the elaborated 
questions for the research and the obtained answers. 

 
Table 1. Main components (MPs), eigenvalues (𝜆𝑖) and percentages of variance explained and cumulative 

proportion (%) by components. 

Main 
Components 

αCronbach* Eigenvalues (𝜆𝑖) 
Explanatory variance 
(%) 

Cumulative variance 
(%) 

1 0.870 5.080 39.080 39.080 

2 0.819 4.092 31.474 70.554 

Total 0.965 9.172 70.554 - 

* Based on the totals of the eigenvalues 
 

Regarding the behaviour of breeding 
systems for calf rearing as the variables examined in 
this study, there is observed the great diversity 
(Figure 1), similar to that observed by Lopes Junior 
et al. (2012) when studying systems in the region 
northwest of the state of Paraná. Each case of the 
study, which is each property, has one singular 
contribution to the main components (Table 1; 
Figure 1). This contribution of each case is occurs 
by the incidence of each variable within each case 

(LOPES JUNIOR et al. 2012), in other words, 
factors of calf rearing are present in systems of 
production that correspond to the case studies. This 
is important, because each case (calf rearing system) 
was studied as characteristic and single and to be 
considered the incidence of each variable in each 
case, in order to guarantee the maintenance and 
appreciation of the individual properties in this 
study.  

 
 

 
Figure 1. Projection and contributions of each property of the settlements of Santana of Livramento 

contemplated in a characterisation study of breeding systems in the formation of main components 1 
and 2 that retains the incidence of each contemplated variable. The numbers represent the “cases” of 
the study. The position of each case in the graph corresponds to the inertia, that is, the contribution 
of each case to the formation of each of the main components (MC1 and MC2). 

 



1690 
Calf rearing profile...  MÜLLER, N. T. S. et al. 

Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

From knowledge of the incidence of each 
variable within each case, it is possible to know the 
weight that each property has within the study of 
system characterisation, that is, that aims to 
diagnose profiles of production systems. This 
weight is measured by the inertia and is determined 
by the degree of correlation that exists between each 
system and the major constituents (LOPES JUNIOR 
et al., 2012) in the study (MC1; MC2).  

Thus, the greater the variability and 
diversity in the studied properties, the greater their 
representativeness and reliability for the study. So, 
the diversity of behaviours observed in the variables 
studied i in relation to the defined variables is 
defined by its relation with the main components 1 
and 2, which are the synthetic variables obtained 
from the MCA (Figure 1). If we consider case 20, 
for example, (Figure 1), it has a higher ratio and 
consequently contributes more significantly to the 
formation of the main component 1, (MC1) than the 
main component 2 (MC2). These main components 
are called of synthetic variables because they 
summarise all the variables originally collected at 
the farms (LOPES JUNIOR et al., 2012). 

The explanatory variables, which comprise 
the two main components in this study (LOPES 
JUNIOR et al., 2012), are composed of 13 variables 
(Table 2), which reflect the association between the 

original qualitative variables that were used to 
measure the aspects of calf rearing in the study and 
the main components. These variables are mainly 
related to schooling, hygiene, feeding and 
occurrence of diarrhoea in calves (Table 2). In main 
component 1, the variables related to the occurrence 
of diarrhoea: TimeDiarr-time of occurrence of 
diarrhoea, CausesDiarrhea-cause of diarrhoea, 
AspecDiarrhea-aspect of diarrhoea, 
ImprovDiarrhea-improvement of diarrhoea and 
TreatDiarrhea-diarrhoea treatment was the one that 
had the most weight in the composition of this 
component. In main component 2, the variables of 
greater weight were mainly those related to the 
feeding of the calves, such as FeedingCalves-
feeding of the calves, ReasonFeedCalves-reason for 
feeding the calves, LocatFeedCalves-place of 
feeding of calves, ConditWaterCalves-water 
condition of calves and LocaWaterCalves-place of 
water supply for calves. From these variables, it is 
possible to understand that there was a direct 
relationship between the alimentary management 
and the occurrence of diarrhoea, and this was the 
main sanitary problem at the farms. In fact, as the 
hygiene of milk supply containers fails and there is 
no consistency in the quality diet, the calves are 
exposed to low immunity and the pathogens causing 
diarrhoea (FERREIRA, 2017). 

