The objective of the study was to determine pre-weaning performance of piglets born following artificial insemination (AI) at smallholder farms of Gauteng province. Data from 496 piglets originating from 73 multiparous crossbred sows were used in the study. Litter size, number of piglets born alive, number of piglets weaned, birth and weaning weights were recorded. Data was analysed using the Proc Univariate procedure of SAS. The average litter size was 11.8. The average birth weight and weaning weights were 1.9 and 6.2 kg, respectively. No significant differences were found between male and female piglets for all the growth performance characteristics. Piglets born during winter had a significantly higher (P < 0.05) birth and weaning weight as compared to autumn and summer months. Season had a significant effect on birth and weaning weight (P < 0.01). However, sex of piglets had no significant effect on all the characteristics recorded (P > 0.05). The interaction between sex and season was only confirmed on the total number of weaned piglets (P < 0.01). A highly significant positive correlation was found between litter size and number of piglets born alive (r = 0.86) and total number of piglets weaned (r = 0.50). A highly significant correlation was found between total number of piglets born alive and total number of piglets weaned (r = 0.55). In conclusion, season of birth had the greatest impact on birth and weaning weight, with the highest birth and weaning weights recorded during winter season. However, sex did not affect the pre-weaning performance of piglets.
Sperm quality plays an important role in determining fertility. The aim of the study was to examine the relationship between sperm plasma membrane integrity and morphology, and fertility following artificial insemination (AI). A total of 16 ejaculates were collected from three Large White boars using the gloved hand technique. The semen was extended with a commercial extender. The AI dose contained 80 mL semen sample (3 × 10 9 sperm/mL). Aliquots of diluted semen were assessed for sperm plasma membrane integrity (synthetic binding CD-14 (SYBR + )/propidium iodide (PI -) and sperm morphology (eosin nigrosin). A total of 73 Duroc-type, Large White and nondescript multiparous sows from smallholder farms were inseminated with extended semen samples. Boar sperm plasma membrane integrity and morphology were subjected to one-way analysis of variance (ANOVA). The average boar sperm plasma membrane integrity and normal sperm morphology were 78.6% and 77.2%, respectively. The average conception and farrowing rates following artificial insemination (AI) were 78.1 and 57.5%, respectively. A negative correlation was observed between sperm plasma membrane integrity and fertility. There was a weak positive correlation between normal sperm morphology and conception rate (r = 0.11). Additionally, a relationship was observed between normal sperm morphology and litter size (r = 0.37) and total number born alive (r = 0.03), although relatively low. In conclusion, a negative relationship was found between sperm plasma membrane integrity and fertility. Moreover, there was a relationship between morphologically normal sperm and litter size, as well as number of piglets born alive, although relatively low. ___________________________________________________________________________________ Keywords: Boar, Eosin Nigrosin, Semen quality, SYBR14/PI # Corresponding author: NedambaleTL@tut.ac.zaImproving the qualitative and quantitative analysis of boar semen samples to estimate fertility potential of males is critical for a successful breeding programme. Although much progress has been made, the ability to predict the fertility of semen with traditional laboratory tests is still limited, owing mainly to the complexity of sperm morphological damage and their fertilization potential (Brito et al., 2003). In addition, the prediction of sperm fertilizing ability is of great economic importance to breeding of sows as it leads to the selection of boars with better semen fertility, which results in good reproductive performance. Semen fertility trait assessments play a crucial role in the early detection of developmental disorders in male animals (Smital et al., 2004). As well as traditional methods of semen assessment, biochemical tests and morphological analyses of sperm are performed. Disturbances in spermatogenesis give rise to morphological sperm defects (Kavak et al., 2004). Moreover, recent studies have indicated a correlation between normal morphological
The Kolbroek pig is an early maturing breed (maturing at 4 to 5 months) that grows more slowly than modern pig breeds. There is general concern that the genetic variation within Kolbroek pig breed is becoming extinct. The aim of the study was to compare semen quality of epididymal spermatozoa derived from slaughtered Large White × Landrace and Kolbroek boars aged between 7 and 9 months. Kolbroek (n = 10) and Large White × Landrace (n = 10) boars were used in this study. Semen was collected from the head of epididymis of Kolbroek and Large White × Landrace testicles. Spermatozoa samples were extracted from head of epididymis by making incision with a razor. Semen samples were then evaluated for macroscopic (semen volume, pH, and concentration) and microscopic characteristics (spermatozoa motility and morphology). Spermatozoa motility was evaluated using computer-aided sperm analysis. Analysis of variance was used to test the difference between the breeds. The average percentage of Kolbroek and Large White × Landrace spermatozoa total motility was 92.4 ± 4.0 and 94.0 ± 4.1%, respectively (P > 0.05). The spermatozoa velocity on the curve line for Kolbroek was lower (147.2 ± 39.2) compared with the Large White × Landrace (178.3 ± 30.1 μm/s; P > 0.05). However, no significant difference was observed between the 2 breeds for rapid spermatozoa and total spermatozoa motility. No significant differences were observed in Kolbroek and Large White × Landrace boar semen volume (8 and 9 mL, respectively) or semen pH (7.0). The average spermatozoa concentration for Kolbroek and Large White × Landrace was 2.5 ± 1.2 and 1.1 ± 1.0 (×109 mL−1), respectively (P > 0.05). There were no significant differences between Kolbroek and Large White × Landrace in abnormal spermatozoa morphology. However, spermatozoa with distal, head, and midpiece abnormalities were significantly different in Kolbroek (14.0 ± 3.6; 3.6 ± 6.0 and 3.4 ± 3.7%) and Large White × Landrace breed (5.4 ± 4.7; 4.7 ± 1.0 and 0.4 ± 1.0%), respectively. In conclusion, macroscopic and microscopic epididymal spermatozoa characteristics of Kolbroek were similar to those of Large White × Landrace boars, except for head and distal spermatozoa abnormalities.
