4.1. Calf Performance
In the present study, T+C did not affect DMI, body weight, weaning weight, average daily gain and feed conversion ratio. Few studies [
12,
19,
20,
21,
22,
23] have been investigated the effects of cinnamaldehyde and thymol on feed intake, average weight gain, milk production and compositon of dairy cows. Similarly, they found no differences in dry matter intake with the diet supplemented T+C.
However, Wall et al. [
3] reported an increase in DMI when a cinnamaldehyde/eugenol based encapsulated product was given at 350 mg/day in dairy cows, but a decrease in DMI was observed when the product was given at 600 mg/day. Cinnamaldehyde decreased somewhat with acetate/propionate cuts, either by increasing propionate, decreasing acetate, or both, depending on the fraction [
24], which may partly explain the detailed results discussed here. The increase in propionate may act as an energetic signal that decreases DMI [
25], but this theory awaits confirmation in lactating dairy cows where cinnamaldehyde is made.
The increased average daily gains detected by the available information are covered by previous studies [
26,
27]. The positive effect on ADG was recorded in female and male calves. Asghari et al. reported greater average daily gains in calves fed a starter diet supplemented with 300 mg/day of an organic oil mixture consisting of Thymus kotschyanus, Lavandula angustifolia, Salvia officinalis and Capparis spinosa, with the highest daily gain recorded 42 days after feeding organic oils [
27] . Cruz et al. reported that in 40 female calves to which phytogenic feed additives were applied, despite a difference in biochemical blood output, blood urea nitrogen was depleted, weaning live weight and feed utilization rate were increased, and there was no difference in diarrhea cases [
28] . Tepe at al. observed that although the growth performance of calves fed a commercial herbal mixture was better at 0–35 days [
18], The effect of essential oils on the main pathway of growth of suckling calves would have antimicrobial, antioxidant or anti-inflammatory effects [
14]. Thus, the change in growth performance may be due to the time required for new fats to affect growth performance or health problems that may arise at different stages of production.
The female calves in our study continued to grow in a statistically different way between weaning weight and the other experimental calves. When weaning interval and dry matter intake were weakly linked to the fit economic ranges, higher weaning live weight of breeding calves was weakly linked to IGF-1 activation.
4.2. Diarrhea Cases
Essential oil, as well as carvacrol and thymol, having antimicrobial properties, act by disrupting the bacterial cell membrane, which further affects pH homeostasis and equilibrium of inorganic ions, leading to release of membrane-associated material from the cells to the external medium [
29,
30]. Thymol and cinnamic aldehyde treatments were no significant differences were identified compared with the control group in our study. Reliance on treatment protocols and decision making by on-farm personnel using a more liberal therapeutic approach may have posed an issue, although it is possible that with a higher power, a difference in T+C treatments between treatment groups may have been detected. A larger sample size of animals may have offset the limitations posed by lack of protocol adherence, thus enhancing the differences between treatment groups and T+C usage. Although some studies claim that thyme use has no effect against diarrhea [
31,
32], found that thyme application reduces the coliform count in stool. The needed studies include the investigation of the activity of different supplementation levels of Thymol and cinnamic aldehyde and their efficacy against diarrhea.
The relationship between phytobiotic (phytogenic) compounds and diarrhea in calves has been a topic of considerable interest in recent years. Phytogenic compounds (e.g.,: cinnamaldehyde, thymol, carvacrol, eugenol, etc.) can significantly reduce the incidence of diarrhea by supporting intestinal health and natural additives of plant origin.
Phytogenic compounds can reduce the frequency and severity of diarrhea in calves thanks to their antimicrobial, anti-inflammatory and digestive support properties.
Nora et al. [
33], observed in their study that when T+C was given with milk, diarrhea cases in the experimental group decreased from 30% to 10%. These results are parallel to our study.
Azizabadi et al. [
34], in their study with herbal volatile compounds, observed that diarrhea cases were 60% in the control group and 20% in the treatment group from weaning to weaning, and also found that ADG was higher in calves in the treatment group.