 
Table 2. Values of each variable in each of the main components used for the characterisation of heifer 

breeding systems in dairy farms in the municipality of Santana of Livramento-RS.  

Variable Description of the variable 
Main component 
1 2 

School School level of owner -0.430 0.553 

FlockTotal Total flock (animals) 0.434 0.245 

CleaningBottles Method of cleaning the bottles -0.321 0.396 

FeedingCalves Feeding system of calves -0.519 0.716 

ReasonFeedCalves Reason of feeding of the calves -0.497 0.719 

LocatFeedCalves Location of feeding of the calves -0.582 0.671 

LocaWaterCalves Location of water supply for calves -0.619 0.485 

ConditWaterCalves Water conditions of calves -0.558 0.592 

TimeDiarr Time of occurrence of diarrhoea 0.856 0.357 

AspecDiarrhea Aspect of the diarrhoea of calves 0.865 0.453 

CausesDiarrhea Causes of diarrhoea 0.857 0.466 

TreatDiarrhea Treatment for diarrhoea 0.670 0.697 

ImprovDiarrhea Improvement of symptoms of diarrhoea 0.625 0.700 
* Weight of each variable studied in each component. 
 

 
 

 



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Calf rearing profile...  MÜLLER, N. T. S. et al. 

Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

The values of each variable in the 
components (Table 2), the relation between the 
variables identified in the MCA and the two 
dimensions formed with the two main components 
identified from the eigenvalues of the variables 
(Figure 1) explain the variation and enable the 
characterisation of the systems of calves adopted in 
the milk producing properties in settlements in the 
municipality of Santana of Livramento, RS. The age 
of the producer and the time of work in the dairy 
activity or as farmers were not significant in 
determining the formation of the components, as 
well as the area of the property, the size of the herd 
and its structure among dry cows, lactating and 
spare animals. Similarly, the forage base, the dairy 
breed used and characteristics of facilities were also 
not significant. When confirming the absence of 
significance and non-participation of the variables 
listed in the formation of the main components, it is 
confirmed that these variables do not interfere 
directly in the management of calf rearing in the 

properties contemplated in the study. However, 
variables directly related to the general and sanitary 
management of calves have a direct impact on their 
breeding system. The schooling of the producers 
(Schooling), and characteristics related to food and 
watering (FeedCalves, FeedingCalves, 
ReasonFeedCalves, LocatFeedCalves, 
ConditWaterCalves, LocaWaterCalves) container 
cleaning (CleaningBottles) are correlated, since they 
form acute angles between them (FRAGA et al., 
2016), in the same way as the total herd 
(FlockTotal) is also related to the sanitary 
characteristics of diarrhoea (TimeDiarr, 
CausesDiarrhea, AspecDiarrhea, ImprovDiarrhea, 
TreatDiarrhea). 

However, the two groups of characteristics 
with correlations between them do not present 
correlations between the characteristics of one group 
and another, since they present an angle greater than 
90 degrees (HORA et al., 2010).  

 
 

 
Figure 2. Projection and contributions of each variable measured in dairy farms in Santana of Livramento 

contemplated in a characterisation study of heifer breeding systems in the formation of main 
components 1 and 2 that retains the incidence of each variable. 

*MC: main component. School-School level of owner; FeedingCalves-Feeding system of calves; ReasonFeedCalves-Reason of feeding 
of the calves, LocatFeedCalves-Location of feeding of the calves, ConditWaterCalves-Water conditions of calves, LocaWaterCalves-
Location of water supply for calves, CleaningBottles-Method of cleaning the bottles, FlockTotal—Total flock (animals), TimeDiarr-
Time of occurrence of diarrhoea, CausesDiarrhea-Causes of diarrhoea, AspecDiarrhea-Aspect of the diarrhoea of calves, 
ImprovDiarrhea-Improvement of symptoms of diarrhoea, TreatDiarrhea-Treatment for diarrhea. 
 