Reproductive traits in domestic pigs are one of the most important economic characteristics for improved pig production. Seminal plasma (SP) constituents provide a better indicator of male fertility as measured by semen traits. The objective of this study was to compare spermatozoa traits, testosterone concentration, SP constituents, and lipid peroxidation in Large White×Landrace (LW×LR) and Kolbroek boars aged between 8 and 9 months. Kolbroek (n=12) and LW×LR (n=12) boars were used in this study. Semen was collected using the gloved-hand technique. Blood samples were collected from each boar monthly to determine testosterone concentrations. Spermatozoa motility traits was evaluated using computer-aided sperm analysis. Spermatozoa viability was evaluated using the hyperosmotic swelling test, lipid peroxidation was evaluated using the malondialdehyde (MDA) test, and SP protein was evaluated using atomic absorption spectrophotometric analysis. Analysis of variance was used to test the difference between the breeds. The LW×LR boars had higher ejaculation volume and testosterone concentrations (P<0.05) than Kolbroek boars. The average spermatozoa concentration for Kolbroek and LW×LR boars was 1.8±1.0 and 1.9±1.1×109mL−1, respectively (P>0.05). The average genotype spermatozoa total motility was 91.7±4.0 and 90.6±4.1%, respectively (P>0.05). No significant differences were found between genotype in abnormal spermatozoa morphology, rapid spermatozoa, and total spermatozoa motility, spermatozoa velocity on the curve line, and hyperosmotic swelling test. Spermatozoa with distal, head, and midpiece abnormalities were significantly different in Kolbroek boars (17.1±1.4, 5.0±2.0, and 7.0±2.6%, respectively) and LW×LR boars (9.2±0.1, 3.5±1.1, and 2.6±1.2%, respectively). The LW×LR boars had lower levels of MDA than Kolbroek boars (P<0.05). The SP constituents with selenium, sodium, magnesium, and calcium were significantly different in Kolbroek boars (166.6±1.0, 167.2±0.2, 5.0±0.8, and 10.2±0.3%, respectively) and LW×LR boars (155.0±0.0, 140.0±0.5, 12.0±0.2, and 22.3±0.0%, respectively). In conclusion, spermatozoa parameters of Kolbroek boars were similar to those of LW×LR boars except for semen volume, head and distal spermatozoa abnormalities, testosterone concentration, MDA, and seminal plasma. Further studies need to be conducted on the major seminal plasma constituents as well as their physiological roles.
Kolbroek pigs have numerous advantages as an indigenous breed including its contributions to food security. However, there are numerous concerns over the current feed regime that compromises its growth performance and carcass quality. Therefore, this study was conducted to evaluate the growth performance traits, attainment of puberty, backfat thickness (BFT), and carcass traits when boar fed diets supplemented with 10% (standard diet), 13% and 16% crude protein. Fifteen pigs per protein diets were individually housed and fed ad-libitum for eight weeks in a complete randomised design. Average daily gain (ADG), average daily feed intake (ADFI) and feed conversion ratio (FCR) were measured on a weekly basis. At the end of the trial, all boars were slaughtered and carcass quality parameters measured. Pearson's correlation coefficients were calculated between growth performance parameters. Our data revealed that there was an increase in final body weight, ADG, ADFI accompanied by decreases in BFT and the age of attainment of puberty. There was also a positive correlation between ADFI and ADG (r = 0.78) accompanied by a low positive correlation between ADG and BFT (r = 0.12) with a high negative correlation between FCR and ADG (r = −0.94). The water holding capacity (WHC), dressing percentage and marbling mass appeared to decrease while the eye muscle area increased with protein supplementation of the diet. There were also increases in the lungs, liver, small plus large intestines and stomach with no changes in the pancreas and heart How to cite this paper:
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