108 Synchronization and artificial insemination of South African communal cattle

T. L. Magopa; M. L. Mphaphathi; T. Mulaudzi; F. V. Ramukhithi; M. M. Tshabalala; Z. C. Raphalalani; M. D. Sebopela; N. Nkadimeng; S. M. Sithole; T. L. Nedambale

doi:10.1071/RDv33n2Ab108

RESEARCH ARTICLE

108 Synchronization and artificial insemination of South African communal cattle

T. L. Magopa ^A ^D , M. L. Mphaphathi ^A ^C , T. Mulaudzi ^D , F. V. Ramukhithi ^A , M. M. Tshabalala ^A ^B , Z. C. Raphalalani ^A ^B , M. D. Sebopela ^A , N. Nkadimeng ^A , S. M. Sithole ^A and T. L. Nedambale ^A ^B

+ Author Affiliations

- Author Affiliations

^A Agricultural Research Council, Animal Production, Germplasm Conservation & Reproduction Biotechnologies, Irene, South Africa;

^B Department of Animal Sciences, Faculty of Science, Tshwane University of Technology, Pretoria, South Africa;

^C Department of Animal, Wildlife and Grassland Sciences, University of the Free State, Bloemfontein, South Africa;

^D Department of Agriculture and Animal Health, University of South Africa, Johannesburg, South Africa

Reproduction, Fertility and Development 33(2) 161-161 https://doi.org/10.1071/RDv33n2Ab108
Published: 8 January 2021

Abstract

The present study aimed to evaluate an oestrous synchronization protocol and oestrus response before AI in cows from an organised communal production system. A total of 74 cows Bos indicus (Brahman) and Bos taurus/indicus hybrid (Nguni) type from different communal farmers were screened based on: age (3 to 8 years), body condition score of ≥3 (1–5 scale), not pregnant (excluding heifers), 90 days postpartum, number of parities, good mothering ability, and negative for contagious abortion. Selected cows were subjected to a 9-day OvSynch + CIDR protocol. In brief, the protocol included the insertion of controlled intravaginal drug release (CIDR^®, Pfizer Laboratories) devices in the reproductive tract (vagina) containing 1.9 g of progesterone in each cow on Day 0 with first oestradiol benzoate (Oestradiol benzoate®, VTech) 2-mL intramuscular (IM) injection. Pregnant mare serum gonadotrophin (PMSG; Chronogest®, Intervet International B.V.) 2.5-mL (IM) injection on Day 5. Removal of CIDR and (IM) injection of prostaglandin F2α (PGF_2α; Estrumate®, Intervet South Africa (Pty.) Ltd.) 2 mL on Day 8. Following CIDR removal, a heat mount detector (Kamar®) was applied on the individual cow’s tail head for oestrus observation (signs of heat) with second oestradiol benzoate 1-mL (IM) injection on Day 9. AI was performed 36 h following withdrawal of the CIDR. Frozen/thawed semen from Bonsmara bulls (n = 2) of known and proven fertility was used for AI. The GameteTek Cryo-Mobile laboratory was used during thawing of semen straws. and sperm motility and morphological traits were immediately evaluated by computer-assisted sperm analysis (Sperm Class Analyzer®) before each individual cow was inseminated. Pregnancy diagnosis was performed 90 days after timed AI by ultrasound and transrectal palpation. Data were analysed using the logistic regression procedure of SAS (SAS Institute Inc.), with synchronisation response and conception being treated as binary response variables. All cows were synchronized successfully and an oestrus response rate of 100% was recorded. Pregnancy rates were similar (37.8% vs. 38.9%) for both Bos indicus and Bos taurus/indicus hybrid cattle. Bulls total sperm motility of ≥75% were recorded, following thawing of semen straws. Thus, there was no effect of bull on pregnancy. In conclusion, acceptable oestrus synchronization response was achieved in this communal setup. Superior genetic materials can be successfully introduced through assisted reproductive technologies in organised communal production systems.