1692 
Calf rearing profile...  MÜLLER, N. T. S. et al. 

Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

The result shows that producers with higher 
levels of schooling better understand the needs of 
correct hygiene of the containers used for milk 
handling, while also understanding the needs and 
benefits of performing early feeding of calves. The 
results obtained agree with the literature, which 
points out that even this apparently subjective 
information helps in the characterisation of the 
production systems, since when it comes to owners, 
information about the age group, education level 
and number of people in the family that contribute 
to the development of the activity are relevant 
because they have a direct impact on the functioning 
of the productive system (ALMEIDA et al., 2006). 

Another characteristic that was relevant in 
this study was the feeding place of the calves and 
where they were kept during lactation. In the corrals 
intended for calves or the nurseries for feeding, 
there should be characteristics such as moderate 
slopes and soil with good drainage and infiltration 
of rainwater. The prevention of mud formation in 
environments frequented by dairy cows, especially 
resting areas, is essential to reduce the incidence of 
clinical and subclinical mastitis (MOTTA et al., 
2011). The infection of the mammary gland occurs 
with greater frequency and intensity when the 
animals are exposed to places with excess humidity, 
accumulations of organic matter and dirt. This 
attention needs to be redoubled when it comes to the 
environments destined to the rest of the animals 
during pre- and post-milking, aiming at reducing the 
presence of mud, soil and waste (DOMINGUES et 
al., 2008). Applied management for mastitis 
prevention is directly related to the quality of 
colostrum that will be supplied to calves. Locations 
that are excessively wet, uneven or defective may 
cause hull problems and reduce power consumption. 
In addition, regarding ownership, the time of 
ownership, size of property, area intended for 
activity, pasture area and technological levels assist 
in the diagnosis of the characteristics of the rural 
property (ALMEIDA et al., 2006) because they 
directly affect the development of activities in the 
production system, especially in the case of calves.  

Correlations were also evaluated using 
Pearson correlation (Table 3), and the significance 
of schooling was observed with the adopted feeding 
system (0.529**) and with the feeding place for the 
calves (0.378*). This correlation confirms that the 
lower levels of schooling interfere with the 
producers’ ability to understand the dietary needs of 
a calf. The producer with the highest level of 
education understood the importance of the calves 
ingesting the first colostrum in an amount of 
approximately 5% of live weight, with protein levels 

between 18 and 22% concentrations, fat between 10 
and 22% and 0.2% crude fibre, in other words, 
highly energetic to meet animal requirements 
(CAMPOS; LIZIEIRE, 2000). However, the same 
assertion was not true when it came to 
understanding the need for proper hygiene of the 
containers used for handing milk (0.286ns). The size 
of the herd did not have a significant correlation 
with any of the variables compared, confirming that 
there was no improvement in the management with 
increase of the herd on the property. The 
hygienisation of the bottles (CMMV) showed a 
positive correlation with the feeding sites (0.362*) 
and water (0.352*) for calves, indicating that some 
owners tended to be more aware of the importance 
of hygiene and feeding of calves. The calf feed 
system (CFS) was positively correlated with calf 
feeding reason (CFR-0.577**) and calf feeding 
location (CFL-0.674**), indicating that if the farmer 
adopts a correct feeding system for his calves, 
consequently he or she will make adjustments in the 
alimentary management and will be more careful 
with the place of supplying of this feeding. 
However, the reciprocal was not true for the 
location of the water supply for calves (CPSW-
0.157ns), and the concern with the water conditions 
supplied to the calves was confirmed by the positive 
correlation (CCPW-0.444**) can contribute 
significantly to the proper development of these. 
Likewise, the location of water supply and feed for 
the calves had a positive correlation with the 
conditions of the water supply, indicating the 
capacity of the producers to adopt technification, but 
particularly that which provides good results for low 
cost rearing of calves on their properties. The water 
supply is of fundamental importance for the ruminal 
development of calves, because the ruminal flora 
responsible for development through the 
fermentation of concentrate and fodder is dependent 
on water to survive (CAMPOS; LIZIEIRE, 2000).  