When we evaluate our study results, although there is no statistical difference between the groups, we see that the treatment group had shorter treatment times for diarrhea cases, and more calves with a score of ≤ 1 were observed. This suggests that its use in semi-intensive, extensive, and newly established dairy farms, rather than in fully equipped, full-time dairy farms, will be reflected in the reduction of diarrhea cases in calves and the shortening of treatment times, which will improve calves’ future productivity.
4.3. Calf Blood Values
Dietary supplementation of male and female cows with T+C decreased cholesterol concentrations (mg/dl), while AST (Ul/l) levels increased. No effect of the T+C application on GGT (Ul/l, glucose (mg/dl), Ca(mg/dl), Mg(mg/dl), TP (g/dl) and ALB (g/dl)was found. Thymol and cinnamic aldehyde application increased phosphorus levels in the blood of male cows, but had no effect on BUN levels. In contrast, it had no effect on phosphorus levels in the blood of female cows, but increased BUN levels.
While it was reported that [
20] the use of thyme and cinnamon essential oils in the feeding of calves had no effect on blood values, [
35] reported that thyme and garlic reduced blood serum total cholesterol levels.
Blood concentrations of liver enzymes such as AST and GGT are indicators of liver function and its tissue integrity. Elevated levels of these enzymes in the blood indicate damage to liver cells by trauma, inflamation, or cell wall lipid oxidation [
27]. GGT is an enzyme and biochemical parameter used to evaluate liver function and biliary tract status. GGT levels in newborn calves are closely related to colostrum intake. Colostrum contains high amounts of GGT and this enzyme increases in the calf’s bloodstream with colostrum consumption. Therefore, high GGT levels in the first days after birth are considered an indicator of adequate colostrum intake. Over time, as colostrum consumption decreases and the liver matures, GGT levels decrease and reach a normal balance [
36]. At the end of the weaning period, AST levels of male cows treated with T+C decreased, while GGT levels of female cows decreased.
Glucose did not change during the pre-weaning phase (
Table 4) and decreased during the post-weaning period on female and male calves (
Table 5). Taking into account that calves use glucose as a primary source of energy in the firsts weeks of age, these age-related changes are associated with changes in diet and rumen development [
37]. T+C application increased glucose levels in female calves during the weaning period. More research is needed on this topic as essential oils can increase insulin sensitivity [
26].
In the first days after birth, the high bioavailability of phosphorus through colostrum supports blood phosphorus levels [
38]. Initially low levels of estrogen and testosterone hormones begin to change over time, and these hormones may have indirect effects on the transport and storage of phosphorus in bones [
36]. Male calves generally grow faster than females [
38]. Therefore, male calves may need more phosphorus for bone development. In this study, T+C administration increased phosphorus levels in male cows at the end of the weaning period.
Tekippe et al. reported increased ruminal ammonia-N and BUN concentration in dairy cows supplemented with 500 g of oregano leave [
13] s. The higher BUN concentrations in female calves fed T+C supplementation might be due to the higher rates of protein degradation as a result of the higher protein intake and probably their better ruminal functioning. Hristov et al., Cinnamaldehyde was given to young ruminants and found a significant decrease in blood BUN levels [
39].
In their study conducted in Vakili et al., found that the addition of natural essential oils, in parallel with our study, did not have a significant difference in calf live weight gain, feed consumption and feed utilization amounts, and it did not affect the growth of calves negatively or positively, and there was no difference in glucose, triglyceride, cholesterol, blood urea nitrogen (BUN), ALT and AST values [
20].
This suggests that flowers such as Thymol, cinnamaldehyde and carvacrol, as in our study, can inhibit proteolytic bacteria in the rumen and in this case reduce excess nitrogen release in the rumen. It can reduce rumen protein degradation (deamination) with reduced ammonia production, less urea is synthesized in the liver and a decrease in serum urea levels may occur as a result of this. nitrogen use efficiency is increased.