When correlating the characteristics of the 
herd, hygiene and food management with those 
related to the occurrence of diarrhoea (Table 4), a 
positive and significant correlation was verified only 
between the size of the herd and the time of 
occurrence (DAT-0.321*), aspect (0.414**) and 
improvement (0.341*) of cases of diarrhoea. These 
correlations may indicate that properties with higher 
numbers of animals tend to have more cases of 
diarrhoea in calves, possibly due to the greater 
number of animals, which facilitates transmission. 
However, it may represent a greater efficiency in the 
control of this disease in the herd. In addition, the 
feeding system had a negative correlation with the 
time of occurrence of diarrhoea (-0.323**), 



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Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

indicating that the more technified the feeding 
system was that had been adopted, the earlier 
diarrhoea occurred in calves, and in these situations, 
the occurrence of the disease was related to the 
inadequate use of substitutes and other foods. 
Diarrhea may be directly related to the management 
of calves, lack of care with utensil hygiene, places 

where the calves receive food and the caretaker, 
which are factors that lead to contamination. 
Another determining factor in the cause of diarrhoea 
is the lack of passive immunity, which is acquired 
by ingestion of colostrum (FERREIRA, 2017; 
PERES, 2000). 

 
Table 3. Correlations between variables related to owner education, herd, hygiene and feeding of heifers in 

dairy farms of Santana du Livramento settlements surveyed in the characterization of the breeding 
systems of calves.  

STH CMMV CFS CRF CLF CPSW CCPW 
EDU 0.087ns 0.286ns 0.529** 0.185ns 0.378* 0.221ns 0.251ns 

STH  0.041ns -0.129ns 0.166ns -0.017ns -0.027ns -0.093ns 

CMMV   0.237ns 0.184ns 0.362* 0.352* 0.266ns 

CFS    0.577** 0.674** 0.157ns 0.444** 

CFR     0.707** 0.290ns 0.533** 

CFL      0.562** 0.496** 

CPSW       0.433** 

**; *: significant at 1 and 5% probability, respectively. Education (EDU), size of the total herd (STH) cleaning management of milk 
vessels (CMMV), calf feeding system (CFS), calf feeding reason (CFR), calf feed location (CFL), calf place supply of water (CPSW) 
and calf conditions of provided water (CCPW). 
 
Table 4. Correlations between the variables related to owner education, herd, hygiene, feeding and occurrence 

of diarrhoea in heifers in dairy farms of Santana du Livramento settlements surveyed in a 
characterisation study of heifer breeding systems.  

DAT DAS DCAU DTR DIT 
EDU -0.196ns -0.122ns -0.075ns 0.002ns -0.052ns 

STH 0.321* 0.414** 0.244ns 0.238ns 0.341* 

CMMV -0.095ns 0.037ns 0.076ns 0.089ns 0.033ns 

CFS -0.323* -0.001ns 0.055ns 0.185ns 0.175ns 

CFR -0.213ns 0.084ns 0.044ns 0.288ns 0.309ns 

CFL -0.161ns 0.023ns 0.102ns 0.167ns 0.213ns 

CPSW -0.153ns -0.260ns -0.220ns -0.031ns -0.003ns 

CCPW -0.290ns -0.112ns -0.044ns 0.155ns 0.162ns 
**; *: significant at 1 and 5% probability, respectively. Education (EDU), size of the total herd (STH) cleaning management of milk 
vessels (CMMV), calf feeding system (CFS), calf feed reason (CFR), calves feed location (CFL), calf place supply of water (CPSW) 
and calf conditions provided water (CCPW) and conditions provided water for heifers (CPWH) and characteristics related to diarrhoea, 
as the time of appearance (DTA) aspects (DAS) causes (DCAU) applied treatment (DTR) and improvement time (DIT). 
 

When correlated with the characteristics of 
the occurrence of diarrhoea in the properties (Table 
5), a positive correlation was found between all the 
characteristics studied. This result is important 
because it demonstrates the concern of producers 
with this disease that causes losses and mortality in 
dairy farms, as well as the underdevelopment of 
affected and inadequately treated calves. The causes 
could be contamination in the environment where 
they are housed, the utensils with which they feed, 

the careless caretaker with contaminated hands or 
even food that may be contaminated, intoxicating 
the animal and causing diarrhoea. Some very 
common causative agents of the disease, Eimeria 
spp., rotavirus, Escherichia coli, Clostridium 
perfringens and Salmonella spp., easily cause death 
in calves (FERREIRA, 2017). The control of the 
disease mainly consists in the hygiene care of the 
places and utensils used to provide food. Hydration 
early on and changing the location, while exposure 



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Biosci. J., Uberlândia, v. 36, n. 5, p. 1687-1699, Sept./Oct. 2020 
http://dx.doi.org/10.14393/BJ-v36n5a2020-42460 

to sunlight and ventilation are very important in the 
disinfection of the house (PERES, 2000). 

 

 
Table 5. Correlations between the characteristics related to diarrhoea of heifers in dairy farms of Santana of 

Livramento settlements contemplated in a characterisation study of calf breeding systems. 
  DAS DCAU DTR DIT 
DTA 0.654** 0.754** 0.562** 0.653** 
DAS 

 
0.829** 0.545** 0.684** 

DCAU 
 

 0.722** 0.821** 

DTR     0.827** 
**; *: significant at 1 and 5% probability, respectively. Time of appearance (DTA), aspects (DAS), cause (DCAU), applied treatment 
(DTR) and improvement time (DIT). 
 

The cluster analysis allowed the formation 
of six clusters where differences between the 
significant variables for the characterisation of the 
properties were significant by the Tukey test (5%). 
The first cluster consisted of four properties, with a 
mean time of activity of 19 years. The total herd 
was 34 animals in an area of 24 hectares, with 
calves corresponding to 10% of the herd. The 
properties that make up this cluster are managed by 
young producers who are taking ownership in place 
of parents, or have left the parent’s house to take 
over their plot of land and produce, but that have 
been in activity since very young helping the family. 
While there is the technical knowledge acquired 
over time, this, however, needs adjustments to the 
current needs of milk production. In addition, 
managerial capacity needs to be developed so that 
these young farmers have the ability to properly 
manage all the resources of the property, including 
human, food, financial and herd resources.  

The second cluster consisted of 17 
properties, with average time in the activity of 15 
years, a mean total herd of 43 animals and total area 
of the property of 27 hectares, with 9.3% of the total 
herd being calves. The properties that make up the 
second cluster are conducted by better-structured 
families, and have a tradition in agricultural activity 
and milk production. The family structure and the 
tradition in the activity are reflected in better 
conditions of hygiene and feeding of the calves, 
culminating with less occurrence of diarrhoea or of 
more quickly treatable and reversible diarrhoea. The 
early treatment of diarrhoea is fundamental to 
enable recovery or the calves. This treatment should 
be accompanied by electrolyte replacement, 
soothing the dehydration thus caused (FERREIRA, 
2017). In addition, for the effectiveness of the 
treatment, it is essential to know the origin of 
diarrhoea, allowing the adoption of the most 
appropriate treatment (SIGNORETTI, 2017). 

The third cluster consisted of 12 properties, 
with average time in the activity of 12 years, total 
average of the herd of 30 animals, total area of the 
property 24 hectares, with 10% of the herd 
represented be calves. In these properties, most have 
a member who attended agricultural technician 
classes or alternatively are the women who manage 
the calves. The management of calf rearing when 
performed by a person with specific technical 
training for agriculture or of women is 
differentiated, allowing greater care with the 
hygiene of the containers and feeding of the calves 
culminating with a lower incidence of diarrhoeas 
that are also more easily reversible. This 
environment is favourable for the development of 
calves, as it reduces mortality and morbidity rates 
and allows growth at an adequate pace and the 
attainment of an age at first calving close to 26 
months. For the good performance with the 
reduction of the age of puberty, and consequently, 
the first calving, the nutrition of the calves is of 
fundamental importance, and results in the reduction 
of animals and costs in the system, since the stages 
of calves and calves do not have immediate 
financial return, thus ceasing to be a priority in the 
property, thereby reducing the production potential 
of these animals (BITTAR et al., 2016). Still, in 
these clusters, the feminine work has remarkable 
form not only in the rearing of the calves, but also in 
the domestic environment. This aspect is frequent in 
family farms as seen in other studies (FERRANTE; 
DUVAL, 2012). However, it is important, especially 
in the properties that make up this third cluster and 
that have superior results due to female labour, to 
encourage the valorisation of this, so that they do 
not occupy a lower position in the family hierarchy, 
especially due to the nature of the work they 
perform (GASPARI; KHATOUNIAN, 2016). 

 



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Table 6. Number of cases and main characteristics of the clusters formed from the analysis of main 
components for the characterisation of systems for breeding dairy heifers in the town of Santana of 
Livramento – RS. 

Cluster Number Time in the activity Total herd Number of Calves Space (ha) 
1 4 19 34 3 24 
2 17 15 43 4 27 
3 12 12 30 3 24 
4 2 13 37 3 27 
5 2 12 27 1 20 
6 1 10 75 3 45 

 
The fourth cluster consisted of two 

properties (with great representativity at work), with 
an average time in the activity of 13 years, a total 
herd of 37 animals, a total area of the property of 27 
hectares and with 10% of the herd corresponding to 
calves. These are units where the whole family 
works in the dairy activity or have other activities 
within the property, such as fairs two or three times 
a week or cereal production, but as a parallel 
activity to complement the family income, without 
neglecting the dairy productivity, which is the main 
activity. However, in the handing of the calves, 
there are many activities that involve the whole 
family. The responsibilities of people that work with 
the animals are not routine; each person has their 
own method of work, and the supply of food and 
water runs out, which causes stress to the animals 
and harms their development, which in the case of 

calves becomes irreversible. This erroneous 
management has a direct impact on the development 
of calves, since it is known that calves that are not 
properly nourished will not have a good productive 
and reproductive performance (CAMPOS; 
LIZIEIRE, 2000). In addition, when it comes to 
water supply, this determines the ruminal 
development of the calves, because the ruminal 
bacteria that ferment concentrated and voluminous, 
thus developing the rumen, are highly dependent on 
water to survive (BITTAR et al., 2009). The clusters 
formed when represented graphically (Figure 3) 
allow the observation of the distribution of the 
properties in the Cartesian plane, so that some 
approach the main component 1 and others of the 
main component 2. This indicates that in some 
properties in different groups of variables interfere 
most notably in the calf rearing system. 

 

 
 
Figure 3. Representation of the clusters formed from the analysis of main components for the characterisation 

of the breeding systems of dairy heifers of the town of Santana du Livramento-RS-Brasil.  
 



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The problems observed in previous clusters 
interfere significantly in the development of calves, 
since basic aspects in their management are 
neglected, causing mortality and underdevelopment. 
These negative points occur because it is 
fundamental to provide better and adequate 
environmental conditions of hygiene, correct 
nutritional management and control of all diseases 
that can affect animals, to maintain the health of 
each animal, allowing them to express their natural 
behaviour, genetic potential of production and 
reproduction in all phases of life, propitiating 
greater individual production, and consequently, 
longer productive useful life (MACHADO FILHO 
et al., 2010). 

Numbers represent the “cases” of the study. 
The position of each case in the graph corresponds 
to the inertia, that is, the contribution of each case to 
the formation of each of the main components (1 
and 2). 

The fifth cluster also consisted of two 
properties, with average times in the activity of 12 
years, a total average herd of 27 animals, a total area 
of the property of 20 hectares, and with 3.7% of the 
herd corresponding to heifers. The main factor that 
determined the formation of this cluster and made it 
different from the others is that they were two 
properties where only one person is responsible for 
all activities within the property. These people are 
single and/or separated and take on all household 
chores and property, which require more labour, but 
in the daily activities, they take responsibility for all 
tasks. This characteristic causes the same problem 
as in the previous clusters; besides the work 
overload, with many activities, a single person does 
not develop anything with quality, and the calves 
are left without water and food. These, when 
provided, do not obey a schedule or routine, causing 
stress to animals by hunger or thirst and routine 
disruption.  

The sixth cluster is formed by a single 
family, with 10 years in the activity, a herd of 75 
animals on 45 hectares and with 4% of the herd 
corresponding to the calves. What defines the 
formation of this property as a cluster is the 
methodology of work adopted, where there is a 
partnership between two brothers. However, one 
works in a private company, with the other being 
responsible for the two production units. Although 

the partnership models are positive, in this case, all 
agricultural activities of the two properties are the 
responsibility of only one person. This 
organisational model of production has a direct 
impact on the development of activities, productive 
indices and, therefore, their profitability 
(GASPARI; KHATOUNIAN, 2016). 

At the end of this work, it was possible to 
understand by the techniques of multivariate data 
analysis, mainly the factorial analysis in main 
components and by multiple correspondences, 
combined with the cluster analysis, the tools that 
contributed significantly to the elucidation of the 
characteristics of the properties of Santana of 
Livramento family settlements in relation to calf 
breeding (ALEIXO et al., 2007). Through this study, 
it was possible to investigate breeding systems for 
calves and to generate results that composed the 
diagnosis of the current state of the properties and 
their differences regarding the rearing of calves 
(ALEIXO et al., 2007). In the same way, the study 
and the data analysis allowed the summary of the 
variables of the study and clarified how much they 
affected the rearing of the calves (LAROS, 2005). 
Also through the cluster analysis, it was possible to 
identify the differences and the similarities between 
the properties that composed the clusters (LAROS, 
2005), thus assisting in future extension actions on 
these properties. 
 
CONCLUSIONS 
 

The variables that most affected the calf 
rearing system in dairy farms in the Santana du 
Livramento agrarian reform settlements were related 
to feeding and diarrhoea occurrences in calves. The 
40 properties studied were grouped into six clusters 
that differed, especially in relation to who was 
responsible for the management of the calves inside 
the property, regarding the infrastructure for the 
calves, time in milk production and concern 
regarding the care in the breeding of the calves.  

Based on these differences between the 
correctly identified clusters, the technicians who 
work in these properties can establish strategies to 
work with settled families, emphasising the points 
where the obstacles are known to affect the rearing 
of calves.  

 
 

RESUMO: Em assentamentos da reforma agrária há entraves na criação das bezerras, porém, não se 
conhece os principais aspectos que causam esses entraves. Assim, objetivou-se com este estudo, diagnosticar os 
principais entraves no manejo destas bezerras leiterias para direcionamento de ações de extensão. Para tal, 
foram aplicados questionários guia semiestruturados à 40 famílias de 20 assentamentos. O questionário 



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continha questões sobre as características da família, propriedade e manejo geral, alimentar e sanitário das 
bezerras. Os dados foram tabulados em Excel, transformados em variáveis e estudados por meio de análise 
multivariada de componentes principais. Após as propriedades foram agrupadas em clusters segundo a 
similaridade. As varáveis que mais afetam o sistema de criação de bezerras em propriedades leiteiras nos 
assentamentos da reforma agrária de Santana do Livramento, RS, estão relacionadas à alimentação e ocorrência 
de diarreia nas bezerras. As 40 propriedades estudadas foram agrupadas em seis clusters, que se diferiram 
especialmente em relação à com quem fica a responsabilidade pelo manejo das bezerras dentro da propriedade, 
quanto à infraestrutura destinada às bezerras, tempo na produção de leite e preocupação em relação aos 
cuidados na criação das bezerras. Com base nestas diferenças existentes entre os clusters e corretamente 
identificadas, os técnicos que atuam nestas propriedades poderão estabelecer estratégias para trabalhar com as 
famílias assentadas, enfatizando os pontos onde sabidamente estão os entraves para deslanchar a criação das 
bezerras que irão substituir as matrizes leiteiras. 

 
PALAVRAS-CHAVE: Aleitamento. Bovinos leiteiros. Nutrição animal. 

 
 
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